Bone Marrow Donor Procedure 

Updated: Sep 15, 2017
  • Author: Seema N Varma, MD; Chief Editor: Mary C Mancini, MD, PhD, MMM  more...
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Background

The history of stem cell transplant goes back as early as 1939, when the first documented clinical transplant was performed. In 1968, the first successful allogenic stem cell transplant was made possible followed by series of achievements in 1970s and 1980s. Dr E D Thomas won the Nobel Prize in Medicine and Physiology in 1990 for his revolutionary work in the field. Now, treatment of a number of diseases is possible through stem cell transplantation. [1]

An image depicting bone marrow donor typing procedures can be seen below.

A buccal swab can be used for human leukocyte anti A buccal swab can be used for human leukocyte antigen (HLA) typing of bone marrow donors. Buccal swabs are typically obtained at the time of bone marrow registry enrollment for all potential donors.
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Diseases Treated With Stem Cell Transplantation

Malignant diseases treated with stem cell transplantation include the following:

Nonmalignant diseases treated with stem cell transplantation include the following:

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Donor Lymphocyte Infusion

Donor lymphocyte infusion (DLI) has a significant role in relapsed patients with chronic myelogenous leukemia (CML) after stem cell transplant. The mechanism is considered to be the action of T-lymphocytes against the tumor cells. [2] Because the same mechanism is involved in graft-versus-host disease (GVHD), the incidence of GVHD could be as high as 60% in these patients. DLI has an established role in relapses of the following conditions:

  • Chronic myeloid leukemia
  • Multiple myeloma
  • Acute myeloblastic leukemia
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Source of Stem Cells

For human stem cell transplant, stem cells can be collected from various sources, which include the following:

  • Marrow
  • Blood
  • Umbilical cord blood during delivery

Bone marrow is the traditional source of stem cells for both autologous and homologous transplants. The success of collection of mobilized stem cells from peripheral blood was a milestone in the history of transplant. A number of clinical trials have proved the superiority of this method over collection from the bone marrow. [3, 4]

Pilot studies of autologous stem cell transplantation using peripheral blood have demonstrated rapid engraftment with this technique. With the infusion of 5 million CD34+ cells, the recovery time for platelets to a target of 20,000/μL is possible within 2 weeks.

The incidence of acute graft-versus-host disease (GVHD) is similar with the two methods. However, because of higher number of T cells infused in cases of peripheral blood as a source, the incidence of chronic GVHD is higher.

Overall survival and disease-free survival are slightly better in cases of peripheral blood.

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Donor Selection

The eligibility criteria for a stem cell donor are essentially the same as for blood donation. Donors are screened for transmittable diseases such as HIV, hepatitis, West Nile virus, syphilis, and human T-lymphotropic virus (HTLV). However, certain donors with these diseases may still be considered for donation on a case-to-case basis. Because of potential risk for transmission of cancers, age-appropriated screening is also recommended by most societies. [5, 6]

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Collection of Stem Cells From Bone Marrow

Anesthesia

Most bone marrow donor procedures are performed under general anesthesia. Although local anesthesia can be used, the use of lidocaine at multiple puncture sites may pose serious cardiovascular risks. Spinal or epidural anesthesia is another option but may not provide adequate analgesia in most cases.

Accordingly, all donors should be evaluated for the possibility of general anesthesia during the donation process. This should include inquiry about neck pain or any other cervical spine problems. Patients with cardiovascular or pulmonary problems require complete evaluation by an anesthesiologist before the procedure.

Procedure

The procedure is performed with the patient in lateral or prone position. The posterior iliac spine is the preferred site for the collection (see the image below). Other possible sites include the anterior iliac spine and the sternum, but the proximity to vital structures necessitates extreme caution during the procedure.

Bone marrow stem cells are aspirated from the post Bone marrow stem cells are aspirated from the posterior superior iliac spine.

After administration of appropriate anesthesia, the site is marked. Using a large-bore needle, marrow is drawn into syringes. The procedure has to be repeated on multiple sites, so careful spacing of the puncture sites is required. The usual volume required is 10-15 mL/kg of the recipient’s weight, which equates to less than 1000 mL in the case of an average-weight person. In cases of an autologous transplant patient previously treated with chemotherapy, a larger quantity of marrow is needed.

