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Stem Cell Harvest (stem + cell_harvest)
Selected AbstractsMobilisation of tumour cells along with CD34+ cells to peripheral blood in multiple myelomaEUROPEAN JOURNAL OF HAEMATOLOGY, Issue 5-6 2001Lene Meldgaard Knudsen Abstract:Background: Cells belonging to the malignant clone are found in the peripheral blood in myeloma patients. In order to minimise the content of tumour cells in the stem cell product it is crucial to perform stem cell harvest at a time when tumour cells in the peripheral blood are at a minimum. Objective: The aim of the study was to compare the mobilisation kinetics of normal CD34+ cells and myeloma plasma cells during mobilisation with either G-CSF alone or high-dose cyclophosphamide (HDCy) plus G-CSF. Design and methods: Morning blood samples were drawn each day during mobilisation from start of G-CSF or HDCy and to the end of leukapheresis, and were analysed by flow cytometry for content of CD34+ cells and myeloma plasma cells (CD38+ + CD45,). Tumour cells were also estimated by a patient-specific real-time polymerase chain reaction (PCR) method based on the 5, nuclease TaqMan technology. Results: Flow cytometry data from 16 patients showed concomitant mobilisation of CD34+ cells and myeloma plasma cells. Seven patients were mobilised twice; first with G-CSF alone and then with HDCy plus G-CSF. There was no difference between the two mobilisation regimens regarding tumour cell mobilisation kinetics. Real-time PCR was performed in one patient and confirmed the mobilisation of tumour cells at the time when CD34+ blood cells were at a maximum. Conclusions: Tumour cells are mobilised to the peripheral blood at the same time as CD34+ cells in multiple myeloma patients after priming with both G-CSF alone and HDCy in combination with G-CSF. [source] High-dose Ara-C and beam with autograft rescue in R-CHOP responsive mantle cell lymphoma patientsBRITISH JOURNAL OF HAEMATOLOGY, Issue 4 2009Mars B. Van't Veer Summary Mantle cell lymphoma (MCL) has a dismal outcome when treated with conventional chemotherapy. This single arm phase 2 study evaluated intensive consolidation treatment of patients with newly diagnosed MCL up to the age of 65 years, responsive to R-CHOP (rituximab, cyclophosphamide, oncovin, adriamycin, prednisolone). Endpoints for evaluation were toxicity, failure-free survival (FFS) and overall survival (OS). Eighty-seven patients were treated with three cycles of R,CHOP. Sixty-six patients responded to R-CHOP with at least a partial response, 62 continued protocol treatment with high-dose cytarabine (Ara-C; 2000 mg/m2, bid. over 4 d) and 61 patients received rituximab and stem cell harvest, followed by BEAM (carmustine, etoposide, Ara-C, melphalan) and autologous stem cell rescue. Non-haematological toxicity, grades III and IV, was seen in 8% of the patients after R-CHOP, in 22% after high-dose Ara-C and in 55% after BEAM. The overall response rate was 70% (complete response rate 64%, partial response rate 6%), FFS and OS at 4 years were 36 ± 7% and 66 ± 6%, respectively. The FFS and OS at 4 years from the evaluation after BEAM in the 61 R-CHOP responsive patients was 46 ± 9% and 79 ± 7%, respectively. In conclusion, high-dose Ara-C and BEAM with stem cell rescue in newly diagnosed MCL patients responsive to R-CHOP is a manageable treatment with respect to toxicity. This regimen leads to long-term, but probably not durable, remissions. [source] High-dose 131I-metaiodobenzylguanidine therapy for 12 patients with malignant pheochromocytomaCANCER, Issue 2 2003Brian Rose M.D. Abstract BACKGROUND 131I-Metaiodobenzylguanidine (131I-MIBG) can be used systemically to treat malignant pheochromocytoma. To improve outcome, the authors used higher levels of activity of 131I-MIBG than previously reported. The authors reported the response rates and toxicity levels in patients with malignant pheochromocytoma or paraganglioma who were treated with high-dose 131I-MIBG. METHODS Following debulking surgery and stem cell harvest, 12 patients with malignant pheochromocytoma or paraganglioma were treated with 131I-MIBG. Five had received previous external beam radiation and/or chemotherapy. The median single treatment dose was 800 mCi (37 gigabecquerels; range, 386,866 mCi) or 11.5 mCi/kg (range, 5.6,18.3 mCi/kg). The median cumulative dose was 1015 mCi (range, 386,1690 mCi). RESULTS Three patients had a complete response, two of whom had soft tissue and skeletal metastases. Their median follow-up was 45 months (range, 23,101 months). Seven patients had a partial response (PR), with a median follow-up 43 months (range, 6,47 months). Two patients without a response died with progressive disease (PD) and 2 patients with an initial PR died of PD at 13 and 11 months, respectively. Grade 3 thrombocytopenia occurred after 79% (15 of 19) of treatments had been administered. Grade 3 and 4 neutropenia followed 53% (10 of 19) and 19% (4 of 19) of treatments, respectively. One patient required stem cell infusion, and one developed primary ovarian