Until now, however, it hasn’t always been easy for couples to donate their baby’s cord blood to a public bank. The 28 public banks currently in operation work with only about 100 hospitals in the U.S. (find the list at parentsguidetocordblood.com). If you don’t deliver at one of these hospitals, you can contact either Cryobanks International or LifebankUSA, commercial organizations that store both private and public units. These banks pick up the tab for your donation (minus the physician’s collection fee).
Though uses of cord blood beyond blood and immunological disorders is speculative, some research has been done in other areas. Any such potential beyond blood and immunological uses is limited by the fact that cord cells are hematopoietic stem cells (which can differentiate only into blood cells), and not pluripotent stem cells (such as embryonic stem cells, which can differentiate into any type of tissue). Cord blood has been studied as a treatment for diabetes. However, apart from blood disorders, the use of cord blood for other diseases is not in routine clinical use and remains a major challenge for the stem cell community.
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.
There are no health risks related to cord blood collection. Cord blood is retrieved from the umbilical cord after it has been cut, thus preventing any pain, discomfort, or harm. This process is completely safe.
ViaCord’s Lab is FDA registered, AABB accredited, CLIA certified and equipped with the same freezers used by major research institutions such as Centers for Disease Control and Prevention and the National Institutes of Health.
In addition to the benefits related to transplanting HSCs derived from cord blood, HSCs are relatively easy to isolate, giving them an advantage over other adult stem cell types. Cord blood HSCs are also believed to have greater plasticity than HSCs found in bone marrow or the blood stream. The limits and possibilities of using HSCs to repair tissues and treat non-blood related disorders are currently being studied.
^ a b Ballen, KK; Gluckman, E; Broxmeyer, HE (25 July 2013). “Umbilical cord blood transplantation: the first 25 years and beyond”. Blood. 122 (4): 491–8. doi:10.1182/blood-2013-02-453175. PMC 3952633 . PMID 23673863.
Your child may never need it. Stem cell-rich cord blood can be used to treat a range of diseases, but Frances Verter, Ph.D., founder and director of Parent’s Guide to Cord Blood Foundation, estimates that there’s only a 1 in 217 chance that your child will ever need a stem cell transplant with cord blood (or bone marrow). This is particularly true if the child doesn’t have a family history of diseases such as leukemia, lymphoma, or sickle cell anemia. 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 cut down on expenditures.
Your baby’s cord blood could be a valuable resource for another family. From foundations to non-profit blood banks and medical facilities, there are numerous locations that will collect, process, and use the stem cells from your baby’s cord blood to treat other people.
CBR Clients: Did you know that when you refer a friend, and they preserve their baby’s stem cells with us, you receive a free year of cord blood storage? After your first referral, you start earning even more rewards. (Exclusions apply): bit.ly/2Lk9enq pic.twitter.com/6g7QrMiegc
We believe that every family should have the opportunity to preserve their baby’s newborn stem cells. That’s why CBR offers transparent costs of cord blood banking, and various payment options to fit this important step into almost every family budget.
In this way, cord blood offers a useful alternative to bone marrow transplants for some patients. It is easier to collect than bone marrow and can be stored frozen until it is needed. It also seems to be less likely than bone marrow to cause immune rejection or complications such as Graft versus Host Disease. This means that cord blood does not need to be as perfectly matched to the patient as bone marrow (though some matching is still necessary).
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.
Depending on the predetermined period of storage, the initial fee can range from $900 to $2100. Annual storage fees after the initial storage fee are approximately $100. It is common for storage facilities to offer prepaid plans at a discount and payment plans to help make the initial storage a more attractive option for you and your family.
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.
Lead image of baby’s umbilical cord from Wikimedia Commons. Possible human blood stem cell image by Rajeev Gupta and George Chennell. Remaining images of blood sample bags and red blood cells from Wellcome Images.
CORD:USE is directed by leading doctors in cord blood transplantation. Public donations collected by CORD:USE are sent to the Carolinas Cord Blood Bank, a FACT-accredited laboratory under the direction of Dr. Joanne Kurtzberg.
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.
Once a cord blood donation has been saved, it may be listed on a national registry that can be searched to find a match for a transplant patient. The donation could be released to any recipient who is compatible.
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.
