cord blood collection kit | cord blood advantages

Donating cord blood to a public cord blood bank involves talking with your doctor or midwife about your decision to donate and then calling a cord blood bank (if donation can be done at your hospital). Upon arriving at the hospital, tell the labor and delivery nurse that you are donating umbilical cord blood.
Donors to public banks must be screened for blood or immune system disorders or other problems. With a cord blood donation, the mother’s blood is tested for genetic disorders and infections, and the cord blood also is tested after it is collected. Once it arrives at the blood bank, the cord blood is “typed.” It is tracked by a computer so that it can be found quickly for any person who matches when needed.
The benefits for low risk families with no known history or immune or blood disorders are not clear. Unless you have a family member with a medical condition that might be helped by a stem-cell transplant, associations such as the American Academy of Pediatrics (AAP) advise against cord blood storage in private bank facilities, because of the cost.
It varies. Cord blood banking can be free, or it can cost a few thousand dollars or more. How much you pay will depend on several different factors, like whether your insurance covers the collection process, whether your doctor or midwife charges a collection fee, whether you opt for a public storage bank (which is free) or private storage bank (which can cost a couple thousand dollars or more), or whether there is an existing family medical need (in which case some private banks offer free or discounted storage).
Genes: Segments of DNA that contain instructions for the development of a person’s physical traits and control of the processes in the body. They are the basic units of heredity and can be passed down from parent to offspring.
The majority of programs that accept cord blood donations require the mother to sign up in advance. In the united States, the current requirement is to sign up by the 34th week of pregnancy. This cannot be over-stressed; time and time again, mothers who want to donate are turned away because they did not inquire about donation until it was too late.
The process used to collect cord blood is simple and painless. After the baby is born, the umbilical cord is cut and clamped. Blood is drawn from the cord with a needle that has a bag attached. The process takes about 10 minutes.
Cord tissue is rich in another type of stem cell. Although there are no current uses, researchers are excited about the benefits cord tissue stem cells may offer in potential future users, such as regenerative medicine. By storing both, you’ll have potential access to more possibilities
Cord blood is a source of adult stem cells similar to those contained in bone marrow. Cord blood stem cells are collected after the birth of a healthy infant, and pose no risk to the donating mother or baby. Therefore, there are no ethical issues or controversy connected with the use of these cells. This differs from controversial embryonic stem cells that require the destruction of an embryo in order to be used for research.
The decision to bank your child’s cord blood is a personal one. Some parents believe the potential benefits are too few to justify the cost, or lose the advantages of delayed cord clamping; others believe it’s a worthwhile investment.
As noted, there are different ways to process cord blood, and although the type of processing method doesn’t always enter the conversation on cord blood banking, it is a big part of the purity of any cord blood collection. Red blood cells can have a negative impact on a cord blood transfusion. In addition, there is a certain number of stem cells that need to be present in order for the cord blood to be effective in disease treatment. Each processing method has the ability to better reduce the number of RBCs and capture more stem cells. Some processing methods like AutoXpress and Sepax are automated to ensure a level of consistency across all collections. HES is preferred by some banks because it was the original processing method used by most banks and it has a proven track record. You can read more about the different cord blood processing methods here.
Cord blood banking means preserving the newborn stem cells found in the blood of the umbilical cord and the placenta. After a baby is born, and even after delayed cord clamping, there is blood remaining in the umbilical cord and placenta that holds valuable newborn stem cells. Parents have a choice between donating cord blood to a public bank for free, or paying to store it for their family in a private bank. Cord blood banking includes the whole process from collection through storage of newborn stem cells for future medical purposes.
Cord blood transplants have become much more successful since the early 2000s. Clinicians have learned how to match people better to stored cord blood. Dosing for cord blood has become more reliable. Better care for patients going through a cord blood transplant has been improved. All of those benefits become even better if the patient is able to use their own cord blood that has been properly stored.
Cord blood contains mesenchymal stem cells but is much more abundant in hematopoietic stem cells. Cord tissue, on the other hand, contains some hematopoietic stem cells but is much richer in mesenchymal stem cells. Cord tissue, or Wharton’s jelly, is the protective layer that covers the umbilical cord’s vein and other vessels. Its MSCs can become a host of cells including those found in the nervous system, sensory organs, circulatory tissues, skin, bone, cartilage, and more. MSCs are currently undergoing clinical trials for sports injuries, heart and kidney disease, ALS, wound healing and autoimmune disease. As with cord blood, cord tissue is easily collected at the type of birth and holds great potential in regenerative medicine. Learn more about cord tissue banking here.
As most parents would like to bank their babies’ cord blood to help safeguard their families, it is often the cost of cord blood banking that is the one reason why they do not. Most cord blood banks have an upfront fee for collecting, processing and cryo-preserving the cord blood that runs between $1,000 and $2,000. This upfront fee often also includes the price of the kit provided to collect and safely transport the cord blood, the medical courier service used to expedite the kit’s safe shipment, the testing of the mother’s blood for any infectious diseases, the testing of the baby’s blood for any contamination, and the cost of the first full year of storage. There is then often a yearly fee on the baby’s birthday for continued storage that runs around $100 to $200 a year.
Cord blood is collected by your obstetrician or the staff at the hospital where you give birth. Not all hospitals offer this service. Some charge a separate fee that may or may not be covered by insurance.
Cord blood banks are very expensive. Family private cord blood bank companies charge between $1,300 – $3,000 plus an annual fee of about $90 – $175. As an example, Cord Blood Registry requires a one-time payment of $1,650. After the first year, they charge an annual fee of $150/year. Viacord’s starting price is $1,750 for the first year and a $175 annual fee.
The American Academy of Pediatrics (AAP) recommends families choose to donate their cord blood to public banks in most cases. Private banking should be considered for family use where there is a full sibling in the family with a condition that could potentially benefit from a transplant as siblings have a 25% chance of being a match.
At Cryo-Cell, we strive to give all parents the chance to store their babies’ umbilical cord blood for the future health of their families. We offer special discounts and offers for multiple births, returning customers, referrals, military families, medical professionals, long-term, pre-paid storage plans and more. In addition, we have in-house financing options that start for as little as a few dollars a day to keep cord blood banking in everyone’s reach. See how much cord blood banking costs at Cryo-Cell here.
With public cord blood banks, there’s a greater chance that your cord blood will be put to use because it could be given to any child or adult in need, says William T. Shearer, M.D., Ph.D., professor of Pediatrics and Immunology at Baylor College of Medicine in Houston. Cord blood is donated and is put on a national registry, to be made available for any transplant patient. So if your child should need the cord blood later in life, there’s no guarantee you would be able to get it back.
There are around 20 companies in the United States offering public cord blood banking and 34 companies offering private (or family) cord blood banking. Public cord blood banking is completely free (collecting, testing, processing, and storing), but private cord blood banking costs between $1,400 and $2,300 for collecting, testing, and registering, plus between $95 and $125 per year for storing. Both public and private cord blood banks require moms to be tested for various infections (like hepatitis and HIV).
*Fee schedule subject to change without notice. If a client has received a kit and discontinues services prior to collection, there is no cancelation fee if the kit is returned unused within two weeks from cancelation notice; otherwise, a $150 kit replacement fee will be assessed. †Additional courier service fee applies for Alaska, Hawai’i and Puerto Rico. ††Applies to one-year plan and promotional plan only. After the first year, an annual storage fee will apply. Cryo-Cell guarantees to match any written offer for product determined to be similar at Cryo-Cell’s sole discretion. ** Promotional Plan cannot be combined with any other promotional offers, coupons or financing.
You certainly should, especially if you have a family history of any diseases or conditions that could be treated with cord blood stem cells. Since there is only a 25% chance of a match, you should bank the cord blood of each individual child if you have the means.





If a sibling of a child whose cord blood you banked needs a transplant, then your chances of a match will be far higher than turning to the public. However, the safest bet is to bank the cord blood of all your children, safeguarding them against a number of diseases and ensuring a genetic match if necessary.
Most of the diseases on the proven treatment list are inherited genetic diseases. Typically, these treatments require a donor transplant, as from a sibling. In fact, research shows that treatments using cord blood from a family member are about twice as successful as treatments using cord blood from a non-relative.9a, 17 To date, over 400 ViaCord families have used their cord blood 56% were for transplant.1
The stored blood can’t always be used, even if the person develops a disease later on, because if the disease was caused by a genetic mutation, it would also be in the stem cells. Current research says the stored blood may only be useful for 15 years.
When all the processing and testing is complete, the cord blood stem cells are frozen in cryogenic nitrogen freezers at -196° C until they are requested for patient therapy. Public banks are required to complete the entire laboratory processing and freeze the cord blood stem cells within 48 hours of collection. This is to insure the highest level of stem cell viability. The accreditation agencies allow family banks a window of 72 hours.
What stroller should I register for? How will I find a good pediatrician? And will I ever settle on color for the nursery? There are so many things to think about before your baby is born. But here’s one more decision you might want to consider: whether to bank your baby’s cord blood.

