Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0026764 (multiple myeloma)
 36,148 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A clinical study on human lymphoblastoid interferon (HLBI) in various advanced malignant diseases was performed. HLBI was administered to a total of 25 patients with various advanced malignant diseases in order ot investigate antitumor effect and toxicity. The diseases evaluated were as follows: 8 multiple myeloma (MM), 2 chronic lymphocytic leukemia (CLL), 2 adult T cell leukemia (ATL), 1 acute lymphocytic leukemia (ALL), 8 breast cancer, 3 gastric cancer and 1 ovarian cancer. Twenty-three patients received either 3 million or 6 million units of HLBI by daily intramuscular injection or every other day. One patient with ATL received 18 million units of HLBI by i. v. daily and 1 patient with ALL received 30.32 million units of HLBI i. v. daily. Tumor regression (PR) was observed in 2 patients with MM, each one patient with ATL and ALL, respectively. Major toxicities were pyrexia, myelosuppression, general malaise and G.I. toxicity. Several patients showed abnormality of hepatic or renal function. Two patients who received HLBI for more than a year developed cardiac toxicity.
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PMID:[Clinical trial of human lymphoblastoid interferon on advanced malignancy]. 635 2

Marrow transplantation is effective treatment for a number of haematological diseases in patients under the age of 50 who have an HLA-identical sibling donor. It is generally successful when used early in the treatment of aplastic anaemia. It is the only treatment that offers long-term disease-free survival for patients with acute leukaemia who have relapsed at least once, with 10-30 per cent apparent cures. Although still somewhat controversial, it appears also to be the treatment of choice for patients with acute non-lymphoblastic leukaemia in first chemotherapy induced remission and for those with chronic myelogenous leukaemia in the chronic phase since approximately 50-60 per cent of these patients are surviving after marrow transplantation in complete remission, apparently cured. Marrow grafting is the only effective treatment for many patients with inherited immunological-deficiency diseases and certain genetic storage diseases. It is being explored for the therapy of patients with lymphoma, Hodgkin's disease, multiple myeloma, small-cell lung cancer, testicular cancer, ovarian cancer and genetic disorders of haematopoiesis. Cures of congenital Fanconi anaemia, Blackfan-Diamond anaemia, osteopetrosis, and paroxysmal nocturnal haemoglobinuria have been achieved by marrow grafting. Genetic disorders associated with haemolytic anaemia and cyclic neutropenia have been cured by marrow grafting in animals. Target disorders for marrow transplantation in humans are thalassaemia major and sickle cell disease, and, indeed, a first successful transplant for treatment of thalassaemia major has recently been described (Thomas et al, 1982). Marrow transplantation has been limited by the fact that many patients do not have HLA-identical siblings and very few have monozygotic twins. The Seattle team has now explored the use of less well-matched family member donors in more than 80 patients with leukaemia. These donors share one HLA haplotype genetically with the patient and are phenotypically identical at two of the three major HLA loci on the other HLA haplotype (Clift et al, 1979). Overall, the post-transplant survival appears more a reflection of the type and stage of the leukaemia than of the marrow donor. Patients with leukaemia grafted in relapse have a projected survival of 20-30 per cent and those transplanted in remission of 50 per cent. The incidence and severity of GVHD may not be significantly different from that of patients given HLA-identical sibling marrow grafts.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Application of bone marrow transplantation in leukaemia and aplastic anaemia. 635 79

Animal studies with transplantable tumor cell lines suggested that the sensitivities of the in vitro tumor cultures to certain anticancer drugs agreed with the drug sensitivities of the same tumors in vivo. Soft agar cloning techniques have been established for human myeloma and ovarian cancer cells. Refinement of the techniques now permits cloning of most human malignancies. Drug sensitivity studies have been conducted measuring the reduction in the number of tumor colonies formed. Clinical trials showed that approximately one half of patients whose cells demonstrate in vitro sensitivity to a drug will obtain a clinical response to the same drug. Patients whose cells appear resistant to a certain drug in vitro rarely respond to the drug clinically. In vitro drug sensitivity testing may eventually allow some individualization of chemotherapy. In addition it already appears that these techniques may be excellent for screening new drugs with specific anticancer potentials.
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PMID:The human tumor cloning assay in cancer drug development. A review. 638 76

In order to evaluate occupational mortality, age standardized proportional mortality ratios (PMR) were calculated for 160 female cosmetologists and hairdressers and 1,001 male barbers and hairdressers utilizing cause of death and occupation statements from British Columbia death registrations collected from 1950 to 1978. Female cosmetologists had elevated risks of death from multiple myeloma (PMR = 619, p = .03) and ovarian cancer (PMR = 204, p = .09). Male barbers and hairdressers had no corresponding elevated risk of myeloma but had a significantly high risk of death from leukemia (PMR = 188, p = .05). Further detailed studies of these occupations would be worthwhile to confirm and extend these findings.
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PMID:Multiple myeloma, leukemia, and cancer of the ovary in cosmetologists and hairdressers. 646 43

