UMLS:C0023418 - FACTA Search

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Query: UMLS:C0023418 (leukemia)
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Late effects of adjuvant chemotherapy (ACT) may include second malignant neoplasms (SMN), cardiotoxicity and ovarian suppression. Effects on the biology of residual tumour may be important in protocol design. Studies of SMN need large and reliable data sets. The leukaemia risk with current ACT is likely to be less than a five-fold increase. Leukaemia is predominantly a result of alkylating agents and peaks before 10 years. Solid SMN result also from radiotherapy and this risk continues after 10 years. Cardiotoxicity can be caused by anthracyclines but should not be a problem with current ACT regimens. It can be reduced by careful monitoring and by the cardioprotector ICRF-187. Amenorrhoea is a crude marker of ovarian suppression which may explain conflicting data on its relationship to outcome after ACT. Ovarian suppression following ACT is more likely and more permanent in older premenopausal women, but only explains a part of the ACT effects on outcome. Effects of early ACT on residual tumour are important for planning retreatments and combined modality protocols.
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PMID:Long-term effects of adjuvant chemotherapy in breast cancer. 162 41

The CMF regimen as an adjuvant therapy for breast cancer with axillary node involvement has become "standard therapy" at least for some subsets of patients (according to the Second Consensus Development Conference on Adjuvant Chemotherapy for Breast Cancer). The acute toxicity of such a regimen is usually mild and well tolerated; the late toxicity is mainly represented by amenorrhea. Here a case of acute non-lymphoid-leukemia (ANLL) after six CMF cycles is reported.
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PMID:Acute non lymphoid leukemia following CMF treatment as adjuvant therapy in positive node breast cancer. Case report. 233 Jun 10

Chemotherapy for malignant disease can cause gonadal dysfunction. However, little is known about the reversibility and severity of these effects in girls treated during childhood or puberty. For this reason we investigated clinical data and endocrine parameters (FSH, LH, PRL, E2, progesterone) of 51 adolescent females. Our clinical data showed that intermittent pulse chemotherapy as administered to most patients with solid tumours leads to a more pronounced growth retardation than continuous low dose chemotherapy as given to patients with leukemia and lymphomas. Girls treated prior to menarche failed to start menstruation while on chemotherapy, but all had their menarche shortly after cessation of the treatment. Most of the girls treated post menarche developed amenorrhoea, whereas some had irregular cycles unless they were on a very mild drug regimen. From the endocrinous data we concluded that primary ovarian failure was rare and occurred in adolescent girls only after a combination of chemotherapy and radiotherapy. In girls with regular menstrual cycles after treatment a high incidence of anovulation or an inadequate luteal phase could be observed. The latter symptoms may be signs of hypothalamic ovarian failure as caused by stress, anxiety and emotions associated with a malignant disease.
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PMID:[Puberty and ovarian function following cytostatic therapy in childhood]. 308 79

Cytostatic chemotherapy instead of supralethal total body irradiation (TBI) has been increasingly used as an alternative myeloablative regimen before bone marrow transplantation (BMT). While irreversible azoospermia/amenorrhoea seems to occur less frequently with such conditioning, graft-versus-host disease (GVHD) remains unaffected. Five-year disease-free survival in accelerated chronic granulocytic leukemia (CGL), after BMT with matched sibling grafts has been 0.10-0.30. Mitobronitol, cytosine arabinoside, and cyclophosphamide were used for conditioning. Patients were transplanted with unmanipulated HLA/MLC identical sibling bone marrow. For recovery, a pathogen-low room was available without air filtering and laminar airflow. Seven of eight accelerated-CGL patients were engrafted: full allogeneic reconstitution was detected in four and mixed chimerism in three patients. Five out of the seven engrafted patients survived at least nine months (median = 42 months), two are considered cured (8-9 years survival). The four leukemia-free survivors displayed full allogeneic reconstitution and presented symptoms of chronic GVHD. One patient became a genetically verified father. Acute GVHD and veno-occlusive liver disease (VOLD) were absent in all patients, diffuse interstitial pneumonitis (IP) occurred in one case. Non-supralethal conditioning with mitobronitol/cytarabine/cyclophosphamide in accelerated-CGL allows allogeneic bone marrow reconstitution with survival and cure rates comparable to those achieved with other protocols using TBI or busulphan conditioning. Unlike the latter treatments, however, our protocol leads to fewer transplant-related complications including acute GVHD, IP, VOLD, and azoospermia/amenorrhoea.
Leukemia 1993 Jul
PMID:Non-supralethal mitobronitol/cytarabine/cyclophosphamide conditioning without irradiation before bone marrow transplantation for accelerated chronic granulocytic leukemia: apparent absence of acute graft-versus-host disease. 832 Oct 45

