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Throughout the last few years, cord blood banking has turned out to be one of the most viable and commendable medical advancements. Wondering what is cord blood? Well, this is the blood extracted from the baby’s umbilical cord. The entire procedure, during which the blood is extracted, turns out to be painless and safe both for the child and the mother. On top of that, the baby, his family members, and many other individuals can enjoy high health benefits from the procedure of cord blood banking. So simply read along to know better about cord blood storage as well as overall cord blood banking procedures.
Cord blood–banking recruitment practices should be developed with an awareness of the possible emotional vulnerability of pregnant women and their families and friends. Efforts should be made to minimize the effect of this vulnerability on cord blood–banking decisions.
Our annual storage fee is due every year on the birth date of the child and covers the cost of storage until the following birthday. The fee is the same $150 for both our standard and our premium cord blood services. The annual cord tissue storage fee is an additional $150.
Another important disadvantage that is not well understood by the general public is the limited use of an infant’s own umbilical cord blood stem cells later in life, called an autologous transplant. Commercial cord blood banks often advertise the banking of the infant’s cord blood as “biologic insurance.” However, the chance that a child would be able to use his or her own cord blood is extremely small: from a 1:400 to a 1:200,000 chance over the child’s lifetime (Sullivan, 2008). In fact, there are certain instances in which the use of one’s own umbilical cord blood is contraindicated, as in cases when the defect is of a genetic origin. For example, autologous cord blood stem cells cannot be used to treat malignant cancers such as leukemia because the genetic mutations for the cancer already exist on the DNA of the cord blood. Using one’s own stem cells would be, in effect, “contaminating” oneself with the same disease process (Percer, 2009).
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.
After the baby is delivered, according to the procedures of cord blood banking, the umbilical cord is initially clamped and then cut out in the natural and usual manner. Here, the procedure for clamping and cutting remains the same for vaginal deliveries and c-section deliveries. However, while convening the procedure, make sure to get it done under the supervision of a competent and efficient professional.
Targeted efforts should be made to recruit underserved minorities (black, Hispanic, American Indian/Alaska Native individuals) in public cord blood–banking programs to extend to them potential treatments afforded other segments of society.
Fox N. S., Stevens C., Cuibotariu R., Rubinstein P., McCullough L. B., & Chervenak F. A. (2007). Umbilical cord blood collection: Do patients really understand? Journal of Perinatal Medicine, 35, 314–321 [PubMed]
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.
Quite simply, cord blood is the remaining blood from your baby’s umbilical cord and placenta after birth. Cord blood is loaded with our “stem cells” which are origins of the body’s immune and blood system and maybe the origin of other organs and important systems in the body. Stem cells are important because they have the ability to regenerate into other types of cells in the body.
Information in this guide is general in nature and is intended for informational purposes only; it is not legal, health, investment or tax advice. ConsumerAffairs.com makes no representation as to the accuracy of the information provided and assumes no liability for any damages or loss arising from its use.
Currently, cord blood stem cells have been approved by the FDA in the treatment nearly 80 diseases. In addition to these approved regenerative therapies, there are close to 350 clinical trials underway investigating the use of umbilical cord blood and umbilical cord tissue for stem cell transplantation, and this number promises to steadily increase. Cord blood stem cells are approved for numerous types of malignancies, anemias, inherited metabolic disorders and deficiencies of the immune system. The majority of cord blood transplants to date have been performed in patients younger than 18 years; however, advancements in regenerative medicine show promise for all ages. See all the diseases currently being treated.
Publicly banking your baby’s cord blood is a wonderful gift. Unfortunately, however, your chance of donating your baby’s cord blood is very low due to the regional and financial constraints of public cord blood banks. It is estimated that cord blood from less than 3% of all U.S. births can be collected and stored by the public banks. We support any efforts to increase the resources available for public banking.
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.
* Cbr Systems, Inc.’s activities for New York State residents are limited to collection of umbilical cord t style=”list-style-type: initial;”issue 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.