The risk of leukemia associated with the first course of cancer treatment was evaluated in over 440,000 patients diagnosed during 1973-80 (average follow-up = 1.91 yr) from the National Cancer Institute's Surveillance, Epidemiology, and End Results Program. Although the reporting of the first course of therapy probably was incomplete, 34 acute nonlymphocytic leukemias (ANLL) developed compared with 7.6 expected among 70,674 patients known to receive initial chemotherapy [relative risk (RR) = 4.5, 95% confidence interval (Cl) = 3.1-6.3]. Significant ANLL excesses were observed following chemotherapy for breast cancer (RR = 8.1), ovarian cancer (RR = 22.2), and multiple myeloma (RR = 9.5). Patients initially treated with radiation (with no record of chemotherapy) also had a significantly increased ANLL risk; 45 leukemias occurred versus 17.9 expected (RR = 2.5, 95% Cl = 1.8-3.4). In this group, excess ANLL were found following irradiation for uterine corpus cancer (RR = 4.0). Kidney and renal pelvis cancer patients had a twofold leukemia risk (all types) that was unrelated to treatment (RR = 2.2).
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PMID:Risk of leukemia associated with the first course of cancer treatment: an analysis of the Surveillance, Epidemiology, and End Results Program experience. 658 39

Clonogenic tumor cells from fresh biopsies of human cancers were cultivated in vitro and tested for sensitivity by continuous exposure to pharmacologically achievable concentrations of either of two highly purified human leukocyte interferon subtypes (IFN-alpha A and IFN-alpha D) prepared by recombinant DNA methods. The interferons were compared on a weight basis at concentrations of 0.4 and 4.0 ng/ml (equivalent to 80 and 800 units of interferon activity for IFN-alpha A and 2.0 and 20 units for IFN-alpha D). Inhibition of tumor colony-forming units (50% of control or less) was observed in 38.1% of the 273 tumors tested against IFN-alpha A, and in 16% of the 71 tumors tested against IFN-alpha D. Of the tumor types with at least ten samples tested against IFN-alpha A, the percentage of cases exhibiting inhibition was as follows: melanoma (51.7%), lung cancer (50%), myeloma (33.4%), ovarian cancer (33.9%), sarcoma (33.3%), adenocarcinoma of unknown primary (30.4%), breast cancer (28%), acute leukemia (30.8%), and renal cancer (23%). More marked inhibition (30% of control or less) was observed in 18.7% of all tumors tested against IFN-alpha A. Of 60 melanomas tested, 18 (30%) exhibited marked in vitro inhibition of growth with IFN-alpha A. Although a smaller number of tumors (71) were tested against IFN-alpha D on a weight basis, it appeared, in general, to be slightly less active than IFN-alpha A (p less than 0.01), and only 8% of tumors tested exhibited marked inhibition over the same dosage range of interferon. Comparison of the dose-response curves for the 68 tumors tested simultaneously against both interferons did not reveal marked interpatient differences in the inhibition curves, although IFN-alpha D was slightly less active overall. Tumors exhibiting at least 50% inhibition of tumor colony formation also proved to be sensitive to a significantly larger number of cytotoxic drugs (tested simultaneously) than the tumors not inhibited with interferon (p less than 0.0001 for IFN-alpha A). We conclude that the in vitro clonogenic assay may aid in targeting tumor types most likely to exhibit interferon sensitivity and assist in case selection for entry into clinical trials with cloned interferons.
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PMID:Effects of cloned human leukocyte interferons in the human tumor stem cell assay. 668 47

The case histories of 4 patients who developed bone marrow damage after therapy with melphalan are described. In 3 patients bone marrow damage manifested initially as a sideroblastic anaemia which was later followed by acute myeloid leukaemia. The last patient developed a dyserythropoietic anaemia with leucopenia, but thus far there has been no further progression. None of the 4 patients had any haematological abnormality prior to the melphalan therapy. Two were suffering from carcinoma of the breast and 2 had ovarian neoplasms. The fact that melphalan was given as adjuvant therapy in all 4 patients prior to the development of the haematological abnormalities supports the concept that it was of aetiological importance. These findings are in line with a number of reports in the literature in which acute leukaemia has developed in subjects treated for malignant tumours (especially multiple myeloma and ovarian cancer) with melphalan.
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PMID:Bone marrow damage due to melphalan and other cytostatic agents. 693 39

