Frequently Asked Questions

A: There are many cancers that can benefit from this sort of treatment, such as leukemia, lymphoma, multiple myeloma and neuroblastoma. 

A: Nearly 500 people have been diagnosed with a hematological cancer in Qatar in the last three years. We believe we will have approximately 80 candidate patients each year. 

A: The difference in a bone marrow transplant and a stem cell transplant is simply the location from which the stem cells are taken. For example, blood stem cells can be found in the bone marrow and in the circulating blood. A bone marrow transplant involves "harvesting" the stem cells from the bone marrow. Stem cell transplants involve "harvesting" stem cells from the circulating blood. 

A: We have a state-of-the-art unit in the National Center for Cancer Care and Research for bone marrow/HSCT transplant patients. It has been built to be bespoke for the needs of these patients. During the treatment process the patient can be very susceptible to infections due to a compromised immune system. The unit includes five single, positively pressurized isolation HEPA filtered rooms to keep patients free from the risk of infection. There is a team of highly specialized healthcare professionals working on the Unit to support patients. 

A: Currently the program is looking after patients 14 years old and over. We do plan to develop a pediatric program but it will require the development of a different set of protocols and policies. We do, however, have staff who are specialists in pediatric bone marrow/stem cell transplant and who will be integral to the pediatric program’s development. 

A: Currently the program being operated at the National Center for Cancer Care and Research is for autologous and allogeneic transplants. We are developing an unrelated donor registry in Qatar.

A: In an allogeneic transplant, the patient receives bone marrow or peripheral blood stem cells from another person - usually a sibling, but sometimes an unrelated donor. This is different from an autologous transplant in which some of the patient's own marrow or peripheral blood stem cells are removed, treated and then given back.

A: In a bone marrow transplant, some marrow (about 5 percent) is “harvested” from the donor’s hip bone in an operating room under general anesthesia. These cells are pooled, processed and transfused into the patient.

Peripheral stem cells, on the other hand, can be taken from the blood circulating in the body after the donor is injected with a growth factor called Granulocyte Colony Stimulating Factor (G-CSF). This medication stimulates the donor's bone marrow to produce excess quantities of stem cells which are released into the circulating blood. The donor's blood is drawn and a special blood processing system concentrates the stem cells. These cells are transfused into the patient. The donor experiences no surgical pain.

A peripheral blood stem cell transplant generally provides more stem cells and results in a more rapid recovery of white blood cells and platelets. However, it may be associated with a higher risk of chronic graft vs. host disease.

A: Some of the diseases for which bone marrow/peripheral blood stem cell transplant may be used are: acute leukemia, chronic leukemia, Hodgkin’s lymphoma, Non-Hodgkin's lymphoma, multiple myeloma, myelodysplastic syndromes, aplastic anemia, thalassemia, and sickle cell anemia.

A: Potential patients are carefully evaluated to determine if transplant is the best treatment option. Some of the criteria considered are age, overall medical status, type and stage of disease, and disease progression. Your transplant team will thoroughly discuss all of the risks and benefits with you and your family.

A: Anyone whose tissue antigens - HLA antigens (Human Leukocyte Antigens) match yours - and who is otherwise healthy, can be a donor. But finding that person can be a challenge. There may be a match in your own family (siblings or, less likely, a parent or child may share your genetic make-up). If a match is not found within your family, a search could begin within the general population through donor registries. Patients who cannot have HLA-matched family donor and could not find a matched unrelated donor could be given transplantation from a partially matched family donor. Your transplant coordinator can give you more information about the search process.

A: For a peripheral blood stem cell transplant, a related donor comes to the hospital the day of the transplant. Through a process called apheresis, the donor's blood is removed through a vein in the arm or through a catheter inserted into a large vein in the neck or chest area. The blood is circulated through special machine that collects the stem cells. The blood is then returned to donor and the stem cells are stored. Apheresis typically takes 4 to 5 hours to complete. The collected stem cells are processed and are transplanted to the patient.

For a bone marrow transplant, bone marrow will be collected from the donor under general anesthesia in an operating room. Approximately one liter (two pints) of bone marrow will be removed from the hip bones in the back through multiple aspirations. The procedure lasts about 90 minutes.

A: After entering the bloodstream, the transplanted cells travel to the bone marrow, where they begin to produce new white blood cells, red blood cells and platelets. This process is called "engraftment." It may take 10 to16 days for engraftment to occur after transplantation. Doctors monitor whether new blood cells are being produced by checking blood counts daily. Periodic bone marrow aspirations (the removal of a small sample of bone marrow through a needle for examination under a microscope) can also help doctors determine if engraftment has been successful.

A: Due to increased use of haploidentical transplants worldwide, the use of cord blood as alternative source of stem cells in adult patients significantly decreased. Therefore we are planning to use haploidentical transplants for patients who have neither matched related nor unrelated donor. However, in pediatric patients cord blood is still used frequently.