Treatment of myeloma. (73/8007)

Survival for myeloma has improved from a median of 7 months in the 1950s to about 30 months today. Progress in chemotherapy has contributed a great deal to this improvement, although it may also, in part, reflect the improved treatment of infections, renal failure and hypercalcaemia as well as earlier diagnosis. For over 30 years, the gold standard of treatment has been oral melphalan and prednisolone, producing a clinical response in approximately 60% of patients and a median survival of around 36 months. Relapse is unfortunately inevitable in all but a handful and, for the majority, treatment can only hope to produce significant periods of remission with minimal treatment-related morbidity and mortality. Recently, improved results have been seen with the introduction of aggressive chemotherapy and bone-marrow transplantation. Marrow ablative therapies produce remissions in virtually all patients, with complete remissions in approximately 1/3. The best response is seen in those with a lower tumour burden, which will reduce the development of secondary resistance. Current treatment is moving towards an approach using sequential therapy. This involves induction chemotherapy with VAD or a similar regimen such as VAMP (vincristine, adriamycin and methylprednisolone), proceeding to high-dose therapy, often with some form of stem-cell rescue. This ensures minimal tumour burden prior to high-dose treatment as well as reducing graft infiltration, improving general performance status and allowing recovery of renal function. Relapse remains a problem, although the use of IFN may reduce this by prolonging the plateau phase. High-dose therapy should be given early, before prolonged use of alkylating agents induces stem-cell dysplasia, before significant complications arise from the myeloma, and before drug resistance is significant. Unfortunately, these treatments come at a price, in terms of increased treatment-related toxicity. There also remains uncertainty as to the extra benefits of high-dose treatment with marrow rescue over high-dose chemotherapy alone. We await the current MRC trial with interest. For a very few, there is the tantalising possibility of cure with allografting. For those in complete remission after first-line induction therapy, allogeneic bone-marrow transplantation offers the best hope of survival, but comes at a greatly increased risk of toxicity, and it is uncertain if it is superior to autografting for the majority of patients. It may soon be possible to identify those poor prognosis patients in whom an allogeneic transplant should be offered at an early stage. Candidate biochemical markers include serum beta 2 microglobulin, neopterin, IL-6, plasma cell labelling index, CRP or LDH and prognostic clinical features include IgD myeloma or stage III disease at presentation. Many patients will have primary refractory of relapsing disease in whom survival is short despite all current therapeutic modalities. They should therefore be considered for trials of newer agents, drug combinations and therapeutic interventions such as cytokine manipulation or gene therapy. The lack of effective, curative treatment options for patients with myeloma places great importance on effective palliation. While improving survival duration remains elusive in this condition, all possible efforts must be made to ensure quality of life is maximized.  (+info)

Bone marrow as multidimensional orbit oscillator after autologous bone marrow transplantation. (74/8007)

The local renin-angiotensin system (RAS) in bone marrow is probably involved in the control of hematopoiesis. Earlier observations suggest the relationship between the frequency of sodium and potassium concentration changes in urine and bone marrow recovery after chemotherapy. The purpose of this study was to prove the relationship between sodium and potassium excretion changes in urine and granulocyte counts in peripheral blood after autologous bone marrow and peripheral blood stem cell transplantation. The correlation between amplitude maximum FFmax of F=d[Na]/d[K], where d[Na] and d[K] are changes of sodium and potassium excretions in 24 h, and granulocytes, recorded k days later, was found in 12 patients with autologous bone marrow transplantation (BMT) and/or PBSCT. In patients with successful engraftment, k ranged from 4 to 7 days. In the patient with unsuccessful BMT, k was 12 days. The results imply the interaction between systemic and bone marrow RAS.  (+info)

Relapse in chronic myeloid leukemia after bone marrow transplantation: biomathematical modeling as a new approach to understanding pathogenesis. (75/8007)

