Pain
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Pain symptoms of many disorders are reported to vary with menstrual stage. This study investigated how pain thresholds to electrical stimulation of the skin, subcutis and muscle tissue varied with menstrual stage in normal women and compared these variations with those in women with dysmenorrhea and in healthy men at matched intervals. Thresholds of the three tissues were measured four times during the course of one menstrual cycle at four sites. ⋯ The amount of abdominal muscle hyperalgesia correlated significantly with the amount of spontaneous menstrual pain. Only minor sex differences were observed for pain thresholds of the arm and leg, but there was a unanimous refusal by men, but not by women, to be tested at abdominal sites. These results indicate that menstrual phase, dysmenorrhea status, segmental site, tissue depth and sex all have unique interacting effects on pain thresholds, thus adding more items to the lengthy and still-growing list of biological factors that enter into an individual's judgment of whether or not a stimulus is painful.
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To describe the hospital symptom experience of seriously ill patients with common illnesses. To assess the independent association of nausea and dyspnea to level of pain. ⋯ Seriously ill patients have a high symptom burden. Patients who have nausea and dyspnea experience more pain than patients without these symptoms, even after adjustment for depression, anxiety, disease type, disease severity and demographic and psychological measures. The causal association between these symptoms and pain remains to be determined. Though pain may cause dyspnea and nausea, the intriguing possibility remains that, in addition to relieving suffering, treating dyspnea and nausea may relieve pain.
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The aims of this study were to examine the effect of old age on the pharmacokinetics of morphine and morphine-6 beta-glucuronide (M6G) and their relationships to antinociceptive activity. Morphine (21.0 mumol/kg) or M6G (21.7 mumol/kg) were administered s.c. to young adult and aged male Hooded-Wistar rats. Antinociceptive effect was measured by the tail-flick method at various times up to 2.5 h or 6.5 h after morphine or M6G administration, respectively, and concentrations of morphine, morphine-3 beta-glucuronide (M3G) and M6G in plasma and brain were determined by HPLC. ⋯ The results demonstrate no change in morphine antinociception and pharmacokinetics with age, and suggest that blood-brain barrier permeability and reception sensitivity to morphine are not altered in aged rats. Accumulation of M3G in plasma of aged rats is probably due to diminished renal clearance of M3G in addition to a reduction in the biliary excretion of M3G. The heightened sensitivity of the aged rats to M6G is probably due to the observed altered kinetics of M6G rather than a pharmacodynamic change.