Percutaneous autologous bone-marrow grafting for nonunions. Surgical technique.

BACKGROUND: Bone marrow aspirated from the iliac crest contains progenitor cells that can be used to obtain bone-healing of nonunions. However, there is little available information regarding the number and concentration of these cells that are necessary to obtain bone repair. The purpose of this study was to evaluate the number and concentration of progenitor cells that were transplanted for the treatment of nonunion, the callus volume obtained after the transplantation, and the clinical healing rate. METHODS: Marrow was aspirated from both anterior iliac crests, concentrated on a cell separator, and then injected into sixty noninfected atrophic nonunions of the tibia. Each nonunion received a relatively constant volume of 20 cm(3) of concentrated bone marrow. The number of progenitor cells that was transplanted was estimated by counting the fibroblast colony-forming units. The volume of mineralized bone formation was determined by comparing preoperative computerized tomography scans with scans performed four months following the injection. RESULTS: The aspirates contained an average (and standard deviation) of 612 +/- 134 progenitors/cm(3) (range, 12 to 1224 progenitors/cm(3)) before concentration and an average of 2579 +/- 1121 progenitors/cm(3) (range, 60 to 6120 progenitors/cm(3)) after concentration. An average total of 51 x 10(3) fibroblast colony-forming units was injected into each nonunion. Bone union was obtained in fifty-three patients, and the bone marrow that had been injected into the nonunions of those patients contained >1500 progenitors/cm(3) and an average total of 54,962 +/- 17,431 progenitors. The concentration (634 +/- 187 progenitors/cm(3)) and the total number (19,324 +/- 6843) of progenitors injected into the nonunion sites of the seven patients in whom bone union was not obtained were both significantly lower (p = 0.001 and p < 0.01, respectively) than those in the patients who obtained bone union. The volume of the mineralized callus measured at four months on the computerized tomography scans of the patients who had union ranged from 0.8 to 5.3 cm(3) (mean, 3.1 cm(3)). There was a positive correlation between the volume of mineralized callus at four months and the number (p = 0.04) and concentration (p = 0.01) of fibroblast colony-forming units in the graft. There was a negative correlation between the time needed to obtain union and the concentration of fibroblast colony-forming units in the graft (p = 0.04). CONCLUSIONS: Percutaneous autologous bone-marrow grafting is an effective and safe method for the treatment of an atrophic tibial diaphyseal nonunion. However, its efficacy appears to be related to the number of progenitors in the graft, and the number of progenitors available in bone marrow aspirated from the iliac crest appears to be less than optimal in the absence of concentration.

[The "forgotten ones of reperfusion" in acute myocardial infarction: lessons from the ESTIM Limousin registry]. / Les "oubliés de la reperfusion" dans l'infarctus du myocarde aigu. Leçons du registre ESTIM limousin.

The management of acute coronary syndrome (ACS) with ST elevation in daily practice does not always comply with the official guidelines. In effect, many patients do not benefit from coronary recanalisation despite being eligible. They could be described as the 'reperfusion forgotten ones'. The Limousin ESTIM study allowed us to evaluate their numbers and characteristics between 2001 and 2003. Between 1 June 2001 and 31 December 2003, 958 patients with ST+ ACS were managed within 24 hours. Among this cohort, 47% of patients did not benefit from reperfusion treatment with fibrinolysis or angioplasty. In spite of early management, the rate of non-reperfusion was significant: 30% before the third hour, and 50% between 3 and 6 hours. With univariate and multivariate analysis, the predictive features for non-reperfusion were age, length of time between onset of pain and presentation, type of admission route, absence of a call to the emergency ambulance service, and the characteristics of the ECG tracing. These data have prompted education and training, adapted for specific regions. Despite some significant improvements, the rate of non-perfusion in 2004 still remains 35% in the first 24 hours, comparable with figures in the recent literature. Being aware of this problem, taking specific action and continued evaluation with surveys like this remain important.

Percutaneous autologous bone-marrow grafting for nonunions. Influence of the number and concentration of progenitor cells.