what does cord blood do | cord use cord blood

If a family is looking to store their baby’s blood, there is a high possibility that the blood won’t be a match for the occurring condition. In that event, the family would have to seek out a donor for a disease that is not successfully treatable by their stored cord blood. Unfortunately for these families, they are investing in a possibility. Many believe this is unethical.
These are diseases for which transplants of blood-forming stem cells (Hematopoietic Stem Cell Transplants, HSCT) are a standard treatment. For some diseases they are the only therapy, and in other diseases they are only employed when front-line therapies have failed or the disease is very aggressive. The lists below include ALL therapies that use blood-forming stem cells, without distinction as to whether the stem cells were extracted from bone marrow, peripheral blood, or cord blood.
There are several cord blood banks that are accredited by the American Association of Blood Banks. Most offer information on cord blood banking and provide private cord blood banking services. With a little research, you should be able to locate a credible cord blood bank online.
Tissue typed and listed on the registry of the C.W. Bill Young Cell Transplantation Program, also called the Be The Match Registry®. (The registry is a listing of potential marrow donors and donated cord blood units. When a patient needs a transplant, the registry is searched to find a matching marrow donor or cord blood unit.)
The mother signs an informed consent which gives a “public” cord blood bank permission to collect the cord blood after birth and to list it on a database that can be searched by doctors on behalf of patients.  The cord blood is listed purely by its genetic type, with no information about the identity of the donor. In the United States, Be The Match maintains a national network of public cord blood banks and registered cord blood donations. However, all the donation registries around the world cooperate with each other, so that a patient who one day benefits from your child’s cord blood may come from anywhere. It is truly a gift to the benefit of humankind.
Generally not. The reason siblings are more likely to match is because they get half of their HLA markers from each parent. Based on the way parents pass on genes, there is a 25 percent chance that two siblings will be a whole match, a 50 percent chance they will be a half match, and a 25 percent chance that they will not be a match at all. It is very rare for a parent to be a match with their own child, and even more rare for a grandparent to be a match.
One of the questions that all new mothers are asked during their pregnancy is if they wish to bank their cord blood after the delivery. The cord blood has stem cells within it, which in the ever-evolving field of medicine today allows for improved transplants, immune systems, and injury recovery… but they could also be used to save your child’s life one day. At birth, these stem cells are unique, smart, and extremely flexible and at this very moment are being used to treat over 80 diseases.
There are so many things to think about when you have a child. One of them is the blood from your baby’s umbilical cord (which connects the baby to the mother while in the womb). It used to be thrown away at birth, but now, many parents store the blood for the future health of their child. Should you do it?
There are a number of different processing methods out there for a cord blood bank to use, and the processing method can ultimately affect the purity of the final product, which we’ll explain in a minute. Once the stem and immune system cells have been isolated and extracted from the plasma and red blood cell, they are mixed with a cryo-protectant and stored in a cryo-bag. We overwrap our bags for added protection and use a technique called “controlled-rate freezing” to prepare the cells for long-term storage. The overwrapped cryo-bag is housed in a protective metal cassette and placed in vapor-phase liquid nitrogen freezer for long-term preservation.
First, a little history. The first transplant took place in 1988 with a 5-year-old in Paris who was diagnosed with severe aplastic anemia. Post-treatment, the patient exhibits no signs of the disease and is now healthy over 25 years later.
For families that may not be able to afford private cord blood banking, there are some financial aid options that are available. Certain charitable organizations work with the more than 25 certified private blood banks to subsidize the initial collection cost, shipping costs, and storage fees that are necessary. Although some families may still not be able to afford private banking, even with financial aid, there are opportunities for more families to store cord blood now more than ever before.
When parents donate cord blood to a public bank, they are supporting patients around the world who are searching for an unrelated Allogeneic donor. When parents save cord blood in a family bank, they are reserving the options that the baby can use its own stem cells for an Autologous treatment, or an immediate relative (sibling or parents) can use the stem cells for an Allogeneic treatment.
There are around 30 private banks in the U.S. too. If you decide to opt for private storage, you should choose a cord blood bank that’s registered with the Food and Drug Administration (FDA) and accredited by the American Association of Blood Banks (AABB). AABB accreditation is the gold standard in cord blood banking, ensuring that your baby’s cord blood is collected, stored, processed and distributed safely and effectively.
## Payment Plan Disclosures for in-house CBR 12-Month Plan (interest free) – No credit check required. The 12-month plan requires a $15/month administrative fee. The plans may be prepaid in full at any time.
The long-term effects of delayed cord clamping protect your baby from jaundice and iron deficiency anemia well into adolescence. Iron deficiency can result in lower immunity, lower intelligence, and poor gross motor development.
In Europe and other parts of the world, cord blood banking is more often referred to as stem cell banking. As banking cord blood is designed more to collect the blood-forming stem cells and not the actual blood cells themselves, this term may be more appropriate.
That said, cord blood banking is a very personal decision and only one you and your family, with the help of your practitioner, can make. As long as you educate yourself with all the facts and plan far enough in advance, you’ll make the call that’s right for you.
If someone doesn’t have cord blood stored, they will have to rely on stem cells from another source. For that, we can go back to the history of cord blood, which really begins with bone marrow. Bone marrow contains similar although less effective and possibly tainted versions of the same stem cells abundant in cord blood. Scientists performed the first bone marrow stem cell transplant in 1956 between identical twins. It resulted in the complete remission of the one twin’s leukemia.
Keep in mind that it’s still very unlikely your child will ever tap into her own saved cord blood later in life (the odds are 1 in 2,700 to 1 in 20,000 by some estimates). In fact, a baby’s own cord blood cells may be unsuitable to treat any condition that appears down the road because the mutations responsible for that disorder are typically present at birth. What’s more, the chances that you’ll be able to use your baby’s donated cord blood to treat an adult family member are also low. That’s because most stored units of cord blood don’t contain enough stem cells to treat anyone weighing more than 90 pounds. Donating your baby’s cord blood to a public bank does widen the scope of those in need who could benefit.
For example, your child could develop a genetic medical condition for which the blood stored would no longer be useful. In these types of cases, families who paid to store cord blood were at a major disadvantage. Once their child developed an immune deficiency disease, they had to pay out of pocket for donated cord blood on top of the fees they paid storing the cord blood they can’t even use.
Cord blood is easier to match than blood stem cells from other parts of the body. Cells from cord blood are also less mature than cells from an adult’s bone marrow, so the recipient’s body is less likely to reject them.
Dennis Michael Todd, PhD, joined Community Blood Services as its President and CEO in 2000. Community Blood Services operates the NJ Cord Blood Bank and The HLA Registry bone marrow donor center, both of which are affiliated with the National Marrow Donor Program (NMDP). In 2012, the blood center expects to distribute over 85,000 units of red cells and 20,000 platelets to hospitals and medical centers throughout northern NJ and Orange County, NY. Dr. Todd is presently a member of the NMDP Executive Committee and Chairman of the Finance Committee. He is a member of the International Society for Cellular Therapy (ISCT), the International Society for Stem Cell Research (ISSCR), the AABB, the American Association of Bioanalysts, and the New Jersey Society of Blood Bank Professionals.
Cord blood contains all the same components as normal blood, including red blood cells, white blood cells, platelets and plasma. What makes it special is that it’s also rich in hematopoietic stem cells — special blood-forming stem cells that are similar to those found in bone marrow. These cells can be used to treat many types of diseases.
The key benefit of cord blood banking involves those stem cells. Those cells can turn themselves into numerous other cells that can help older children (or even adults) receive a level of protection from a disease, such as leukemia, that attacks the immune or circulatory system. Even certain metabolic disorders can be treated thanks to stem cells saved through cord blood banking.
Cord blood use is one of the most exciting areas of research in medical science today. Researchers are studying treatments for cerebral palsy by using the cord blood obtained at birth. Autism treatments using cord blood are underway as well, along with other potentially fatal disorders and diseases. The potential of what cord blood could provide for future medical needs has a lot of upside and not much downside.
According to a 2005 editorial in the journal Obstetrics and Gynecology, the chances are about 1 in 2,700. Similarly, the American Society for Blood and Marrow Transplantation state currently less than 4/100th of one percent. However, the AAP suggests it’s more like 1 in 200,000. This is especially true if there is no family history of diseases such as leukemia or sickle cell anaemia.
There is often confusion over who can use cord blood stem cells in treatment — the baby they were collected from or a sibling? The short answer is both, but it very much depends on the condition being treated. And it’s ultimately the treating physician’s decision.





Cord Blood Registry® (CBR®) is the world’s largest newborn stem cell company. Founded in 1992, CBR is entrusted by parents with storing samples from more than 600,000 children. CBR is dedicated to advancing the clinical application of cord blood and cord tissue stem cells by partnering with institutions to establish FDA-regulated clinical trials for conditions that have no cure today.
It’s now possible to preserve up to twice the number of stem cells – exclusively available through cord blood banking with Americord®. With Cord Blood 2.0™, you now have the opportunity to treat your child into adolescence and even adulthood. Learn more >
Why Do Pregnant Women Crave Pickles and Ice Cream? There’s a Science to It 10 Things to Pack In Your Hospital Bag For Baby Delivery MSCs: Characteristics, Advatages Over Other Stem Cells & Applications Wine During Pregnancy: Facts, Risks & Myths Debunked
Cancellations prior to CBR’s storage of the samples(s) are subject to an administrative fee of $150. If you terminate your agreement with CBR after storage of the sample(s), you will not receive a refund.
Cord blood is currently approved by the FDA for the treatment for nearly 80 diseases, and cord blood treatments have been performed more than 35,000 times around the globe to treat cancers (including lymphoma and leukemia), anemias, inherited metabolic disorders and some solid tumors and orthopedic repair. Researchers are also exploring how cord blood has the ability to cross the blood–brain barrier and differentiate into neurons and other brain cells, which may be instrumental in treating conditions that have been untreatable up to this point. The most exciting of these are autism, cerebral palsy and Alzheimer’s.
If you are considering cord blood banking when your baby is born, talk over the options with your health care provider, and look into your family’s medical history to see if your child, or your family, is at risk for certain diseases.
With more than 80 diseases now treatable using cord blood stem cells and over 50 clinical trials underway using cord and placenta tissue, the motivation for collecting these valuable and potentially life-saving cells is clear. When you save these stem cells with Americord®, you ensure that they are securely stored for you and your family’s future needs.
Cord blood stem cells can be used in the treatment nearly 80 diseases today. Click on a category below to see specific diseases. Note: Banking cord blood does not guarantee that treatment will work and only a doctor can determine when it can be used.
We offer standard and premium cord blood processing options. Our standard service has been used in thousands of successful transplants since 1988 and begins at $1600. For $350 more, our premium service uses a superior new processing method that greatly enhances parents’ return on investment. (Please visit our processing technology page to learn about our cord blood processing methods.) For an additional $950, you can also store your baby’s cord tissue, which has the potential to help heal the body in different ways than cord blood.
All families should decide what they want to do with their cord blood well before delivery and make the arrangements accordingly. Because the issue is complex and the decision is a personal one—it’s best to speak with your doctor about what’s right for your family.
Whole genome sequencing is the process of mapping out the entire DNA sequence of a person’s genome. This test can show what type of health concerns we might face and most importantly how we can improve our health and quality of life.
You certainly should, especially if you have a family history of any diseases or conditions that could be treated with cord blood stem cells. Since there is only a 25% chance of a match, you should bank the cord blood of each individual child if you have the means.
Cord blood banking is not always cheap. It’s completely free to donate blood to a public cord blood bank, but private banks charge $1,400 to $2,300 for collecting, testing, and registering, plus an annual $95 to $125 storing fee.
If you’re looking to attain cord blood from a public bank, be aware that matched cord blood, as with bone marrow, can be difficult to obtain through a public cord blood bank. Once a match is ascertained, it may take valuable weeks, even months, to retrieve the match, and the cost of acquiring the cord blood from a public bank can be upwards of $40,000. When the newborn’s umbilical cord blood is banked privately, they can be retrieved quickly, and since the parents own the cord blood, banks can perform the retrieval free of charge. Learn more about public versus private cord blood banking here.
Cord blood is extra blood that’s left in a baby’s umbilical cord and placenta after the cord is cut. Babies don’t need this leftover blood after they’re born, but it contains cells that could help those who are sick, now or in the future.

