W. G. Sanborn scite author profile

Arterially cannulated rabbit interventricular septal tissue was exposed to 5-40 /kM La in 2.5 mM Ca perfusate. Immediately following perfusion with La two concurrent events were consistently observed: (a) a rapid decline of active tension to a lesser steady-state value, and (b) an abrupt, release of short duration of tissue-bound Ca. The magnitude of both events was directly related to the [La]o. If the duration of exposure to La was brief, contractility returned toward normal upon return to the La-free perfusate. Elevation of [Ca]o during exposure to La counteracted its effect and induced a concurrent displacement of tissue-bound La. Cellular action potentials recorded during brief perfusion with La demonstrated that essentially normal regenerative depolarization was maintained. Analysis of the quantities of 4 5

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Heterogeneous Airway Versus Tissue Mechanics and Their Relation to Gas Exchange Function During Mechanical Ventilation

Bellardine

Ingenito

Hoffman

et al. 2005

Ann Biomed Eng

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We have advanced a commercially available ventilator (NPB840, Puritan Bennett/Tyco Healthcare, Pleasanton, CA) to deliver an Enhanced Ventilation Waveform (EVW). This EVW delivers a broadband waveform that contains discrete frequencies blended to provide a tidal breath, followed by passive exhalation. The EVW allows breath-by-breath estimates of frequency dependence of lung and total respiratory resistance (R) and elastance (E) from 0.2 to 8 Hz. We hypothesized that the EVW approach could provide continuous ventilation simultaneously with an advanced evaluation of mechanical heterogeneities under heterogeneous airway and tissue disease conditions. We applied the EVW in five sheep before and after a bronchial challenge and an oleic acid (OA) acute lung injury model. In all sheep, the EVW maintained gas exchange during and after bronchoconstriction, as well as during OA injury. Data revealed a range of disease conditions from mild to severe with heterogeneities and airway closures. Correlations were found between the arterial partial pressure of oxygen (PaO2) and the levels and frequency-dependent features of R and E that are indicative of mechanical heterogeneity and tissue disease. Lumped parameter models provided additional insight on heterogeneous airway and tissue disease. In summary, information obtained from EVW analysis can provide enhanced guidance on the efficiency of ventilator settings and on patient status during mechanical ventilation.

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Parathyroid Hormone Has a Positive Inotropic Action in the Rat

et al. 1981

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Parathyroid hormone (PTH: synthetic bovine, amino terminus 1-34 amino acids) demonstrates a positive inotropic action on the isolated papillary muscle of the rat heart. The effect was evident at PTH concentration of 10(-12)M, and the maximum inotropic effect occurred with PTH concentrations greater than 10(-11)M. Biologically inactive PTH (PTH treated with H2O2) was without effect. The inotropic effect of PTH was partially blocked by propranolol and also suppressed in the papillary muscle of the rat pretreated with reserpine. Methoxyverapamil completely blocked the inotropic action of PTH. PTH was without effects on adenylate cyclase activity of the myocardium. Results show the presence of an inotropic action of PTH in vitro and suggest that this action of PTH is partially mediated by releasing the endogenous myocardial norepinephrine which exerts a positive inotropic effect via beta-adrenergic stimulation and by an increase in Ca++ influx across plasma membranes, but independent of adenylate cyclase activation. The inotropic action of PTH may be of significance in normal cardiac function.

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High-resolution radioisotopic measurements of calcium, strontium, and barium in heart

Sanborn¹

1975

Journal of Applied Physiology

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A gamma-ray detector system used in conjunction with isolated vascularly perfused rabbit septa labeled with the Ca-like cations 85Sr and 133Ba has been developed to test the feasibility of constructing a considerably more efficient detector system capable of measuring the highly energetic (Emax congruent to 1.3 MeV) 47Ca radionuclide. In addition an experimental design has been developed to quantify, statistically, perturbations of total tissue Ca, Sr, or Ba should they occur. This project was undertaken because the severe attenuation by living tissue of the beta-emitting radionuclide 45Ca (Emax congruent to 250 keV) limits its usefulness as a Ca tracer during experiments in which total tissue Ca is being measured minute-by-minute by an external detector. Analyses of over 100 experiments conducted on 35Sr- and 133Ba-labeled rabbit septa indicate that a tissue-detector system can be developed having the capacity to resolve perturbations of as little as 2 mumol Ca/kg wet tissue at 1-min sampling times or 6 mumol Ca/kg wet tissue at 0.1-min sampling times.

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Inspiratory Pressure Support Prevents Diaphragmatic Fatigue During Weaning from Mechanical Ventilation

Sanborn¹

1989

Am Rev Respir Dis

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W. G. Sanborn

Specific Uncoupling of Excitation and Contraction in Mammalian Cardiac Tissue by Lanthanum

Heterogeneous Airway Versus Tissue Mechanics and Their Relation to Gas Exchange Function During Mechanical Ventilation

Parathyroid Hormone Has a Positive Inotropic Action in the Rat

High-resolution radioisotopic measurements of calcium, strontium, and barium in heart

Inspiratory Pressure Support Prevents Diaphragmatic Fatigue During Weaning from Mechanical Ventilation

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