BACKGROUND: Bone marrow aspirated from the iliac crest contains progenitor cells that can be used to obtain bone-healing of nonunions. However, there is little available information regarding the number and concentration of these cells that are necessary to obtain bone repair. The purpose of this study was to evaluate the number and concentration of progenitor cells that were transplanted for the treatment of nonunion, the callus volume obtained after the transplantation, and the clinical healing rate. METHODS: Marrow was aspirated from both anterior iliac crests, concentrated on a cell separator, and then injected into sixty noninfected atrophic nonunions of the tibia. Each nonunion received a relatively constant volume of 20 cm(3) of concentrated bone marrow. The number of progenitor cells that was transplanted was estimated by counting the fibroblast colony-forming units. The volume of mineralized bone formation was determined by comparing preoperative computerized tomography scans with scans performed four months following the injection. RESULTS: The aspirates contained an average (and standard deviation) of 612 +/- 134 progenitors/cm(3) (range, 12 to 1224 progenitors/cm(3)) before concentration and an average of 2579 +/- 1121 progenitors/cm(3) (range, 60 to 6120 progenitors/cm(3)) after concentration. An average total of 51 x 10(3) fibroblast colony-forming units was injected into each nonunion. Bone union was obtained in fifty-three patients, and the bone marrow that had been injected into the nonunions of those patients contained >1500 progenitors/cm(3) and an average total of 54,962 +/- 17,431 progenitors. The concentration (634 +/- 187 progenitors/cm(3)) and the total number (19,324 +/- 6843) of progenitors injected into the nonunion sites of the seven patients in whom bone union was not obtained were both significantly lower (p = 0.001 and p < 0.01, respectively) than those in the patients who obtained bone union. The volume of the mineralized callus measured at four months on the computerized tomography scans of the patients who had union ranged from 0.8 to 5.3 cm(3) (mean, 3.1 cm(3)). There was a positive correlation between the volume of mineralized callus at four months and the number (p = 0.04) and concentration (p = 0.01) of fibroblast colony-forming units in the graft. There was a negative correlation between the time needed to obtain union and the concentration of fibroblast colony-forming units in the graft (p = 0.04). CONCLUSIONS: Percutaneous autologous bone-marrow grafting is an effective and safe method for the treatment of an atrophic tibial diaphyseal nonunion. However, its efficacy appears to be related to the number of progenitors in the graft, and the number of progenitors available in bone marrow aspirated from the iliac crest appears to be less than optimal in the absence of concentration.

Efficiency of in vivo purging with rituximab prior to autologous peripheral blood progenitor cell transplantation in B-cell non-Hodgkin's lymphoma: a single institution study.

BACKGROUND: Rituximab induces clinical response in advanced B-cell lymphoma and is efficient in removing circulating B-cell from peripheral blood. We therefore postulated that rituximab might be a useful in vivo purging agent before high-dose therapy in this setting. PATIENTS AND METHODS: Fourteen patients with relapsed follicular, marginal zone and mantle cell lymphomas (11, two and one cases, respectively) and a PCR-detectable molecular marker were treated first with rituximab, then a mobilization chemotherapeutic regimen, followed by high-dose therapy with peripheral blood stem cell transplantation. PCR analyses were performed in peripheral blood before rituximab and during follow-up, and in harvest. RESULTS: Harvests were free of PCR-detectable molecular marker in nine of the 11 studied cases (82%). After high-dose therapy, clinical complete remission was obtained in 13 (93%) patients and molecular remission in 11 (79%). With a median follow-up of 3 years, the 14 transplanted patients were alive, 11 of them remaining in clinical complete remission and eight in molecular remission at last follow-up. CONCLUSION: Rituximab treatment followed by high dose therapy appears to be effective in achieving complete clinical and molecular response. In vivo harvest purging is predictive of prolonged clinical and molecular remission.

In vitro generation of cytotoxic effectors activated by interleukin 2 (IL-2): comparison of autologous peripheral blood stem cells (PBSC) from adults and children.

