The mechanism of hypothermia-induced supersensitivity of guinea pig left atria to carbachol

The influence of ovariectomy and estrogen replacement on voiding patterns and detrusor muscarinic receptor affinity in the rat

A rat model of ovariectomy-induced voiding dysfunction was established and the effects of ovariectomy and subsequent estrogen replacement on the affinity of muscarinic receptors in the rat bladder were determined. Voiding frequency and spatial distribution patterns were documented in sham-operated (control), and ovariectomized (placebo- or estrogen-treated) rats. The ovariectomized rats had a significantly different urinating pattern, i.e. higher voiding frequency and less peripheral voiding than the sham-operated group, suggestive of urge incontinence. Using this model of voiding dysfunction, negative logs of dissociation constants of carbachol of the rat detrusor muscarinic receptors were then determined indirectly using the Furchgott's double-reciprocal method. Receptor affinities were not significantly different in all groups compared to control females. In conclusion, a model of ovariectomy-induced voiding dysfunction in ovariectomized rats was established, where bladder dysfunction occurred with no significant changes in the affinity of muscarinic receptors.

Temperature dependency of the vagal chronotropic response in the young puppy: an 'environmental-autonomic interaction'

We investigated the effects of mild hypothermia (34.3 +/- 0.2 degrees C [mean +/- SD]), hyperthermia (40.8 +/- 0.2 degrees C) and hypoxia (PaO2 = 43 +/- 4 mmHg) on the response to heart rate to continuous right vagus nerve stimulation (the 'vagal chronotropic response') in young puppies, aged 5-22 days. Puppies were anesthetized with alpha-chloralose, vagotomized and pre-treated with propranolol (1 mg/kg i.v.) and phentolamine (1 mg/kg, 1-2 mg/kg/h i.v.). Hypoxia (n = 9) did not significantly alter the resting sinus cycle length and did not alter the response of sinus cycle to a 30 s train of 8 Hz right vagal stimulation. Mild hypothermia (n = 8) increased the resting sinus cycle length by 16 +/- 4% and greatly augmented the vagal chronotropic response (from 76 +/- 27% change in the sinus cycle length (normothermia) to 155 +/- 38% (hypothermia)). Both the sinus cycle length and the vagal chronotropic response turned towards pre-hypothermia values with rewarming. Mild hypothermia also increased the negative chronotropic response to 20 micrograms/kg/min i.v. of methacholine (12 +/- 2% change in the sinus cycle length (normothermia) versus 24 +/- 14% (hypothermia)), suggesting that a postsynaptic mechanism is involved in the hypothermia-induced augmentation of the cardiac vagal chronotropic response. In contrast to hypothermia, mild hyperthermia (n = 8) decreased the resting sinus cycle length slightly (-5 +/- 5% change) and significantly attenuated the cardiac vagal chronotropic response (from 88 +/- 28% change in sinus cycle length (normothermia) to 50 +/- 26% (hyperthermia)). These changes were also reversible with the re-establishment of normothermia. This demonstrates that clinically relevant, environmentally-induced changes in body temperature can directly and reversibly modify parasympathetic efferent responses.

A set of computer programs to calculate agonist dissociation constants

A series of computer programs have been written to calculate agonist dissociation constants by the method of Parker and Waud (1971). They are faster and less tedious than the manual iterative solutions previously presented, but give comparable results.