SM Harrison scite author profile

To study antibiotic efficacy, 29 patients with leptospirosis were treated in a randomized, double-blinded fashion with doxycycline, 100 mg orally twice a day, or placebo. Therapy was given for 7 days in a hospital, and patients were followed for 3 weeks afterwards. Duration of illness before therapy and severity of illness were the same in both groups. Doxycycline reduced the duration of illness by 2 days and favorably affected fever, malaise, headache, and myalgias. Treatment prevented leptospiruria and had no adverse effects. Doxycycline is effective in therapy for patients with leptospirosis.

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The role of the Na(+)‐Ca2+ exchanger in the rate‐dependent increase in contraction in guinea‐pig ventricular myocytes.

Harrison

Boyett

1995

The Journal of Physiology

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1. The intracellular sodium activity (aN^), contraction and membrane current were recorded simultaneously in voltage-clamped guinea-pig ventricular myocytes. 2. Increasing the frequency (from 0 5 to 3 Hz) of voltage clamp pulses to 0 mV from a holding potential of -80 mV led to an increase in both a'a and contraction. The ratedependent increase in contraction was reduced by 25 ,UM tetrodotoxin (TTX) and abolished with a holding potential of -40 mV. There was no rate-dependent rise in a'Na with a holding potential of -40 mV. These results suggest an important role for a' a and in particular Na+ influx via Na+ channels during rate-dependent changes in contraction. 3. After an increase in frequency from 0'5 to 3 Hz, membrane current at the end of voltage clamp pulses became progressively more outward and the tail current upon repolarization became progressively more inward compared with those recorded at 0 5 Hz. ITTX reduced the magnitude of both the outward and inward rate-dependent shifts of current. 4. The addition of extracellular CsCl blocked the inward rectifier potassium current (IK 1) and the delayed rectifier (IK), but did not change the rate-dependent shift in current. 5. The difference between current-voltage relationships at 0 5 and 3 Hz showed that the rate-dependent outward shift of current at the end of voltage clamp pulses was small at potentials negative to -20 mV, was larger at more positive potentials and was reduced by TTX at most potentials. The TTX-sensitive component reversed at -47 mV.6. These results are consistent with a net increase in outward Na+-Ca2+ exchange current during a voltage clamp pulse in response to the rise of aia. The increase in outward current (resulting from either enhanced Ca2+ influx or reduced Ca2+ efflux) will augment the Ca2+ load of the cell and contribute to the rate-dependent increase in contraction.

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Treatment of arsenical refractory Rhodesian sleeping sickness in Kenya

Bales

Harrison

Mbwabi³

et al. 1989

Annals of Tropical Medicine & Parasitology

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Transmural variations in gene expression of stretch-modulated proteins in the rat left ventricle

Stones

Calaghan

Billeter

et al. 2007

Pflugers Arch - Eur J Physiol

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The properties of left ventricular cardiac myocytes vary transmurally. This may be related to the gradients of stress and strain experienced in vivo across the ventricular wall. We tested the hypothesis that within the rat left ventricle there are transmural differences in the expression of genes for proteins that are involved in mechanosensitive pathways and in associated physiological responses. Real time reverse transcription polymerase chain reaction was used to measure messenger RNA (mRNA) levels of selected targets in sub-epicardial (EPI) and subendocardial (ENDO) myocardium. Carbon fibres were attached to single myocytes to stretch them and to record contractility. We observed that the slow positive inotropic response to stretch was not different between EPI and ENDO myocytes and consistent with this, that the mRNA expression of two proteins implicated in the slow response, non-specific cationic mechanosensitive channels (TRPC-1) and Na/H exchanger, were not different. However, mRNA levels of other targets, e.g. the mechanosensitive K + channel TREK-1, Brain Natriuretic Peptide and Endothelin-1 receptor B, were significantly greater in ENDO than EPI. No targets had significantly greater mRNA levels in EPI than ENDO. On the basis of these findings, we suggest that the response of the ventricle to stretch will depend upon both the regional differences in stimuli and the relative expression of the mechanosensitive targets and that generally, stretch sensitivity is predicted to be greater in ENDO.

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Concentration-dependent inotropic effects of halothane, isoflurane and sevoflurane on rat ventricular myocytes

Davies

Hamilton

Hopkins

et al. 1999

British Journal of Anaesthesia

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We have described the concentration-dependent inotropic effects of halothane, isoflurane and sevoflurane on rat ventricular cells and investigated the role of the sarcoplasmic reticulum (SR) in these inotropic actions. Single ventricular myocytes, isolated from rat hearts, were stimulated electrically at 1 Hz and contractions recorded optically. Cells were exposed to a range of concentrations of halothane, isoflurane or sevoflurane for a period of 1 min to determine the concentration-dependency of their inotropic actions. For each anaesthetic, the peak negative inotropic action was determined early during an exposure, and sustained negative inotropic action was measured at steady-state just before wash-off. In some experiments, cells were equilibrated with ryanodine 1 mumol litre-1 to investigate the role of the SR in these intropic effects. Halothane caused a concentration-dependent initial increase in contractions (to mean 130 (SEM 28)% at 10 mmol litre-1) followed by rapid onset of a negative inotropic effect (K0.5 0.34 mmol litre-1 for peak effect; K0.5 0.46 mmol litre-1 for sustained effect). Exposure to isoflurane induced a small potentiation of contractions in some cells, followed by a concentration-dependent decrease in contraction in all cells (K0.5 0.85 mmol litre-1 for peak effect; K0.5 1.92 mmol litre-1 for sustained effect); contractions recovered partially during a 1-min exposure. On wash-off, contractions were increased transiently above control. Sevoflurane caused a large initial decrease in contraction which then returned rapidly towards control (K0.5 0.2 mmol litre-1 for peak effect; K0.5 2.57 mmol litre-1 for sustained effect). In common with isoflurane, removal of sevoflurane caused a transient increase in contractions above control. After exposure to ryanodine, the positive inotropic effects of halothane and isoflurane did not occur, and recovery of contractions during exposure to isoflurane and sevoflurane was abolished as was the transient increase in contractions seen on wash-off, indicating that these effects were mediated via the SR. Halothane had the most potent sustained negative inotropic effect but there was little difference between the negative inotropic effects of isoflurane and sevoflurane at clinically relevant concentrations. At higher concentrations, sevoflurane caused a less potent negative inotropic effect than isoflurane. The SR plays a major role in the effects of all three anaesthetics. One possible mechanism underlying the initial potentiation of contraction by halothane (and isoflurane) may be sensitization of the Ca(2+)-induced Ca(2+)-release process of the SR.

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SM Harrison

Doxycycline Therapy for Leptospirosis

The role of the Na(+)‐Ca2+ exchanger in the rate‐dependent increase in contraction in guinea‐pig ventricular myocytes.

Treatment of arsenical refractory Rhodesian sleeping sickness in Kenya

Transmural variations in gene expression of stretch-modulated proteins in the rat left ventricle

Concentration-dependent inotropic effects of halothane, isoflurane and sevoflurane on rat ventricular myocytes

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