Previous studies demonstrated that ex vivo IL-2- activated PBSC could generate cytotoxic effectors without impairing haematopoietic reconstitution. Clinical experience and previous studies indicated that children with solid tumours could benefit from high-dose chemotherapy with immune modulation. We studied the generation of cytotoxic effectors from growth-factor +/- chemotherapy-mobilised PBSC from 10 patients (five adults and five children) with different solid tumours. Cells were placed in culture in serum-free culture medium supplemented with IL-2 1000 U/ml +/- IL-12 for 1, 2, 4 or 7 days. Anti-tumour cytotoxicity was tested against K562, Daudi and two neuroblastoma cell lines (Gau, NB91). Cultured adult PBSC in the presence of IL-2 (1000 U/ml) showed marked cytotoxicity against all the cell lines tested from day 1. At day 2, with an E:T ratio of 25:1, cytotoxicity was 53% +/- 10.4, 63.2% +/- 23.8, 38% +/- 9.1, and 39% +/- 15.7 against K562, Daudi, Gau and NB91, respectively. Cytotoxic activity of child PBSC was significantly lower (P < 0.05) and was displayed after longer culture times (day 4). No difference was found in the phenotype analysis of lymphoid subsets before and after IL-2 activation between adult and child PBSC. Haematological properties of the graft were not significantly impaired by IL-2 activation.

Efficient ex vivo expansion of NOD/SCID-repopulating cells with lympho-myeloid potential in hematopoietic grafts of children with solid tumors.

INTRODUCTION: The ex vivo expansion of hematopoietic grafts could be an important therapeutic tool for accelerating hematopoietic recovery after administration of high-dose chemotherapy regimens. The fate of the long-term repopulating cells during the ex vivo manipulation of grafts is a critical issue and will ultimately define the clinical applicability of this technology to hematopoietic transplantation. MATERIALS AND METHODS: To study the effects of a clinically applicable ex vivo expansion protocol in the proliferative potential of the most primitive human hematopoietic cells, both LTC-IC and NOD/SCID-RC assays were used to determine LTC-IC and NOD/SCID-RC contents of hematopoietic grafts, both before and after expansion (SCF, IL-3, PEG-MGDF Flt3-L and 5% AB serum), in four children with non-hematological malignancies. RESULTS: The mean percentage of CD34+ cells after expansion was 16%. The numbers of nucleated cells increased 20-fold with a mean three-fold increase in the numbers of CD34+ cells during the expansion period. The CFC content of the samples showed a mean 11-fold increase (range: 5-17) after ex vivo expansion. The primitive hematopoietic stem cell content of the expanded cell fraction evaluated by LTC-IC assays was found to be increased in two patients out of three, with maintenance of the LTC-IC frequency in the third patient. The NOD/SCID-RC potential, evaluated in five experiments from four patients using 109 mice injected 5-6 weeks earlier with human hematopoietic cells, increased from a mean percentage of 36% (range: 7-75%) before expansion, to a mean percentage of 70% (range: 37-100%) after expansion (P < 0.00001). The frequency of NOD/SCID-RC calculated with pooled data from all patients was 1/80,000 at day 0 and 1/40,000 after seven days of culture. The full phenotypic analysis of human hematopoietic cells obtained in NOD/SCID mice injected with expanded cells showed the presence of significant numbers of CD34+, CD19+ and CD15+ cells, suggesting the persistent lympho-myeloid potential of the expanded hematopoietic cells. CONCLUSION: Our results suggest that efficient expansion of NOD/SCID-RC with lympho-myeloid potential can be achieved not only in cord blood or normal marrow as previously reported, but also in hematopoietic grafts obtained from children exposed to high-dose chemotherapy.

Tandem autotransplant as first-line consolidative treatment in poor-risk aggressive lymphoma: a pilot study of 36 patients.

PURPOSE: In the previous LNH87-2 study, consolidative high-dose therapy followed by stem cell transplantation (HDT) improved disease-free survival, as well as survival for patients (pts) presenting with two or three factors of the age-adjusted international prognostic index (Aa-IPI) in first complete remission (CR). In order to improve further the outcome of such patients, we conducted a pilot study of consolidative tandem autotranplant. PATIENTS AND METHODS: Thirty-six patients (pts) under 60 years of age with two or three factors of the Aa-IPI were enrolled. Their main characteristics were: diffuse large B-cell lymphoma (83%), Aa-IPI three factors (50%), and marrow involved (36)%. The procedure consisted of 1) induction with four cycles of ACVBP (doxorubicin, cyclophosphamide, vindesine, bleomycin, prednisone) 2) in responding pts, peripheral blood stem cell (PBSC) collection after the fourth cycle of ACVBP (11 pts) or after an additional mobilization regimen (Cyclophosphamide-VP16) (17 pts) 3) a first HDT (mitoxantrone, cyclophosphamide, VP16 and carmustine) followed by PBSC infusion 4) a second HDT (busulfan, carboplatin and melphalan) followed by PBSC infusion. Among the 29 patients responding to induction, 28 received the first HDTand 24 the second. RESULTS: The rates of three-year-event free survival and survival are 47% (95% confidence interval (95% CI: 31%-63%) and 50% (95% CI: 37%-69%), respectively. Eighteen patients remained free of evolutive disease and 18 patients have died, 15 from disease progression and three from treatment-related toxicity after tandem transplant (two veno-occlusive disease and one cerebral toxoplasmosis). CONCLUSION: We conclude that tandem transplant did not improve the results of the LNH87-2 study in which patients received a single consolidative HDT.

