View clinical trials related to Respiratory Muscles.
Filter by:It was recently shown that neostigmine reversal was associated with increased atelectasis and that high-dose neostigmine was associated with longer postoperative length of stay and with an increased incidence of pulmonary edema and reintubation. These study results were consistent with findings from a previous epidemiological study which revealed an absence of beneficial effects of neostigmine on postoperative oxygenation and reintubation. In our previous study, the effects of neostigmine / glycopyrrolate and sugammadex on the electromyographic activity of the diaphragm showed beneficial effects for sugammadex. This could be explained by a possible effect on neuromuscular transmission at the muscle level, but can also be explained by a neostigmine-induced decrease in total nerve activity. In a study in cats, neostigmine has been shown to reduce efferent phrenic nerve activity. The investigators aim to show a difference in phrenic nerve activity between neostigmine and sugammadex, administered alone or in combination, in healthy male volunteers.
The effects of inspiratory muscle training (IMT) remain controversial. Many studies have examined the effect IMT has on exercise performance, but any changes to the body that come from IMT have yet to be looked at. This study will look at how someone breathes can change after IMT. Understanding how IMT changes the body can help us use IMT in different treatments.