Disease status and prior treatment influence the ability to mobilize PBSC. CD34 cell dose is an important predictor of engraftment kinetics after PBSC transplant, regardless of disease or mobilization technique. The use of postinfusion CSF improves neutrophil recovery, but at low CD34 doses can delay platelet recovery.
Bone marrow transplantation is associated with significant morbidity and mortality, some of which is due to high-dose chemoradiotherapy. In order to quantitate toxicity that was felt to be due to the preparative regimen (termed regimen-related toxicity [RRT]), a system was developed in which toxicities were graded from 0 (none) to 4 (fatal). One hundred ninety-five patients who underwent marrow transplantation for leukemia were studied retrospectively to determine whether toxicities that were clinically felt to be due to the preparative regimen were influenced by other factors such as disease status, graft-versus-host disease (GVHD) prophylaxis, and allogenicity. All patients developed grade I toxicity in at least one organ, and 30 developed grades III-IV (life-threatening or fatal) RRT. RRT was more common in relapsed patients v remission patients (P = .04), in those receiving 15.75 Gy total body irradiation (TBI) v 12.0 Gy TBI (P = .028), and in those receiving allogeneic marrow v autologous marrow (P = .0029). Autologous marrow recipients did not develop grades III-IV toxicity in this study. A multivariate analysis controlling for autologous marrow grafting showed that the dose of TBI was the only statistically significant predictor of grades III-IV RRT. Those patients who developed grade III RRT were unlikely to survive 100 days from transplant, though not all deaths could be attributed to RRT. Patients who developed grade II toxicity in three or more organs were more likely to die within 100 days than those developing grade II toxicity in two or less organs (P = .0027). This system was generally able to distinguish RRT from other toxicities observed in marrow recipients.
Patients successfully treated with a marrow transplant often have concerns about fertility and pregnancy. This study was performed to determine pregnancy outcome among patients who had received high-dose chemotherapy alone or with total-body irradiation (TBI) and marrow transplantation for aplastic anemia or hematologic malignancy. Records of 1,326 postpubertal and 196 prepubertal patients currently more than 12 years of age after marrow transplant in Seattle from August 1971 to January 1992 were reviewed to determine the patients with normal gonadal function and pregnancies. Among 708 postpubertal women, 110 recovered normal ovarian function and 32 became pregnant. In addition, nine formerly prepubertal girls with normal gonadal function became pregnant. Among 618 postpubertal men, 157 recovered testicular function and partners of 33 became pregnant. An additional two formerly prepubertal men had partners who became pregnant. Forty-one female patients and partners of 35 male patients had 146 pregnancies after transplant. All 76 patients responded to a questionnaire requesting pregnancy history, outcome, infant birth weight, and congenital anomalies information for all clinically recognized pregnancies. There were 115 live births among 146 (79%) pregnancies. Spontaneous abortion terminated four of 56 (7%) pregnancies for 28 female cyclophosphamide (CY) recipients and six of 16 (37%) pregnancies for 13 TBI recipients (P = .02). Partners of 28 male CY recipients had four of 62 (6.4%) pregnancies terminate with spontaneous abortion, but there were no spontaneous abortions among eight pregnancies of five TBI recipients' partners. Preterm delivery occurred for eight of 44 (18%) and five of eight (63%) live births for 24 CY and eight TBI female recipients (P = .01). This 25% incidence among all female patient pregnancies is higher than the expected incidence of 8% to 10% (P = .0001). The 13 preterm deliveries resulted in 10 low birth weight ([LBW] 1.8 to 2.24 kg) and three very low birth weight ([VLBW] < or = 1.36 kg) infants, for an overall incidence of 25%, which is higher than the expected incidence of 6.5% for the general population (P = .0001). Twelve of the 13 premature infants survive. Congenital anomalies were seen among two of 52 (3.8%) live-born infants of female and six of 63 (9.5%) live-born infants of male patients, which is not different from the 13% of single congenital anomalies reported for the general population. These data demonstrate that clinically recognized pregnancies among women who have received a marrow transplant incorporating TBI are likely to be accompanied by an increased risk of spontaneous abortion. Pregnancies among all women who received a marrow transplant are likely to be accompanied by preterm labor and delivery of LBW or VLBW babies who do not seem to be at an increased risk of congenital anomalies. However, determination of possible adverse effects of parental exposure to high- dose alkylating agents with or without TBI on children born posttransplant requires longer, additional follow-up.
