Cancer
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Randomized Controlled Trial Comparative Study Clinical Trial
Comparison of two total body irradiation fractionation regimens with respect to acute and late pulmonary toxicity.
Total body irradiation (TBI) is commonly used with autologous bone marrow transplantation (BMT) for treatment of hematologic malignancies. Pulmonary complications of TBI can cause long-term morbidity and mortality. The authors have compared the pulmonary toxicity and efficacy of two different TBI fractionation regimens in otherwise identical autologous BMT protocols. ⋯ It is possible to intensify TBI from a total dose of 10.2 Gy delivered in 6 twice-daily fractions to 12 Gy delivered in 4 once-daily fractions without significantly increasing the risk of pulmonary toxicity. The increased dose may contribute to a decrease in the recurrence rate in these patients. (c) 2001 American Cancer Society.
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Patients often are rotated from other opioids to methadone when side effects occur before satisfactory analgesia is achieved. Various strategies have been proposed to estimate safe and effective starting doses of methadone when rotating from morphine and hydromorphone; however, there are no guidelines for estimating safe and effective starting doses of methadone when rotating from fentanyl. ⋯ On the basis of this preliminary study, the authors suggest that when switching from intravenous fentanyl to methadone a conversion ratio of 25 microg/hour of fentanyl to 0.1 mg/hour of methadone may be safe and effective.
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Despite advances in cardiopulmonary resuscitation and the education of its providers, survival remains dismal for cancer patients suffering in-hospital cardiac arrest. In an effort to determine if characteristics of cardiac arrest would represent a useful parameter for prognostication and recommendations regarding the suitability of ongoing resuscitation for various groups, this review was undertaken for patients who experienced in-hospital cardiac arrest. ⋯ Patients experiencing an anticipated cardiac arrest, the course of which could not be interrupted through aggressive management in an intensive care unit, have an extremely poor prognosis. Ongoing resuscitative measures in these patients need not be routinely provided. The authors suggest an algorithm for resuscitation that evaluates the characteristics of the arrest as a prognostic factor. This algorithm should be implemented once progressive deterioration spirals toward cardiac arrest that cannot be prevented. Such an approach should avoid painful and costly interventions that are futile with the present techniques of cardiopulmonary resuscitation.