Risk factors in interstitial pneumonitis following allogenic bone marrow transplantation

Total body irradiation is part of the preparatory regimen for allogeneic bone marrow transplantation because of its cytotoxic and immunosuppressive properties. A major toxicity of bone marrow transplantation has been interstitial pneumonitis, which may be, in part, related to the lung irradiation. One hundred and sixty-one consecutive patients receiving allogeneic bone marrow transplantation for leukemia and aplastic anemia at Johns Hopkins Hospital (1968-1979) were retrospectively studied. The present study demonstrated that lung shielding to 600 rad maximum in single dose total body irradiation, fractionation of total body irradiation in comparison to single dose total body irradiation, and absence of graft versus host disease in the leukemia patients, each reduced the risk of interstitial pneumonitis. Total body irradiation significantly reduced the leukemia recurrence rate and/or the failure of remission induction.     

Hyperfractionated total body irradiation for bone marrow transplantation. Results in seventy leukemia patients with allogeneic transplants

From May, 1979 to March, 1981, 76 leukemia patients were prepared for bone marrow transplantation (BMT) with a new hyperfractionated total body irradiation (TBI) regimen (1320 cGy in 11 fractions, 3x/day), followed by cyclophosphamide, 60 mg/kg, for two days. Partial lung shielding was done on each treatment, with supplemental electron beam treatments of the chest wall to compensate, and of the testes, a sanctuary site. This regimen was initiated to potentially reduce fatal interstitial pneumonitis as well as decrease leukemic relapse. These patients were analyzed in May, 1982, for a minimum follow-up of 14 months. Overall actuarial survival at 1 year for acute non-lymphocytic leukemia (ANLL) patients is 63%, while relapse-free survival at 1 year is 53%. For those ANLL patients who underwent BMT while in remission (first, second, and third combined), relapse-free survival is 61% at 1 year compared with 40% for those patients who had their BMT at the time of relapse (greater than or equal to 10% blasts in marrow). On the other hand, for acute lymphocytic leukemia (ALL) patients, there is no significant difference between relapse or remission patients with regard to overall survival or relapse-free survival, when relapse is defined as greater than 5% blasts in the marrow at the time of cytoreduction. Overall actuarial survival at 1 year for ALL is 61% and relapse-free survival is 45% at 1 year. Patients with ALL who had their BMT cytoreduction at the time of relapse have a survival equal to that of our remission patients, and greater than that of patients in relapse cytoreduced with a single dose as reported by others. However, patients with greater than or equal to 10% blasts have not fared as well, having only a 22% 1 year relapse-free survival compared with a 68% 1 year relapse-free survival for patients with less than 10% blasts. Fatal interstitial pneumonitis has dropped to 18% compared with 50% in our previous single-dose TBI regimen (1000 cGy), in which the same doses of cyclophosphamide were given prior to TBI. In conclusion, not only has fatal interstitial pneumonitis been reduced by hyperfractionation and partial lung blocking, but there may be a survival advantage in ALL patients in relapse, who have a survival equal to that of remission patients. This may indicate a greater cell kill with the higher dose (1320 cGy) attained with this regimen, in these patients with a higher leukemic cell burden.     

Comparison of two total body irradiation regimens in allogeneic bone marrow transplantation for acute non-lymphoblastic leukemia in first remission

Between November 1976 and December 1987, 84 patients with newly diagnosed acute non-lymphoblastic leukemia who had achieved complete remission underwent non T-cell depleted allogeneic bone marrow transplantation from Human Leukocyte Antigen-Mixed Lymphocyte Culture (HLA-MLC) matched sibling donors. The first 36 patients (November 1976-June 1983) were prepared with cyclophosphamide, 60 mg/kg/day, IV for 2 days and single fraction total body irradiation with 750 cGy at a dose rate of 26 cGy/minute (Group I). The next 48 patients (July 1983-December 1987) were prepared with similar chemotherapy, but received hyperfractionated total body irradiation with total 1320 cGy, 165 cGy twice a day at a dose rate of 10 cGy/minute (Group II). Patient characteristics between these two groups are similar except for the significantly older age distribution in Group II. Median follow-up of Groups I and II are 8 years and 11 months and 2 years and 3 months, respectively. The Kaplan-Meier relapse-free survival, survival, and relapse rates at 3 years are 56, 58, and 19% in Group I and 69 (p = 0.22), 77 (p = 0.07), and 10% (p = 0.37) in Group II. There is no difference in the incidence of interstitial pneumonitis, viral or idiopathic, engraftment rate, or incidence of graft versus host disease (GVHD) between these two groups. The fractionated total body irradiation treated group had significantly less nausea and vomiting. Multivariate analysis shows that total body irradiation regimen is not a significant factor in regard to relapse rate, relapse-free survival, and survival.     

