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Bone Marrow Transplant: A Lifesaving Procedure for Blood Cancer Patients Industry
What is Bone Marrow Transplant?
Located in the cavities at the centers of most bones, bone marrow is like your blood "factory" where new blood cells are created daily to replace old or damaged ones.
Reasons for Bone Marrow Transplant
Hematopoietic stem cell transplantation (HSCT) (BMT)s are performed to replace damaged or diseased bone marrow with healthy bone marrow stem cells. There are several medical conditions that may warrant a Hematopoietic stem cell transplantation (HSCT) (BMT), including:
- Blood cancers like leukemia, lymphoma, and myeloma: Cancer treatments like chemotherapy and radiation can destroy both cancer cells and healthy bone marrow cells. A transplant helps restore the marrow and immune system.
- Bone marrow failure syndromes: Diseases like aplastic anemia, inherited defects like Fanconi anemia, and myelodysplastic syndrome (MDS) impair the bone marrow's ability to produce sufficient new blood cells. A transplant can replace the damaged marrow.
- Immunodeficiencies: Bone Marrow Transplant Primary immune deficiencies, where the immune system is impaired from birth, can sometimes be cured with a Hematopoietic stem cell transplantation (HSCT) (BMT) to replace the defective immune system.
- Sickle cell anemia: While not a cure, transplantation may modify the disease's course or even provide a cure in some people with this inherited blood disorder by changing the abnormal hemoglobin pattern in red cells.
Types of Hematopoietic stem cell transplantation (HSCT) (BMT)s
There are two main types of Hematopoietic stem cell transplantation (HSCT) (BMT)s:
- Autologous transplant: Uses the patient's own stem cells. The cells are harvested before high-dose chemotherapy or radiation to treat cancer, stored, and then reinfused after treatment. This approach avoids complications from donor matching.
- Allogeneic transplant: Uses donor stem cells, usually from a sibling or unrelated donor match identified through a donor registry. This method is used when a patient needs a transplant but does not have healthy bone marrow available. Matching is important to reduce GVHD risk.
The Preparative Regimen
Before the transplant, high-dose chemotherapy or radiation is given to destroy any remaining cancer cells or diseased bone marrow. This creates space in the bone cavity for the new stem cells. It also weakens the immune system so the new donor cells are not rejected. This prep process takes about 2-4 weeks and requires hospitalization due to the intensive treatment. Common side effects include low blood cell counts, mouth sores, and risk of infection.
Post-Transplant Care and Recovery
The donor stem cells are collected from the donor's bone marrow or peripheral blood and infused into the patient's bloodstream, similar to a blood transfusion. The new cells travel to the bone marrow cavity and begin producing healthy new blood cells within 2-6 weeks.
Patients may need transfusions and medicines to help the new marrow establish until it starts making its own blood cells. The hospital stay is usually 4-6 weeks as immune function recovers and engraftment occurs. Proper nutrition, rest and infection prevention are emphasized. Checkups track blood counts and screen for complications over the first year or more of recovery.
Potential Complications
While transplantation aims to cure the primary disease, it carries risks from the high-dose chemo and immune suppression:
- Graft-versus-host disease (GVHD): A frequent complication of allogeneic transplants where the donated immune cells treat the patient's body as foreign and attack healthy tissues. This is less common with HLA-matched sibling donors.
- Infection: Low white blood cell counts raise susceptibility to potentially life-threatening bacterial, viral and fungal infections until the new marrow matures. Important precautions range from isolation to prophylactic antibiotics or anti-virals.
- Organ damage: The high-dose chemo used can cause side effects like kidney or lung damage, although advanced supportive care technologies have improved outcomes.
- Failure of engraftment: Not all transplanted cells may populate the marrow cavity and begin producing new blood cells normally. Additional stem cell infusions may sometimes help establish the new marrow.
- Relapse of underlying disease: While transplantation aims to reset the bone marrow without cancer, some patients experience recurrence of their cancer even after transplant. Other treatment options are then considered.
Outcomes and Survival Rates
With advancements in donor matching, supportive care, and management of complications like GVHD, Hematopoietic stem cell transplantation (HSCT) (BMT)ation success rates have steadily improved over the past decades. Some key points on outcomes:
- For acute leukemias in remission, the 5-year survival may be 50-70% depending on disease and other factors when a well-matched sibling donor is used.
- For high-risk myelodysplastic syndrome, survival averages around 50% at 2 years from an HLA-matched sibling transplant.
- Lymphoma patients having a transplant in remission may have a 5-year survival approaching 80% with an HLA-matched unrelated donor transplant.
- Autologous (self-donor) transplants for diseases like multiple myeloma have shown 5-year survival around 50% and are still being optimized.
- Outcomes vary based on disease indication, disease status pre-transplant, type of donor, degree of matching, and ability to manage complications. Centers with highvolumes have better experience and results overall.
In conclusion, Hematopoietic stem cell transplantation (HSCT) (BMT)ation has evolved into an important treatment option for many blood cancers and other disorders impacting the bone marrow or immune system when the underlying disease cannot otherwise be cured by more conventional therapies. Careful patient selection and advances in supportive care have allowed more patients to benefit from this potentially curative procedure.
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Ravina Pandya, Content Writer, has a strong foothold in the market research industry. She specializes in writing well-researched articles from different industries, including food and beverages, information and technology, healthcare, chemical and materials, etc. (https://www.linkedin.com/in/ravina-pandya-1a3984191)
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