Oral cyclophosphamide is well tolerated and effective. Published data support its use as part of adjuvant and metastatic breast cancer treatment regimens. Cyclophosphamide has generally been administered at a higher dose intensity when given orally compared with intravenous infusion. However, there is currently no evidence that oral cyclophosphamide is either more toxic or more or less effective than an equivalent dose of intravenous cyclophosphamide. There is evidence in both the adjuvant and metastatic settings that classical oral cyclophosphamide-methotrexate-fluorouracil (CMF) is more effective than intravenous CMF, possibly because of the greater dose intensity of classical CMF. Prolonged administration of oral cyclophosphamide up to high cumulative doses is associated with an elevated risk of a secondary leukaemia. The rates of chemotherapy-related amenorrhoea with oral cyclophosphamide are directly related to the total dose of cyclophosphamide administered and the patient's age. With the growing availability of other oral cytotoxic agents with demonstrated effectiveness in breast cancer, it is likely that oral cyclophosphamide will be incorporated once again into regimens for both metastatic and adjuvant treatment.
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PMID:Oral alkylating agents for breast cancer therapy. 1071 35

110 children with malignant diseases (leukemia excepted) who survived 5-20 years (median 9) post-therapy were followed (1996-1998). Median age during follow-up was 15 years (range 5-23). The most common malignancies were brain tumors, lymphoma, retinoblastoma and Wilm's tumor. The 174 late side-effects included endocrine disorders (19%), cognitive impairment (14%), orthopedic dysfunction (12%), alopecia (12%), dental damage (11%), psychological (8%) and neurological (8%) disturbances, and azoospermia or amenorrhea (5%). There was no cardiac or renal damage and no second malignancy. 29% of side-effects were severe. There was significant reduction in quality of life in 54 (49%), in 27 of whom it was severe enough to require psychological intervention. Treatment of brain tumor caused 98 late side-effects in 28 patients (sequelae-to-patient ratio [SPR] 3.3). Most cognitive, endocrine and neurological disorders, and most cases of alopecia, dental and psychological difficulties were in these patients. There were frequent late complications in those treated for retinoblastoma (SPR 1.8), and bone or soft tissue sarcomas (SPR 0.8). Those treated for Wilm's tumor had few side-effects (SPR 0.4). Late side effects were most frequent after radiation, reaching as high as SPR 2.4. It averaged only 0.5 in those treated with chemotherapy alone or in combination with surgery. Reduction of late side-effects in these patients requires using less toxic modalities, as long as cure rate is not compromised. When considering secondary strategies, screening for early detection of late complications would enable immediate solutions, such as hormonal replacement or providing compensating skills for post-treatment disability.
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PMID:[Long-term sequelae of malignant tumors in childhood: consequences of late side-effects]. 1124 36

Mitoxantrone (MX) has been approved by the Food and Drug Administration (FDA) for the treatment of patients with worsening relapsing-remitting (RR) or secondary progressive (SP) multiple sclerosis (MS). However, indications should be refined and mitoxantrone reserved as a rescue therapy to: (1) patients in the relapsing-remitting phase with frequent and disabling exacerbations likely leading to permanent severe disability and (2) to patients in the secondary progressive phase whose disability progression rate increases by one EDSS point or more per year and who do not respond to other current therapies. An induction phase with the monthly intravenous administration of 12 mg/m(2) followed by a maintenance phase with 12 mg/m(2) every 3 months for 2 years seems the most effective and safe treatment regimen, not exceeding the maximum cumulative dose of 140 mg/m(2). Given the potent myelosuppressive activity of mitoxantrone, dosage should be carefully adapted to the body surface and hematological changes. Long-term toxicities (amenorrhoea and therapy-related leukemia) seem acceptable but a valid evaluation will need a longer follow-up in more patients. Cardiotoxicity, the major long-term toxicity, is clearly dose-dependent and is a strict treatment duration limiting factor. To reduce the risk of cardiac events, the drug should be administered by slow infusion (over 30 min). Analogs of mitoxantrone with a much lower cardiotoxicity are currently investigated in animal experimental models.
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PMID:Mitoxantrone in progressive multiple sclerosis: when and how to treat? 1255 12

