cord blood preservation | can you use fsa for cord blood banking

Ballen K., Broxmeyer H. E., McCullough J., Piaciabello W., Rebulla P., Verfaillie C. M., & Wagner J. E. (2001). Current status of cord blood banking and transplantation in the United States and Europe. Biology of Blood and Marrow Transplantation, 7(12), 635–645 [PubMed]
Research on stem cell transplants began in the 1950s, with successful bone marrow transplants occurring in the 1970s, often to treat cancer patients whose own bone marrow was destroyed by chemotherapy and radiation. The first successful umbilical cord blood stem cell transplant was reported as occurring in the late 1980s. The recipient was a 6-year-old American boy from North Carolina who was treated for Fanconi’s anemia (a genetic disorder) at Hospital St. Louis in Paris, France, using cord blood obtained from his younger sister’s birth. Interestingly, more than 20 years after the transplant, this young man is alive and well. Not only did he survive long term, but both his immune system and his blood were transformed by the transplant of his sister’s cord blood stem cells. Soon after this first documented cord blood stem cell transplant, the first public umbilical cord blood bank was established in 1991 in New York (McGuckin & Forraz, 2008).
Donating your baby’s cord blood to a public bank is always free. The limitations of the public banking network in the United States are: they only collect donations at large birthing hospitals in ethnically diverse communities, the mother must pass a health screening, they prefer registration by 34 weeks of pregnancy, and they only save the largest cord blood collections. The potential reward of public donation is that your baby could Be The Match to save a life!
Americord offers parents the ability to collect stem cells from the placenta and umbilical cord soon after the child’s birth. These stem cells, obtained from cord blood, cord tissue and placenta tissue, can be used to help treat genetic diseases and other threats to the baby’s life. Placenta tissue stem cells can also be used to benefit the mother.
Some brochures advertising private cord blood banking show children with cerebral palsy, a neurological disorder, who were treated with their own stem cells. In the case of Cord Blood Registry, the company lists all stem cell transplants conducted at Duke University. In a list of individuals treated in their “stem cell therapy data” cerebral palsy is listed. However, transplants were part of an early research study and studies of efficacy are just now underway.
Jaing TH, Hung IJ, Yang CP, Chen SH, Sun CF, Chow R. Rapid and complete donor chimerism after unrelated mismatched cord blood transplantation in 5 children with beta-thalassemia major. Biol Blood Marrow Transplant.2005;11 :349– 353
Osteopetrosis is a genetic disease, so this means that doctors could use a sibling’s cord blood cells to treat Anthony, but they cannot use his own cells because the disease is in every cell in his body. In fact, a majority of the diseases listed in private banking firms’ marketing material as treatable with stem cells are genetic diseases.
A few years ago, cord blood was simply discarded as medical waste after a birth.  However, in the past few years, doctors have recognized that the stem cells have unique qualities which can be used in the treatment of certain cancers.  The most common medical use is for transplantation in many situations where bone marrow is considered.  In the future, it is possible that scientists will discover more diseases that can be cured with cord blood.
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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.
Cord tissue use is still in early research stages, and there is no guarantee that treatments using cord tissue will be available in the future. Cord tissue is stored whole. Additional processing prior to use will be required to extract and prepare any of the multiple cell types from cryopreserved cord tissue. Cbr Systems, Inc.’s activities for New York State residents are limited to collection of umbilical cord tissue and long-term storage of umbilical cord–derived stem cells. Cbr Systems, Inc.’s possession of a New York State license for such collection and long-term storage does not indicate approval or endorsement of possible future uses or future suitability of these cells.
For much of pregnancy, the umbilical cord is the lifeline of a fetus, tethering it to the placenta. Snaking through the nearly 2-feet-long cord, there’s a vein ferrying nutrients and oxygen from mom’s blood (via the placenta), plus two arteries carrying oxygen- and nutrient-depleted blood from the fetus back to mom. Because mother’s blood and fetal blood don’t actually mix much, the blood in the placenta and umbilical cord at birth belongs mainly to the fetus.
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.
Tracey Dones of Hicksville, N.Y., paid to bank her son Anthony’s cord blood. But four months after he was born, Anthony was diagnosed with osteopetrosis, a rare disease that causes the body to produce excess bone, leads to blindness, and can be fatal if left untreated.
Researchers continue to investigate new applications of stem cells. Ballen (2006) reported on studies examining the use of stem cells for treating autoimmune diseases, such as lupus, systemic sclerosis, and multiple sclerosis. Gunning (2007) reported on stem cell research for regenerative uses for heart attacks, stroke, spinal cord injury, diabetes, liver injury, and even traumatic brain injury. However, Gunning also noted that these regenerative uses for stem cells are purely in the research stage and, so far, no tangible evidence supports any clinical uses beyond the diseases that are currently being treated.
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.
CBR’s lab stores over 700,000 cord blood and cord tissue stem cell units. As a result of our size, we are able to continuously invest in clinical trials, product innovation, and our lab and storage facility. We own our state-of-the-art facility. And, we continually invest in quality and security. This means our families will always have access to their stem cells.
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.
The FDA regulates cord blood bank operations with strict guidelines. However, additional licenses maybe required in some states. Laboratories should also be AABB accredited. The AABB promotes the highest standards of care for both patients and donors in all aspects of blood banking, transfusion medicine, relationship testing, hematopoietic, cord blood and other cellular therapies.
Parents have the option to privately store their newborn’s cord blood stem cells. There are now over a dozen private cord blood banks, and more open every year. Some have their own labs, while others contract with a lab. Cord blood stem cell banking is not a regulated industry; there are no certifications or licensing requirements to open a cord blood bank. Several banks are accredited by the American Association of Blood Banks. Please keep in mind there is a big difference between being accredited by the AABB and being a member of the AABB. To be accredited, the lab must follow strict standards and be inspected by the association.