Influence of the fractionation of total body irradiation on complications and relapse rate for chronic myelogenous leukemia. The Groupe d'Etude des greffes de moelle osseuse (GEGMO)

One hundred eighty patients with chronic myelogenous leukemia, who received an unmanipulated marrow graft from an Human Leucocyte Antigen identical sibling donor, were reported to our group (G.E.G.M.O.) by 21 transplant teams. All were grafted after a total body irradiation-cytoxan conditioning regimen. Of these 180 patients, 126 were non-randomly assigned to single dose total body irradiation (STBI group) and, 54 to fractionated total body irradiation (FTBI group). With a median follow-up of 40 months, there is no statistically significant difference in the 5-year survival rate between the two groups (51% for the whole population). In a first step we demonstrate by multivariate analysis that total body irradiation fractionation can dramatically decrease the incidence of interstitial pneumonitis. However, a multivariate analysis of potent risk factors for relapse post-transplant strongly suggests that TBI fractionation is also linked to an increased relapse rate. So, a sparing effect of fractionation for lung tissue could be offset by a less effective leukemic stem cell kill. Those results from a retrospective, non-randomized, multi-institutional study clearly need additional clinical data, ideally from a randomized study.     

Total body irradiation in bone marrow transplantation: fractionated vs single dose. Acute toxicity and preliminary results

The usefulness of total body irradiation (TBI) plus chemotherapy as a preparative regimen prior to bone marrow transplantation has been widely documented. However, the procedure can be highly toxic. Fractionated and low dose rate TBI has been said to enhance therapeutic ratio by increasing normal tissue tolerance and increasing leukemic cell kill. We report here the acute toxic effects and preliminary results on 2 consecutively groups of patients, treated with bone marrow transplantation (BMT) for leukemia or multiple myeloma, and conditioned by 2 TBI regimens. Group A patients received 10 Gy-Co-60 single dose of TBI plus 120 mg/kg of cyclophosphamide over a period of 2 days (8 Gy lungs). Group B received 12 Gy Co-60 of TBI in 6 fractions (2/day), (8 Gy lungs) plus 120 mg/kg of cyclophosphamide over a period of 3 days. The acute toxic effects recorded were similar in both groups. Only a 40% vs 0% (P = 0.02) incidence of parotiditis in groups A and B favors fractionation. Other results obtained to date are as follows: an incidence of interstitial pneumonitis of 39% and 31% (ns); relapses of 10% and 20% (ns), and mortality of 55% and 60% for each group respectively. An interesting finding was that IP was associated with acute grade II-IV graft vs host disease in 87% and 100% of cases of group A and B, respectively. We conclude that fractionated TBI is at least as effective as single dose TBI as a conditioning regimen; however, only randomized trials would allow definitive conclusions.     

Allogeneic marrow transplantation for acute lymphoblastic leukemia in remission using fractionated total body irradiation

Twelve patients with acute lymphoblastic leukemia in second to fourth remission received allogeneic marrow transplants following preparation with cyclophosphamide, 120 mg/kg and 1400 rad of fractionated total body irradiation. Two patients died of interstitial pneumonitis 32 and 62 days post-transplantation. Six patients relapsed between days 59 and 659 and four died of leukemia-related problems. Two patients who relapsed are currently alive, one in remission and one in relapse. Four patients are alive and free of disease 657 to 991 days following transplantation. This disease-free survival was not significantly better than the six of 22 disease-free survivors previously observed following cyclophosphamide and 1000 rad of total body irradiation given in a single exposure.     

