Background: As more patients survive cancer chemotherapy, problems associated with the late complications of therapy have become increasingly apparent;late doxorubicin cardio-myopathy being one of the most pressing. T...Background: As more patients survive cancer chemotherapy, problems associated with the late complications of therapy have become increasingly apparent;late doxorubicin cardio-myopathy being one of the most pressing. The relationship between initial dose, schedule employed, and etiology are still not well defined. This study attempts to clarify some of these issues. Methods: Patients receiving large total doses of doxorubicin by schedules designed to minimize peak drug levels were monitored in regard to their cardiac status for up to 31 years following completion of doxorubicin therapy. A computer program predicting the amount of doxorubicin retained by the heart vs. schedules employed was devised with the predictions of the computer program being compared to the clinical findings. Results: 1365 patients receiving doses of doxorubicin greater than 610 mgm./M2 were monitored for up to 31 years following completion of such therapy. No patient developed unequivocal clinical and pathologic evidence of a doxorubicin related cardiomyopathy. Knowing that human cardio-myocytes contain enzymes capable of neutralizing doxorubicin, a computer program predicted that by increasing their efficiency, the schedules employed substantially l decreased the relative amount of drug retained by the heart, findings compatible with both animal experiments and clinical results. Conclusions: administration of doxorubicin by schedules in which peak plasma levels of drug were minimized resulted in marked decreases in both acute and long-term cardiac toxicity;believed to be due to potentiation of myocardial enzymes capable of inactivating the drug.展开更多
It has been demonstrated that it is safe to give Gm-Csf, together with Doxorubicin, by continuous intravenous infusion, thereby substantially increasing the amount of Doxorubicin administered to the average patient, a...It has been demonstrated that it is safe to give Gm-Csf, together with Doxorubicin, by continuous intravenous infusion, thereby substantially increasing the amount of Doxorubicin administered to the average patient, and assuring that each patient receives an individually-determined safe and maximal amount of drug. It is known that Gm-Csf is a potent inducer of components that are major factors in an immunologic attack upon neoplasms. For that reason, we thought it would be worth evaluating in 4 patients’ surface markers of dendritic precursor cells, dendritic cells [DC], and natural killer [NK] cells during the infusion. While there was substantial variation in individual responses, all 4 patients receiving Gm-Csf developed persistent marked increases in cells with each of these markers. The significance of these findings will be discussed.展开更多
文摘Background: As more patients survive cancer chemotherapy, problems associated with the late complications of therapy have become increasingly apparent;late doxorubicin cardio-myopathy being one of the most pressing. The relationship between initial dose, schedule employed, and etiology are still not well defined. This study attempts to clarify some of these issues. Methods: Patients receiving large total doses of doxorubicin by schedules designed to minimize peak drug levels were monitored in regard to their cardiac status for up to 31 years following completion of doxorubicin therapy. A computer program predicting the amount of doxorubicin retained by the heart vs. schedules employed was devised with the predictions of the computer program being compared to the clinical findings. Results: 1365 patients receiving doses of doxorubicin greater than 610 mgm./M2 were monitored for up to 31 years following completion of such therapy. No patient developed unequivocal clinical and pathologic evidence of a doxorubicin related cardiomyopathy. Knowing that human cardio-myocytes contain enzymes capable of neutralizing doxorubicin, a computer program predicted that by increasing their efficiency, the schedules employed substantially l decreased the relative amount of drug retained by the heart, findings compatible with both animal experiments and clinical results. Conclusions: administration of doxorubicin by schedules in which peak plasma levels of drug were minimized resulted in marked decreases in both acute and long-term cardiac toxicity;believed to be due to potentiation of myocardial enzymes capable of inactivating the drug.
文摘It has been demonstrated that it is safe to give Gm-Csf, together with Doxorubicin, by continuous intravenous infusion, thereby substantially increasing the amount of Doxorubicin administered to the average patient, and assuring that each patient receives an individually-determined safe and maximal amount of drug. It is known that Gm-Csf is a potent inducer of components that are major factors in an immunologic attack upon neoplasms. For that reason, we thought it would be worth evaluating in 4 patients’ surface markers of dendritic precursor cells, dendritic cells [DC], and natural killer [NK] cells during the infusion. While there was substantial variation in individual responses, all 4 patients receiving Gm-Csf developed persistent marked increases in cells with each of these markers. The significance of these findings will be discussed.