Public cord blood banking supports the health of the community. Public banks collect qualifying cord blood donations from healthy pregnancies and save them in case one of them will be the match to save the life of a patient who needs a stem cell transplant. In the United States our registry of donors is called Be The Match. Patients who have a rare genetic type are more likely to receive cord blood transplants. In order for parents to donate cord blood to a public bank, their baby must be born at a hospital that accepts donations. Public cord blood banking is highly recommended by both the American Academy of Pediatrics (AAP) and American Medical Association (AMA).
“This reanalysis supports several previously expressed opinions that autologous [to use one’s OWN cells] banking of cord blood privately as a biological insurance for the treatment of life-threatening diseases in children and young adults is not clinically justified because the chances of ever using it are remote. The absence of published peer-reviewed evidence raises the serious ethical concern of a failure to inform prospective parents about the lack of future benefit for autologous cord banking … Attempts to justify this [commercial cord blood banking] are based on the success of unrelated public domain cord banking and allogeneic [using someone ELSE’S cells] cord blood transplantation, and not on the use of autologous [the person’s OWN cells] cord transplantation, the efficacy of which remains unproven”.
CBR Cord Blood Education Specialists are available 7 days a week (Monday – Friday 6 AM – 9 PM PST and Saturday – Sunday 6 AM – 4 PM PST) to respond to consumer inquiries. In addition, consumers may request to schedule a call with a CBR Cord Blood Education Specialist at a specific date and time.
Save by paying in advance for 21 years of storage through our long-term storage plan. This plan covers all the initial fees (collection kit, courier service, processing, and preservation) and the cost of 21 years of continuous storage. A lifetime plan is also available; call for details.
The Stem Cell Therapeutic and Research Act was passed in 2005, which supports building a public reserve of 150,000 cord blood units from ethnically diverse donors in order to treat more than 90% of patients in need of HSC transplants. Donors from ethnic minority patients are particularly in need due to the greater variation of HLA-types in non-Caucasian ethnicities. Thirty-five percent of cord blood units go to patients of diverse ethnic and racial backgrounds.
Canadian Blood Services acknowledges the funding of provincial, territorial and federal governments. The views expressed in this document are those of Canadian Blood Services and do not necessarily reflect those of governments.
Along with cord blood, Wharton’s jelly and the cord lining have been explored as sources for mesenchymal stem cells (MSC), and as of 2015 had been studied in vitro, in animal models, and in early stage clinical trials for cardiovascular diseases, as well as neurological deficits, liver diseases, immune system diseases, diabetes, lung injury, kidney injury, and leukemia.
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.
While the transplantation of cord blood has its advantages, its main disadvantage is the limited amount of blood contained within a single umbilical cord. Because of this, cord blood is most often transplanted in children. Physicians are currently trying to determine ways that cord blood can be used in larger patients, such as transferring two cord blood units or increasing the number of cells in vitro before transplanting to the patient. It also takes longer for cord blood cells to engraft. This lengthier period means that the patient is at a higher risk for infection until the transplanted cells engraft. Patients also cannot get additional donations from the same donor if the cells do not engraft or if the patient relapses. If this is the case, an additional cord blood unit or an adult donor may be used. While cord blood is screened for a variety of common genetic diseases, rare genetic diseases that manifest after birth may be passed on. The National Cord Blood Program estimates that the risk of transmitting a rare genetic disorder is approximately 1 in 10,000.
Not surprisingly, this emotional pitch is working — especially because the seemingly unlimited potential of stem cells has dominated the news in recent years. From 2003 to 2004, for example, the number of couples opting to use a private bank increased by 55 percent to 271,000. The three biggest companies — who have the majority of the approximately $250 million market — are vying for business.
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.
Medical staff at the public cord blood bank will check to see if you can donate. If you have had a disease that can be given to another person through blood-forming cells, such as hepatitis B, hepatitis C, or HIV (the AIDS virus), you will likely not be able to donate. However, other medical reasons may still allow you to donate, for example, hepatitis A or diabetes only during your pregnancy (gestational diabetes). The staff at the public cord blood bank will tell you.
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.
The process is safe, painless, easy and FREE. Your physician or midwife collects the cord blood after your baby has delivered, so it does not interfere with the birthing process. The collection will not take place if there is an concern for your safety or that of your baby.
BioInformant is the first and only market research firm to specialize in the stem cell industry. BioInformant research has been cited by major news outlets that include the Wall Street Journal, Nature Biotechnology, Xconomy, and Vogue Magazine. Serving Fortune 500 leaders that include GE Healthcare, Pfizer, and Goldman Sachs. BioInformant is your global leader in stem cell industry data.
