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)

The hematotoxicity of benzene exposure has been well known for a century. Benzene causes leukocytopenia, thrombocytopenia, pancytopenia, etc. The clinical and hematologic picture of aplastic anemia resulting from benzene exposure is not different from classical aplastic anemia; in some cases, mild bilirubinemia, changes in osmotic fragility, increase in lactic dehydrogenase and fecal urobilinogen, and occasionally some neurological abnormalities are found. Electromicroscopic findings in some cases of aplastic anemia with benzene exposure were similar to those observed by light microscopy. Benzene hepatitis-aplastic anemia syndrome was observed in a technician with benzene exposure. Ten months after occurrence of hepatitis B, a severe aplastic anemia developed. The first epidemiologic study proving the leukemogenicity of benzene was performed between 1967 and 1973 to 1974 among shoe workers in Istanbul. The incidence of leukemia was 13.59 per 100,000, which is a significant increase over that of leukemia in the general population. Following the prohibition and discontinuation of the use of benzene in Istanbul, there was a striking decrease in the number of leukemic shoe workers in Istanbul. In 23.7% of our series, consisting of 59 leukemic patients with benzene exposure, there was a preceding pancytopenic period. Furthermore, a familial connection was found in 10.2% of them. The 89.8% of our series showed the findings of acute leukemia. The possible factors that may determine the types of leukemia in benzene toxicity are discussed. The possible role of benzene exposure is presented in the development of malignant lymphoma, multiple myeloma, and lung cancer.
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PMID:Hematotoxicity and carcinogenicity of benzene. 267 98

On July 7h, 1988 all Italian groups practicing allogeneic bone marrow transplantation (AlloBMT) convened with the objectives of performing an analysis of their clinical material and designing some cooperative retrospective and prospective studies. It was felt that, although the great majority of the Institutions performing AlloBMT contribute data to the International Bone Marrow Transplant Registry (IBMTR) and to the European Group for Bone Marrow Transplantation (EBMT), it might still be of interest to pursue specific regional studies, establish a National Registry, and program workshops and educational meetings. The Italian Group for Bone Marrow Transplantation (GITMO) was accordingly founded. It has been determined that by December 31st, 1988, 1390 AlloBMTs have been performed in Italy by 19 Centres. Fourteen have been involved in BMT for adults and children, and 5 exclusively for children. The chief indication for AlloBMT in this clinical material was chronic myelogenous leukaemia, followed by homozygous beta thalassaemia and by the acute leukaemias; severe aplastic anaemia, malignant lymphomas and multiple myeloma have also been important indications. Overall crude survival was 58.3%; this was reduced to 50% for patients over 20, while it reached 62.5% for those under 20. Other studies are in preparation, and a similar survey for Auto BMT has been presented at the GITMO Meeting of June 28, 1989, which is currently in press.
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PMID:[Allogenic bone marrow transplant in Italy]. 269 Feb 21

Sepsis is one of the important complications on the treatment of severe hematological diseases. In this report, we analyzed sepsis in 309 patients with hematological diseases who were admitted to the First Department of Internal Medicine of Yokohama City University Hospital from 1979 to 1986. Positive blood culture were found in 17.8% (55/309 cases) and total positive cases were 73 including recurrent patients. Positive rate by underlying diseases was 30.3% in acute leukemia, 20.8% in chronic myelocytic leukemia, 17.2% in aplastic anemia, 8.0% in multiple myeloma, 6.0% in malignant lymphoma and 6.5% in others. The organisms causing sepsis were as follows; gram negative bacilli 56.4%, gram positive organisms 34.6%, fungus 6.4% and anaerobic bacteria 2.6%. Pseudomonas aeruginosa was found in 19.2%. The mortality rate of patients with sepsis was 34.2% (25/73 cases). The significant prognostic factors in patients with sepsis were the degree of neutropenia, duration of neutropenia (500 less than microliters), the species of organisms, simultaneous complication with shock and the site of other infections.
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PMID:[Sepsis in patients with hematological diseases]. 274 71

Splenic erythropoiesis was demonstrated by surface counting of 59Fe in 129 of 1,350 ferrokinetic studies performed over a 15 year period. These 129 studies were carried out in 108 patients, including 40 with chronic myelogenous leukemia (CML), 24 with agnogenic myeloid metaplasia (AMM), 18 with polycythemia vera (PV), six with a myelodysplastic syndrome, five with acute leukemia, three with prostate or breast carcinoma, two each with aplastic anemia or Hodgkin's disease, and one each with idiopathic thrombocythemia, multiple myeloma, chronic renal failure, or treated hypopituitarism. Splenomegaly was present in 83% of the studies and hepatomegaly in 72%. Grade II-III myelofibrosis was demonstrated in 62% of the cases. Hepatic erythropoiesis was present in 77% of the studies (only 38% in PV), and marrow erythropoiesis was undetectable in 33%. Total erythropoiesis was about twice normal (range 0.2 to 8 times normal) but was ineffective to varying degrees in 86% of the studies. Relationships between organomegaly, myelofibrosis, and extramedullary erythropoiesis, as well as differences among clinical disorders, are discussed. Differences observed between CML in chronic or blastic phase suggested that the erythroid cell line was involved in the proliferative process. It is concluded that splenic erythropoiesis 1) is encountered in a variety of clinical conditions; 2) is not necessarily associated with splenomegaly or myelofibrosis, even in the myeloproliferative disorders; 3) is part of a predominantly extramedullary (in the liver as well as in the spleen), expanded, and largely inefficient total erythropoiesis; and 4) can be evaluated in a semiquantitative manner by surface counting.
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PMID:Ferrokinetic study of splenic erythropoiesis: relationships among clinical diagnosis, myelofibrosis, splenomegaly, and extramedullary erythropoiesis. 275 9