Complications

Most potential complications are related to anesthesia risks. Spinal or epidural anesthesia may result in loss of vascular tone in the lower extremities, which may exacerbate hypotension during collection. The possibility of hemorrhage or infection at the puncture sites exists. Most donors need volume resuscitation during the procedure in the form of colloids or blood. The need for homologous blood products can be avoided by the use of preharvest blood storage.

Most people are able to return to work in a day or 2, whereas the median recovery time for donors is 15.8 days, according to one published report. [7]

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Collection of Stem Cells From Peripheral Circulation

With the recognition that blood stem cells circulate in the peripheral blood, methods have been developed to collect and harvest them from the peripheral circulation. The use of granulocyte macrophage colony-stimulating factor (GM-CSF)/granulocyte colony-stimulating factor (G-CSF) and rapid assessment of the quality of the specimen have facilitated the use of peripheral blood stem cells (PBSCs) as the preferred method. [8] Also, it has the advantage of rapid engraftment of stem cells in the recipient.

Preparation

G-CSF is the most common cytokine used for the mobilization of stem cells. The recommended dosage is 10 µg/kg of body weight per day. [9] After the administration of G-CSF, the number of stem cells in peripheral circulation increases, reaching a maximum at day 5. Although the total white blood cell (WBC) count continues to increase even after day 5, the CD34+ cells yield becomes progressively lower.

A minimum of 2 × 106 CD34+ cells/kg of recipient’s body weight is considered an acceptable dose for infusion. The recovery of platelets is affected the most with doses lower than that. The CD34+ cell content is measured by fluorescent activated cell-sorting.

Mobilization with G-CSF alone is usually sufficient to achieve sufficient CD34+ cell content. Exceptions are the patients treated previously with chemotherapy or radiation therapy who are going for autologous stem cell transplantation. In those cases, a second agent is required, like AMD3100, in addition to G-CSF for preparation.

Procedure

Apheresis requires establishment of good venous access. Many people require a central venous catheter if no large peripheral veins can be found. The typical triple-lumen catheters are not suitable for apheresis, because of their smaller lumen size. The catheters appropriate for apheresis are similar to the dialysis catheters that are designed to prevent collapse and local recirculation of the blood.

Citrate is added to prevent clumping of the cells in the extracorporeal circuit. It binds calcium ions and may manifest with signs of hypocalcemia during the procedure. The patient should be watched for symptoms such as perioral numbness and paresthesias, and the procedure should be stopped until the resolution of symptoms. Slowing of the blood flow rate through the machine also decreases the risk of citrate toxicity. The benefit of oral or IV calcium supplementation is unclear.

Large-volume leukapheresis involves the processing of more than two to three times the patient’s blood volume and is used for donors with lower CD34+ blood levels or for donors who need the procedure to be completed within a limited number of sessions. Processing of larger volumes poses greater risks of citrate toxicity and thrombocytopenia. The platelet count may continue to decrease for several days even after the procedure.

Complications

The most common side effect after the administration of G-CSF is musculoskeletal pain, which can be relieved by the usual over-the-counter pain medications. Long-term serious complications are rare and are a matter of debate among the transplant community. A theoretical risk of leukemia in healthy volunteers exists. The US National Marrow Donor Program has maintained an observation cohort of volunteers after the donation. At a maximum follow-up duration of 9 years, no increased incidence of leukemia or lymphoma exists in this cohort compared to the general population. [10]

Exacerbation of autoimmune diseases has also been observed after the drug. Other serious but rare complications include splenic rupture, myocardial infarction, and ophthalmic complications.

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Devices and Medications

Continuous flow devices include the following:

  • Fenwal CS3000
  • COBE Spectra
  • Fresenius AS104
  • Spectra Optia® continuous mononuclear cell (CMNC apheresis) system [4]

Discontinuous flow devices include the following:

  • Haemonetics family of equipment

Medications for stem cell mobilization include the following:

  • Filgrastim
  • Macrophage colony-stimulating factor (M-CSF)
  • Erythropoietin
  • Interleukin-3
  • Granulocyte-macrophage colony-stimulating factor (GM-CSF)
  • AMD3100
  • Stem cell factor (SCF)
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