Mitoxantrone (Novantrone), a synthetic anthracenedione derivative, is an antineoplastic, immunomodulatory agent. Its presumed mechanism of action in patients with multiple sclerosis (MS) is via immunomodulatory mechanisms, although these remain to be fully elucidated. Intravenous mitoxantrone treatment improved neurological disability and delayed progression of MS in patients with worsening relapsing-remitting (RR) [also termed progressive-relapsing (PR) MS] or secondary-progressive (SP) disease. In a pivotal randomised, double-blind, multicentre trial, mitoxantrone 12 mg/m(2) administered once every 3 months for 2 years provided significant improvements in neurological disability ratings, including Kurtzke Expanded Disability Status Scale (EDSS), Ambulatory Index (AI) and Standardised Neurological Status (SNS) scores, compared with placebo. The drug also significantly reduced the mean number of corticosteroid-treated relapses and prolonged the time to the first treated relapse, with the beneficial effects on disease progression supported by magnetic resonance imaging. Post hoc analyses suggest that the benefits associated with mitoxantrone treatment may be sustained for at least 12 months after cessation of treatment, mean changes from baseline at 36 months in EDSS, AI and SNS scores of 0.10, 0.61 and 0.19, respectively, in the mitoxantrone group versus 0.46, 1.13 and 3.38 with placebo. Concomitant intravenous mitoxantrone 20mg plus intravenous methylprednisolone 1g once every month for 6 months was more effective than intravenous methylprednisolone monotherapy in preventing the development of new gadolinium-enhanced lesions in patients with very active RRMS or SPMS. The drug was generally well tolerated in patients with MS. Adverse events were generally mild to moderate in severity and usually resolved upon discontinuation of treatment or with appropriate pharmacotherapy. At the recommended dosage, mitoxantrone appears to have a low potential to cause cardiotoxicity. In conclusion, intravenous mitoxantrone reduces the relapse rate and slows progression of the disease in patients with worsening RRMS, PRMS or SPMS; thus providing a new option for the management of these patients. The drug was generally well tolerated at the recommended dosage, although potential cardiotoxicity limits the total cumulative dose to 140 mg/m(2). Further studies are warranted to determine which patients with worsening RRMS, PRMS or SPMS are most likely to benefit from mitoxantrone treatment and to more fully define the long-term safety and tolerability of mitoxantrone, including the use of concomitant cardioprotectants to extend the therapeutic lifespan of the drug. Pharmacodynamic Profile. Mitoxantrone, a synthetic anthracenedione derivative, is an established cytotoxic, antineoplastic agent. Its presumed mechanism of action in multiple sclerosis (MS) is immunosuppression. In antineoplastic studies, the drug showed several immunomodulatory effects, inducing macrophage-mediated suppression of B-cell, T-helper and T-cytotoxic lymphocyte function. Currently, the pharmacodynamic properties of mitoxantrone have not been investigated to any extent in patients with MS. In one study, 6 months' treatment with intravenous mitoxantrone generally had no effect on the distribution of cytokine-positive peripheral blood monocyte cells in patients with MS. In an animal model of the disease, mitoxantrone suppressed the development and progression of both actively and passively induced acute experimental allergic encephalomyelitis (EAE). It appeared to be 10-20 times more effective than cyclophosphamide in the suppression of EAE. Moreover, mitoxantrone approximately doubled the mean time to onset of EAE versus control animals (279 vs 148 days after immunisation; p < 0.00005). In vitro, mitoxantrone 10 and 100 micro g/L inhibited myelin degradation by leucocytes and peritoneal macrophages derived from mice with acute EAE by approximately 60% and 100%. Pharmacokinetic Profile. Currently, there are no published pharmacokinetic data for intravenous mitoxantrone in pitoxantrone in patients with MS, paediatric patients or in those with renal impairment. All studies, to date, have been in patients with cancer receiving a single, approximately 30-minute intravenous infusion of mitoxantrone 5-14 mg/m(2). The drug exhibits triexponential pharmacokinetics, with a rapid initial distribution (alpha) phase, an intermediate distribution (beta) phase and a much slower elimination (gamma) phase. The mean half-life of the alpha phase appears to be 6-12 minutes and that of the beta phase 1.1-3.1 hours. Mitoxantrone has a high affinity for tissue, with a volume of distribution of up to 2248 L/m(2). Mitoxantrone persists for prolonged periods in tissues and was detectable in autopsy tissue from patients who last received the drug up to 272 days before death. At concentrations of 10-10000 ng/mL, the drug was 70-80 % bound to plasma proteins in dogs. Elimination of mitoxantrone occurs predominantly through biliary excretion and may be impaired in patients with hepatic dysfunction or third space abnormalities (e.g. ascites). The mean terminal elimination half-life of mitoxantrone ranged from 23 hours to 215 hours. Renal clearance accounts for 10 % of the total clearance of the drug. Total clearance of mitoxantrone ranged from 13 to 34.2 L/h/m(2) and renal clearance from 0.9 to 2.7 L/h/m(2). The drug appears to have a low potential for interaction with other concomitantly administered agents. Therapeutic Efficacy. Intravenous mitoxantrone (infusion of > or = 5 minutes), either as monotherapy or in combination with intravenous methylprednisolone, delayed the progression of the disease in patients with secondary-progressive (SP) or worsening relapsing-remitting (RR) MS (the latter is also termed progressive-relapsing MS) in comparative, randomised, multicentre trials. In a double-blind, monotherapy trial (Mitoxantrone In Multiple Sclerosis [MIMS] trial), mitoxantrone 12 mg/m(2) (n = 60) once every 3 months for 2 years significantly improved neurological disability relative to placebo (n = 64), as assessed by changes in mean Kurtzke Expanded Disability Status Scale (EDSS) score, mean Ambulatory Index (AI) score and mean Standardised Neurological Status (SNS) score. The drug also significantly reduced the mean number of corticosteroid-treated relapses per patient and prolonged the time to the first treated relapse. A Wei-Lachin multivariate analysis of these five efficacy variables indicated that the global difference between the two treatment groups was 0.30 (p < 0.0001). Mitroxantrone was also more effective than placebo according to secondary endpoints in this study, with fewer mitoxantrone recipients experiencing a relapse, a deterioration of > or =1 EDSS point or a confirmed deterioration in EDSS score over a 3-month period. Mitoxantrone recipients also showed less deterioration in quality-of-life ratings and had fewer hospital admissions, whereas more placebo recipients had new gadolinium-enhanced lesions at study end (the latter parameter was assessed using magnetic resonance imaging [MRI] in a subgroup of 110 patients, including 40 patients who received an exploratory 5 mg/m(2) dose). Furthermore, post hoc analyses indicated that the beneficial effects of mitoxantrone treatment on EDSS, SNS and AI scores were sustained for at least 12 months after cessation of treatment, with mean changes from baseline at 36 months in EDSS, AI and SNS scores of 0.10, 0.61 and 0.19, respectively, in the mitoxantrone group versus 0.46, 1.13 and 3.38 with placebo. Preliminary data from a cost-minimisation analysis based on results from the MIMS trial indicated that approximately half of the cost of mitoxantrone was offset by cost savings in other areas associated with the treatment of MS (direct and indirect major costs), with a total annual incremental cost for mitoxantrone of dollar 1661 per patient. Combination therapy once-monthly with intravenous mitoxantrone 20mg plus intravenous methylprednisolone 1g was more effective than intravenous methylprednisolone 1g once every month in preventing the development of gadolinium-enhanced lesions in patients with very active RRMS or SPMS (double-blind assessment using MRI scans). After 6 months, significantly more combination therapy recipients had no new gadolinium-enhanced lesions (90.5% vs 31.3% with monotherapy; p < 0.001) [primary endpoint]. There were also significant reductions in both the mean number of new enhancing lesions and the total number of gadolinium-enhanced lesions in patients receiving combination therapy versus methylprednisolone monotherapy.Tolerability. Mitoxantrone was generally well tolerated in patients with MS. Treatment-emergent adverse events occurring significantly more frequently with mitoxantrone (12 mg/m(2) once every 3 months for 2 years) than placebo were nausea, alopecia, menstrual disorders, urinary tract infection, amenorrhoea, leucopenia and elevated gamma-glutamyltranspeptidase levels. Adverse events were usually mild to moderate in severity and generally resolved with discontinuation of treatment or when treated with appropriate pharmacotherapy. Eight percent of patients discontinued treatment in the mitoxantrone 12 mg/m(2) group due to an adverse event versus 3% of placebo recipients. The incidence of drug-related acute myelogenous leukaemia was very low (0.12%) in a cohort of 802 patients with MS receiving mitoxantrone. Evidence suggests that the risk of cardiotoxicity is low in patients with MS. After 1 year of monotherapy, 3.4% of mitoxantrone recipients had a reduction in left ventricular ejection fraction (LVEF) to < or =50% compared with 0% of placebo recipients; at the end of the second year, respective incidences were 1.9% and 2.9% (total cumulative dose of mitoxantrone per patient was 96 mg/m(2) after 2 years' treatment). (ABSTRACT TRUNCATED)
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PMID:Mitoxantrone: a review of its use in multiple sclerosis. 1508 10