Private cord blood banks usually charge an enrolment and collection fee ranging from about $775 to $2,150, plus annual storage fees ranging from about $85 to $150. Some banks include the first year’s storage as part of your initial payment and lower your annual payment if you put down more money initially.
8. Arthritis. Also called degenerative joint disease, osteoarthritis—the most common form of arthritis—results when protective cartilage in joints wastes away. Once it’s gone, it’s gone for good. Stem cells could change that. Scientists are examining how best to use them to rebuild lost cartilage and repair shot joints.
In recent years, umbilical cord blood has been used successfully to treat a variety of pediatric genetic, hematologic and oncologic disorders. This advance has resulted in both not-for-profit and for-profit cord blood banking programs. The AAP’s statement is intended to help guide physicians in answering parents’ questions about cord blood banking.
The most obvious argument against is that the odds of needing cord blood for medical treatment is very, very slim. Below is a news release on a policy published in the July,1999 issue of Pediatrics, the peer-reviewed scientific journal of the American Academy of Pediatrics (AAP):
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.
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.
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.
Umbilical cord blood units are made available for research studies intended to improve patient outcomes, as stated in the Stem Cell Therapeutic and Research Act of 2005, Public Law 109-129, and the Stem Cell Therapeutic and Research Reauthorization Act of 2010, Public Law 111-264.
Although cord blood is currently considered discarded human material, it should only be collected for banking with an institutional review board–approved protocol and with signed informed consent from a parent.42,43 Pertinent donor information communicated to the cord blood bank should be kept confidential by the cord blood bank and used only to report important medical information obtained during the cord blood collection, processing, and screening process that is relevant to the safety of the donor and family. If cord blood was collected from a newborn who subsequently developed a genetic, immunologic, or malignant neoplastic disorder, parents should notify the cord blood bank so that the unit is not used for transplantation. All cord blood units banked for potential use should be tested for infectious diseases, similar to those tested in a blood bank, and for hereditary hematologic diseases. The informed consent must contain information pertaining to what tests are to be performed on the cord blood and how the parents will be informed if test results are abnormal. Pediatricians should be aware that legal cases relating to the duty of a physician to warn parents about the risks of inheriting a genetic disease are new and untested. Pediatricians should remain vigilant, because future cases may define who has a legal duty to notify parents about genetic abnormalities identified during cord blood testing. Informed consent should be obtained before the onset of active labor and before cord blood collection.
Currently, ViaCord has released the most cord blood units for medical transplant and has the highest cord blood transplant survival rate among companies who have disclosed complete transplant data. The one-year survival rate of patients who were treated with ViaCord cord blood units is 88%, and the long-term patient survival rate is 82%.1
Several of these groundbreaking trials only use cord blood stem cells processed by Cord Blood Registry as a way of ensuring consistent quality. That means, saving with Cord Blood Registry gives families access to more uses and treatments.
Professionals affiliated with institutions or organizations that promote for-profit placental blood stem cell banking should make annual financial-disclosure and potential-conflicts-of-interest statements to an appropriate institutional review committee that possesses oversight authority.
9. Sickle cell anemia. Stem cell researchers are exploring ways to correct numerous blood disorders, including sickle cell anemia. Mice have been cured of the sometimes-deadly condition after receiving transfusions of stem cells made from their own skin cells.
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 cord blood cell recovery data reported by CBR and others is consistently higher than the published, available data of other processing methods including PrepaCyte® and Hespan, when combined with CPD.
Cord blood specimens for non-clinical scientific research studies are also available through the Cord Blood Transplantation (COBLT) Study, funded by the National Heart Lung and Blood Institute (NHLBI)
Cord blood donation should be encouraged when the cord blood is stored in a bank for public use. Parents should recognize that genetic (eg, chromosomal abnormalities) and infectious disease testing is performed on the cord blood and that if abnormalities are identified, they will be notified. Parents should also be informed that the cord blood banked in a public program may not be accessible for future private use.