Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0011570 (depression)
 172,036 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Thirteen patients with osteogenic sarcoma were treated with multiple drug chemotherapy consisting of bleomycin, cyclophosphamide and dactinomycin. The dosage schedule used was: bleomycin 12 mg/m2/day, cyclophosphamide 600 mg/m2/day, and dactinomycin 450 microgram/m2/day. All drugs were given intravenously for two consecutive days. Treatment was repeated every 2 weeks. Toxicity included severe nausea and vomiting (managed with antiemetics and intravenous hydration) and manifestations of bone marrow depression. Of 13 patients, eight were previously treated with high dose methotrexate with citrovorum factor rescue, cyclophosphamide and Adriamycin. Of these eight, three patients had objective evidence of tumor regression (37.5%). Five of five previously untreated patients had objective evidence of tumor regression. The overall response rate in osteogenic sarcoma patients to BCD was 61.5%. The combination of BCD appears to be more active against osteogenic sarcoma than cyclophosphamide alone or Adriamycin alone. The relative safety with which BCD can be administered makes this combination a valuable adjunct to high dose methotrexate with citrovorum factor rescue and Adriamycin in the treatment of osteogenic sarcoma.
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PMID:Combination chemotherapy with bleomycin, cyclophosphamide and dactinomycin for the treatment of osteogenic sarcoma. 7 9

A murine model of immune responsiveness had been adapted to study anergic conditions associated with neoplasia. Marked anergy observed in mice bearing L1210 leukemia and P-388 lymphoma is contrasted to the minimal immune depression associated with B-16 melanotic melanoma and Sarcoma 180J. The ability of N,N-bis(2-chloroethyl)-N-nitrosourea chemotherapy to reduce tumor burden without prolonged suppression of delayed cutaneous hypersensitivity is compared to the profound suppression of the cutaneous response observed with Adriamycin cytoreductive therapy. The applications of our model are discussed in relation to tumor-associated anergy, new approaches to the evaluation of pharmaceuticals, and studies of combined chemoimmunotherapy regimens.
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PMID:Delayed cutaneous hypersensitivity to oxazolone in mice with tumors. 63 44

Adriamycin was administered to 60 adults and 21 children by 3 different dosage schedules: 22.5 mg/sq m (0.6 mg/kg) daily for 4 days, 15 mg/sq m (0.4 mg/kg) every 8 hr for a total of 6 doses, and 50 to 120 mg/sq m as a single dose every 3 to 4 weeks. Objective responses lasting more than 1 month occurred in 5 subjects with acute leukemias or lymphoma, 3 with transitional cell carcinomas, 2 with sarcomas, 2 with Ewing's sarcoma and 1 each with bronchogenic carcinoma, orchidoblastoma, and thymoma. Toxic reactions included nausea, vomiting, stomatitis, alopecia, and hematopoietic depression, but significant cardiac toxicity occurred in only 1 patient. Pharmacokinetic data, collected in 25 patients by fluorometric and chromatographic assay, suggested a biphasic plasma clearance of drug with initial and secondary half-lives of about 1.5 and 14 to 21 hr, respectively. When drug was given every 8 hr there was evidence of loss of an initial very rapid phase of distribution of adriamycin and its metabolites. Urinary excretion accounted for 3.4 to 38.1% of administered fluorescence over a 72-hr period; in the first 24 hr, between 48.2 and 100% of this urinary material was in the form of adriamycin; leter, this fraction declined. No adriamycin or its fluorescent metabolites could be extracted from the stools.
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PMID:Clinical effects and pharmacokinetics of different dosage schedules of adriamycin. 94 83