Interstitial pneumonitis following total body irradiation for bone marrow transplantation using two different dose rates

A total of 22 patients with leukemia (10 ALL, 11 AML, 1 CML) have undergone allogeneic bone marrow transplantation (BMT) by the Quebec Co-operative Group for Marrow Transplantation from 1980 to 1982. All patients received 900 cGy total body irradiation (TBI), in a single fraction, on the day preceding BMT. The first 11 patients were treated on a cobalt unit at a constant dose rate of 4.7 to 6.3 cGy/min. Six of these patients developed interstitial pneumonitis (IP). The clinical course of three patients, two with idiopathic and one with drug-induced pneumonitis, was mild and recovery was complete in all. The other three patients developed severe infectious IP and two died. The next 11 patients were treated with a sweeping beam technique on a 4 MV linear accelerator delivering a total tumor dose of 900 cGy at an average dose rate of 6.0 to 6.5 cGy/min but an instantaneous dose rate of 21.0 to 23.5 cGy/min. Eight patients developed severe IP. Five of these were idiopathic and four died. Three were infectious and all died. The fatality of interstitial pneumonitis appeared to be greater in the group treated with the sweeping beam technique.     

Effectiveness of high-dose MCNU therapy and hematopoietic stem cell autografts treatment of childhood acute leukemia/lymphoma with high-risk features.

Clinical and pharmacokinetic studies were performed regarding the toxicity of methyl 6-[3-(2-chloroethyl)-3-nitrosoureido]-6-deoxy-alpha-D-glucopyranoside (MCNU) with other drugs, in conjunction with a peripheral blood stem cell autograft (PBSCT), for treating 26 children with acute leukemia or lymphoma associated with high-risk features. In the early phase of the study, MCNU (300 to 500 mg/m2) was administered with cytosine arabinoside (Ara-C) (1.6 to 16 g/m2), etoposide (VP-16) (0.8 to 1.6 g/m2), cyclophosphamide (CY) (100 to 200 mg/kg), or busulfan (16 mg/kg). No acute toxicity was noticed after this high-dose therapy. The dose-limiting factor of the regimens was significant but reversible interstitial pneumonitis (IP). In a subsequent trial with an MCNU/VP-16/Ara-C/CY (MCVAC) regimen in which the dose of MCNU was reduced, the risk of IP diminished. This study is still in progress, but the clinical response has so far been encouraging. Fifteen of 26 children are alive and well in unmaintained complete remission (CR) with a median follow-up period of 11 months (range, 3 to 34 months) after transplantation. This MCNU-based regimen without total body irradiation (TBI) is especially important in children to avoid the serious sequelae of irradiation. Our results justify a broader clinical trial to evaluate the effects of the MCVAC regimen followed by PBSCT.     

Interstitial pneumonitis following autologous bone-marrow transplantation conditioned with cyclophosphamide and total-body irradiation