In 1988, a 5-year-old named Matthew with a rare type of anemia received umbilical cord blood cells from his newborn sister, who didn’t have the disease. That transfer, called an umbilical cord blood transplant, worked, and the boy was soon free of the disease.
The main purpose of a cord blood company is to store umbilical cord blood for families in case they need to access it for future use. Cord blood from a baby is stored because it has the potential to help treat blood or immune system diseases. There are both private and public cord blood companies, sometimes referred to as cord blood banks.
As a result of these advances, it is not unreasonable to hope that cord blood may eventually be used to treat a wider variety of auto-immune and degenerative diseases than is currently being done. If so, (and there are solid indications by researchers that this indeed is the case), it makes perfect sense to consider private cord blood banking.
Anak S, Saribeyoglu ET, Bilgen H, et al. Allogeneic versus autologous versus peripheral stem cell transplantation in CR1 pediatric AML patients: a single center experience. Pediatr Blood Cancer.2005;44 :654– 659
The stem cells obtained from umbilical cord blood are also less likely than bone marrow stem cells to be rejected in transplants. Considered to be immunologically immature, umbilical cord blood stem cells produce significantly fewer natural killer cells, creating a substantial decrease in rejection. Consequently, cord blood stem cells require less rigorous antigen tissue matching for transplants than bone marrow stem cells (Sullivan, 2008). Research indicates that a mismatch of up to two antigen sites still provides successful clinical outcomes (Ballen, 2006; Fox et al., 2007). In fact, researchers report that the rate of rejection for cord blood stem cell transplants is half the rate of rejection for bone marrow transplants (Ballen et al., 2001). When compared directly in cases of mismatched antigens, there was clearly less rejection in transplants involving cord blood stem cells than bone marrow stem cells (Moise, 2005).
Over 95% of newborns’ cord blood stem cells fall into this category. It is unfortunate that public banking is not readably available and private banking is so expensive. Some industry leaders believe that as the industry grows, banking or donating cord blood will be as common as it is uncommon today.
Cord blood is extracted from a newborn’s umbilical cord immediately after birth. It contains stem cells, which can be used to treat hemotopoietic and genetic disorders, like certain blood or immune diseases.
Childbirth educators may be one of the first resources that an expectant family turns to in order to gain more knowledge to make an informed decision about collecting umbilical cord blood in the birthing process. Therefore, the childbirth educator should be well versed on the topic, so that as questions from class participants arise, the multiple facets of umbilical cord blood banking can be explored.
Refer-a-friend program: The New England Cord Blood Bank gives families $100 for each friend they refer to the company, so customers have further incentive to choose the company for storage and processing.
Anyway, the excitement over the embryonic cells comes from their remarkable ability, as biological blank slates, to become virtually any of the body’s cell types. Many observers believe the president’s move will accelerate the hunt for cures for some of our most vexing diseases. However, the benefits are largely hypothetical, given the infancy of the field, and are offset by some real obstacles: The risks of embryonic stem cells, as well as cells programmed to become like them, including the possibility they will actually cause cancers in people who receive them. Nonetheless, here’s a look at 10 health problems that stem cells might someday cure or at least help treat.
Harvesting and banking cord blood is a fairly simple procedure that can be performed during vaginal or cesarian deliveries without interrupting the birth process.  The doctor or nurse will collect the cord blood after the umbilical cord has been clamped.  The collection of cord blood is not painful, intrusive or risky to the mother or baby.
As a trusted resource for families, CBR offers Genetic Counselors on staff to help families make informed choices about newborn stem cell banking. Our team of certified professionals are available to:
The evolution from pluripotent stem cells down to blood stem cells is currently poorly understood. The latest indication is that, under the right conditions, stem cells in cord blood can be teased to grow into other types of tissue besides blood. This would open up an entirely new realm of potential treatment through the use of stem cells.
There are three types of umbilical cord blood banks: private, public, and direct-donation banks. The private bank is a commercial, for-profit entity that often advertises directly to expectant parents. These banks are designed for the sole use of the families who have saved the cord blood. Private banks charge an initial fee for collection and processing and, then, a yearly fee to maintain the specimen. Another fee is often charged when a sample is removed for testing or treatment (Moise, 2005).
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.

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