Based on our prior experience in treating children with metastatic osteogenic sarcoma, a multidrug regimen was developed. Nine children with evaluable osteogenic sarcoma were treated with vincristine 1.5 mg/m2 on day 1, highdose methotrexate 200-300 mg/kg i.v. on day 2, with p.o. citrovorum factor "rescue" 9 mg every 6 hours x 12, followed in 2 weeks by cyclophosphamide 40 mg/kg i.v., then 2 weeks later Adriamycin 1.5 mg/kg/day x 2; in 2 weeks cyclophosphamide was repeated. After a 2-week rest, the 56-day cycle was repeated for a total period of 1 year. Oropharyngeal mucositis was the most frequent severe manifestation of gastrointestinal toxicity. Hematologic depression was mild to severe. Nine patients with clinically evaluable osteogenic sarcoma and no previous chemotherapeutic treatment were treated with this regimen. One patient had only a transient shrinkage in tumor mass, and one patient had no progression of multiple pulmonary and bone metastases for 16 months while on therapy. Of the remaining seven patients, all had clinically significant responses with tumor regression demonstrated for from 5 to 20+ months. Four of these patients (three presenting with primary tumor and pulmonary metastases) demonstrated regression of their primary tumor. In an attempt to increase the cure rate in osteogenic sarcoma, chemotherapy that has proven to be effective against metastatic osteogenic sarcoma should now be employed as prophylactic therapy, after amputation, at cancer treatment centers where it can be safely and effectively administered.
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PMID:The rationale for multiple drug chemotherapy in the treatment of osteogenic sarcoma. 107 42

Administration of therapeutic dose levels of cyclophosphamide as a single dose or as daily treatments for 5 days during the perisurgical period resulted in a significant decrease in the strength of surgical skin wounds in mice as measured 21 days after surgery. Administration of a single dose of 200 mg/kg either at the time of surgery or up to 4 days prior to or after surgery impaired 21-day wound strength, with the most extensive depression observed when the drug was given 1 or 2 days after surgery. Earlier stages of wound healing (day 3 or day 7) were not as sensitive to cyclophosphamide. Adriamycin in the therapeutic dosage range for mice did not significantly impair wound healing. This drug had an effect only at the LD10 dosage level. Combination treatment with cyclophosphamide plus adriamycin at the time of surgery impaired 21-day wound strength to a greater degree than observed with either agent alone, but did not significantly depress wound strength 3 or 7 days after surgery. These studies indicate that dosage level, the time of drug administration relative to surgery, and the time at which wound strength measurements are made are important parameters in determination of the effects of antineoplastic agents on wound healing.
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PMID:Effects of cyclophosphamide and adriamycin on the healing of surgical wounds in mice. 117 26

The systematic chemical control of cancer requires a quantitative knowledge of the pharmacologic disposition of antitumor drugs in both healthy and malignant tissues in the body. Pharmacokinetic models can predict the drug concentration in both tumor sites and healthy organs and hence may provide a predictive capability regarding both antitumor action and concomitant toxicity. Adriamycin is an anthracycline antibiotic that has been demonstrated to possess a broad spectrum of antitticularly solid tumors. Its major toxicity is manifested by the depression of normal cell proliferation in the bone marrow and a delayed dose-dependent cardiac toxicity eventually resulting in congestive heart failure. This study is concerned with the development of a predictve analytic model for the pharmacokinetics of adriamycin. The analytic approach embodies a physiologic multicompartmental model as a framework. This model postulates that specific organs or tissue masses may be simulated by a compartment whose elements consist of physiologic properties such as tissue volume and blood flow and pharmacologic behavior such as tissue binding and metabolic activity. A mass balance is set up across each compartment and all compartments are linked by an independent blood compartment. The mass balance includes terms representing inflow and outflow of the drug as well as its metabolism, protein-binding, and other pharmacologic behavior. A model has been developed that has ten compartments which represent the plasma, heart, liver, kidney, lung, lean tissue, adipose tissue, gut, bone marrow, and spleen. Solutions of the system of equations yield the time course of the drug in each organ. Predictions of adriamycin concentration-time curves in the ten tissues after intravenous (iv) administration were generated using this model. With few exceptions, agreement between predicted and actual tissue data in rabbits was excellent. Human plasma levels of adriamycin were predicted and comparison with patient data demonstrated a reasonable first approximation.
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PMID:Preliminary pharmacokinetic model for adriamycin (NSC-123127). 117 72