cord blood cell banking | spinal cord blood supply colon

A “clinical trial” is a study in human patients for an emerging therapy that has not been adopted as standard therapy. This website has pages that enable patients to search worldwide for currently recruiting clinical trials with ether cord blood or umbilical cord tissue MSC. The table below checks off all diagnoses that have ever been treated in clinical trials with cord blood or cord tissue, regardless of whether the trials are still open.
If you pay a private bank to store your cord blood, then it will always be available to you. No one can access the cord blood unless you authorize it. It will be reserved for your family and no one else. It cannot be donated for research purposes if your account remains in good standing. There may not be a guarantee that you’ll ever use it, but at least you’ll have it should there be a need to use it in the future.
Students who register to donate blood three or more times during their high school career earn a Red Cord to wear during graduation events. Seniors must complete the requirement by May 15 (or by the date of their school’s final blood drive of the year, whichever is later).  
Shai was a feisty little girl whose mother used her scientific background to search for the best approach to cure her cancer. Shai narrowly escaped death many times, including a recovery that even her doctors considered a miracle, yet she died at dawn on the day that she would have begun kindergarten. Her mother went on to found this website and charity in her memory. Read more…
Generally not. The reason siblings are more likely to match is because they get half of their HLA markers from each parent. Based on the way parents pass on genes, there is a 25 percent chance that two siblings will be a whole match, a 50 percent chance they will be a half match, and a 25 percent chance that they will not be a match at all. It is very rare for a parent to be a match with their own child, and even more rare for a grandparent to be a match.
There are some hospitals that have dedicated collections staff who can process mothers at the last minute when they arrive to deliver the baby. However, in the United States that is the exception to the rule.
Banking a baby’s blood and stem cells in a cord blood bank is a type of insurance. Ideally, you would not need to access your baby’s stem cells in order to address a medical concern. However, using a cord blood bank can provide peace of mind in knowing that you have a valuable resource if you need it.
With more than 80 diseases now treatable using cord blood stem cells and over 50 clinical trials underway using cord and placenta tissue, the motivation for collecting these valuable and potentially life-saving cells is clear. When you save these stem cells with Americord®, you ensure that they are securely stored for you and your family’s future needs.
The key benefit of cord blood banking involves those stem cells. Those cells can turn themselves into numerous other cells that can help older children (or even adults) receive a level of protection from a disease, such as leukemia, that attacks the immune or circulatory system. Even certain metabolic disorders can be treated thanks to stem cells saved through cord blood banking.
In an allogenic transplant, another person’s stem cells are used to treat a child’s disease. This kind of transplant is more likely to be done than an autologous transplant. In an allogenic transplant, the donor can be a relative or be unrelated to the child. For an allogenic transplant to work, there has to be a good match between donor and recipient. A donor is a good match when certain things about his or her cells and the recipient’s cells are alike. If the match is not good, the recipient’s immune system may reject the donated cells. If the cells are rejected, the transplant does not work.
Just like other blood donations, there is no cost to the donor of cord blood. If you do not choose to store your baby’s blood, please consider donating it. Your donation could make a difference in someone else’s life.
There are two ways to store cord blood: You can donate the blood to a public storage bank, or you can pay for private storage. Both storage types have pros and cons, and the best option for you and your family depends on different factors. Your health care provider can help you weigh the options and make the right choice. This guide can help you create a cord blood registry and gives you a list of the best cord blood banks to choose from.
Cord blood donation doesn’t cost anything for parents. Public cord blood banks pay for everything which includes the collection, testing, and storing of umbilical cord blood. This means that cord blood donation is not possible in every hospital.
One of the questions that all new mothers are asked during their pregnancy is if they wish to bank their cord blood after the delivery. The cord blood has stem cells within it, which in the ever-evolving field of medicine today allows for improved transplants, immune systems, and injury recovery… but they could also be used to save your child’s life one day. At birth, these stem cells are unique, smart, and extremely flexible and at this very moment are being used to treat over 80 diseases.
Cord blood banking means preserving the newborn stem cells found in the blood of the umbilical cord and the placenta. After a baby is born, and even after delayed cord clamping, there is blood remaining in the umbilical cord and placenta that holds valuable newborn stem cells. Parents have a choice between donating cord blood to a public bank for free, or paying to store it for their family in a private bank. Cord blood banking includes the whole process from collection through storage of newborn stem cells for future medical purposes.
Cord blood banking has become more popular over the last few years. And at some point or another, you may have noticed information about it at your doctor’s office. But what is it, exactly — and is it something you should do?
Lack of awareness is the #1 reason why cord blood is most often thrown away. For most pregnant mothers, their doctor does not even mention the topic. If a parent wants to save cord blood, they must be pro-active. ​
Private banking guarantees the blood always will be available. However, the fees can include a first-year charge of $1000-3000, plus annual storage fees of $90-175. Most of the time, stored blood is eventually discarded or donated for use in research.
When a child is born, their umbilical cord is filled with nutrient-rich blood. There are stem cells contained in that blood, along with numerous other potentially beneficial items. It can be used for research purposes, including helping the newborn receive needed treatments should they encounter certain serious diseases in their young life. Banking that cord blood immediately can be the ticket to a bright future for some children.
This Privacy Policy and Terms of Use sets out how Americord Registry uses and protects any information that you give Americord Registry when you use this website. SequenceDNA TOS provides the current terms of service for those clients that are using Americord’s SequenceDNA Services.
Banking cord blood is a new type of medical protection, and there are a lot of questions that parents may want to ask. The Parent’s Guide to Cord Blood organization even has questions it believes all parents should ask their cord blood banks. We have answers to these and other frequently asked cord blood questions in our FAQs. If you can’t find the answer for which you are looking, please feel free to engage one of our cord blood educators through the website’s chat interface.
Once cord blood is in a public bank, it is listed as available on a national registry. People who need stem cell transplants and are looking for a match may be able to use it. In 2016, cord blood was used to help 29% of patients who received a transplant in the US, according to the HRSA.
If you decided to donate cord blood, it is highly unlikely the blood would be available for you or a close relative later on in life. If cord blood is ever needed in the future you would have to pay for a donation made by another (compatible) donor.
Are public banks and family banks the same, except for who may use the cord blood and the cost to the parents? No. Public banks are subject to much higher regulatory requirements, and compliance with regulations carries costs. At a family bank you pay the bank enough to cover the cost of storing your baby’s cord blood, plus they make a profit. When you donate to a public bank, it costs you nothing, but the bank pays more on processing each blood collection than at a family bank. Let’s look at the steps that take place in the laboratory.
The term “cord blood” is used for the blood remaining in the umbilical cord and the placenta after the birth of a baby. Cord Blood contains stem cells that can grow into blood and immune system cells, as well as other types of cells. Today cord blood is often used as a substitute for bone marrow in stem cell transplants. There are over 80 diseases treated this way, including cancers, blood disorders, genetic and metabolic diseases.
The stem cells in cord blood can provide numerous benefits, but they are not a magical cure for everything that may happen to a child. Certain genetic conditions, such as MD or spina bifida, cannot be treated through a child’s cord blood because the stem cells would be affected by the same condition. Other cord blood options may be available, but it is important to note that the presence of it is not a guarantee of future wellness.
In Europe and other parts of the world, cord blood banking is more often referred to as stem cell banking. As banking cord blood is designed more to collect the blood-forming stem cells and not the actual blood cells themselves, this term may be more appropriate.
* Annual storage fees will be charged automatically to the credit/debit card on file, on or around your baby’s birthday, unless you’ve chosen a prepay option and are subject to change until they are paid.
There are so many things to think about when you have a child. One of them is the blood from your baby’s umbilical cord (which connects the baby to the mother while in the womb). It used to be thrown away at birth, but now, many parents store the blood for the future health of their child. Should you do it?
These are diagnoses for which stem cell treatments are being studied either in the laboratory with cell cultures or in animals that mimic the human disease. The experimental therapies are not yet in human clinical trials. In experimental research, it is often not clear whether an eventual therapy, if developed, would be Autologous or Allogeneic.
Fortunately, there are financial aid options for those who are looking to store cord blood for a family member with a condition that can be treated by stem cells. According to cordbloodbanking.com, “banks will pay for the processing, shipment and storage fees using donations for partnering charity organizations.
Cord blood is extra blood that’s left in a baby’s umbilical cord and placenta after the cord is cut. Babies don’t need this leftover blood after they’re born, but it contains cells that could help those who are sick, now or in the future.
Cord blood contains mesenchymal stem cells but is much more abundant in hematopoietic stem cells. Cord tissue, on the other hand, contains some hematopoietic stem cells but is much richer in mesenchymal stem cells. Cord tissue, or Wharton’s jelly, is the protective layer that covers the umbilical cord’s vein and other vessels. Its MSCs can become a host of cells including those found in the nervous system, sensory organs, circulatory tissues, skin, bone, cartilage, and more. MSCs are currently undergoing clinical trials for sports injuries, heart and kidney disease, ALS, wound healing and autoimmune disease. As with cord blood, cord tissue is easily collected at the type of birth and holds great potential in regenerative medicine. Learn more about cord tissue banking here.
There was a time before the 1990s when the umbilical cord and its blood were considered medical waste. Today, parents bank or store their baby’s umbilical cord blood because the stem cells it contains are currently utilized or show promise in the treatment of life-threatening and debilitating diseases.
It varies. Cord blood banking can be free, or it can cost a few thousand dollars or more. How much you pay will depend on several different factors, like whether your insurance covers the collection process, whether your doctor or midwife charges a collection fee, whether you opt for a public storage bank (which is free) or private storage bank (which can cost a couple thousand dollars or more), or whether there is an existing family medical need (in which case some private banks offer free or discounted storage).
Families expecting a new baby face hundreds of decisions that will affect their child’s future—like finding the perfect name, figuring how to manage breast or bottle feeding, childcare, and a host of other parenting decisions.
“It’s critically important for patients to get balanced information and answers to their questions about cord blood banking. Because there are so many companies advertising their services, it can be difficult to understand information on the internet.”
Stem cells are able to transform into other types of cells in the body to create new growth and development. They are also the building blocks of the immune system. The transformation of these cells provides doctors with a way to treat leukemia and some inherited health disorders.
Most of the diseases for which HSCT is a standard treatment are disorders of blood cell lineage. The proliferation by which blood cells are formed from stem cells is illustrated in the side graphic (click on the image to expand it); you can also read about specific cell types in the immune system in more detail. In the United States, most health insurance providers will pay for a stem cell transplant if it is a “standard therapy” for the patient’s diagnosis.





