Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: UMLS:C0029463 (
osteosarcoma
)
16,637
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
cis-Dichlorodiammineplatinum(II) (cis-platinum) has no more than additive, and often much less than additive, lethal toxicity for mice when given in combination with other anticancer agents representing several of the major functional classes of clinically useful anticancer drugs. The previously reported broad spectrum of anticancer activity of cis-platinum against tumors in laboratory animals has now been extended to promisingly useful therapeutic synergism in combination with other active anticancer drugs, including advanced-staged tumors in mice; eg, cis-platinum plus cyclophosphamide against advanced Ridgway
osteogenic sarcoma
and advanced P388 leukemia, and as surgical adjuvant chemotherapy against advanced colon tumor 26; cis-platinum plus Adriamycin against advanced P388; and cis-platinum plus VP-16-213 against advanced P388. Therapeutic synergism was also seen with cis-platinum plus carminomycin (an Adriamycin analog) against early colon tumor 26. Resistance and cross-resistance studies using sublines of L1210 and P388 selected for resistance to various alkylating agents (cyclophosphamide, melphalan,
BCNU
, or cis-platinum) indicate a variety of resistance and cross-resistance patterns which further support the growing body of evidence that wide differences in mechanism of cytotoxic activity exist among alkylating agents having experimentally and clinically useful anticancer activity. These data support the observed therapeutic synergisms with combinations of alkylating agents seen against a broad spectrum of murine tumors, and they suggest other drug combinations that might be considered for experimental and clinical trial based on a growing number of logical differences in biochemical mechanism of action of alkylating agent anticancer drugs that have been reported.
...
PMID:cis-Dichlorodiammineplatinum(II): combination chemotherapy and cross-resistance studies with tumors of mice. 29 80
A human tumor xenograft model using pharmacologically immunosuppressed mice was assessed for its suitability to test preclinically the sensitivity of colorectal carcinomas, bone sarcomas and melanomas against anticancer agents. Besides ionizing radiation, 14 cytotoxic drugs including 5-fluorouracil (5-FU), dimethylmyleran (DMM), cytosine arabinoside, cyclophosphamide, melphalan,
BCNU
, mitomycin C, adriamycin, bleomycin, etoposide, vinblastine, cisplatin, procarbazine and DTIC were assayed. Ionizing radiation, 5-FU and DMM were also applied at lethal doses followed by bone-marrow rescue heavy therapy. Four colon carcinomas responded poorly to most of the agents but one tumor displayed marked sensitivity to
BCNU
. Lethal doses of radiation, 5-FU and DMM could also show considerable activity. High sensitivity was shown by a Ewing sarcoma to DMM and cyclophosphamide and by an
osteosarcoma
to the latter drug. No strong effects were seen against melanomas. Lethal doses of DMM induced the best regression of one colon carcinoma. In general, the superiority of heavy therapy for solid human tumors compared to maximally tolerated doses was demonstrated. Individual carcinomas of the same type displayed different drug sensitivity.
...