failure. CONCLUSIONS The single and cumulative doses of 131I-MIBG were approximately 2,3.5 times higher than those used at other centers. Unlike previous reports, two patients with both skeletal and soft tissue metastases had a complete response. Hematologic toxicity was significant but tolerable. High-dose 131I-MIBG may lead to long-term survival in patients with malignant pheochromocytoma. Cancer 2003;98:239,48. © 2003 American Cancer Society. DOI 10.1002/cncr.11518 [source] Consensus guidelines for ,rainy day' autologous stem cell harvests in New South WalesINTERNAL MEDICINE JOURNAL, Issue 4 2008J. Trotman Abstract Autologous stem cell transplantation (ASCT) has a well-established role in the treatment of haematological malignancies. Stem cells are commonly collected following salvage chemotherapy although there may be advantages in collecting earlier in the disease course. A 'rainy day' harvest (RDH) refers to the collection of autologous haemopoietic stem cells for long-term storage. Although there are few data to support RDH, there is increasing evidence that such harvests are being carried out, creating storage pressures in stem cell laboratories across New South Wales. The Bone Marrow Transplant Network New South Wales conducted a three-staged exercise to develop consensus-based RDH guidelines. Using available evidence, guidelines were developed supporting RDH for specific patients with acute and chronic myeloid leukaemias, follicular and other lymphomas, and multiple myeloma. Physician agreement with these disease-specific guidelines ranged between 58 and 100%. These consensus guidelines will improve equity of access to appropriate RDH and assist the planning of future storage requirements in New South Wales. [source] Analysis of CD34+ cell subsets in stem cell harvests can more reliably predict rapidity and durability of engraftment than total CD34+ cell dose, but steady state levels do not correlate with bone marrow reserveBRITISH JOURNAL OF HAEMATOLOGY, Issue 4 2001G. Pratt In peripheral blood stem cell transplantation (PBSCT), the number of CD34+ cells transplanted has been shown to correlate well with both rapidity and durability of engraftment. However, it is clear that engraftment does not necessarily correlate with total CD34+ cell numbers in some patients. Consequently, there is increasing interest in evaluating the role of CD34+ subsets in haemopoietic recovery as a more accurate marker of harvest quality. We analysed the numbers of CD34+ cell subsets, namely Thy-1+, L-Selectin+ and CD38,, and correlated this with engraftment in 86 patients undergoing PBSCT. Adequate engraftment was defined as being a platelet count greater than 50 × 109/l and a neutrophil count greater than 1·0 × 109/l. CD34+L-Selectin+ provided the best prediction of engraftment rapidity, although the improvement over total CD34+ cell dose was minor. Only the dose of CD34+Thy-1+ cells transplanted correlated with durable engraftment. The probability of adequate 3-month engraftment increased with the dose of CD34+ cells transplanted, but 10% of patients receiving >,5 × 106/kg still showed poor engraftment at 3 months. However, all patients receiving >,2·5 × 105/kg CD34+Thy-1+ showed adequate engraftment at this time point. We also demonstrated that CD34+Thy-1+ progenitors were restricted to the bone marrow under normal conditions and, during stem cell mobilization, their kinetics generally paralleled total CD34+ numbers. [source] Midpoint CD34 measurement as a predictor of PBPC product yield in pediatric patients undergoing high-dose chemotherapy ,JOURNAL OF CLINICAL APHERESIS, Issue 3 2006Rameshwar S. Sidhu Abstract High-dose chemo/radiotherapy of sensitive tumors requires PBPC rescue doses of >3×106 CD34/kg (range: 3,20×106 CD34/kg). Because of the diversity of stem cell treatment protocols and clinical presentation of patients at the time of peripheral blood progenitor cell (PBPC) harvest, the use of the mid-point CD34 positive cell measurement was initiated to predict the final CD34-positive cell product yield/stem cell harvest. The measurement of CD34-positive cells at the mid-point of the initial setting of 5 total blood volumes (TBV) allows for the extension, shortening, or no change in the TBV processing to achieve a maximum goal of CD34-positive cells/kg body weight required for stem cell transplantation. The estimation of mid-point CD34-positive cells guided our center to extend 22 procedures, shorten 26 procedures, and leave 20 procedures unchanged. This investigation addresses three aspects of PBPC collection in pediatric patients: (1) the processing of large blood volumes (more than the defined 3 TBV and maximum up to 13 TBV in one session) to achieve good efficiency of the procedure; (2) the use of the mid-point CD34 measurement at 2.5 of 5 TBV initially set to predict the maximum goal of CD34 cells /kg needed on the same day of PBPC collection; and (3) PBPC collection in pediatric patients <10 kg body weight (as low as 5.8 kg body weight). J. Clin. Apheresis 2006. © 2006 Wiley-Liss, Inc. [source] |