Circulatory responses to isoflurane and halothane anesthesia were studied in eight rabbits with biventricular cardiomyopathy induced by doxorubicin (Adriamycin, 14 mg/kg IV over 7 wk) and in eight controls (saline injections). In preliminary operations pulsed-Doppler flow probes were placed on the ascending aorta, left renal artery, and lower abdominal aorta. Each group was studied after 4, 6, and 7 wk of treatment. The development of congestive heart failure (CHF) was associated with decreases in mean arterial pressure and cardiac output (CO) of 14% and 16%, respectively, (P less than 0.05) and an increase in heart rate. In controls, each anesthetic agent produced dose-related decreases in mean arterial pressure and increases in heart rate, but not significant changes in CO. Renal blood flow was reduced to a similar degree by 1.3 MAC halothane (24% decrease) and 1.3 MAC isoflurane (21% decrease); hindlimb blood flow was reduced only by halothane. As CHF developed there was an attenuation of the heart rate response to anesthesia. Halothane, but not isoflurane, significantly reduced CO in more advanced stages of CHF. The changes in renal blood flow and hindlimb blood flow with each anesthetic in the CHF group were similar to those observed in controls and did not vary with week of treatment. Administration of the angiotensin-converting enzyme inhibitor enalaprilat (0.2 mg/kg IV) reversed the CO and renal blood flow effects of halothane except after 7 wk of treatment in the CHF group, when the combination of halothane and enalaprilat resulted in severe circulatory depression.
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PMID:Cardiovascular effects of volatile anesthesia in rabbits: influence of chronic heart failure and enalaprilat treatment. 165 54

Doxorubicin (Adriamycin, ADR) is an effective antineoplastic agent with a major side effect of dilated cardiomyopathy. Previously we showed ADR selectively decreased alpha cardiac (alpha c) actin mRNA in the rat heart when compared to other mRNAs examined in heart and skeletal muscle. The present study determined if this effect was selective for mRNAs within the thin filament, related to inhibitory effects on mitochondrial transcription, and modified by pretreatment with the cardioprotective chelating agent ICRF-187. Adult Sprague-Dawley rats received ADR at 8 mg/kg intraperitoneally (ip) with or without pretreatment with ICRF-187 given at 80 mg/kg ip. After 3 days, rats were killed and myocardial RNA was extracted, electrophoresed, transferred to nitrocellulose, and hybridized with the [32]cDNA probes alpha c actin, troponin C (TnC), BamHI fragment of mouse mitochondria (MM), and glyceraldehyde-3-phosphate dehydrogenase (G3PD). Results showed a major depressive effect of ADR on rat myocardial alpha c actin mRNA. No depression of the other mRNAs examined (TnC, MM, or G3PD) was seen. ICRF-187 did not modify the effect. We conclude that the ADR-induced decrease in alpha c actin mRNA was: (1) selective within the thin filament; (2) not related to inhibitory effects on mitochondrial transcription; and (3) not related to free radical formation. Possible subcellular mechanisms are discussed.
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PMID:Selective alterations in rat cardiac mRNA induced by doxorubicin: possible subcellular mechanisms. 170 8