Peripheral blood T cells generated after allogeneic bone marrow transplantation: lower levels of bcl-2 protein and enhanced sensitivity to spontaneous and CD95-mediated apoptosis in vitro. Abrogation of the apoptotic phenotype coincides with the recovery of normal naive/primed T-cell profiles.

T-cell reconstitution after bone marrow transplant (BMT) is characterized, for at least 1 year, by the expansion of populations of T cells with a primed/memory phenotype and by reverse CD4/CD8 proportions. T lymphocytes from 26 BMT patients (mostly adults) were obtained at various times after transplantation (from 45 to >/=730 days) and were tested for susceptibility to spontaneous apoptosis and anti-Fas triggered apoptosis in vitro. Substantial proportions of CD4(+) and CD8(+) cells generated during the first year after transplantation, but not by day 730, exhibited in these assays decreased mitochondrial membrane potential (triangle upPsim) and apoptotic DNA fragmentation. The apoptotic phenotype tended to disappear late in the follow-up period, when substantial absolute numbers of naive (CD45RA(+)/CD62-L(+)) T cells had repopulated the peripheral blood compartment of the BMT patients. The rate of spontaneous cell death in vitro was significantly correlated with lower levels of ex vivo Bcl-2 protein, as assessed by cytofluorometry and Western blot analysis. In contrast, the levels of Bax protein remained unchanged, resulting in dysregulated Bcl-2/Bax ratios. Cell death primarily concerned the expanded CD8(+)/CD45R0(+) subpopulation, although CD45R0(-) subpopulations were also involved, albeit to a lesser extent. These results show that the T-cell regeneration/expansion occurring after BMT is accompanied by decreased levels of Bcl-2 and susceptibility to apoptosis.

Poor lymphocyte recovery following CD34-selected autologous peripheral blood stem cell transplantation for non-Hodgkin's lymphoma.

Positive selection of CD34+ cells in autologous grafts, designed to deplete tumour cells, also results in T-cell depletion. To assess the reconstitution of the different lymphocyte subsets and of the T-cell repertoire diversity following autologous transplantation of selected CD34+ peripheral blood stem cells (PBSC), we analysed sequential blood samples in eight patients autografted for advanced B-cell non-Hodgkin's lymphoma in a phase I-II pilot study. Although natural killer cell recovery was rapid, T- and B-cell recovery was delayed with a median of 110/microliters CD4+, 175/microliters CD8+ T cells and 45/microliters B cells at 12 months post-transplant. The naive CD45RA+ T-cell compartment was profoundly deficient up to 12 months for both CD4+ and CD8+ subsets. A transient expansion of memory CD8+CD45RO+ T cells consisting of an increased percentage of CD57+CD28- cells occurred within the first 3 months post-transplant, but the memory CD4+CD45RO+ T cells remained far below the normal value. The CD8+CD28+ T-cell subset did not recover. Using multiplex PCR analysis of the T-cell receptor gamma locus, we found that the repertoire diversity improved at 12 months after being poor and oligoclonal during the first 3 months post-transplant. As shown by monoplex PCRgamma analysis of every VJ combination, despite T-cell depletion of the graft, mature T cells were carried over with the selected CD34+ PBSC and contributed to the T-cell recovery after transplantation.

Decrease in the mesenchymal stem-cell pool in the proximal femur in corticosteroid-induced osteonecrosis.