CBR was the first family bank accredited by AABB (formerly the American Association of Blood Banks) and the company’s quality standards have been recognized through ISO 9001:2008 certification—the global business standard for quality. The Federal Drug Administration (FDA) has issued cord blood regulations, and the states of California, Illinois, Maryland, New York and New Jersey have mandatory licensing for cord blood banking. The stringent laboratory processes, record keeping, quality control and quality assurance of CBR are designed to meet all federal and state guidelines and regulations.
In New Zealand, a hopeful couple are participating in a study that will use one of their son’s cord blood stem cells to research treatment for another son’s cystic fibrosis. In Chicago, people are using their sibling’s stem cells to successfully treat sickle cell disease. And countless other families have banked their second child’s cord blood after their first child was diagnosed with leukemia. Many of those children are alive and well today thanks to their sibling’s stem cells. Since the first successful cord blood stem cell transplant on a sibling in 1988, over 30,000 cord blood transplants have been performed worldwide.
The parents who make the decision to store their baby’s cord blood and cord tissue are thinking ahead, wanting to do right from the start (even before the start), and taking steps to do whatever they can to protect their baby down the road. Today, many conscientious parents are also considering delayed cord clamping (DCC), a practice in which the umbilical cord is not clamped immediately but rather after it continues to pulse for an average of 30 seconds to 180 seconds. Many parents don’t realize that they can delay the clamping of the cord and still bank their baby’s cord blood. As noted early, our premium processing method, PrepaCyte-CB, is able to capture more immune system cells and reduce the greatest number of red blood cell contaminants. This makes it go hand in hand with delayed cord clamping because it is not as affected by volume, effectively making up for the smaller quantity with a superior quality. You can read more about delayed cord clamping vs. cord blood 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.
Collection hospitals for the NY Blood Center do NOT require advance registration: mothers can give a partial consent to collect the cord blood during labor, and only if the collected cord blood is suitable for transplantation will the mothers will be given additional education and asked for a final banking consent post-delivery.
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.
LifebankUSA seeks mothers in NEW YORK & NEW JERSEY ONLY who will donate both their cord blood and their placenta. The donations support an international registry, clinical trials and research. Donations can be taken from any hospital, but mothers must register at least 8 weeks prior to delivery and pass a health screening.
Carolinas Cord Blood Bank at Duke (CCBB) is headed by Dr. Joanne Kurtzberg. Expectant parents who have a child in need of therapy with cord blood, especially the new therapies in clinical trials at Duke, may be eligible for directed donation through CCBB.
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.
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.
For example, in the UK the NHS Cord Blood Bank has been collecting and banking altruistically donated umbilical cord blood since 1996. The cord blood in public banks like this is stored indefinitely for possible transplant, and is available for any patient that needs this special tissue type. There is no charge to the donor but the blood is not stored specifically for that person or their family.
The University of Texas Health Science Center at Houston is conducting a pioneering FDA-regulated phase I/II clinical trial to compare the safety and effectiveness of two forms of stem cell therapy in children diagnosed with cerebral palsy. The randomized, double-blinded, placebo-controlled study aims to compare the safety and efficacy of an intravenous infusion of autologous cord blood stem cells to bone marrow stem cells.
From high school friend to the love of her life. Read about the real-life adventures of CBR mama Michelle—and why she’s so grateful for her husband and family this Mother’s Day. Read more on #TheCBRBlog blog.cordblood.com/2018/04/one-cb… … pic.twitter.com/EA4E73Rnv8
In addition to the stem cells, researchers are discovering specific uses for the other types of cells in the treatment of certain conditions. Cord blood Treg cells hold potential for preventing graft-versus-host disease in stem cell transplantations and ameliorating the effects of autoimmune diseases such as diabetes, rheumatoid arthritis and multiple sclerosis. Cord blood natural killer cells also hold future potential. These cells have been programmed to target specific cancers and tumors in clinical trials. This could make them exceptionally strong candidates for chronic or treatment-resistant cases of cancer.
Banking of stem cells from cord blood began in 1994 with the foundation of the New York Blood Centre Cord Blood Bank. The field of umbilical cord blood storage has matured considerably over the last two decades. We continue to learn more about the long-term effects of cryo-preservation on the cells, which has resulted in increased storage times.
Stem Cell Storage is not included in their price. Viacord and Cord Blood Registry both charge for annual storage. This means that when you pay for your initial cord blood and/or cord tissue storage you will also have to pay annually for storage.