PURPOSE: To assess the influence of different total-body irradiation (TBI) regimens on interstitial pneumonitis (IP), we retrospectively analyzed our clinical data concerning an homogeneous group of patients conditioned with cyclophosphamide (CY) alone and single-dose or fractionated TBI before autologous bone-marrow transplantation (ABMT). METHODS AND MATERIALS: One hundred eighty-six patients with acute nonlymphoblastic leukemia (n = 101), acute lymphoblastic leukemia (n = 62), chronic myeloid leukemia (n = 11), non-Hodgkin's lymphoma (n = 10), and multiple myeloma (n = 2) referred to our department between May 13, 1981 and September 16, 1992, underwent TBI before ABMT. The male-to-female ratio was 123:63 (1.95), and mean and median age was 33 +/- 12 (6-63 years) and 35 years, respectively. Cyclophosphamide alone (60 mg/kg/day on each of 2 successive days) was used as conditioning chemotherapy in all patients. Patients were irradiated according to two techniques: either with single-dose (STBI) (n = 124; 10 Gy administered to the midplane at the level of L4, and 8 Gy to the lungs) or with fractionated (FTBI) (n = 62; 12 Gy in 6 fractions over 3 consecutive days to the midplane at the level of L4, and 9 Gy to the lungs) TBI. The mean instantaneous dose rate was 0.057 +/- 0.0246 Gy/min (0.0264-0.1692 Gy/min). It was < or = 0.048 Gy/min in 48 patients (LOW group), > 0.048 and < or = 0.09 Gy/min in 129 patients (MEDIUM group), and > 0.09 Gy/min in 9 patients (HIGH group). The median follow-up period was 5 years (24-120 months). RESULTS: In January 1994, the 5-year overall (including all causes of death) and disease-free survival (DFS) rates were 50 and 48%, respectively. The 5-year DFS was 47.9% in the STBI group, and 47.8% in the FTBI group (p = 0.77). It was 44% in the HIGH group, 53% in the MEDIUM group, and 34% in the LOW group (LOW vs. MEDIUM, p = 0.009). The 5-year IP incidence was 17% in all patients, 16% in the STBI group and 18% in the FTBI group (p = 0.37), but it was significantly higher in patients receiving high instantaneous dose rate TBI (56% in the HIGH, 13% in the MEDIUM, 20% in the LOW groups; HIGH vs. MEDIUM, p = 0.002). However, sex (p = 0.37), age (18% for > 20 vs. 10% for < or = 20 years, p = 0.37), and body weight (> 60 kg vs. < or = 60 kg, p = 0.09) did not influence the IP incidence in univariate analyses. Multivariate analysis (Cox model) revealed that the instantaneous dose rate (p = 0.05), and the age (p = 0.04) were the two independent factors influencing the incidence of IP. CONCLUSION: This retrospective study including only the patients transplanted with ABMT conditioned with CY alone and STBI or FTBI concluded that instantaneous dose rate and age significantly influenced the incidence of IP, whereas sex, body weight, and fractionation did not.     

Interstitial pneumonitis following bone marrow transplantation after low dose rate total body irradiation

Idiopathic and infective interstitial pneumonitis (IPn) is a common complication after bone marrow transplantation (BMT) in many centers and carries a high mortality. We report here a series of 107 patients with acute leukemia grafted at the Royal Marsden Hospital in which only 11 (10.3%) developed IPn and only 5 died (5%). Only one case of idiopathic IPn was seen. Factors which may account for this low incidence are discussed. Sixty of 107 patients were transplanted in first remission of acute myeloid leukemia (AML) and were therefore in good general condition. Lung radiation doses were carefully monitored and doses of 10.5 Gy were not exceeded except in a group of 16 patients in whom a study of escalating doses of TBI (up to 13 Gy) was undertaken. The dose rate used for total body irradiation (TBI) was lower than that used in other centers and as demonstrated elsewhere by ourselves and others, reduction of dose rate to less than 0.05 Gy/min may be expected to lead to substantial reduction in lung damage. Threshold doses of approximately 8 Gy for IPn have been reported, but within the dose range of 8 to 10.5 Gy we suggest that dose rate may significantly affect the incidence. Data so far available suggest a true improvement in therapeutic ratio for low dose rate single fraction TBI compared with high dose rate.     

Comparison of Different Conditioning Regimens in Allogeneic Hematopoietic Stem-Cell Transplantation Shows Superiority of Total Body Irradiation–Based Regimen for Younger Patients With Acute Leukemia: A Nationwide Study

BackgroundThe optimal the conditioning regimens for allogeneic hematopoietic stem-cell transplantation, especially for East Asian patients, remains unknown.Patients and MethodsWe collected and analyzed clinical and survival data of 4255 patients from the Korean National Health Insurance Claims Database.ResultsBetween 1562 myeloablative conditioning and 2693 nonmyeloablative conditioning groups, the overall survival was not statistically different. However, in the myeloablative conditioning group, the overall survival of the total body irradiation–based regimen was better than that of chemotherapy-alone regimen (P = .005). In subgroup analysis, the superiority of the total body irradiation–based regimen was especially prominent in acute leukemia (P = .012 for acute myeloid leukemia; P = .005 for acute lymphoblastic leukemia) and for younger patients (< 50 years old vs. ≥ 50 years old, P = .015).ConclusionTotal body irradiation combination might be the best conditioning regimen for young patients undergoing hematopoietic stem-cell transplantation for acute leukemias in Korea.     