PMID:Xenografts in pharmacologically immunosuppressed mice as a model to test the chemotherapeutic sensitivity of human tumors. 345 87
Sarcomas of childhood rank fifth in incidence of malignant tumors in children younger than 15 years. Among the soft tissue sarcomas, approximately 50% are rhabdomyosarcomas. The remainder represent a heterogeneous group of diverse sarcomas which are not unique to children and include fibrosarcoma, synoviosarcoma, malignant fibrous histiocytoma, malignant schwannoma, angiosarcoma, leiomyosarcoma, and others. The most common bone cancers in childhood are
osteosarcoma
and Ewing's sarcoma. Although a multidisciplinary approach utilizing surgery, irradiation, and combination chemotherapy is routinely used in management of virtually all children with solid tumors, the value of adjuvant chemotherapy in select bone and rare soft tissue sarcomas is currently being tested. Multiagent chemotherapy including vincristine, dactinomycin, cyclophosphamide, and Adriamycin (doxorubicin) contribute to cure rates in 65% to 75% of children with localized rhabdomyosarcoma, Stages I to III, when combined with surgery and/or irradiation. Other drugs which hold promise include platinum, DTIC, methotrexate, and VP-16. The efficacy of similar drugs in the rarer pediatric soft tissue sarcomas other than rhabdomyosarcoma and its variants requires prospective randomized trials evaluating histologic grade, tumor size, and nodal status. It has been suggested that the high-grade sarcomas presenting with minimal tumor bulk are most sensitive to combined radiotherapy-chemotherapy, whereas the low-grade sarcomas are more resistant to such therapy. Tumor cell heterogeneity contributes to biologic diversity and response to treatment. Chemotherapy as adjuvant therapy to irradiation is currently recommended and utilized for Ewing's sarcoma with survival rates approaching 80%, and disease-free survival of approximately 75% for those with localized disease. Children with widespread and metastatic disease at presentation fare less well. Although multiple single agents exhibit response rates ranging from 40% to 60%, including cyclophosphamide, Adriamycin, dactinomycin,
BCNU
, mithramycin, and 5-fluorouracil, new and more effective agents are needed. Controversy regarding the value of multiagent chemotherapy in
osteosarcoma
has stimulated prospective randomized trials. Evaluation of local control rates as well as sites and occurrence of metastases are essential in assessing the contribution of aggressive combined modality therapy in the pediatric sarcomas. Emphasis on refinement of therapy in determining the risk/benefit ratio from adjuvant chemotherapy in pediatric sarcomas is mandatory. Enhancement of early local reactions is apparent when adjuvant chemotherapy is used with local radiotherapy.(ABSTRACT TRUNCATED AT 400 WORDS)
...
PMID:The value of adjuvant chemotherapy in the management of sarcomas in children. 388 37
Intoplicine (RP 60475, NSC 645008) is a new 7H-benzo[e]pyrido [4,3-b] indole derivative which interacts with DNA and inhibits both topoisomerases I and II. In vitro it was found cytotoxic against various cell types with greater cytotoxicity towards solid tumor cells. We report here the anticancer activity of RP 60475 against a variety of transplantable tumors of mice, and also its cross-resistance profile in leukemias. The end points used were % T/C (median tumor weight of the Treated over the Control x 100) and logCK (log10 cell kill total). RP 60475 administered i.v. was found schedule-independent with a peak plasma level problem. It had a good therapeutic index and host recovery usually occurred 7.5 days post last treatment. RP 60475 was found to be highly active against early stage colon 38 (T/C = 0%, 2.9 logCK) and could induce 5/5 complete regressions of advanced stage tumor. It was found active against colon adenocarcinoma 51 (T/C = 3.6%, 1.9 logCK) and colon carcinoma 26 (T/C = 11.7%, 1.2 logCK). Most of the mammary adenocarcinomas were found very responsive, MA16/C (T/C = 0%, 2.8 logCK), MA14/A (T/C = 0%, 1.4 logCK), MA13/C (T/C = 0%, 3.1 log CK) and MA44 (T/C = 34%). Excellent activity was also observed against early stage pancreatic ductal adenocarcinoma 03 (T/C = 0%) and RP 60475 could achieve 5/5 complete regressions of upstaged tumor. Activity was also obtained on Glasgow
osteogenic sarcoma
(T/C = 0%, 3.3 logCK), on B16 melanoma (T/C = 14%, 1.3 logCK) and to a lesser extent on Lewis lung carcinoma (T/C = 33.2%). Evaluation of RP 60475 against leukemia sublines with acquired resistance, revealed that L1210/cisplatin and L1210/
BCNU
were not cross-resistant to RP 60475 whereas P388/vincristine was partially cross-resistant to RP 60475 and P388/doxorubicin was cross-resistant to RP 60475. Based on RP 60475 broad activity against transplantable tumors of mice, its effectiveness against some resistant sublines, its original mechanism of action and its acceptable toxicological profile, this compound was selected for clinical trials.
...
PMID:Antitumor activity of intoplicine (RP 60475, NSC 645008), a new benzo-pyrido-indole: evaluation against solid tumors and leukemias in mice. 815 69