When an immediate family member has a disease that requires a stem cell transplant, cord blood from a newborn baby in the family may be the best option. There is a 25% chance, for example, that cord blood will be a perfect match for a sibling, because each child shares one of its two HLA genes with each parent. Occasionally cord blood will be a good match for a parent if, by chance, both parents share some of the six HLA antigens. The baby’s cord blood is less likely to be a good match for more distant relatives. The inventories of unrelated cord blood units in public cord blood banks are more likely to provide appropriate matches for parents and distant relatives, as well as for siblings that do not match.
You can choose to donate your baby’s cord blood to a public bank or have it stored in a private bank just for your family. Some hospitals and medical centers are affiliated with public banks — you can check to see about whether this applies to the hospital where you’re planning to give birth.
When parents donate cord blood to a public bank, they are supporting patients around the world who are searching for an unrelated Allogeneic donor. When parents save cord blood in a family bank, they are reserving the options that the baby can use its own stem cells for an Autologous treatment, or an immediate relative (sibling or parents) can use the stem cells for an Allogeneic treatment.
When you consider that public banks can only expect to ship 1-2% of their inventory for transplant, you can quickly understand why most public banks are struggling to make ends meet. That struggle means that fewer collection programs are staffed, and there are fewer opportunities for parents to donate to the public good. We said earlier that public banks only keep cord blood donations over a minimum of 900 million cells, but today most public banks have raised that threshold to 1.5 billion cells. The reason is that the largest units are the ones most likely to be used for transplants that bring income to the bank. Family cord blood banks do not need to impose volume thresholds because they have a profit margin on every unit banked.
As you begin to make decisions on behalf of your new baby, we hope that you will consider including the donation of your baby’s cord blood to the St. Louis Cord Blood Bank’s First Gift donation program among your priorities. Thousands of children and adults are alive today because mothers like you have donated their baby’s cord blood. Be assured that it is safe, painless, easy and free. 
Most stored cord blood is discarded. At public cord blood banks, a unit of stored cord blood has a greater chance of being used to help a sick child or used toward stem cell research. Private cord blood banks, on the other hand, eventually throw away blood that a family no longer wants to store or use.
As cord blood is inter-related to cord blood banking, it is often a catch-all term used for the various cells that are stored. It may be surprising for some parents to learn that stored cord blood contains little of what people think of as “blood,” as the red blood cells (RBCs) can actually be detrimental to a cord blood treatment. (As we’ll discuss later, one of the chief goals of cord blood processing is to greatly reduce the volume of red blood cells in any cord blood collection.)

cord blood benefits | md anderson cord blood bank

Cord Blood Registry® (CBR®) is the world’s largest newborn stem cell company. Founded in 1992, CBR is entrusted by parents with storing samples from more than 600,000 children. CBR is dedicated to advancing the clinical application of cord blood and cord tissue stem cells by partnering with institutions to establish FDA-regulated clinical trials for conditions that have no cure today.
|| Payment Plan Disclosures for CareCredit 48-Month Plan – Availability subject to credit approval. $1,650 or as low as $46 per month. If you pay only the minimum amount it will take you 48 months to pay off the balance and $2,201 total. A 14.90% Extended Payment Plan for 48 Months on purchases of $1,000 or more with your CareCredit card. Fixed minimum monthly payments required. Penalty APR may apply if you make a late payment. On promo purchase, fixed monthly payments equal to 4.8439% of initial purchase balance for 24 months; 3.4616% of initial purchase balance for 36 months; 2.7780% of initial purchase balance for 48 months required, and interest charges will be applied to promo balance at a reduced 14.90% APR if (1) promo purchases paid in full in promotion duration as indicated, and (2) all minimum monthly payments on account paid when due. Purchase APR of up to 29.99% applies to expired promotions and optional charges.
Cord blood transplants have become much more successful since the early 2000s. Clinicians have learned how to match people better to stored cord blood. Dosing for cord blood has become more reliable. Better care for patients going through a cord blood transplant has been improved. All of those benefits become even better if the patient is able to use their own cord blood that has been properly stored.
Cord tissue is rich in a completely different type of stem cell. With over fifty clinical trials currently in progress, researchers agree that banking cord tissue is the future of stem cell banking. Learn more >
For example, your child could develop a genetic medical condition for which the blood stored would no longer be useful. In these types of cases, families who paid to store cord blood were at a major disadvantage. Once their child developed an immune deficiency disease, they had to pay out of pocket for donated cord blood on top of the fees they paid storing the cord blood they can’t even use.
You will not be charged for any expenses resulting from the collection of your baby’s cord blood. Likewise, your insurance company will not be billed for anything associated with your donation. The St. Louis Cord Blood Bank assumes responsibility for all costs to collect, process, and store the unit for future use.
Cord blood is rich in stem cells, so it can be used to treat a wide range of diseases that may affect a child. The odds that any given child will need their cord blood, however, is only about 1 in 217. For families that do not have a history of sickle cell anemia, lymphoma, or leukemia, the costs of collecting and storing the blood may not make sense and public bank storage may be a better option.
Cord blood is the blood from the baby that is left in the umbilical cord and placenta after birth. It contains special cells called hematopoietic stem cells that can be used to treat some types of diseases.
All families should decide what they want to do with their cord blood well before delivery and make the arrangements accordingly. Because the issue is complex and the decision is a personal one—it’s best to speak with your doctor about what’s right for your family.
You certainly should, especially if you have a family history of any diseases or conditions that could be treated with cord blood stem cells. Since there is only a 25% chance of a match, you should bank the cord blood of each individual child if you have the means.
Dennis Michael Todd, PhD, joined Community Blood Services as its President and CEO in 2000. Community Blood Services operates the NJ Cord Blood Bank and The HLA Registry bone marrow donor center, both of which are affiliated with the National Marrow Donor Program (NMDP). In 2012, the blood center expects to distribute over 85,000 units of red cells and 20,000 platelets to hospitals and medical centers throughout northern NJ and Orange County, NY. Dr. Todd is presently a member of the NMDP Executive Committee and Chairman of the Finance Committee. He is a member of the International Society for Cellular Therapy (ISCT), the International Society for Stem Cell Research (ISSCR), the AABB, the American Association of Bioanalysts, and the New Jersey Society of Blood Bank Professionals.
*Fee schedule subject to change without notice. If a client has received a kit and discontinues services prior to collection, there is no cancelation fee if the kit is returned unused within two weeks from cancelation notice; otherwise, a $150 kit replacement fee will be assessed. †Additional courier service fee applies for Alaska, Hawai’i and Puerto Rico. ††Applies to one-year plan and promotional plan only. After the first year, an annual storage fee will apply. Cryo-Cell guarantees to match any written offer for product determined to be similar at Cryo-Cell’s sole discretion. ** Promotional Plan cannot be combined with any other promotional offers, coupons or financing.
These are diagnoses for which stem cell treatments are being studied either in the laboratory with cell cultures or in animals that mimic the human disease. The experimental therapies are not yet in human clinical trials. In experimental research, it is often not clear whether an eventual therapy, if developed, would be Autologous or Allogeneic.
Cord blood stem cells can be used in the treatment nearly 80 diseases today. Click on a category below to see specific diseases. Note: Banking cord blood does not guarantee that treatment will work and only a doctor can determine when it can be used.
The benefits for low risk families with no known history or immune or blood disorders are not clear. Unless you have a family member with a medical condition that might be helped by a stem-cell transplant, associations such as the American Academy of Pediatrics (AAP) advise against cord blood storage in private bank facilities, because of the cost.
When a child develops a condition that can be treated with stem cells, they undergo transplant. A doctor infuses stem cells from cord blood or bone marrow into the patient’s bloodstream, where they will turn into cells that fight the disease and repair damaged cells—essentially, they replace and rejuvenate the existing immune system.
Genes: Segments of DNA that contain instructions for the development of a person’s physical traits and control of the processes in the body. They are the basic units of heredity and can be passed down from parent to offspring.
Cord blood contains mesenchymal stem cells but is much more abundant in hematopoietic stem cells. Cord tissue, on the other hand, contains some hematopoietic stem cells but is much richer in mesenchymal stem cells. Cord tissue, or Wharton’s jelly, is the protective layer that covers the umbilical cord’s vein and other vessels. Its MSCs can become a host of cells including those found in the nervous system, sensory organs, circulatory tissues, skin, bone, cartilage, and more. MSCs are currently undergoing clinical trials for sports injuries, heart and kidney disease, ALS, wound healing and autoimmune disease. As with cord blood, cord tissue is easily collected at the type of birth and holds great potential in regenerative medicine. Learn more about cord tissue banking here.
When considering cord blood, cord tissue, and placenta tissue banking, you want all of the facts. Americord’s® Cord Blood Comparison Chart gives you information not only on our costs and services, but also on how other companies measure up.
If you are considering donating your child’s cord blood, or if you have questions or concerns, call the St. Louis Cord Blood Bank at 314-268-2787 or 888-453-2673 to register. A nurse is available to answer your questions between the hours of 7 am – 5 pm Monday through Friday. See more about the donation process here »