While radiotherapy and antineoplastic chemotherapy often control malignancies they may, paradoxically, cause new cancers to develop as long-term complications. Although almost any type of neoplasm can occur, radiation-induced malignancies are most likely to affect the myelopoietic tissues and the thyroid gland. The former tissues are also most frequently involved by chemotherapy. The combination of intensive radiotherapy and intensive chemotherapy is particularly leukemogenic. Acute myeloid leukemia has occurred with increased frequency following treatment of Hodgkin's disease, non-Hodgkin's lymphoma, multiple myeloma, ovarian cancer, polycythemia vera, carcinoma of the thyroid gland, and carcinoma of the breast. Radiation-induced malignancies usually occur in the field of irradiation. For example, radiotherapy for carcinoma of the cervix may be followed by the development of carcinomas of the endometrium, vagina, urinary bladder, colon , rectum, and anus, as well as mesotheliomas of the peritoneum and osteosarcomas of the pelvis. Tumors developing in an irradiated field include a substantial number of soft tissue sarcomas or osteosarcomas. There is a 20-fold increase of second cancers following treatment of childhood malignancies, mostly sarcomas of bone and soft tissues, but including leukemia, and carcinomas of the thyroid gland, skin, and breast. The latent period between radiotherapy and the appearance of a second cancer ranges from 2 years to several decades, often being 10-15 years. With chemotherapy the mean latent period is shorter, approximately 4 years. The mechanism of oncogenesis by radiotherapy or chemotherapy is poorly understood and probably involves a complex interplay of somatic mutation, co-oncogenic effects, depression of host immunity, stimulation of cellular proliferation, and genetic susceptibility. The danger of developing second malignancies following radiotherapy or chemotherapy emphasizes the need for lifelong follow-up of patients given these forms of treatment; particularly in those with a long life expectancy as are those treated for childhood neoplasms.
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PMID:Second neoplasms following radiotherapy or chemotherapy for cancer. 708 Nov 42

L-Phenylalanine mustard (L-PAM), a bis-choroethylamine, is an important drug in the treatment of multiple myeloma and ovarian cancer. It undergoes rapid hydrolysis in vitro and in vivo, forming the mono-and dihydroxy degradation products. L-PAM's first-order disappearance rate in a phosphate-buffered solution did not differ statistically according to the presence or absence of activated rat liver microsomal enzymes. Furthermore, L-PAM's disappearance rate in a rat whole liver perfusion system was not greater than its hydrolysis rate in water. In vitro plasma recovery studies showed that up to 85% of the 14C L-PAM drug equivalents could be recovered as the parent compound and the mono- and dihydroxy degradation products. Thus, L-PAM in in vitro degradation was similar qualitatively and quantitatively to its reported in vivo degradation in animals and man. It is concluded that L-PAM does not undergo important, active in vivo metabolism.
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PMID:In vitro degradation of L-phenylalanine mustard (L-PAM). 710 81

The MOv18 (gamma 1, kappa) and MOv19 (gamma 2a, kappa) murine monoclonal antibodies (MAbs) recognize different epitopes on the human folate binding receptor which is overexpressed on 90% of nonmucinous epithelial ovarian tumors. A chimeric murine-human (human gamma 1, kappa) version of both antibodies was constructed and expressed. The genes encoding the murine heavy and light chain variable regions of the MOv18 and MOv19 MAbs were cloned from the parental hybridomas, fused with genes encoding the human heavy (gamma 1) and light (kappa) chain constant regions, respectively, and expressed in the SP2/0 murine myeloma cell line. Using human peripheral blood mononuclear cells as effector cells and conditions that provide for maximum lysis (effector target = 50:1, saturating antibody concentration), the murine MOv18 MAb (IgG1) mediated variable levels of specific cytolysis of the target ovarian cancer cell line IGROV1. In contrast, the chimeric MOv18 MAb mediated higher and more consistent lysis even at a 10-100-fold lower antibody concentration. The murine MOv19 MAb (IgG2a) mediated specific lysis of IGROV1 cells, and the chimeric version of this antibody mediated an amount of lysis at least equal to that mediated by its murine counterpart. A comparison of the ED50 values obtained for the murine MOv19 and chimeric MOv19 antibodies indicates that the chimeric MOv19 MAb was 3 to 10 times more potent than the murine MOv19 antibody. In addition, the ED50 values obtained for the chimeric MOv18 and chimeric MOv19 MAbs were similar, indicating that these MAbs are equally potent. The level of maximal lysis obtained was dependent on the number of target molecules/cell; the same high level of lysis mediated by cMOv18, MOv19, and cMOv19 was observed with both IGROV1 and OvCA432 target cells. However, only low levels of lysis were obtained when the SW626 cell line, which expresses 1 x 10(4) folate binding protein sites/cell, was used as a target. An equimolar mixture of the chimeric MOv18 and MOv19 MAbs was no more effective in the mediation of lysis than an equivalent amount of either chimeric MAb alone. These data suggest that the folate binding receptor is expressed on IGROV1 cells at a density sufficient to provide for optimal levels of antibody-mediated lysis using a single chimeric antibody directed at the folate binding receptor.
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PMID:Chimeric murine-human antibodies directed against folate binding receptor are efficient mediators of ovarian carcinoma cell killing. 751 87


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