We have evaluated bone-marrow activity in the proximal femur of patients with corticosteroid-induced osteonecrosis and compared it with that of patients with osteonecrosis related to sickle-cell disease and with a control group without osteonecrosis. Bone marrow was obtained by puncture of the femoral head outside the area of necrosis and in the intertrochanteric region. The activity of stromal cells was assessed by culturing fibroblast colony-forming units (FCFUs). We found a decrease in the number of FCFUs outside the area of osteonecrosis in the upper end of the femur of patients with corticosteroid-induced osteonecrosis compared with the other groups. We suggest that glucocorticosteroids may also have an adverse effect on bone by decreasing the number of progenitors. The possible relevance of this finding to osteonecrosis is discussed.

Positive selection of autologous peripheral blood stem cells.

The development of monoclonal antibodies against differentiation antigens on human haematopoietic cells has led to a new concept in stem cell purification: the positive selection. In terms of autologous PBSC transplantation, the immature stem cells are identified by their expression of a specific antigen, the CD34. The CD34 antigen is expressed on early lymphohaematopoietic stem cells and progenitor cells, but not on mature blood cells or on tumour cells of several diseases. CD34+ cells are found in low numbers in bone marrow (<2%) and in even lower numbers in steady state blood (<0.01%) but may increase from 1 to 5% after mobilization using chemotherapy and/or growth factors. Several techniques have been set up to enrich PBSC grafts in CD34+ stem cells. The quality of each system is here analysed in terms of CD34 purity of the selected cell fraction, the CD34 cell recovery, the tumour cell depletion efficiency and the functional capacity ex vivo and in vivo of the selected cells. The final CD34+ cell purity of the selected fractions is correlated to the concentration of CD34+ cells before selection. The optimal recoveries and the highest purities were generally obtained when the initial CD34 content was roughly over 1%. Below this figure, the final purity seems to be less predictable. Besides the better tolerance resulting from the reduction in the number of autologous cells, and consequently the total volume of DMSO reinfused to the patient, the selective enrichment of the CD34 cell population offers a new approach to tumour purging. The procedure by itself results in elimination of about 99% in the total number of initial cells, thus allowing reduction of the overall tumour cell number in the final autograft. However, its major interest is that, in diseases where tumour cells do not express the CD34 antigen, it is theoretically able to completely eliminate the tumour contamination of the graft. Based on previous data showing that lymphoma, myeloma, neuroblastoma and breast cancer cells are not CD34+, pilot clinical trials for the separation and transplantation of CD34+ cells selected from PBSC of patients with these diseases have recently been conducted. The efficacy of CD34 selection in reducing the tumour load of the PBSC of patients with these diseases has been reported. However, the efficacy of purging may greatly differ between individual patients, and complete eradication of contaminating cells from PBSC grafts was not always reached. There is now evidence that purified CD34+ cells are capable of supporting haematopoietic reconstitution in autologous transplantation. However, until now no study has demonstrated clear evidence that the reduction of tumour cells from PBSC of patients by CD34+ cell selection resulted in a lower relapse rate post-transplant, as compared to unselected PBSC infusion.

Unfractionated peripheral blood stem cell autografts and CD(34+)-enriched autografts have similar long-term culture initiating capacity in multiple myeloma.