After your baby is born, the umbilical cord and placenta are usually thrown away. Because you are choosing to donate, the blood left in the umbilical cord and placenta will be collected and tested. Cord blood that meets standards for transplant will be stored at the public cord blood bank until needed by a patient. (It is not saved for your family.)
Meredith Women’s Network | Parents.com is part of the Parents Network. © Copyright 2017 Meredith Corporation. All Rights Reserved Privacy Policy – Your California Rights Data Policy Terms of Service EU Data Subject Requests AdChoices
Now that you know the cord blood banking pros and cons, there really isn’t a right or wrong thing to do. The question is simply – What’s right for your family? Reputable websites and testimonials are your saving grace if you’re on the fence for investing or even donating.
You can choose to donate your baby’s cord blood to a public bank or have it stored in a private bank just for your family. Some hospitals and medical centers are affiliated with public banks — you can check to see about whether this applies to the hospital where you’re planning to give birth.
If you want the blood stored, after the birth, the doctor clamps the umbilical cord in two places, about 10 inches apart, and cuts the cord, separating mother from baby. Then she inserts a needle and collects at least 40 milliliters of blood from the cord. The blood is sealed in a bag and sent to a lab or cord blood bank for testing and storage. The process only takes a few minutes and is painless for mother and baby.
## Payment Plan Disclosures for in-house CBR 12-Month Plan (interest free) – No credit check required. The 12-month plan requires a $15/month administrative fee. The plans may be prepaid in full at any time.
If siblings are a genetic match, a cord blood transplant is a simple procedure that is FDA approved to treat over 80 diseases. However, there are a few considerations you should make before deciding to only bank one of your children’s blood:
It depends on who you ask. Although commercial cord blood banks often bill their services as “biological insurance” against future diseases, the blood doesn’t often get used. One study says the chance that a child will use their cord blood over their lifetime is between 1 in 400 and 1 in 200,000.
Lack of awareness is the #1 reason why cord blood is most often thrown away. For most pregnant mothers, their doctor does not even mention the topic. If a parent wants to save cord blood, they must be pro-active. ​
Cord blood is rich in special hematopoietic stem cells that aren’t found in blood from other parts of the body. Most cells are only able to make copies of themselves. (For instance, eye cells can only make copies of cells found in the eyes.) But these cord blood stem cells are different. Because they haven’t fully matured, they’re able to develop into different types of blood and immune-system cells.
Private cord blood banking can benefit those with a strong family history of certain diseases that harm the blood and immune system, such as leukemia and some cancers, sickle-cell anemia, and some metabolic disorders. Parents who already have a child (in a household with biological siblings) who is sick with one of these diseases have the greatest chance of finding a match with their baby’s cord blood. Parents who have a family history of autism, Alzheimer’s, and type 1 diabetes can benefit from cord blood. Although these diseases aren’t currently treated with umbilical cord steam cells, researchers are exploring ways to treat them (and many more) with cord blood.
From the What to Expect editorial team and Heidi Murkoff, author of What to Expect When You’re Expecting. Health information on this site is based on peer-reviewed medical journals and highly respected health organizations and institutions including ACOG (American College of Obstetricians and Gynecologists), CDC (Centers for Disease Control and Prevention) and AAP (American Academy of Pediatrics), as well as the What to Expect books by Heidi Murkoff.
The stem cells from your baby’s cord blood may also be effective in treating certain diseases or conditions of a parent or sibling. Cord blood stem cells have similar ability to treat disease as bone marrow but with significantly less rejection.
Yes, if you have any sick children who could benefit from umbilical cord blood. Public banks such as Carolinas Cord Bank at Duke University and private banks such as FamilyCord in Los Angeles offer programs in which the bank will assist with cord blood processing and storage if your baby has a biological sibling with certain diseases. FamilyCord will provide free cord blood storage for one year. See a list of banks with these programs at parentsguidecordblood.org/help.php.
However, parents should know that a child’s own cord blood (stored at birth), would rarely be suitable for a transplant today. It could not be used at present to treat genetic diseases, for example, because the cord blood stem cells carry the same affected genes and. if transplanted, would confer the same condition to the recipient. (See the story of Anthony Dones.) In addition, most transplant physicians would not use a child’s own cord blood to treat leukemia. There are two reasons why the child’s own cord blood is not safe as a transplant source. First, in most cases of childhood leukemia, cells carrying the leukemic mutation are already present at birth and can be demonstrated in the cord blood. Thus, pre-leukemic cells may be given back with the transplant, since there is no effective way to remove them (purge) today. Second, in a child with leukemia, the immune system has already failed to prevent leukemia. Since cord blood from the same child re-establishes the child’s own immune system, doctors fear it would have a poor anti-leukemia effect.
Stem cells may be used in transplants to treat people with blood cancers and other blood malignancies. These transplants can help the body replenish the blood stream with healthy cells. Stem cells are already used in the treatment of more than 70 diseases—lymphoma, sickle cell anemia, immune deficiency, and metabolic diseases. Researchers at the Cedars-Sinai Regenerative Medicine Institute also are looking into their potential to treat Alzheimer’s disease, diabetes, multiple sclerosis, spinal cord injuries, and heart disease, among other conditions.
Please note: in order to prevent spam and inappropriate language, all comments are moderated before they appear. We appreciate your patience awaiting approval. BellyBelly receives many comments every day, and we are unable to approve them all as soon as they are posted.
Banked cord blood is most abundant in white blood cells and stem cells. While a lot of attention is paid to the stem cells, there are approximately 10 times more total nucleated cells (TNCs) than stem cells in any cord blood collection. TNCs are basically white blood cells, or leukocytes; they are the cells of the immune system that protect the body. Despite stem cells comprising one-tenth of most collections, cord blood is still considered a rich source of hematopoietic (he-mah-toe-po-ee-tic) stem cells (HSCs). HSCs are often designated by the marker CD34+. Hematopoietic stem cells can become two categories of cells: myeloid and lymphoid cells. Myeloid cells go on to form your red blood cells, platelets, and other cells of the blood. Lymphoid cells go on to become the B cells and T cells and are the basis for the immune system. Cord blood also contains mesenchymal (meh-sen-ki-mal) stem cells (MSCs), but they are much more abundant in cord tissue, which we will discuss in a minute.
Cord blood is the blood that remains in the umbilical cord and placenta following birth. This blood is usually discarded. However, cord blood banking utilizes facilities to store and preserve a baby’s cord blood. If you are considering storing your baby’s cord blood, make sure to use a cord blood bank accredited by the American Association of Blood Banks (AABB), like Viacord.
One of the primary reasons why parents are choosing to bank cord blood is because of a history of family illness. Everything from metabolic disorders to immune system problems to common childhood cancers are all being treated with cord blood stem cells, making them an invaluable resource for your family.
When an immediate family member has a disease that requires a stem cell transplant, cord blood from a newborn baby in the family may be the best option. There is a 25% chance, for example, that cord blood will be a perfect match for a sibling, because each child shares one of its two HLA genes with each parent. Occasionally cord blood will be a good match for a parent if, by chance, both parents share some of the six HLA antigens. The baby’s cord blood is less likely to be a good match for more distant relatives. The inventories of unrelated cord blood units in public cord blood banks are more likely to provide appropriate matches for parents and distant relatives, as well as for siblings that do not match.
Prior to freezing the cells, samples are taken for quality testing. Banks measure the number of cells that are positive for the CD34 marker, a protein that is used to estimate the number of blood-forming stem cells present. Typical cost, $150 to $200 per unit. They also measure the number of nucleated cells, another measure of stem cells, both before and after processing to determine the cell recovery rate. Typical expense, $35 per unit. A portion of the sample is submitted to check that there is no bacterial or fungal contamination. Typical expense, $75 per unit. Public banks will also check the ability of the sample to grow new cells by taking a culture called the CFU assay. Typical expense, $200 to $250 per unit.
The Medical Letter On Drugs and Therapeutics also recently addressed aspects of public and private cord blood banks, asking the question: “Does Private Banking Make Sense?” After citing various statistics on the actual uses of privately stored cord blood, they concluded that: “At the present time, private storage of umbilical cord blood is unlikely to be worthwhile. Parents should be encouraged to contribute, when they can, to public cord blood banks instead.” [Access The Medical Letter at www.medicalletter.org].
So what are your options? You have three choices. One is to store the cord blood with a private company at a cost to you ranging from $1,500 to $2,500 and an annual storage fee in the ballpark of $125. Secondly, you can donate the cord blood to a public bank, if there is one working with your hospital, and your doctor is on board with the idea. There are also public banks that accept mail-in donations, if you register during your second trimester and your doctor is willing to take a short training class on-line. Zero cost to you. The third option is to do nothing and have the cord blood, umbilical cord, and placenta destroyed as medical waste.
Blood from the umbilical cord and placenta is put into a sterile bag. (The blood is put into the bag either before or after the placenta is delivered, depending upon the procedure of the cord blood bank.)

cord blood type | md anderson cord blood bank

Today, cord blood stems cells are used in the treatment of nearly 80 diseases, including a wide range of cancers, genetic diseases, and blood disorders.2 In a cord blood transplant, stem cells are infused in to a patient’s bloodstream where they go to work healing and repairing damaged cells and tissue. When a transplant is successful, a healthy new immune system has been created. 
Cord blood is used to treat blood diseases such as leukaemia, lymphoma and anaemia, as well as immune disorders. Commonly these diseases are treated with chemotherapy, which destroys the patient’s immune system.
When a child develops a condition that can be treated with stem cells, they undergo transplant. A doctor infuses stem cells from cord blood or bone marrow into the patient’s bloodstream, where they will turn into cells that fight the disease and repair damaged cells—essentially, they replace and rejuvenate the existing immune system.
Cord blood is currently approved by the FDA for the treatment for nearly 80 diseases, and cord blood treatments have been performed more than 35,000 times around the globe to treat cancers (including lymphoma and leukemia), anemias, inherited metabolic disorders and some solid tumors and orthopedic repair. Researchers are also exploring how cord blood has the ability to cross the blood–brain barrier and differentiate into neurons and other brain cells, which may be instrumental in treating conditions that have been untreatable up to this point. The most exciting of these are autism, cerebral palsy and Alzheimer’s.
Private companies offer to store cord blood for anyone who wants it done, whether or not there is any medical reason known to do so at the time. The fee for private storage varies, but averages about $1,500 up front and $100 per year for storage. When there is no one in the family who needs a transplant, private storage of a newborn’s cord blood is done for a purely speculative purpose that some companies have termed “biological insurance.”
As noted earlier, with better matching, there is a greater chance of success and less risk of graft-versus-host disease (GvHD) in any stem cell transplant. With cord blood, the baby’s own cells are always a perfect match and share little risk. When using cord blood across identical twins, there is also a very low chance of GvHD although mutations and biological changes caused by epigenetic factors can occur. Other blood-related family members have a 35%–45% chance of GvHD, and unrelated persons have a 60%–80% chance of suffering from GvHD.
Cord blood contains mesenchymal stem cells but is much more abundant in hematopoietic stem cells. Cord tissue, on the other hand, contains some hematopoietic stem cells but is much richer in mesenchymal stem cells. Cord tissue, or Wharton’s jelly, is the protective layer that covers the umbilical cord’s vein and other vessels. Its MSCs can become a host of cells including those found in the nervous system, sensory organs, circulatory tissues, skin, bone, cartilage, and more. MSCs are currently undergoing clinical trials for sports injuries, heart and kidney disease, ALS, wound healing and autoimmune disease. As with cord blood, cord tissue is easily collected at the type of birth and holds great potential in regenerative medicine. Learn more about cord tissue banking here.
Hematopoietic stem cells can be used to treat more than 70 types of diseases, including diseases of the immune system, genetic disorders, neurologic disorders, and some forms of cancer, including leukemia and lymphoma. For some of these diseases, stem cells are the primary treatment. For others, treatment with stem cells may be used when other treatments have not worked or in experimental research programs.
There are some hospitals that have dedicated collections staff who can process mothers at the last minute when they arrive to deliver the baby. However, in the United States that is the exception to the rule.
The blood that remains in the umbilical cord and the placenta after birth is called “cord blood”. Umbilical cord blood, umbilical cord tissue, and the placenta are all very rich sources of newborn stem cells. The stem cells in the after birth are not embryonic. Most of the stem cells in cord blood are blood-forming or hematopoietic stem cells. Most of the stem cells in cord tissue and the placenta are mesenchymal stem cells.
Cord blood use is one of the most exciting areas of research in medical science today. Researchers are studying treatments for cerebral palsy by using the cord blood obtained at birth. Autism treatments using cord blood are underway as well, along with other potentially fatal disorders and diseases. The potential of what cord blood could provide for future medical needs has a lot of upside and not much downside.