Allogeneic marrow transplantation for acute non-lymphoblastic leukemia in relapse using fractionated total body irradiation

Twenty-three patients with acute non-lymphoblastic leukemia in relapse were treated with cyclophosphamide, fractionated total body irradiation (200 rad/day for six days) and allogeneic marrow transplantation. Six patients are alive in remission 756–1306 days following transplantation. One patient died of infection on day 17 without evidence of engraftment; all others achieved sustained engraftment. Eight patients died of recurrent leukemia, four of interstitial pneumonitis, two of infection, one of veno-occlusive disease of the liver and one of cardiac failure. The median survival time was 181 days.     

Magna-field irradiation: Work in progress in bone marrow transplantation at the princess margaret hospital,Toronto

Our work with total body irradiation (TBI) for acute leukemia in relapse dates from 1959. Following reports of the Seattle experience, we treated a small number of patients in remission-lowering the.dose to 500 rad given at 50 rad/min, based in part on our experience with radiation pneumonitis complicating upper HBI. We have treated 51 patients since duly 1979, with an actuarial survival of 65% overall, and 85% for patients 35 years-old or less. A specially designed cobalt-60 unit is used, which allows very large fields and high exposure rates. Dose is calculated at midplane and a homogeneity of ±5 % obtained.     

Role of radiation therapy to the brain in leukemic patients with cranial nerve palsies in the absence of radiological findings

The value of brain radiotherapy for leukemic patients with cranial nerve palsies in the absence of radiological evidence of leukemic infiltration is not well defined. This retrospective study was undertaken to evaluate the effectiveness of brain irradiation in reversing the cranial nerve palsies in leukemic patients with no radiological evidence of intracranial leukemic infiltration. Records of leukemic patients who received brain radiotherapy between June 1980 and December 1993 were reviewed. Criteria for inclusion were 1) no evidence of intracranial leukemic infiltration by computed axial tomography (CT) or magnetic resonance imaging scan (MRI), 2) no evidence of leukemic infiltration on ophthalmologic examination, and 3) no previous radiotherapy to the brain. Actuarial survival rates were calculated using the Kaplan-Meier method. Pearson's chi-squared test was used to compare responses. Twenty-eight patients met these criteria. The median age was 38 years (range 3-75 years): Seventeen patients had acute lymphoblastic leukemia, nine had acute myelogenous leukemia, and two had chronic myelogenous leukemia. Four patients had initial presentation with leukemia, and 24 presented with relapse. Twenty-six patients had cerebrospinal fluid cytology that was positive for leukemic cells. Fifteen patients had involvement of more than one cranial nerve, and nine had bilateral involvement. The most commonly involved nerves were the facial (n = 18), oculomotor (n = 9), and abducens nerves (n = 8). Twenty-six patients received whole-brain radiotherapy. Two received radiation to the base of the skull only. The median radiation dose was 24 Gy (range 16-30 Gy) at 2-3 Gy per fraction. Every patient had either concomitant intrathecal (n = 6) or systemic (n = 5) chemotherapy or both (n = 17) with radiation. Fourteen patients had complete reversal of the cranial nerve deficit, eight had partial recovery, and four had no response or progression of the disease. The response was unknown in two patients. Factors associated with complete response were unilateral versus bilateral involvement (72% vs. 13%, P = 0.005) and single versus multiple nerve involvement (75% vs. 36%, P = 0.045). In conclusion, radiation therapy to whole brain was effective in reversing cranial nerve deficits from leukemia, although the leukemic infiltration may not be visualized by CT or MRI. No dose-response relationship was observed in the range we examined.     

