Results 301 to 310 of about 44,957 (351)
Linking individual variation in facial musculature to facial behavior in rhesus macaques
The Anatomical Record, EarlyView.Abstract Facial expression is a key component of primate communication, and primates (including humans) have a complex system of facial musculature underpinning this behavior. Human facial musculature is highly variable across individuals, but to date, whether other primate species exhibit a similar level of inter‐individual variation is unknown ...
Clare M. Kimock +7 more
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Best Practice & Research Clinical Anaesthesiology, 2003
Studies on the toxic effects of muscle relaxants are difficult to design because of the need for mechanical ventilation and, consequently, concomitant administration of anaesthetic drugs which may influence the results. The following overview shows that muscle relaxants are weak toxic agents with regard to their teratogenicity, carcinogenicity and ...
Sandra, Kampe +2 more
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Studies on the toxic effects of muscle relaxants are difficult to design because of the need for mechanical ventilation and, consequently, concomitant administration of anaesthetic drugs which may influence the results. The following overview shows that muscle relaxants are weak toxic agents with regard to their teratogenicity, carcinogenicity and ...
Sandra, Kampe +2 more
openaire +2 more sources
Relaxation of diaphragm muscle
Journal of Applied Physiology, 1999Relaxation is the process by which, after contraction, the muscle actively returns to its initial conditions of length and load. In rhythmically active muscles such as diaphragm, relaxation is of physiological importance because diaphragm must return to a relatively constant resting position at the end of each contraction-relaxation cycle.
Yves Lecarpentier +2 more
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Clinical Reviews in Allergy, 1991
With the now widespread and extensive use of muscle relaxant drugs in general anesthesia, a steadily increasing number of cases of anaphylactic-like reactions is being reported (1-3). Muscle relaxants seem to be responsible for half of the adverse reactions occurring during general anesthesia (4).
JoËlle Birnbaum, Daniel Vervloet
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With the now widespread and extensive use of muscle relaxant drugs in general anesthesia, a steadily increasing number of cases of anaphylactic-like reactions is being reported (1-3). Muscle relaxants seem to be responsible for half of the adverse reactions occurring during general anesthesia (4).
JoËlle Birnbaum, Daniel Vervloet
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Pharmacotherapy: The Journal of Human Pharmacology and Drug Therapy, 2008
Health care providers prescribe skeletal muscle relaxants for a variety of indications. However, the comparative efficacy of these drugs is not well known. Skeletal muscle relaxants consist of both antispasticity and antispasmodic agents, a distinction prescribers often overlook.
Regina Ginzburg, Sharon See
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Health care providers prescribe skeletal muscle relaxants for a variety of indications. However, the comparative efficacy of these drugs is not well known. Skeletal muscle relaxants consist of both antispasticity and antispasmodic agents, a distinction prescribers often overlook.
Regina Ginzburg, Sharon See
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Canadian Journal of Physiology and Pharmacology, 1994
We have demonstrated that in dogs antigen sensitization results in alterations of contractile properties. These changes could account for the hyperresponsiveness reported in asthma. The failure of the muscle to relax could be another important factor responsible for maintaining high airway resistance.
Newman L. Stephens, H. Jiang
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We have demonstrated that in dogs antigen sensitization results in alterations of contractile properties. These changes could account for the hyperresponsiveness reported in asthma. The failure of the muscle to relax could be another important factor responsible for maintaining high airway resistance.
Newman L. Stephens, H. Jiang
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Relaxing Factors in Muscle [PDF]
Nature, 1953 ACCORDING to Szent-Gyorgyi1, muscle in the relaxed state is characterized by the dissociation of actomyosin into actin and myosin.
M. C. Goodall, Andrew G. Szent-Györgyi
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Proceedings of the Royal Society of London. Series B - Biological Sciences, 1957
Tension decay following stretch (stress relaxation) has been studied in resting long-fibred smooth and striated muscles. In both types of muscle, tension decays rapidly at first and then more slowly; the decay curve can be resolved into two exponential components, neither of which is significantly affected by changes in temperature or speed of stretch.
J. Lowy, B. C. Abbott
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Tension decay following stretch (stress relaxation) has been studied in resting long-fibred smooth and striated muscles. In both types of muscle, tension decays rapidly at first and then more slowly; the decay curve can be resolved into two exponential components, neither of which is significantly affected by changes in temperature or speed of stretch.
J. Lowy, B. C. Abbott
openaire +3 more sources