Some cord banks require the umbilical cord to be cut after one minute, when the recommended time for delayed cord clamping is a minimum of two minutes. Ideally a baby can receive his or her full volume of blood – the cord blood can account for around one third of the baby’s blood volume, which is significant.
Cord blood stem cells are involved in treating more than 80 diseases. Most often, they’re used in treatments for cancers like leukemia and lymphoma, inherited immune system and immune-cell disorders, sickle cell disease and anemia, and Gaucher disease, but they can also be helpful in treating other immune, blood and neurological disorders.
Most of the diseases for which HSCT is a standard treatment are disorders of blood cell lineage. The proliferation by which blood cells are formed from stem cells is illustrated in the side graphic (click on the image to expand it); you can also read about specific cell types in the immune system in more detail. In the United States, most health insurance providers will pay for a stem cell transplant if it is a “standard therapy” for the patient’s diagnosis.
The blood collected from the cord is, in fact, the same blood your baby receives from the placenta. The blood itself is not ‘from the cord’ but collected from that area. This blood is rich in stem cells, which can grow into blood vessels, organs, and tissues.
As cord blood is inter-related to cord blood banking, it is often a catch-all term used for the various cells that are stored. It may be surprising for some parents to learn that stored cord blood contains little of what people think of as “blood,” as the red blood cells (RBCs) can actually be detrimental to a cord blood treatment. (As we’ll discuss later, one of the chief goals of cord blood processing is to greatly reduce the volume of red blood cells in any cord blood collection.)
There are around 30 private banks in the U.S. too. If you decide to opt for private storage, you should choose a cord blood bank that’s registered with the Food and Drug Administration (FDA) and accredited by the American Association of Blood Banks (AABB). AABB accreditation is the gold standard in cord blood banking, ensuring that your baby’s cord blood is collected, stored, processed and distributed safely and effectively.
Cord blood donation doesn’t cost anything for parents. Public cord blood banks pay for everything which includes the collection, testing, and storing of umbilical cord blood. This means that cord blood donation is not possible in every hospital.
Cord blood is rich in special hematopoietic stem cells that aren’t found in blood from other parts of the body. Most cells are only able to make copies of themselves. (For instance, eye cells can only make copies of cells found in the eyes.) But these cord blood stem cells are different. Because they haven’t fully matured, they’re able to develop into different types of blood and immune-system cells.
Your baby’s newborn stem cells are transported to our banking facilities by our medical courier partner, and you can receive tracking updates. Each sample is processed and stored with great care at our laboratory in Tucson, Arizona. CBR’s Quality Standard means we test every cord blood sample for specific quality metrics.
The primary disadvantage of cord blood banking is that it isn’t a cheap procedure and many families may not be able to afford it. The initial cost of saving your cord blood for personal use can be upwards of $2,500. There are annual storage fees, sometimes as high as $200, that must be paid as well. It is free, however, to donate blood to a public cord blood bank.
Whole genome sequencing is the process of mapping out the entire DNA sequence of a person’s genome. This test can show what type of health concerns we might face and most importantly how we can improve our health and quality of life.
Cord blood (short for umbilical cord blood) is the blood that remains in the umbilical cord and placenta post-delivery. At or near term, there is a maternal–fetal transfer of cells to boost the immune systems of both the mother and baby in preparation for labor. This makes cord blood at the time of delivery a rich source of stem cells and other cells of the immune system. Cord blood banking is the process of collecting the cord blood and extracting and cryogenically freezing its stem cells and other cells of the immune system for potential future medical use.
In Europe and other parts of the world, cord blood banking is more often referred to as stem cell banking. As banking cord blood is designed more to collect the blood-forming stem cells and not the actual blood cells themselves, this term may be more appropriate.
Thanks for your interest in BabyCenter. Our website is set up to ensure enhanced security and confidentiality by using strong encryption. Unfortunately, the browser you’re using doesn’t support TLS 1.1 or 1.2 – the minimum level of encryption required to access our site. To upgrade your browser or security options, please refer to your device or browser manufacturer for instructions.
Cord blood can’t be used to treat everything. If your child is born with a genetic condition such as muscular dystrophy or spina bifida, then the stem cells would have that condition, says Dr. Kurtzberg. But if the cord blood donor is healthy and there is a sibling or another immediate family member who has a genetic condition, the cord blood could be a good match for them.
Both public and family cord blood banks must register with the US Food and Drug Administration (FDA), and since Oct. 2011 public banks also need to apply for an FDA license. All cord blood banks are required by federal law to test the blood of the mother for infectious diseases. At public banks the screening is usually more extensive, similar to the tests performed when you donate blood. The typical expense to a public bank is $150 per unit.
The stem cells in cord blood can provide numerous benefits, but they are not a magical cure for everything that may happen to a child. Certain genetic conditions, such as MD or spina bifida, cannot be treated through a child’s cord blood because the stem cells would be affected by the same condition. Other cord blood options may be available, but it is important to note that the presence of it is not a guarantee of future wellness.

cord blood storage companies | life bank usa cord blood donation

For many families, the primary reason why they choose not to store their cord blood is the overall cost of doing so. You only get one chance to store the cord blood and the cost of collection, storage, and shipping for the first year alone is often the same price as delivering the baby at the hospital. It is not uncommon for costs to be around $2,000 for the initial collection, than there is often a storage fee of over $100 per year that must also be paid.
Stem cells are able to transform into other types of cells in the body to create new growth and development. They are also the building blocks of the immune system. The transformation of these cells provides doctors with a way to treat leukemia and some inherited health disorders.
When all the processing and testing is complete, the cord blood stem cells are frozen in cryogenic nitrogen freezers at -196° C until they are requested for patient therapy. Public banks are required to complete the entire laboratory processing and freeze the cord blood stem cells within 48 hours of collection. This is to insure the highest level of stem cell viability. The accreditation agencies allow family banks a window of 72 hours.
Cancellations prior to CBR’s storage of the samples(s) are subject to an administrative fee of $150. If you terminate your agreement with CBR after storage of the sample(s), you will not receive a refund.
Umbilical cord blood can save lives. Cord blood is rich in stem cells that can morph into all sorts of blood cells, which can be used to treat diseases that harm the blood and immune system, such as leukemia and certain cancers, sickle-cell anemia, and some metabolic disorders. There are a few ways for transplant patients to get blood cells (umbilical and placenta, bone marrow, peripheral/circulation), but cord blood is easier to match with patients, and because it is gathered during birth from the umbilical cord, it’s a painless procedure.
While banking cord blood is a new experience for many parents, it is a simple one. After all, most mothers are worried about how the delivery will go and don’t want to also be worried about the details of collecting, processing and cryo-preserving their babies’s cord blood. Thankfully, the healthcare provider and the cord blood bank do most of the work. Here are the steps found in cord blood banking:
Families must pay the annual storage fees to maintain their cord blood at a private bank. If those fees are not paid, then the cord blood will simply be disposed of or donated to a public bank. That is why public cord blood banks can be a better option, especially for households with lower income levels, because there is a greater chance that the stored blood will be able to successfully treat someone in the future.
Compare costs and services for saving umbilical cord blood, cord tissue, and placenta tissue stem cells. Americord’s® highest quality cord blood banking, friendly customer service, and affordable pricing have made us a leader in the industry.
Cord blood collection is a quick, simple procedure that takes between five and 10 minutes. But the decision to collect your baby’s cord blood is one to discuss with your doctor well before giving birth. If you opt to bank your baby’s cord blood, you’ll need to obtain a collection kit from your cord blood bank, which can take several weeks. You’ll also need to have a blood test and sign a consent form before labor begins. Finally, it’s important to confirm that your hospital is able to collect cord blood, since not all of them can. 
For the 12- and 24-month payment plans, down payment is due at enrollment. In-house financing cannot be combined with other offers or discounts. *Please add $50 to the down payment for medical courier service if you’re located in Alaska, Hawai’i or Puerto Rico. **Actual monthly payment will be slightly lower than what is being shown. For the length of the term, the annual storage fee is included in the monthly payment. Upon the child’s birthday that ends the term and every birthday after that, an annual storage fee will be due. These fees are currently $150 for cord blood and $150 for cord tissue and are subject to change.
It varies. Cord blood banking can be free, or it can cost a few thousand dollars or more. How much you pay will depend on several different factors, like whether your insurance covers the collection process, whether your doctor or midwife charges a collection fee, whether you opt for a public storage bank (which is free) or private storage bank (which can cost a couple thousand dollars or more), or whether there is an existing family medical need (in which case some private banks offer free or discounted storage).
If you’re unsure about what you’d like to do, then speak with your doctor about your family’s medical history. Ask if there is a risk to your child that could be minimized with cord blood banking. In doing so, you’ll be able to find the decision which works the best for you.