A biomathematical model was developed to simulate relapse development in patients with chronic myeloid leukemia (CML) following bone marrow transplantation (BMT). The purpose of this study was to better understand the pathophysiology of the time evolution of CML relapse and to provide means whereby the outcomes of patients with CML relapse can be projected and treatment modified accordingly. The model consists of three parallel series of catenated compartments representing granulopoiesis in normal (donor) cells from the marrow, in CML cells from the marrow, and in CML cells from extramedullary sites. It was assumed that CML stem cells were resistant to feedback control and that CML-derived neutrophils, as well as normal neutrophils, exercised feedback regulation of normal stem cells. The known longer generation times for CML neutrophil precursors compared with normal neutrophil precursors were used, and it was assumed that 10(7) pluripotential stem cells were infused with BMT. The model was evaluated for its ability to simulate the reappearance of CML (Philadelphia chromosome positive) metaphases in the marrow and the recovery pattern in the blood neutrophil count in six patients who had relapsed following BMT (allogeneic in three patients, allogeneic with T-cell depletion in two patients, and syngeneic in one patient). The variables tested included the site of origin of the CML stem cells responsible for relapse (marrow alone versus marrow and extramedullary sites), the minimum number of CML stem cells responsible for relapse, and the time delay between BMT and the onset of relapse. Model profiles based on the observed values were obtained in each case. The simulations pointed to the fact that relapse began from a small number of CML cells in medullary and extramedullary sites. The time delay between BMT and the onset of relapse varied from 15 to 240 days. We suggest that this biomathematical model should be further investigated as a possible means of predicting outcome and guiding the treatment for patients with CML relapsing after BMT.  (+info)

Adverse events occurring during bone marrow or peripheral blood progenitor cell infusion: analysis of 126 cases. (76/8007)

Bone marrow (BM) and/or peripheral blood progenitor cells (PBPC) given after high-dose chemo-radiotherapy are commonly cryopreserved. Re-infusion of the thawed product can cause cardiovascular and other complications. We compared two groups of adult patients receiving autologous BM or PBPC transplant to assess the incidence of adverse events occurring during infusion. Fifty-one patients received BM, and 75 PBPC. The two groups were comparable in respect of age, total volume infused, quantity of dimethylsulfoxide (DMSO) and number of polymorphonuclear neutrophils. Patients receiving PBPC had a higher number of nucleated cells per kg of body weight; those in the BM group received a significantly greater quantity of red cells. Non-cardiovascular complications occurred in 19% and 8% of patients rescued by BM and PBPC respectively. The incidence of hypertension was 21% in the BM and 36% in the PBPC group. Asymptomatic hypotension was more frequent in PBPC patients (P<0.001). Bradyarrhythmia was noticed in two of 75 PBPC patients and in 14 of 51 BM patients (P<0.001). In the former group one patient had heart block; he died of renal failure 10 days later. Bradycardia and hemoglobinuria were more common in patients receiving BM where a higher concentration of red cells was present (P<0.001). Since bradyarrhythmias may be a life-threatening complication we advise continuous careful monitoring during infusion of thawed BM. The strong correlation between bradycardia and red blood cell contamination suggests the use of purified products with a very low red cell content.  (+info)

Allogeneic bone marrow transplantation in second remission of childhood acute lymphoblastic leukemia: a population-based case control study from the Nordic countries. (77/8007)

This study compares allogeneic BMT with conventional chemotherapy for childhood ALL in second remission. Seventy-five children were transplanted between July 1981 and December 1995. For each patient two control patients matching the following criteria were selected from the Nordic database of ALL: (1) time of diagnosis, (2) T vs. non-T ALL, (3) site of relapse, (4) initial risk group, (5) sex and (6) relapse < or > or =6 months after cessation of therapy. The minimal time of follow-up was 24 months. Mortality rate in CR2, leukemic relapse rate and the proportion in continued second remission were 16/75 (21%), 22/75 (29%) and 37/75 (50%), respectively. P2.-EFS for the BMT group was significantly better than that for the control group (0.40 vs. 0.23, P = 0.02). Children transplanted for bone marrow relapses in particular had a higher P2.-EFS (0.35 vs. 0.15 for the control group, P<0.01). Also, children grafted for early BM relapses had a higher P2.-EFS (0.32 vs. 0.11 for the control group P = 0.01). The outcome was similar when children were transplanted after early or late relapse. Also, there was no difference in outcome between the BMT and the chemotherapy group for children with late relapses. We conclude that allogeneic BMT with an HLA-identical sibling donor or other family donor should be performed in children relapsing in bone marrow during therapy or within 6 months of discontinuing therapy.  (+info)

Immunomagnetic bone marrow (BM) and peripheral blood progenitor cell (PBPC) purging in follicular lymphoma (FL). (78/8007)