Long-term outcome after static intensity-modulated total body radiotherapy using compensators stratified by pediatric and adult cohorts

PURPOSE: To report the long-term outcome after total body irradiation with intensity-modulating compensators and allogeneic/autologous transplantation, especially in terms of therapy-related toxicity in pediatric and adult cohorts. METHODS AND MATERIALS: A total of 257 consecutive patients (40 children and 217 adults) have been treated since 1983 with TBI using static intensity-modulated radiotherapy for hematologic malignancies. The total dose of 12 Gy was applied in six fractions within 3 days before allogeneic (n = 174) or autologous (n = 83) transplantation. The median follow-up was 9.2 years. RESULTS: The 5-year overall survival rate was 47.9% (49.8% for the adults and 37.5% for the children, p = 0.171). The 5-year tumor-related mortality rate was 23%, and the 5-year treatment-related mortality rate 29.2% (29.5% in the adults and 27.5% in the pediatric patients). Interstitial pneumonitis developed in 28 (10.9%) of 257 patients and in 12.5% of the pediatric cohort. The interstitial pneumonitis rate was 25% in pediatric patients treated with a 12-Gy lung dose compared with 4.2% for those treated to an 11-Gy lung dose. The overall survival rate stratified by lung dose was 26.7% for 12 Gy and 52.4% for 11 Gy (p = 0.001). The incidence of veno-occlusive disease and cataract was 5.8% and 6.6% in all patients and 12.5% and 15% in the pediatric patients, respectively (p < 0.05). Secondary malignancies were found in 4.3% of all patients, all in the adult cohort at transplantation. CONCLUSION: Static intensity-modulated total body irradiation with a total dose of 12 Gy before allogeneic/autologous transplantation is a successful treatment with good long-term outcome and acceptable therapy-related toxicities. Constraining the lung dose to 11 Gy substantially lowered the actuarial treatment-related mortality. This effect was especially striking in the pediatric patients.     

Total body irradiation and pneumonitis risk: a review of outcomes

A review was undertaken of all patients treated at Royal Adelaide Hospital, South Australia with total body irradiation (TBI) for the purpose of assessing the incidence of interstitial pneumonitis (IP) and possible prognostic factors for its development. The aim was also to assess the impact of IP and other prognostic factors on long-term survival outcome following bone marrow transplantation. A total of 84 patients received TBI, with 12 Gy in six fractions delivered using two different instantaneous dose rates of 7.5 and 15 cGy min(-1). This series included 26 cases of acute lymphoblastic leukaemia, 26 of multiple myeloma and 15 of acute myelogenous leukaemia. On multivariate analysis, a higher dose rate was independently significant for an increased risk of IP.     

Myeloablative vs nonmyeloablative allogeneic transplantation for patients with myelodysplastic syndrome or acute myelogenous leukemia with multilineage dysplasia: a retrospective analysis.

Transplant outcome was analyzed in 150 patients with myelodysplastic syndrome (MDS) or acute myelogenous leukemia transformed from MDS (tAML) conditioned with nonmyeloablative or myeloablative regimens. A total of 38 patients received nonmyeloablative regimens of 2 Gy total body irradiation alone (n=2) or with fludarabine (n=36), 90mg/m2. A total of 112 patients received a myeloablative regimen of busulfan, 16mg/ kg (targeted to 800-900 ng/ml), and cyclophosphamide 120 mg/ kg. Nonmyeloablative patients were older (median age 62 vs 52 years, P<0.001), more frequently had progressed to tAML (53 vs 31%, P=0.06), had higher risk disease by the International Prognostic Scoring System (53 vs 30%, P=0.004), had higher transplant specific comorbidity indices (68 vs 42%, P=0.01) and more frequently had durable complete responses to induction chemotherapy (58 vs 14%). Three-year overall survival (27%/48% (P=0.56)), progression-free survival (28%/4 44%, (P=0.60)), and nonrelapse mortality (41%/34%, (P=0.94)) did not differ significantly between nonmyeloblative/myeloablative conditioning. Overall (HR=0.9, P=0.84) and progression-free survivals (HR=1, P=0.93) were similar for patients with chemotherapy-induced remissions irrespective of conditioning intensity. Graft vs leukemia effects may be more important than conditioning intensity in preventing progression in patients in chemotherapy-induced remissions at the time of transplantation. Randomized prospective studies are needed to further address the optimal choice of transplant conditioning intensity in myeloid neoplasms.     

