The American journal of medicine
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Erectile dysfunction (ED) is common in men with cardiovascular disease. The introduction of sildenafil citrate, the first oral agent for the treatment of this disorder, has increased awareness about the risks of sexual activity in cardiac patients and raised concerns about the safety of sildenafil in patients being treated for coronary disease. Sildenafil is a potent and selective inhibitor of phosphodiesterase type 5 (PDE5), the enzyme responsible for the degradation of cyclic guanosine monophosphate (cGMP). ⋯ None of the serious cardiovascular events reported in these trials were considered treatment related by the investigators. There is a small but finite increased risk of developing ischemia or infarction with sexual activity. Therefore, before prescribing sildenafil or any current or future treatment for ED to patients with known cardiac disease or multiple cardiovascular risk factors, physicians should discuss the potential cardiac risk of sexual activity and perform a complete medical assessment, including an exercise stress test if appropriate.
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Nutrition and hydration have long been considered to be life-sustaining therapies that are associated with comfort and relief of suffering. This belief is largely based on our own experiences with the sensations of thirst and hunger, which have led physicians to question whether withdrawing or withholding nutritional support from a dying patient can be morally or ethically justified. When considered in light of the available evidence, the underlying premise of this question must be reevaluated. The evidence suggests an alternative formulation, namely, that unrequested nutritional support provided by either the enteral or parenteral route to a terminally ill patient may be both medically and ethically indefensible because it may increase suffering without improving outcome.
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To conduct a systematic review and quantitative meta-analysis of the therapeutic efficacy and tolerability of Pygeum africanum in men with symptomatic benign prostatic hyperplasia. ⋯ The literature on P. africanum for the treatment of benign prostatic hyperplasia is limited by the short duration of studies and the variability in study design, the use of phytotherapeutic preparations, and the types of reported outcomes. However, the evidence suggests that P. africanum modestly, but significantly, improves urologic symptoms and flow measures. Further research is needed using standardized preparations of P. africanum to determine its long-term effectiveness and ability to prevent complications associated with benign prostatic hyperplasia.
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To conduct a systematic review and quantitative meta-analysis of the therapeutic efficacy and tolerability of Pygeum africanum in men with symptomatic benign prostatic hyperplasia. ⋯ The literature on P. africanum for the treatment of benign prostatic hyperplasia is limited by the short duration of studies and the variability in study design, the use of phytotherapeutic preparations, and the types of reported outcomes. However, the evidence suggests that P. africanum modestly, but significantly, improves urologic symptoms and flow measures. Further research is needed using standardized preparations of P. africanum to determine its long-term effectiveness and ability to prevent complications associated with benign prostatic hyperplasia.
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When initiating warfarin therapy, clinicians should avoid loading doses that can raise the International Normalized Ratio (INR) excessively; instead, warfarin should be initiated with a 5-mg dose (or 2 to 4 mg in the very elderly). With a 5-mg initial dose, the INR will not rise appreciably in the first 24 hours, except in rare patients who will ultimately require a very small daily dose (0.5 to 2.0 mg). Adjusting a steady-state warfarin dose depends on the measured INR values and clinical factors: the dose does not need to be adjusted for a single INR that is slightly out of range, and most changes should alter the total weekly dose by 5% to 20%. ⋯ Patients who have an elevated INR will need more frequent testing and may also require vitamin K1. For example, a nonbleeding patient with an INR of 9 can be given low-dose vitamin K1 (eg, 2.5 mg phytonadione, by mouth). Patients who have an excessive INR with clinically important bleeding require clotting factors (eg, fresh-frozen plasma) as well as vitamin K1.