Twenty-nine B cell follicular lymphoma (FL) patients had their BM (n = 12) or PBPC (n = 17) purged using a panel of monoclonal antibodies and immunomagnetic beads (IMB). The median recovery of nucleated cells (NC) and CD34+ cells was 59.3% (40.5-74) and 56.1% (30.8-82.9) in BM and 77.2% (64.7-88.3) and 73.5% (61.5-98.6) in PBPC (P<0.0005). A median of >1.62 and >1.02 log of target cell depletion was achieved as judged by flow cytometry analysis in BM and PBPC, respectively. Of 29% of initial harvests that had a bcl2 PCR-amplified signal, 37.5% became PCR negative in the final purged products. Absorbed cells containing IMB-target cell complexes gave bcl2 rearrangement signal in 20% of samples in which the start and final purged components were negative. Twenty-three of 26 patients receiving an autologous purged product are evaluable for engraftment. Median time to reach an ANC >0.5x10(9)/l and platelet count >20x10(9)/l was 21 (11-43) and 41 days (13-70) for BM (n = 9) and 14 (10-31) and 14 (8-37) for PBPC (n = 14) autografted patients (P = 0.01 and 0.001). One patient did not engraft and was rescued with a back-up BM. These data demonstrate that this indirect immunomagnetic technique is able to achieve a high grade of lymphoma cell depletion in BM and PBPC and that these purged products are capable of rapid engraftment after autologous transplantation.  (+info)

Early infections in patients undergoing bone marrow or blood stem cell transplantation--a 7 year single centre investigation of 409 cases. (79/8007)

Infections are a major cause of morbidity and mortality in patients undergoing high-dose therapy and subsequent autologous or allogeneic haemopoietic stem cell transplantation, despite the change from topical to systemic anti-infection prophylaxis and the introduction of growth factors and new antimicrobial drugs. We report our single centre experience with data from 409 patients treated at our unit from its opening in 1990 until May 1997. Three hundred and seventy-eight patients were transplanted for the first time, 12 patients were retransplanted or boosted and 19 patients were readmitted for miscellaneous reasons. 245 patients were allografted and 157 autografted. Antimicrobial prophylaxis was mainly quinolones, fluconazole plus amphotericin-B orally, aciclovir, and TMP/SMX or pentamidine. Three hundred and nineteen (78%) developed fever of significantly longer duration in the allogeneic setting with anti-CMV seropositivity. The most frequent infection was fever of unknown origin (50.6%), followed by septicaemia (12.5%) and pneumonia (11.0%). Pathogens isolated in 24.6% of the infections were mostly gram-positive bacteria (57.9%), followed by non-fermenting rods (11.2%), Aspergillus spp. and Candida spp. (10.3%, each). Cumulative response rate to antimicrobial therapy was 66.9%. Infections were responsible for 62.5% (25/40) of deaths after transplantation. Predominant pathogens were Aspergillus spp. (11), Candida spp. (four), and Pseudomonas spp. (three). None of the patients died from gram-positive bacterial infection. The risk of dying from infection was 11.2% after allografting and 0.8% after autotransplantation. Infections remain a major risk for early death after allogeneic transplantation of haemopoietic stem cells. Infection with gram-negative bacteria can be prevented by quinolone prophylaxis. Predominant pathogens are Aspergillus spp. Candida spp. and nonfermenting rods. Systemic infection with these pathogens is associated with a poor prognosis. Antimycotic prophylaxis and the therapy must be improved.  (+info)

Chemotherapy and donor peripheral blood progenitor cells for acute leukemia in early relapse after allogeneic bone marrow transplantation. (80/8007)

Ten patients with acute leukemia (AL) in early relapse after allo-BMT were treated with a modified MEC (mitoxantrone, etoposide and Ara-C) regimen followed by donor PBPC collected after mobilization with G-CSF. Seven patients achieved CR or had normal hemopoietic reconstitution: two had an early relapse at days +53 and +48, two patients died from acute GVHD at days +31 and +96, one died of interstitial pneumonia at day +55, and two patients experienced long-term survival. One patient with refractory disease and nodal involvement who did not respond to the first BMT had overt expansion of the leukemia at day +36; one patient with Ph+ ALL and one with ANLL evolving from MDS, both with skin involvement, had blast cells in peripheral blood at day +27 and +26, respectively. Transient cytopenia occurred in all patients; a normal granulocyte and platelet count was achieved within 3 weeks in all patients but one; acute GVHD occurred in six patients, and four had chronic GVHD. This approach is feasible in patients in early relapse after allo-BMT. It assists prompt re-establishment of normal donor hematopoiesis avoiding the prolonged cytopenia observed after donor lymphocyte infusion in AL patients relapsed after allo-BMT.  (+info)