One hundred ninety-eight patients with chronic myelogenous leukemia received marrow transplants after intensive chemotherapy and total body irradiation. Multivariate analysis showed disease status at time of transplantation to be the most powerful predictor of survival. The probability of long-term survival for allogeneic graft recipients was 49% for 67 patients in the first chronic phase, 58% for 12 in the second chronic phase, 15% for 46 in the accelerated phase, and 14% for 42 in the blastic phase. The major cause of death was interstitial pneumonia for patients in the chronic phase, and relapse for those in the blastic or accelerated phases. Factors favoring survival were early transplantation, age less than 30 years, and absence of severe graft-versus-host disease. Splenectomy or spleen size did not influence survival. For recipients of syngeneic grafts survival probability was 87% for 16 patients in the chronic phase, 27% for 7 in the accelerated phase, and 12% for 8 in the blastic phase. Of the 198 patients, 71 are alive without Philadelphia chromosomes 1 to 9 years after receiving their graft. All but 4 long-term disease-free survivors have Karnofsky performance scores of 80% or better.
One hundred eighty-seven women between 13 and 49 years of age had ovarian function evaluated from 1 to 15 years (median, 4) after marrow transplant for aplastic anemia or leukemia. Among 43 women transplanted for aplastic anemia following 200 mg/kg cyclophosphamide (CY), all 27 less than 26 years of age, but only five of 16 greater than 26 years of age recovered normal ovarian function. Nine of the 43 have had 12 pregnancies, resulting in eight live births, and two elective and two spontaneous abortions. All eight children are normal. Nine of 144 women transplanted for leukemia following 120 mg/kg CY and 9.20 to 15.75 Gy total body irradiation (TBI) recovered ovarian function. Two of these nine have had three pregnancies, resulting in two spontaneous and one elective abortion. The probability of having ovarian failure was 0.35 by 7 years for patients receiving CY alone and was 1.00 at 1 year for patients receiving CY plus TBI (P less than .0001). By 7 years after transplant the probabilities of having normal ovarian function were 0.92 after CY alone and 0.24 after CY plus TBI (P less than .0001). Multivariate analysis showed that TBI was the only factor significantly influencing ovarian failure and that both TBI and greater patient age at transplant were significantly associated with a decreased probability of recovering normal ovarian function. These data demonstrate that after high-dose CY, recovery of ovarian function occurs in younger women and in a minority of older women, but after CY and TBI, recovery occurs in only a few younger women and none of the older women.
Summary:Between 1985 and 1998, 161 patients with primary acute myeloid leukemia (AML) received T-replete bone marrow transplantation (BMT) from unrelated donors in Seattle. Median age was 30 (range 1-55) years. Conditioning for BMT consisted of cyclophosphamide and total body irradiation in 154 (96%) cases and graftversus-host disease prophylaxis was the standard methotrexate and cyclosporine combination in 134 (83%) cases. Median post-transplant follow-up was 2.9 years. Leukemia-free survival (LFS) at 5 years was 50 ؎ 12% for transplants during first complete remission (n = 16), 28 ؎ 8% during second CR (n = 40), 27 ؎ 17% during subsequent CR (n = 8), 7 ؎ 3% during relapse (n = 81) and 19 ؎ 10% during primary induction failure (n = 16). The cumulative incidences of relapse were 19%, 23%, 25%, 44% and 63%, for the five groups, respectively. Transplantation during remission, a marrow cell dose above 3.5 ؋ 10 8 /kg, and cytomegalovirus seronegative status before BMT in both patient and donor were favorable prognostic factors. Adults in any CR who received a marrow cell dose above 3.5 ؋ 10 8 /mg had a LFS of 54 ؎ 9% at 5 years. These data extend our previous findings on the association between a high marrow cell dose and improved survival and support the use of unrelated donor BMT for treatment of patients with high risk AML when a family match is not available. Bone Marrow Transplantation (2000) 26, 397-404.
A randomized trial of 12.0 Gy versus 15.75 Gy of total body irradiation (TBI) was performed in patients with acute myeloid leukemia undergoing allogeneic marrow transplantation while in first complete remission. All patients received 120 mg/kg cyclophosphamide followed by TBI and marrow from HLA-identical siblings. Cyclosporine and methotrexate were used for prophylaxis against acute graft-versus-host disease (GVHD). Thirty-four patients received 2.0-Gy fractions of irradiation daily for 6 days and 37 received 2.25-Gy fractions daily for 7 days. The 3-year actuarial probabilities for relapse-free survival were 0.58 for the patients who received 12.0 Gy and 0.59 for those who received 15.75 Gy. The 3-year probabilities of relapse were 0.35 for the 12.0 Gy group and 0.12 for the 15.75 Gy group (P = .06). The 3-year probabilities of transplant-related mortality were 0.12 and 0.32, respectively (P = .04). The probability of moderate to severe acute GVHD was 0.21 for the 12.0 Gy group and 0.48 for the 15.75 Gy group (P = .02). Patients exposed to the higher irradiation dose received less immunoprophylaxis against, and had a higher incidence of, acute GVHD. The increased dose of TBI significantly reduced the probability of relapse but did not improve survival because of increased mortality from causes other than relapse.
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