The carotid bodies are sensitive to glucose in vitro and can be stimulated to cause hyperglycemia in vivo. The aim of this study was to determine if the carotid bodies are involved in basal glucoregulation or the counterregulatory response to an insulin-induced decrement in arterial glucose in vivo. Dogs were surgically prepared >16 days before the experiment. The carotid bodies and their associated nerves were removed (carotid body resected [CBR]) or left intact (Sham), and infusion and sampling catheters were implanted. Removal of carotid bodies was verified by the absence of a ventilatory response to NaCN. Experiments were performed in 18-h fasted conscious dogs and consisted of a tracer ([3-3 H]glucose) equilibration period (-120 to -40 min), a basal period (-40 to 0 min), and an insulin infusion (1 mU · kg -1 · min -1 ) period (0-150 min) during which glucose was infused as needed to clamp at mildly hypoglycemic (65 mg/dl) or euglycemic (105 mg/dl) levels. Basal (8 µU/ml) and clamp (40 µU/ml) insulin levels were similar in both groups. Basal arterial glucagon was reduced in CBR compared with Sham (30 ± 2 vs. 40 ± 2 pg/ml) and remained reduced in CBR during hypoglycemia (peak levels of 36 ± 3 vs. 52 ± 7 pg/ml). Cortisol levels were not significantly different between the 2 groups in the basal state, but were reduced during the hypoglycemic clamp in CBR. Catecholamine levels were not significantly different between the 2 groups in the basal and hypoglycemic periods. The glucose infusion rate required to clamp glucose at 65 mg/dl was 2.5-fold greater in CBR compared with Sham T here is considerable uncertainty as to the site at which decrements in blood glucose are sensed. Sites in the brain (1), portal vein (2,3), liver (4), and pancreas (5) are all sensitive to blood glucose. Despite intensive investigation, however, the physiological role of these glucose-sensitive regions are highly controversial because no one site can completely explain the full counterregulatory response to hypoglycemia.We tested the hypothesis that the carotid bodies (or receptors near this site) are instrumental in detecting a decrement in blood glucose. This hypothesis was based on evidence that 1) the carotid bodies can detect glucose (6-8), 2) the carotid bodies have the "circuitry" to provide input to centers involved in glucoregulation (7-10), and 3) the carotid bodies have unique physiological characteristics making them potentially highly sensitive to changes in blood glucose content (high blood flow and metabolic rate per gram tissue) (11).To examine the role of the carotid bodies (or receptors anatomically near them), carotid body resected (CBR) conscious dogs or dogs having undergone a sham surgery (Sham) were studied in the basal state and during hyperinsulinemic, euglycemic, or hypoglycemic clamps. Isotope dilution methods were used to calculate glucose kinetics. RESEARCH DESIGN AND METHODSAnimal maintenance and surgical procedures. Mongrel dogs (n = 23, mean weight 25.1 ± 0.6 kg) of either sex that had been fed a standard...
The exact relationship between the bed rest-induced loss of skeletal muscle and reductions in muscle strength and physical performance in the older individuals is still unclear. Objective. We examined the effect of 10 days of bed rest on changes in regional body composition, muscle strength, and functional status, and the relationship between these variables in older individuals. Design, Participants, and Intervention. Regional body composition was measured using dual energy x-ray absorptiometry. We also determined changes in leg strength and several indices of functional status, including walking speed. Results. Body weight, body mass index, and total and lower extremity lean mass decreased with bed rest. There were also significant reductions in knee extension one repetition maximum, isometric knee extension, knee extension 60° concentric, stair ascent time, stair ascent power, stair descent time, VO 2 max, floor transfer test, 5-minute walk time, and chair stand. The overall change in total and lower extremity lean mass was also directly related to bed rest-induced reductions in one repetition maximum knee extension. Conclusions. Bed rest promoted overall declines in muscle mass, muscle strength, and physical function in older individuals. The changes in lean tissue were closely correlated with the bed rest-induced decline of muscle strength.
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