Cefbuperazone (CBPZ) was administered to patients with severe infections complicating hematologic diseases to assess its efficacy and safety under such clinical conditions. Primary diseases in this series of 78 cases included; acute leukemia in 41 cases, chronic leukemia in 6 cases, other leukemia in 9 cases, malignant lymphoma in 13 cases, multiple myeloma in 3 cases, aplastic anemia in 5 cases and 1 other case. Types of infection included sepsis; proven or suspected, in 59 cases, pulmonary infection in 8 cases, upper respiratory infection in 5 cases, and other cases. CBPZ was infused by an intravenous drip method at a dosage of 4-8 g daily. Patients' ages ranged from 14 to 85 years. Clinical response to the CBPZ regimen was excellent in 24 cases, good in 22 cases, fair in 2 cases, and poor in 30 cases. Thus the overall efficacy rate (percentage of cases showing an excellent or good response) was 59.0%. Efficacy rates for individual types of infection were: documented sepsis 16.7%, suspected sepsis 58.5%, lower respiratory infection 62.5%, and upper respiratory infection 100%. CBPZ also proved to be effective in 61.0% of cases with a neutrophil count of less than 500/mm3 prior to therapy. Side effects encountered were diarrhea in 1 case, gastric discomfort in 1 case and hepatic dysfunction in 5 cases. These side effects, however, were not dose-related, and none were serious. These results indicate that CBPZ has a high therapeutic efficacy even in patient with compromised immunodefenses.
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PMID:[Efficacy and safety of cefbuperazone in severe infections complicating hematologic diseases Hanshin Infection Study Group]. 304 32

Soft tissue infections were seen in 25 patients with underlying malignancy and immunosuppressive disease. The primary disease included leukemia, lupus, aplastic anemia, lymphoma, carcinoma and myeloma. Infectious sites included the perianal area, gluteal, chest wall, extremity and the vulva. Eighty per cent of the infectious episodes occurred in patients who were granulocytopenic. Initial presentation was of local tenderness and redness. Fluctuation and discoloration were present in nine patients who were also hypotensive. Local drainage in five patients resulted in the death of two (20%). Overall, the mortality was 3/25 (12%). Wide debridement and drainage and appropriate antibiotic therapy resulted in the death of 1/20 (5%) patients. Hypotension, discoloration and fluctuation were found to be late signs in these patients. Soft tissue infections in the compromised host present subtly and progress to death if treatment is delayed. Temperature elevation and localized tenderness and erythema are indications for broad spectrum antibiotics and extensive intraoperative drainage and debridement.
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PMID:Soft tissue infections in the compromised host. 338 98

Over the 15-yr period, 1972-1986, 194 episodes of bacteremia occurred in 132 patients with acute leukemia at the Third Department of Medicine, Kanazawa University Hospital, giving an incidence of 478 episodes per 1,000 hospital admissions. This incidence was at least twice as high as that in patients with chronic leukemia, malignant lymphoma, multiple myeloma or aplastic anemia, and about 40-fold higher than that in patients with all other internal diseases. The rate of occurrence of bacteremia, whether unimicrobial or polymicrobial, remained almost unchanged throughout the study period. The frequency of gram-negative bacilli decreased significantly, however, from 81% of the total isolates for the first 10-yr period to 50% for the second 5-yr period. Escherichia coli and Klebsiella pneumoniae were isolated in markedly decreasing frequency, but Pseudomonas aeruginosa and Enterobacter cloacae in relatively constant frequency. The majority of P. aeruginosa isolates belonged to a limited number of O-antigen groups, suggesting the possibility of nosocomial infection. On the other hand, the frequency of gram-positive cocci increased from 9 to 36%. Staphylococcus epidermidis, Enterococcus species, and Staphylococcus aureus emerged as important pathogens. Such a change in the spectrum of organisms was considered to coincide with the common use of the so-called second- and third-generation cephalosporins and central venous catheters. It is thus suggested that vancomycin be added to empiric antibiotic therapy, especially when gram-positive infections are clinically or microbiologically suspected, and that reducing the acquisition of P. aeruginosa from the hospital environment remains a priority in infection prevention.
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PMID:Bacteremia complicating acute leukemia with special reference to its incidence and changing etiological patterns. 341 88