Students who register to donate blood three or more times during their high school career earn a Red Cord to wear during graduation events. Seniors must complete the requirement by May 15 (or by the date of their school’s final blood drive of the year, whichever is later).  
If you can afford the costs of cord blood banking, then it makes sense to have it done to protect against the “what ifs” of life. If you cannot, you can still potentially help someone in need by making a donation to a public cord blood bank, which is often free and may just have a small collection fee from the hospital. The world of medicine is changing, which is why cord blood banking is so important. Talk to your doctor today to see if it is something you should be doing!
Cord blood is currently approved by the FDA for the treatment for nearly 80 diseases, and cord blood treatments have been performed more than 35,000 times around the globe to treat cancers (including lymphoma and leukemia), anemias, inherited metabolic disorders and some solid tumors and orthopedic repair. Researchers are also exploring how cord blood has the ability to cross the blood–brain barrier and differentiate into neurons and other brain cells, which may be instrumental in treating conditions that have been untreatable up to this point. The most exciting of these are autism, cerebral palsy and Alzheimer’s.
Public cord blood banks collect and store blood without charge; however the blood is available for use by anyone in the world who needs a stem cell transplant. If the cord blood is not suitable for banking, it may be used for stem cell research. If your child or a family member needs a cord blood transplant, and the cord blood is still in the bank and usable, it will be made available.
Most public banks only work with selected hospitals in their community. They do this because they need to train the staff who will collect the cord blood, and they want the blood to be transported to their laboratory as quickly as possible. A parent who wants to donate should start by finding public banks in your country.
We have 12- and 24-month in-house payment plans to spread the initial cost out over time. They require no credit check and begin with little money down. Starting at approximately $2.50 a day, you can help safeguard your baby’s future. After the term of the payment plan, you are then only responsible for the annual storage fee, which begins at $150.
A third option, sometimes not known about, is available for cord blood banking as well. A direct donation bank is a combination of private and public banks. These banks will store blood for public use, but accept donations that can be reserved for families or specific individuals. Some do not charge a fee for this service, while others may offer a reduced fee compared to banks that are completely private.
Preserving stem cells does not guarantee that the saved stem cells will be applicable for every situation. Ultimate use will be determined by a physician. Please note: Americord Registry’s activities are limited to collection of umbilical cord tissue from autologous donors. Americord Registry’s possession of a New York State license for such collection does not indicate approval or endorsement of possible future uses or future suitability of cells derived from umbilical cord tissue.
Private (commercial) cord banks will store the donated blood for use by the donor and family members only. They can be expensive. These banks charge a fee for processing and an annual fee for storage.
The first cord blood banks were private cord blood banks. In fact, Cryo-Cell is the world’s first private cord blood bank. It wasn’t until later that the government realized the need to preserve cord blood for research and public welfare. As a result, 31 states have adopted a law or have a piece of pending legislation that requires or encourages OBGYNs to educate expectant parents about cord blood banking and many states now have publicly held cord blood banks. As a result, parents have the option of banking their baby’s cord blood privately for the exclusive use of the child and the rest of the family or donating the cord blood to a public bank so that it can be used in research or by any patient who is a match and in need.
“This is a medical service that has to be done when your baby’s cells arrive and you certainly want them to be handled by good equipment and good technicians,” says Frances Verter, Ph.D., founder and director of Parent’s Guide to Cord Blood Foundation, a nonprofit dedicated to educating parents about cord blood donation and cord blood therapists. “It’s just not going to be cheap.” Although the American Academy of Pediatrics (AAP) states cord blood has been used to treat certain diseases successfully, there isn’t strong evidence to support cord blood banking. If a family does choose to bank cord blood, the AAP recommends public cord blood banking (instead of private) to reduce costs.
Remaining in the umbilical cord and placenta is approx. 40–120 milliliters of cord blood. The healthcare provider will extract the cord blood from the umbilical cord at no risk or harm to the baby or mother.
You can choose to donate your baby’s cord blood to a public bank or have it stored in a private bank just for your family. Some hospitals and medical centers are affiliated with public banks — you can check to see about whether this applies to the hospital where you’re planning to give birth.
Collecting the cord blood is a noninvasive procedure, which is a good thing since it takes place during such an important event in a new mother’s (and baby’s) life. Once the baby is born, the blood is extracted from the umbilical cord and stored. It will either be picked up by the privately owned blood bank or donated to a local hospital. The most reassuring part is that the doctor is 100% responsible for the task at hand and is trained to do so efficiently.
This is a huge risk and must be definitely thought out before making the decision. Leaving the umbilical cord on for 1 minute is proven to increase hemoglobin levels and improves iron levels in the first several months of life. This aids tremendously in the transition for your little one to breathe.
Cord blood stem cells can be used in the treatment nearly 80 diseases today. Click on a category below to see specific diseases. Note: Banking cord blood does not guarantee that treatment will work and only a doctor can determine when it can be used.
If you are considering donating your child’s cord blood, or if you have questions or concerns, call the St. Louis Cord Blood Bank at 314-268-2787 or 888-453-2673 to register. A nurse is available to answer your questions between the hours of 7 am – 5 pm Monday through Friday. See more about the donation process here »
The main reason for this requirement is to give the cord blood bank enough time to complete the enrollment process. For the safety of any person who might receive the cord blood donation, the mother must pass a health history screening. And for ethical reasons, the mother must give informed consent.
Why should you consider donating the cord blood to a public bank? Simply because, besides bringing a new life into the world, you could be saving an individual whose best chance at life is a stem cell transplant with your baby’s donated cord blood. This can only happen if you donate and if your baby is a close enough match for a patient in need. If you chose to reserve the cord blood for your family, then siblings who have the same parents have a 25% chance of being an exact match.
Today, cord blood stems cells are used in the treatment of nearly 80 diseases, including a wide range of cancers, genetic diseases, and blood disorders.2 In a cord blood transplant, stem cells are infused in to a patient’s bloodstream where they go to work healing and repairing damaged cells and tissue. When a transplant is successful, a healthy new immune system has been created. 
Each cord blood bank has different directions for returning the consent form. Some banks may ask you to mail the consent form along with the health history forms or to bring the original consent form with you to the hospital. Other banks may have you finish the form at the hospital. Follow the directions from your public cord blood bank.
Genes: Segments of DNA that contain instructions for the development of a person’s physical traits and control of the processes in the body. They are the basic units of heredity and can be passed down from parent to offspring.
Cord blood collection is a completely painless procedure that does not interfere with the birth or with mother-and-child bonding following the delivery. There is no risk to either the mother or baby. Cord blood collection rarely requires Blood Center staff to be present during the baby’s delivery. There is no cost to you for donating.
What stroller should I register for? How will I find a good pediatrician? And will I ever settle on color for the nursery? There are so many things to think about before your baby is born. But here’s one more decision you might want to consider: whether to bank your baby’s cord blood.
Luckily for expectant parents, cord blood can be easily collected at the baby’s birth via the umbilical cord with no harm to the mother or baby. This is why pregnancy is a great time to plan to collect and bank a baby’s cord blood.
Today, many conditions may be treatable with cord blood as part of a stem cell transplant, including various cancers and blood, immune, and metabolic disorders. Preserving these cells now may provide your family potential treatment options in the future.
The Leading the Way LifeSaving Ambassadors Club is a recognition program honoring sponsor groups for outstanding performance in reaching or exceeding blood drive collections goals.  CBC presents a Leading the Way plaque to winning sponsors on an annual basis. The award is based on three levels of achievement:
It’s now possible to preserve up to twice the number of stem cells – exclusively available through cord blood banking with Americord®. With Cord Blood 2.0™, you now have the opportunity to treat your child into adolescence and even adulthood. Learn more >
The information on this site is not intended or implied to be a substitute for professional medical advice, diagnosis or treatment. All content, including text, graphics, images, and information, contained on or available through this website is for general information purposes only. The purpose of this is to help with education and create better conversations between patients and their healthcare providers.
Cord blood banking is the process of collecting and storing your baby’s umbilical cord blood stem cells for potential medical use. ViaCord also offers parents the option to collect and store stem cells found in the tissue of the umbilical cord.  This is known as cord tissue banking. Our approach to cord blood and cord tissue banking is simple: Apply the most advanced science to deliver the highest-quality stem cell collection and storage process in order to achieve the best results for families. That approach has guided our growth and success for nearly twenty-five years.
Stem cells from cord blood can be used for the newborn, their siblings, and potetinally other relatives. Patients with genetic disorders like cystic fibrosis, cannot use their own cord blood and will need stem cells from a sibling’s cord blood. In the case of leukemia or other blood disorders, a child can use either their own cord blood or their sibling’s for treatment.
After your baby is born, the umbilical cord and placenta are usually thrown away. Because you are choosing to donate, the blood left in the umbilical cord and placenta will be collected and tested. Cord blood that meets standards for transplant will be stored at the public cord blood bank until needed by a patient. (It is not saved for your family.)
Families expecting a new baby face hundreds of decisions that will affect their child’s future—like finding the perfect name, figuring how to manage breast or bottle feeding, childcare, and a host of other parenting decisions.
Our writing team consists of professionals who work with pregnant and birthing women, as well as new parents, all year round. We’re not just bloggers or journalists. We’re industry professionals who love what we do!
Cord blood contains mesenchymal stem cells but is much more abundant in hematopoietic stem cells. Cord tissue, on the other hand, contains some hematopoietic stem cells but is much richer in mesenchymal stem cells. Cord tissue, or Wharton’s jelly, is the protective layer that covers the umbilical cord’s vein and other vessels. Its MSCs can become a host of cells including those found in the nervous system, sensory organs, circulatory tissues, skin, bone, cartilage, and more. MSCs are currently undergoing clinical trials for sports injuries, heart and kidney disease, ALS, wound healing and autoimmune disease. As with cord blood, cord tissue is easily collected at the type of birth and holds great potential in regenerative medicine. Learn more about cord tissue banking here.
Donating cord blood to a public cord blood bank involves talking with your doctor or midwife about your decision to donate and then calling a cord blood bank (if donation can be done at your hospital). Upon arriving at the hospital, tell the labor and delivery nurse that you are donating umbilical cord blood.
Both public and family cord blood banks must register with the US Food and Drug Administration (FDA), and since Oct. 2011 public banks also need to apply for an FDA license. All cord blood banks are required by federal law to test the blood of the mother for infectious diseases. At public banks the screening is usually more extensive, similar to the tests performed when you donate blood. The typical expense to a public bank is $150 per unit.
For example, your child could develop a genetic medical condition for which the blood stored would no longer be useful. In these types of cases, families who paid to store cord blood were at a major disadvantage. Once their child developed an immune deficiency disease, they had to pay out of pocket for donated cord blood on top of the fees they paid storing the cord blood they can’t even use.
Cord blood is a source of adult stem cells similar to those contained in bone marrow. Cord blood stem cells are collected after the birth of a healthy infant, and pose no risk to the donating mother or baby. Therefore, there are no ethical issues or controversy connected with the use of these cells. This differs from controversial embryonic stem cells that require the destruction of an embryo in order to be used for research.
The blood that remains in the umbilical cord and the placenta after birth is called “cord blood”. Umbilical cord blood, umbilical cord tissue, and the placenta are all very rich sources of newborn stem cells. The stem cells in the after birth are not embryonic. Most of the stem cells in cord blood are blood-forming or hematopoietic stem cells. Most of the stem cells in cord tissue and the placenta are mesenchymal stem cells.
Stem cells may be used in transplants to treat people with blood cancers and other blood malignancies. These transplants can help the body replenish the blood stream with healthy cells. Stem cells are already used in the treatment of more than 70 diseases—lymphoma, sickle cell anemia, immune deficiency, and metabolic diseases. Researchers at the Cedars-Sinai Regenerative Medicine Institute also are looking into their potential to treat Alzheimer’s disease, diabetes, multiple sclerosis, spinal cord injuries, and heart disease, among other conditions.
Sometimes cord blood units do not meet criteria for use in transplanting. Typically, this occurs if the amount of cord blood collected is too small or the unit contains too few cells. In this case, it may be used for research purposes that have been approved by the St. Louis Cord Blood Bank and meet required ethical standards.

