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Peripheral Sensitivity (peripheral + sensitivity)

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Medical Sciences50%

Selected Abstracts

Differences in the control of breathing between Himalayan and sea-level residents

THE JOURNAL OF PHYSIOLOGY, Issue 9 2010
M. Slessarev
We compared the control of breathing of 12 male Himalayan highlanders with that of 21 male sea-level Caucasian lowlanders using isoxic hyperoxic (= 150 mmHg) and hypoxic (= 50 mmHg) Duffin's rebreathing tests. Highlanders had lower mean ±s.e.m. ventilatory sensitivities to CO2 than lowlanders at both isoxic tensions (hyperoxic: 2.3 ± 0.3 vs. 4.2 ± 0.3 l min,1 mmHg,1, P= 0.021; hypoxic: 2.8 ± 0.3 vs. 7.1 ± 0.6 l min,1 mmHg,1, P < 0.001), and the usual increase in ventilatory sensitivity to CO2 induced by hypoxia in lowlanders was absent in highlanders (P= 0.361). Furthermore, the ventilatory recruitment threshold (VRT) CO2 tensions in highlanders were lower than in lowlanders (hyperoxic: 33.8 ± 0.9 vs. 48.9 ± 0.7 mmHg, P < 0.001; hypoxic: 31.2 ± 1.1 vs. 44.7 ± 0.7 mmHg, P < 0.001). Both groups had reduced ventilatory recruitment thresholds with hypoxia (P < 0.001) and there were no differences in the sub-threshold ventilations (non-chemoreflex drives to breathe) between lowlanders and highlanders at both isoxic tensions (P= 0.982), with a trend for higher basal ventilation during hypoxia (P= 0.052). We conclude that control of breathing in Himalayan highlanders is distinctly different from that of sea-level lowlanders. Specifically, Himalayan highlanders have decreased central and absent peripheral sensitivities to CO2. Their response to hypoxia was heterogeneous, with the majority decreasing their VRT indicating either a CO2 -independent increase in activity of peripheral chemoreceptor or hypoxia-induced increase in [H+] at the central chemoreceptor. In some highlanders, the decrease in VRT was accompanied by an increase in sensitivity to CO2, while in others VRT remained unchanged and their sub-threshold ventilations increased, although these were not statistically significant. [source]

Metabolic and haemodynamic effects of metformin in patients with type 2 diabetes mellitus and hypertension

DIABETES OBESITY & METABOLISM, Issue 5 2001
M. H. Uehara
SUMMARY Background Since metformin improves insulin sensitivity, it has been indicated for patients with diabetes and hypertension, which are insulin-resistant conditions. In contrast to its well-known effects on carbohydrate metabolism, its potential for reducing blood pressure (BP) and its effect on leptin levels have been investigated less frequently. Patients and Methods A double-blind, randomized, placebo-controlled trial was carried out with 26 overweight diabetic subjects with mild-to-moderate hypertension to assess the effects of metformin-induced glycaemic control on BP and metabolic parameters. After a 4-week placebo period, when BP was stabilized by calcium channel blockers, they received either metformin (MG) or placebo (PG) for 12 weeks. Results Neither group showed any change in weight throughout the study. Only metformin-treated patients reduced fasting plasma glucose (8.54 + 1.72 to 7.54 + 1.33 mmol/l, p <,0.05), although HbA1c had decreased in both groups (PG: 6.7±3.0 to 5.9±2.6%; MG: 5.3±1.5 to 4.6±0.9%; p <,0.05). The initial office mean BPs were similar and decreased at the end of the treatment period in both groups, reaching statistical significance only in MG (105.7±8.0 to 99.2±9.3 mmHg, p <,0.05). No difference was observed when comparing baseline and final values obtained by 24-h ambulatory BP monitoring. Metformin induced a reduction in both insulinaemia (71.0±62.4 to 38.0±23.0 pmol/l, p <,0.05) and the insulin resistance index (3.5±2.7 to 1.8±1.0, p <,0.05). The two groups had similar baseline leptin levels which remained unchanged after treatment (PG: 16.8±7.9 to 21.4±14.6 ,g/l; MG: 18.5±10.3 to 18.4±8.9 ,g/l). Dopamine levels increased significantly only in metformin-treated subjects. Conclusions Reductions in both the insulin levels and the resistance index reinforced metformin capacity to improve peripheral sensitivity. Moreover, such benefits were not accompanied by any hypotensive effects. Since leptin levels were affected neither by metformin per se nor by the induced insulinaemia reduction, our data support the role of body weight as the major determinant of circulating leptin levels. [source]

Taste deficits after middle ear surgery for otosclerosis: taste somatosensory interactions

EUROPEAN JOURNAL OF ORAL SCIENCES, Issue 5 2008
Marie-Violaine Berteretche
The aim of this study was to evaluate the postoperative consequences of chorda tympani reclining during middle ear surgery for otosclerosis. Electrogustometric taste thresholds were measured at 11 loci on the tongue and the soft palate in 14 patients before surgery, and 8 d, 1 month and (in some cases) 6 months after surgery. A significant increase in thresholds was observed on the ipsilateral side of the tongue after surgery. The extent of the deficit and the recovery time course depended on tongue locus. The tip of the tongue displayed a limited deficit, suggesting bilateral chorda tympani innervation. The edge of the tongue was less impaired than the dorsal or the lateral tip loci; it may be dually innervated by both chorda tympani and glossopharyngeal nerves in humans, as already shown in rats. Likewise for the fungiform papillae located just anterior to the circumvallate papillae. Somatosensory early complaints suggest a derepression of chorda tympani on lingual nerve signals. In a second stage, relief of complaints before electrogustometric threshold recovery suggested trigeminal compensation of the chorda tympani deficit. Relief of complaints seems to involve central integrative processes, whereas the evolution of electrogustometric threshold represents the actual recovery time course of chorda tympani peripheral sensitivity. [source]

Characteristics and physiological role of hyperpolarization activated currents in mouse cold thermoreceptors

THE JOURNAL OF PHYSIOLOGY, Issue 9 2009
Patricio Orio
Hyperpolarization-activated currents (Ih) are mediated by the expression of combinations of hyperpolarization-activated, cyclic nucleotide-gated (HCN) channel subunits (HCN1,4). These cation currents are key regulators of cellular excitability in the heart and many neurons in the nervous system. Subunit composition determines the gating properties and cAMP sensitivity of native Ih currents. We investigated the functional properties of Ih in adult mouse cold thermoreceptor neurons from the trigeminal ganglion, identified by their high sensitivity to moderate cooling and responsiveness to menthol. All cultured cold-sensitive (CS) neurons expressed a fast activating Ih, which was fully blocked by extracellular Cs+ or ZD7288 and had biophysical properties consistent with those of heteromeric HCN1,HCN2 channels. In CS neurons from HCN1(,/,) animals, Ih was greatly reduced but not abolished. We find that Ih activity is not essential for the transduction of cold stimuli in CS neurons. Nevertheless, Ih has the potential to shape the excitability of CS neurons. First, Ih blockade caused a membrane hyperpolarization in CS neurons of about 5 mV. Furthermore, impedance power analysis showed that all CS neurons had a prominent subthreshold membrane resonance in the 5,7 Hz range, completely abolished upon blockade of Ih and absent in HCN1 null mice. This frequency range matches the spontaneous firing frequency of cold thermoreceptor terminals in vivo. Behavioural responses to cooling were reduced in HCN1 null mice and after peripheral pharmacological blockade of Ih with ZD7288, suggesting that Ih plays an important role in peripheral sensitivity to cold. [source]