CD(34+)-enriched peripheral blood stem cells (PBSC) are increasingly being used as an autograft in patients with multiple myeloma (MM). The rationale for the use of the CD34+-enriched fraction in MM is the ability to obtain a graft with a significant reduction of contamination by plasma cells. However, the effect of such a manipulation on the proliferating potential of the engrafted cells is not known. We wished to study, as part of a randomized trial comparing the outcome in MM patients transplanted with either CD(34+)-enriched cells or unfractionated PBSC, the primitive hematopoietic cell content of the autografts using long-term culture initiating cell (LTC-IC) assays in 7 MM patients. In 3 patients CD(34+)cell-enriched fraction was compared to unfractionated PBSC whereas in the remaining 4 patients the LTC-IC assay was performed on total PBSC. The mean percentage of CD34+ cells of the CD34+ selected fraction in three patients was 82% (range 71%-96%) whereas the same percentage in PBSC varied from 0.6% to 10% in 4 patients (mean: 4.2%). Out of three patients transplanted with CD34+ cell fraction, two patients were found to have a very similar LTC-IC generating potential in their CD34+ versus PBSC fractions as this was assessed by the clonogenic cell output at week+5 per 10(4) CD34+ cells initiating the culture (PBSC: 92 and 168 and CD34+ fraction: 102 and 16, respectively) whereas one patient had a slightly different values (PBSC: 51 and CD34+ fraction: 103). When the PBSC fraction was compared in all 7 patients, the LTC-IC generation potential was very heterogenous, varying from 1.4 to 168. To determine if the selection procedure influences the numbers of LTC-IC's in both fractions, we have performed limiting dilution assays to determine both the frequency of distribution of hematopoietic colonies and the frequency of LTC-IC's in two patients. The frequency of distribution of hematopoietic colonies was linear in both CD34+ and PBSC fractions as was the frequency of LTC-IC when the corrections were made with regard to the CD34+ cell-content of the cultures (1/20). Our results indicate that the CD34+ selection procedure used in all three patients (Ceprate) is not deleterious for the generation of LTC-IC's and these findings support the rationale for the use of this procedure in multiple for the purposes of tumor depletion.

Phase II study of high-dose thiotepa and hematopoietic stem cell transplantation in children with solid tumors.

From 1987 to 1995, 22 children with refractory solid tumors entered a phase II study of high-dose thiotepa (HDT) (900 mg/m2) followed by stem cell transplantation (SCT) in the Pediatrics Department of the Institut Gustave Roussy. Tumor types were rhabdomyosarcoma (eight), osteosarcoma (seven), neuroblastoma (three), Ewing's sarcoma (three) and Burkitt's lymphoma (one). Before HDT, all had been extensively treated with conventional chemotherapy, surgical resection of the primary tumor (13/22) and of metastases (6/22), and radiotherapy of the primary tumor in three patients. All had measurable disease, at the site of the primary tumor (3 patients), of the metastases (9 patients) or both (10 patients). Toxicity from the HDT was severe but acceptable. No toxicity-related death occurred. The median duration of neutropenia and thrombocytopenia was 18 days (5-37) and 30 days (7-377), respectively. Septicemia was documented in four patients. Severe diarrhea was observed in seven patients. Mild hepatic toxicity occurred 18 times. No CR and 11/22 PR were documented: osteosarcoma 4/7, rhabdomyosarcoma 4/8, Ewing's sarcoma 2/3; 1/1 Burkitt's lymphoma progressed. We conclude that at a dose of 900 mg/m2 followed by SCT support in these heavily pretreated children, the main toxicity induced by thiotepa was digestive. The response rate observed, especially in sarcoma, is particularly encouraging. Thiotepa should be further evaluated in HDC regimens either in combination with other alkylating agents or in rapidly cycled courses of HDC with SCT.

Apparent reactivation of a red cell alloantibody in a healthy individual after G-CSF administration.

Granulocyte-colony stimulating factor (G-CSF) has been successfully administered to healthy subjects to mobilize peripheral blood stem cells (PBSC) for allogeneic transplantation. Adverse events are moderate. We report the first case of apparent reactivation of an alloantibody to a blood cell antigen (Jk(a)) after G-CSF administration to a healthy subject and its transmission to the PBSC transplant recipient; no concomitant reactivation of other alloantibodies was detected. This case raises questions on the effect of G-CSF on the immune system and its safety in healthy individuals.

Successful cryopreservation of purified autologous CD34+ cells: influence of freezing parameters on cell recovery and engraftment.

Conventional hematopoietic stem cell cryopreservation methods use a DMSO concentration of 10%. However, cells manipulated ex vivo may require more refined freezing protocols adapted to the specific cell suspension. In this retrospective study, we evaluated the results obtained with CD34+ cells purified from peripheral blood of 39 patients on the CEPRATE SC System and frozen in 7.5% DMSO with a view to transplantation. The post-freezing recovery of progenitor cells was 89.4 +/- 27.87% for CD34+ cells, 59.13 +/- 36.93% for CFU-GM, and 53.49 +/- 40.71 for BFU-E. Neither the purity of the suspension nor the nucleated cell density during freezing was predictive of cell recovery. No difference was observed between cells stored in vials and bags. Thirty-seven patients transplanted with the concentrated CD34+ fraction received 4.46 x 10(6) CD34+ cells/kg and 33.04 x 10(4) CFU-GM/kg. The median time to granulocyte (>0.5 x 10(9)/l) and platelet (>50 x 10(9)/l) engraftment was 11 and 13 days, respectively. Only cell density and the infused number of CD34+ cells and CFU-GM were significantly related to hematological recovery. Our data suggest that purified CD34+ cells can be successfully cryopreserved in 7.5% DMSO and may represent a first step in establishing freezing parameters for selected CD34+ cells.