cord blood stem cell therapy | umbilical cord blood stem cells mesenchymal

The use of cord blood is determined by the treating physician and is influenced by many factors, including the patient’s medical condition, the characteristics of the sample, and whether the cord blood should come from the patient or an appropriately matched donor. Cord blood has established uses in transplant medicine; however, its use in regenerative medicine is still being researched. There is no guarantee that treatments being studied in the laboratory, clinical trials, or other experimental treatments will be available in the future.
The process used to collect cord blood is simple and painless. After the baby is born, the umbilical cord is cut and clamped. Blood is drawn from the cord with a needle that has a bag attached. The process takes about 10 minutes.
Banking a baby’s blood and stem cells in a cord blood bank is a type of insurance. Ideally, you would not need to access your baby’s stem cells in order to address a medical concern. However, using a cord blood bank can provide peace of mind in knowing that you have a valuable resource if you need it.
For families that may not be able to afford private cord blood banking, there are some financial aid options that are available. Certain charitable organizations work with the more than 25 certified private blood banks to subsidize the initial collection cost, shipping costs, and storage fees that are necessary. Although some families may still not be able to afford private banking, even with financial aid, there are opportunities for more families to store cord blood now more than ever before.
It’s now possible to preserve up to twice the number of stem cells – exclusively available through cord blood banking with Americord®. With Cord Blood 2.0™, you now have the opportunity to treat your child into adolescence and even adulthood. Learn more >
Your baby’s umbilical cord blood has the power to heal life-threatening diseases such as leukemia, lymphomas, and sickle cell anemia. The stem cells in the baby’s blood are immature cells that can reproduce themselves as well as provide the potential to turn into other types of cells, thereby eliminating the disease itself.
Cord blood can’t be used to treat everything. If your child is born with a genetic condition such as muscular dystrophy or spina bifida, then the stem cells would have that condition, says Dr. Kurtzberg. But if the cord blood donor is healthy and there is a sibling or another immediate family member who has a genetic condition, the cord blood could be a good match for them.
Cord blood is currently approved by the FDA for the treatment for nearly 80 diseases, and cord blood treatments have been performed more than 35,000 times around the globe to treat cancers (including lymphoma and leukemia), anemias, inherited metabolic disorders and some solid tumors and orthopedic repair. Researchers are also exploring how cord blood has the ability to cross the blood–brain barrier and differentiate into neurons and other brain cells, which may be instrumental in treating conditions that have been untreatable up to this point. The most exciting of these are autism, cerebral palsy and Alzheimer’s.
The stored blood can’t always be used, even if the person develops a disease later on, because if the disease was caused by a genetic mutation, it would also be in the stem cells. Current research says the stored blood may only be useful for 15 years.
To save money, public banks will not even process a cord blood donation unless they know in advance that they are going to keep it. When the collection first arrives at the lab, it is passed through a cell counting machine. Only collections that have at least 900 million nucleated cells are kept. As a result, over 60%-80% of cord blood donations are discarded. The public bank must absorb the expense of the collection kit and delivery charges for discarded blood; typically $100 per unit.
BABYPREPPING.COM IS A PARTICIPANT IN THE AMAZON SERVICES LLC ASSOCIATES PROGRAM, AN AFFILIATE ADVERTISING PROGRAM DESIGNED TO PROVIDE A MEANS FOR SITES TO EARN ADVERTISING FEES BY ADVERTISING AND LINKING TO AMAZON.COM.





In terms of performance, our PrepaCyte-CB processing method has taken the lead. PrepaCyte-CB greatly improves on parents’ returns on investment because it yields the highest number of stem cells while showing the greatest reduction in red blood cells.1–4 Clinical transplant data show that cord blood processed with PrepaCyte-CB engrafts more quickly than other processing methods.7 This means patients may start feeling better more quickly, may spend less time in the hospital and are less likely to suffer from an infection. The ability to get better more quickly and a reduced chance of infection can prove vital in certain cases. Learn more about PrepaCyte®-CB here.
When parents donate cord blood to a public bank, they are supporting patients around the world who are searching for an unrelated Allogeneic donor. When parents save cord blood in a family bank, they are reserving the options that the baby can use its own stem cells for an Autologous treatment, or an immediate relative (sibling or parents) can use the stem cells for an Allogeneic treatment.
Today, many conditions may be treatable with cord blood as part of a stem cell transplant, including various cancers and blood, immune, and metabolic disorders. Preserving these cells now may provide your family potential treatment options in the future.
Private or family banks store cord blood for autologous use or directed donation for a family member. Private banks charge a yearly fee for storage. Blood stored in a private bank must meet the same standards as blood stored in a public bank. If you have a family member with a disorder that may potentially be treated with stem cells, some private banks will store the cord blood free of charge.
All families should decide what they want to do with their cord blood well before delivery and make the arrangements accordingly. Because the issue is complex and the decision is a personal one—it’s best to speak with your doctor about what’s right for your family.
Unfortunately, delayed cord clamping is not compatible with banking your little one’s cord blood because the success of the treatment heavily relies on the volume of the blood infused with the stem cells. The more blood the greater chance at a successful outcome.
A third option, sometimes not known about, is available for cord blood banking as well. A direct donation bank is a combination of private and public banks. These banks will store blood for public use, but accept donations that can be reserved for families or specific individuals. Some do not charge a fee for this service, while others may offer a reduced fee compared to banks that are completely private.
For many families, the primary reason why they choose not to store their cord blood is the overall cost of doing so. You only get one chance to store the cord blood and the cost of collection, storage, and shipping for the first year alone is often the same price as delivering the baby at the hospital. It is not uncommon for costs to be around $2,000 for the initial collection, than there is often a storage fee of over $100 per year that must also be paid.
At present, the odds of undergoing any stem cell transplant by age 70 stands at one in 217, but with the continued advancement of cord blood and related stem and immune cell research, the likelihood of utilizing the preserved cord blood for disease treatment will continue to grow. Read more about cord blood as a regenerative medicine here.
Cord blood banking means preserving the newborn stem cells found in the blood of the umbilical cord and the placenta. After a baby is born, and even after delayed cord clamping, there is blood remaining in the umbilical cord and placenta that holds valuable newborn stem cells. Parents have a choice between donating cord blood to a public bank for free, or paying to store it for their family in a private bank. Cord blood banking includes the whole process from collection through storage of newborn stem cells for future medical purposes.
Meet Dylan. Diagnosed with leukemia at just 8 weeks old, he received a life-saving cord blood transplant at 6 months old. Today, Dylan is growing up strong, going to school, travelling with his family and just having fun being a kid!
At Cryo-Cell, we strive to give all parents the chance to store their babies’ umbilical cord blood for the future health of their families. We offer special discounts and offers for multiple births, returning customers, referrals, military families, medical professionals, long-term, pre-paid storage plans and more. In addition, we have in-house financing options that start for as little as a few dollars a day to keep cord blood banking in everyone’s reach. See how much cord blood banking costs at Cryo-Cell here.
“It’s critically important for patients to get balanced information and answers to their questions about cord blood banking,” says Dr. Aghajanian. “Because there are so many companies advertising their services, it can be somewhat difficult to understand information on the internet. We recommend that patients discuss this issue with their physicians.”
Cord blood banking is not always cheap. It’s completely free to donate blood to a public cord blood bank, but private banks charge $1,400 to $2,300 for collecting, testing, and registering, plus an annual $95 to $125 storing fee.
Families must pay the annual storage fees to maintain their cord blood at a private bank. If those fees are not paid, then the cord blood will simply be disposed of or donated to a public bank. That is why public cord blood banks can be a better option, especially for households with lower income levels, because there is a greater chance that the stored blood will be able to successfully treat someone in the future.
The term “cord blood” is used for the blood remaining in the umbilical cord and the placenta after the birth of a baby. Cord Blood contains stem cells that can grow into blood and immune system cells, as well as other types of cells. Today cord blood is often used as a substitute for bone marrow in stem cell transplants. There are over 80 diseases treated this way, including cancers, blood disorders, genetic and metabolic diseases.
For these and other reasons, the American Academy of Pediatrics (AAP) and many physicians do not recommend private cord blood banking except as “directed donations” in cases where a family member already has a current need or a very high potential risk of needing a bone marrow transplant. In all other cases, the AAP has declared the use of cord blood as “biological insurance” to be “unwise.” [Read the AAP’s news release at http://www.aap.org/advocacy/archives/julcord.htm ]
There was a time before the 1990s when the umbilical cord and its blood were considered medical waste. Today, parents bank or store their baby’s umbilical cord blood because the stem cells it contains are currently utilized or show promise in the treatment of life-threatening and debilitating diseases.
Blood from the umbilical cord and placenta is put into a sterile bag. (The blood is put into the bag either before or after the placenta is delivered, depending upon the procedure of the cord blood bank.)
An additional cost that is borne only by public banks is the “HLA typing” that is used to match donors and patients for transplants. This is an expensive test, running about $75 to $125 per unit. Family banks always defer this test until it is known whether a family member might use the cord blood for therapy.
Public cord blood banks store cord blood for allogenic transplants. They do not charge to store cord blood. The stem cells in the donated cord blood can be used by anyone who matches. Some public banks will store cord blood for directed donation if you have a family member who has a disease that could potentially be treated with stem cells.
Remaining in the umbilical cord and placenta is approx. 40–120 milliliters of cord blood. The healthcare provider will extract the cord blood from the umbilical cord at no risk or harm to the baby or mother.
Cord blood has an abundance of stem cells and immune system cells, and the medical uses of these cells has been expanding at a rapid pace. As these cells help the body re-generate tissues and systems, cord blood is often referred to as a regenerative medicine.
The potential of cord blood banking is enormous, but so are the costs of private banking. The pros and cons of cord blood banking suggest that public banking can be a beneficial choice for many families. Other choices are available as well, including a delay in the cutting of the umbilical cord, so each family must decide which option will be right for them.