Several disease-modifying agents (DMAs) are approved for the treatment of multiple sclerosis, including three interferon (IFN)-beta products, glatiramer acetate and mitoxantrone. This article reviews the adverse event profiles of these DMAs based on the pivotal phase III trials, and provides practical guidelines for managing adverse effects. In general, the most common adverse events associated with IFN beta therapy are flu-like symptoms, including fever, chills and myalgias, and headache. The flu-like symptoms typically resolve within 24 hours and may be mitigated by over-the-counter anti-inflammatory agents. Adverse events related to glatiramer acetate therapy include injection-site reactions and a systemic reaction consisting of flushing, chest tightness, palpitation, anxiety or dyspnoea. The systemic reaction is transient (30 seconds to 30 minutes) and self-limited. Mitoxantrone may cause nausea, vomiting, alopecia, amenorrhoea and myelosuppression; isolated cases of acute leukaemia and dose-related cardiotoxicity have been reported in the literature. Longer-term tolerability data on mitoxantrone as a treatment for multiple sclerosis are needed. It is important for physicians to counsel patients on DMA-related adverse effects, most of which are transient and of mild-to-moderate severity. Various strategies that can be employed to prevent or manage these adverse effects and lessen their impact on the patient are discussed.
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PMID:US FDA-approved disease-modifying treatments for multiple sclerosis: review of adverse effect profiles. 1574 Jan 78