Infected patients with hematological disorders were treated with the combination of cefmenoxime (CMX) and cefsulodin (CFS). This therapy was done on 74 patients, of whom 38 (51%) had acute myelocytic leukemia, 14 (19%) malignant lymphoma, 7 (9%) acute lymphocytic leukemia, 5 aplastic anemia, 4 adult T cell leukemia, 4 chronic myelocytic leukemia, 1 multiple myeloma and 1 histiocytic medullary reticulosis. Complicated infections included 5 cases of septicemia, 41 cases of suspected septicemia, 19 cases of respiratory tract infection, 2 with anal abscess, 1 with urinary tract infection and others. The obtained results were as follows: Clinical effectiveness of the combination therapy was excellent in 17 cases (23.0%), good in 24 (32.4%) and poor in 33 (44.6%). Total clinical efficacy rate was 55.4%. Clinical efficacy rate was 40% against septicemias, 51.2% against suspected septicemias and 57.9% against respiratory tract infections. Causative pathogens were isolated in only 21 cases (28.4%): Gram-positive bacteria in 9 cases, Gram-negative bacteria in 11 and fungus in 1. About half of the Gram-negative bacteria belonged to Pseudomonas sp. The efficacy rate of this combination therapy against Gram-negative bacterial infections was 72.7% but the rate against Gram-positive bacterial infections were only 33.3%. Only in 1 case, this combination therapy was discontinued because of drug eruption. Abnormal laboratory findings were observed in 5 cases: Elevation of BUN in 3, GOT and GPT in 1 and prolongation of activated partial thromboplastin time in 1. In conclusion, this combination therapy of CMX and CFS is useful and safe against infections complicated by hematological disorders.
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PMID:[Clinical evaluation of a combination therapy using cefmenoxime and cefsulodin on infections complicated by hematological disorders. Tohkai Research Group on Infections in Hematopoietic Disorders]. 348 23

Bone marrow transplantation is increasingly used to treat a spectrum of diseases in man, including immune and genetic disorders, hematological diseases, and cancer. Approximately 11,000 transplants have been performed worldwide since 1970. About two-thirds of these transplants have involved donors, including related and unrelated individuals, and in the remaining third the patient's bone marrow has been used in the form of an autotransplant. In some disorders and under carefully defined circumstances, bone marrow transplantation appears to be the preferred therapy; these diseases include aplastic anemia, acute myelogenous leukemia, acute lymphoblastic leukemia, chronic myelogenous leukemia, and selected immune and genetic disorders. In other circumstances, the value of bone marrow transplantation is less well defined. Diseases in which bone marrow transplantation may be of benefit include Hodgkin's and non-Hodgkin's lymphoma, other cancers, thalassemia, hemoglobinopathies, genetic disorders, and possibly multiple myeloma. It has been difficult to precisely identify the role of bone marrow transplantation in many of these diseases. Prospective randomized controlled clinical trials have sometimes shown an advantage for bone marrow transplantation, but in most circumstances a benefit is as yet unproven. In the U.S. the annual incidence of individuals with diseases in which bone marrow transplantation is thought to be of proven benefit is approximately 5,400, and an additional 15,000 individuals annually have diseases in which bone marrow transplantation is thought to be of possible benefit. This study reviews data available from both controlled and uncontrolled clinical trials indicating the potential role of bone marrow transplantation in the treatment of human diseases.
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PMID:Clinical trials of bone marrow transplantation. 352 45

The current use of allogeneic bone marrow transplantation in various hematologic diseases is reviewed. Bone marrow transplantation (BMT) involves infusion of bone marrow from a suitable donor into a properly conditioned recipient. Most BMT is allogeneic, in which the donor is genetically dissimilar but shares some common tissue antigens with the recipient. Almost all patients undergoing allogeneic BMT must be "prepared" with high-dose cyclophosphamide to prevent graft rejection. Most patients with hematologic malignancy also receive total body irradiation to eradicate malignant cells located in areas inaccessible to the systemic circulation. Bone marrow transplantation is the treatment of choice for severe aplastic anemia. In acute myelogenous leukemia, the best results are observed in young patients undergoing BMT in first remission. In acute lymphoblastic leukemia, BMT is usually reserved for patients in second or subsequent remission. Early results are promising in patients with chronic myelogenous leukemia who receive BMT before the accelerated phase or blast crisis of this disease. Allogeneic BMT offers an opportunity for cure in some patients with relapses of Hodgkin's disease or those with certain subtypes of non-Hodgkin's lymphoma. Other diseases for which BMT has been used include severe combined immune deficiency disease, Fanconi's anemia, and multiple myeloma. Complications of BMT include graft failure or rejection, acute and chronic graft-versus-host disease, and infectious complications; late complications, such as restrictive and obstructive pulmonary disease, cataracts, sterility, and secondary malignancies, may also occur. Bone marrow transplantation has become an important treatment for many hematologic diseases, but it will probably remain a treatment reserved for only a few highly specialized centers. If morbidity and mortality caused by transplant-related complications can be reduced, BMT may be offered to older patients and those without HLA-identical sibling donors.
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PMID:Allogeneic bone marrow transplantation in the treatment of hematologic diseases. 388 73


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