Hypercapnia was induced by a rebreathing technique and was limite

Hypercapnia was induced by a rebreathing technique and was limited to a maximal expiratory partial pressure of carbon dioxide of 65 mm Hg. Hypoxia was induced by a stepwise increase in inspiratory partial pressure of nitrogen and was limited to a minimal arterial oxygen saturation of 80%. Ventilatory responses were assessed as slopes of the regression line relating minute ventilation to changes in arterial oxygen saturation

and partial pressure of carbon dioxide.\n\nResults: In cases, ventilatory responses to hypercapnia and hypoxia were preserved, despite the presence of severe autonomic failure, while cardiovascular responses to these stimuli were impaired. Among cases, hypercapnia selleck products elicited

a less robust increase in arterial pressure than among controls, and hypoxia elicited BIBF 1120 research buy a depressor response rather than the normal pressor responses (P<.001 for both).\n\nConclusions: Ventilatory responses to hypercapnia and hypoxia during wakefulness may be preserved in patients with MSA, despite the presence of autonomic failure and impaired cardiovascular responses to these stimuli. A critical number of chemosensitive medullary neurons may need to be lost before development of impaired automatic ventilation during wakefulness in MSA, whereas earlier loss of medullary sympathoexcitatory neurons may contribute to the impaired cardiovascular responses in these patients.”
“Rosmarinus officinalis is known for the production of volatile compounds used in medicinal and food preparations. Leaves of R. officinalis are densely covered with capitate and peltate glandular trichomes where biosynthesis of volatiles mainly occurs. This study aims to conduct a morphological assessment to identify anatomical characteristics of both leaves and trichomes, as well as a chemical analysis of leaf volatile compounds, using histochemistry and stem distillation extraction. Specifically, anatomical

selleck screening library and chemical constituents of the secretory structures of R. officinalis leaves were investigated using light and scanning electron microscopy, in addition to gas chromatography. One peltate and three types of capitate glandular trichomes were observed on the leaves of R. officinalis. Histochemical tests showed positive reactions to lipophilic compounds for both capitate and peltate trichomes, with only a slight detection of terpenoids with carbonyl group in peltate glands. Gas chromatography revealed camphor (23.2%) as the main volatile compound, mostly accumulating in peltate glandular trichomes. This phytochemical study of volatile compounds, together with anatomical and histochemical analyses of R. officinalis leaves, demonstrated the importance of leaves as a center of volatile production in peltate and capitate trichomes, as well as the nature of volatile composition, which is involved in species survival.

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