The prognosis of patients with acute lymphoblastic leukemia (ALL) and central nervous system (CNS) relapse has historically been very poor. Although chemo-radiotherapy has improved outcomes, some patients still have a poor prognosis after CNS relapse. Therefore, allogeneic hematopoietic stem cell transplantation (allo-SCT) has recently become an option for treatment of CNS leukemia; however, information, particularly on the long-term outcome of transplant recipients, is limited. We performed allo-SCT in eight pediatric patients with ALL (n=7) or T-cell type non-Hodgkin's lymphoma (n=1), who had isolated CNS relapse. All patients survived for a median of 70.5 (range, 13-153) months after SCT. Sequelae developed late in some patients: mental retardation (IQ=47) in one patient, severe alopecia in two patients, limited chronic graft-versus-host-disease in three patients, and amenorrhea and/or hypothyroidism in three patients. Except for a pre-school child with post transplant CNS relapse, six out of seven patients show normal school/social performance. Our results clearly indicate a high cure rate of isolated CNS relapse by allo-SCT in pediatric lymphoid malignancies; however, there needs to be further studies to determine which are the appropriate candidates for transplantation and what is the best transplant regimen to achieve high cure rate and maintain good quality of life.
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PMID:Allogeneic stem cell transplantation in children with acute lymphoblastic leukemia after isolated central nervous system relapse: our experiences and review of the literature. 1624 16

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