Interstitial pneumonitis in acute leukemia patients submitted to t-depleted matched and mismatched bone marrow transplantation

Purpose: To identify factors that could contribute to interstitial pneumonitis (IP), which remains one of the major causes of morbidity and mortality after both matched and mismatched bone marrow transplantation (BMT).Methods and Patients: Ninety acute leukemia patients received an allogeneic T-depleted matched (n = 54) or mismatched (n = 36) BMT. They were preconditioned with total body irradiation (TBI), thiotepa, rabbit anti-thymocyte globulin, and cyclophosphamide. The TBI scheme was hyperfractionated in matched, and a single dose in mismatched patients. The dose to the lungs was reduced in both groups.Results: Five of the 54 matched patients developed IP. All cases were fatal. There were 16 cases of IP, 13 fatal, in the mismatched group. The probability of developing IP was 11.3 ± 4.9% and 48.6 ± 9.0%, respectively. The between-group difference was statistically significant (p < 0.0001). The type of transplant and the TBI scheme were the most important parameters for IP development in univariate analysis, whereas acute graft-versus-host disease, disease stage and sex were nonsignificant. Median follow-up was 342 days (range 17–2900).Conclusions: The low incidence of IP in matched patients and the lack of idiopathic cases are evidence for the validity of the TBI schedule. In contrast, the incidence in mismatched patients remains too high; therefore, new strategies should be studied in an attempt to lower it.     

Single dose versus hyperfractionated total body irradiation before allogeneic bone marrow transplantation: a non-randomized comparative study of 54 patients at the Institut Gustave-Roussy

At the Institut Gustave-Roussy (IGR), from January 1982 to December 1986, 54 patients received total body irradiation (TBI) as a part of the conditioning regimen before allogeneic bone marrow transplantation. The patients were non-randomly assigned to either single dose TBI (STBI) (31 patients receiving 10 Gy at a 4.5 cGy/min dose rate, 8 Gy to the lungs) or to a hyperfractionated scheme (HTBI) (23 patients receiving 13.2 Gy in 11 fractions, 3 fractions per day, 9 Gy to the lungs). Relapse rate and overall survival were not significantly different in the two STBI and HTBI groups, in spite of a larger number of 2nd and 3rd remission patients in the HTBI subset. The incidence of interstitial pneumonitis (IP) was significantly reduced in the HTBI group (13%, versus 45% after STBI, p = 0.02). Lethality by IP was also lower after HTBI (4%, versus 26% after STBI, p = 0.08). There was no case of veno-occlusive disease of the liver in the HTBI group, whereas three cases were observed after STBI. Based on these results, the IGR activated, in January 1987, a randomized trial comparing the single dose 10 Gy TBI (8 Gy to the lung) to a new hyperfractionated schedule (11 fractions of 1.35 Gy, 3 fractions per day, 9 Gy to the lungs).     

局限期小细胞肺癌三维适形放疗及同步化疗的临床研究

目的 观察三维适形放疗(3DCRT)同步化疗对局限期小细胞肺癌(LSCLC)的疗效及毒副反应.方法 93例LSCLC患者随机分为3DCRT组(46例)和常规组(47例),均先顺铂+足叶乙甙或卡铂+足叶乙甙方案化疗1周期,再同步放化疗,然后继续化疗,共4-6周期.达完全缓解者给予脑预防照射30 Gy分10次.常规组按常规设野,3DCRT组只包括原发灶、转移淋巴结及邻近一站淋巴引流区.放疗2 Gy/次,5次/周,共60～64 Gy.结果 3DCRT组和常规组随访率分别为100%和100%,随访时间满1、2、3年者分别为36和34、16和14、7和8例.3DCRT组和常规组完全缓解率分别为52%和47%,有效率分别为89%和85%(χ~2=0.34,P=0.759).3DCRT组和常规组1、2,3年生存率分别为78%和72%、35%和30%、15%和17%(χ~2=0.18,P=0.92),中位生存期分别为23.2和22.8个月.三维适形放疗组1+2级早期放射性肺和食管反应、1+2、3级晚期放射性肺损伤均轻于常规放疗组,两组均无3、4级早期肺和食管反应,以及4级晚期肺损伤;1+2、3、4级急性骨髓抑制两组相似.结论 3DCRT同步化疗用于LSCLC治疗可获得满意的近、远期疗效,毒副反应小,有较高的临床可行性.