Predictive value of host-specific donor helper T-cell precursor frequency for acute graft-versus-host disease and relapse in HLA-identical siblings receiving allogeneic bone marrow transplantation for hematological malignancies.

BACKGROUND: Acute graft-versus-host disease (aGVHD) is still one of the main causes of morbidity and mortality after allogeneic bone marrow transplantation. Attempts to avoid GVHD are associated with an increased risk of relapse, probably because the graft-versus-leukemia effect is also abrogated. It was recently suggested that a high frequency of host-specific donor helper T cell precursors (HTLp) might be predictive of significant aGVHD (grade > or = II). METHODS: We retrospectively studied the frequency of HTLp by means of simplified limiting-dilution analysis to determine its predictive value for aGVHD and relapse. Pre-bone marrow transplantation, host-specific donor HLTp frequencies were analyzed in 32 patients who had received marrow from HLA-identical siblings for hematological malignancies, in terms of aGVHD and relapse. RESULTS: HTLp frequencies were significantly higher in patients who had aGVHD > or = grade II (n=14) than in those without aGVHD (n=18) (P=0.007). Patients who relapsed (n=13) had significantly lower HTLp frequencies than those who did not relapse (n=19) (P<0.0001). The probabilities of relapse (Kaplan-Meier method) when the HTLp frequency was higher and lower than 1/200,000 were 0% and 88%, respectively (P<0.0001). CONCLUSIONS: The definition of HTLp cut-off values predictive of aGVHD and relapse should contribute to donor selection and could open the way to protocols adapting immunomodulation to the likely risk of aGVHD and relapse.

Abnormalities in the bone marrow of the iliac crest in patients who have osteonecrosis secondary to corticosteroid therapy or alcohol abuse.

UNLABELLED: The bone-marrow activity in the iliac crest of eleven patients who had idiopathic osteonecrosis of the hip and thirty patients who had osteonecrosis of the hip that was related to corticosteroid therapy (fourteen patients) or to alcohol abuse (sixteen patients) was compared with that in two groups of control subjects who did not have osteonecrosis (thirty-three healthy bone-marrow donors and thirty-four patients who had been managed with bone-marrow grafting for a non-union). Cultures of granulocyte-macrophage progenitor cells and fibroblast colony-forming units were performed to assess the activity of hematopoietic stem cells and stromal cells. The activity of stem cells in both the hematopoietic and the stromal compartment of the bone marrow was decreased in the patients who were receiving corticosteroids or who abused alcohol, as compared with that in the two groups of control subjects. The patients who had idiopathic osteonecrosis also had a decrease in bone-marrow activity compared with the control subjects. CLINICAL RELEVANCE: Our findings suggest that patients who are receiving corticosteroid therapy or who abuse alcohol have decreased activity of bone-marrow cells. Whether this decrease is related to the osteonecrosis could not be determined, as our study did not include control subjects who had a history of alcohol abuse or who were receiving corticosteroids but did not have osteonecrosis. However, it is possible that the reduced bone-marrow activity was related to the osteonecrosis, as patients who had idiopathic osteonecrosis also had decreased bone-marrow activity. The study of pathological alterations in the bone marrow outside the necrotic zone may provide important insights into the pathophysiology of osteonecrosis.

Methods of CD34+ cell separation: comparative analysis.

During the last decade, several technologies based on the recognition of CD34 antigen have been proposed to purify hematopoietic cells for clinical use. The following review describes the different approaches, including panning, high-speed activated cell sorting, immunomagnetic selection and immunoadsorption column separation. Positive selection of hematopoietic stem cells is now an essential step in cellular therapy. Quantitative and qualitative aspects of each system will be discussed as well as technical progress in the clinical setting.