Forty-three patients with disseminated refractory malignancies each received an individually specified combination of either Adriamycin (n = 24) or mitomycin-C (n = 19) conjugated to a cocktail of murine monoclonal antibodies (mAb). Cancers were typed with both immunohistochemistry and flow cytometry using a panel of antibodies. Cocktails of up to six antibodies were selected based on total binding of greater than 80% of the malignant cells in the biopsy specimen. These mAb cocktails were then drug conjugated, safety tested, and administered intravenously. The Adriamycin immunoconjugates were well tolerated in 22/24 patients, with 17/24 having significant side effects. Fever, chills, pruritus, and skin rash were by far the most common transitory reactions. All were well controlled with premedication. A total of up to 1 g Adriamycin and 5 g mAb were administered to each patient. The limiting factor appeared to be a variable dissociation of active Adriamycin from the antibody that unpredictably caused hemopoietic depression. Similar findings were noted among 19 patients treated with mitomycin-C conjugates. Thrombocytopenia at a 60-mg dose of mitomycin-C in this schedule was dose limiting. Serological evidence suggested that the development of an immunoglobulin M antibody specific against the mouse mAb had the specificity and sensitivity to predict clinical reactions. These antibodies were quantitatively less in mitomycin-C-treated patients. Selected patients were retreated. One patient with chronic lymphocytic leukemia was treated on three occasions with regression of peripheral lymph nodes. Two patients with breast carcinoma had definite improvement in ulcerating skin lesions, and two patients with tongue carcinoma had shrinkage of their lesions. No responses were seen with mitomycin-C conjugates but binding was noted to tumors. Drug-induced colitis was seen at higher doses with some binding of these conjugates to normal colon epithelium. This study demonstrated the feasibility of preparing individually specified drug immunoconjugate cocktails for patients with refractory malignancies. Cocktail formulation and antibody delivery to the tumor in vivo was accomplished. There was limited antigenic drift among various biopsies within the same patient over time. The major technical hurdle continues to be the selection of effective drug conjugation methods to optimally bind drugs to mAbs for targeted cancer therapy.
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PMID:Custom-tailored drug immunoconjugates in cancer therapy. 176 66

A novel antitumor antibiotic, 2a,3,4,5,6,6a,7,11b-octahydro-11-methoxy-12-methyl-3,6-imino-1H-2-oxa-11 c- azanaphth(1,2,3-cd)azulene-5-carboxylic acid monocitrate (quinocarmycin citrate; KW2152) was selected for investigation in a number of experimental tumor systems because of its efficacy against P388 leukemia. In the initial studies with P388 leukemia (i.p.-i.p.), KW2152 gave an increase in life span of greater than 80%. The activity was schedule dependent and daily administration was the most effective. KW2152 caused marginal activity against L1210 leukemia, B16 melanoma, and M5076 sarcoma. The effect on cultured cells suggested that KW2152 was not cross-resistant to Adriamycin (ADM) but was cross-resistant to mitomycin C (MMC); however, KW2152 caused prolongation of life span against mice bearing P388/ADM or P388/MMC. In tests against human tumors xenografted s.c. in nude mice, KW2152 significantly inhibited the growth of MX-1 mammary carcinoma with all tumors cured at i.v. doses of 4.4 mg/kg/day and p.o. doses of 26.2 mg/kg/day given daily for 7 days. KW2152 also inhibited distinct human gastric carcinomas, St-4 and St-15 tumors, and colon carcinoma Co-3 by daily administration for 7 days. Against St-4, KW2152 gave a treated versus control percentage of 27, compared to 52 for cis-diamminedichloroplatinum. Against Co-3, KW2152 was at least as effective as MMC, ADM, cis-diamminedichloroplatinum, and bleomycin, giving a treated versus control percentage of 18 at a dose of 8.6 mg/kg/day given daily for 7 days. KW2152 showed growth inhibitory activity against cultured murine tumors and human cells. The order of in vitro efficacy of KW2152 against murine tumors, P388 leukemia greater than L1210 leukemia, B16 melanoma, correlated with the order of the sensitivity on the i.p.-i.p. systems of these tumors. The 50% inhibitory concentrations against P388 leukemia cells were 5.3 X 10(-6) and 1.1 X 10(-7) M after 1 and 72 h exposure, respectively. KW2152 caused significant inhibition of RNA synthesis after a short time exposure. In P388 leukemia cells exposed for 1 h with KW2152, the 50% inhibitory concentration for RNA synthesis was 10(-5) M, 30-fold less than that for DNA synthesis. White blood cell depression or platelet depression was not significant after administration of the i.v. 10% lethal dose given daily for 7 days. Because of its good activity against human mammary tumor MX-1 and some effectiveness against other gastric and colon carcinomas and its water solubility, a novel antitumor antibiotic, KW2152, is being developed as a Phase I anticancer agent.
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PMID:Antitumor activity of a novel antitumor antibiotic, quinocarmycin citrate (KW2152). 243 18


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