Yu-Chieh Lin scite author profile

Yu-Chieh Lin

5Publications

13Citation Statements Received

16Citation Statements Given

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Cheng Hsin General Hospital

Publications

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Portal Vein Innervation Underlying the Pressor Effect of Water Ingestion with and without Cold Stress

Tsai

Lin

et al. 2020

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Water-induced pressor response appears mediated through the activation of transient receptor potential channel TRPV4 on hepatic portal circulation in animals. We sought to elucidate the mechanism of portal vein signaling in this response. Forty-five rats were divided into four groups: control rats without water ingestion (WI), control rats with WI, portal vein denervation rats with WI (PVDWI), and TRPV4 antagonist-treated rats with WI (anti-TRPV4WI). Cardiovascular responses were monitored throughout the experiments. Data analysis was performed using descriptive methods and spectral and cross-spectral analysis of blood pressure variability (BPV) and heart rate variability (HRV). Key results showed that at baseline (PreCS) before cold stress trial (CS), WI elicited robust pressor and tachycardia responses accompanied by spectral power changes, in particular, increases of low-frequency BPV (LFBPV) and very-LFBPV (VLFBPV), but decrease of very-low-frequency HRV. PVDWI, likewise, elicited pressor and tachycardia responses accompanied by increases of high-frequency BPV, high-frequency HRV, LFBPV, low-frequency HRV, and VLFBPV. When compared with WI at PreCS, WI at CS elicited pressor and tachycardia responses accompanied by increases of high-frequency BPV, LFBPV, and VLFBPV, whereas in WI, the CS-evoked pressor response and the accompanied LFBPV and VLFBPV increases were all tended augmented by PVDWI. When compared with WI and PVDWI at both PreCS and CS, however, anti-TRPV4WI attenuated their pressor responses and attenuated their increased LFBPV, VLFBPV, and very-low-frequency HRV. The results indicate that the portal vein innervation is critical for a buffering mechanism in splanchnic sympathetic activation and water-induced pressor response.

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Cooling-Evoked Hemodynamic Perturbations Facilitate Sympathetic Activity with Subsequent Myogenic Vascular Oscillations via Alpha2-Adrenergic Receptors

et al. 2017

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This study extends our previous work by examining the effects of alpha2-adrenoceptors under cold stimulation involving the increase of myogenic vascular oscillations as increases of very-low-frequency and low-frequency of the blood pressure variability. Forty-eight adult male Sprague-Dawley rats were randomly divided into four groups: vehicle; yohimbine; hexamethonium+yohimbine; guanethidine+yohimbine. Systolic blood pressure, heart rate, power spectral analysis of spontaneous blood pressure and heart rate variability and spectral coherence at very-low-frequency (0.02 to 0.2 Hz), low-frequency (0.2 to 0.6 Hz), and high-frequency (0.6 to 3.0 Hz) regions were monitored using telemetry. Key findings are as follows: 1) Cooling-induced pressor response was attenuated by yohimbine and further attenuated by hexamethonium+yohimbine and guanethidine+yohimbine, 2) Cooling-induced tachycardia response of yohimbine was attenuated by hexame-thonium+yohimbine and guanethidine+yohimbine, 3) Different patterns of power spectrum reaction and coherence value compared hexamethonium+yohimbine and guanethi-dine+yohimbine to yohimbine alone under cold stimulation. The results suggest that sympathetic activation of the postsynaptic alpha2-adrenoceptors causes vasoconstriction and heightening myogenic vascular oscillations, in turn, may increase blood flow to prevent tissue damage under stressful cooling challenge.

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Effect of cardiac sympathectomy, reserpine, and environmental temperatures on the catecholamine levels in the chicken heart

Lin¹,

Sturkie²,

Tummons³

1970

Can. J. Physiol. Pharmacol.

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Cardiac catecholamine levels were spectrofluorometrically determined in adult male chickens following two treatments: (1) denervation of the cardioaccelerator nerves or (2) reserpine administration after acclimatization of the birds to low, intermediate, or high ambient temperatures. Marked depletion of cardiac catecholamines (80 to 90%) was found 2 weeks after denervation and 24 h after injection of reserpine. Acclimatization did not alter the response to reserpine.

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Role of vasopressin V1 antagonist in the action of vasopressin on the cooling-evoked hemodynamic perturbations of rats

et al. 2019

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Role of Calcitonin Gene-Related Peptide in Cooling-Induced Hemodynamic Perturbations in Rats: Investigation by Spectrum Analysis

Liu¹,

Lin²,

Lin³

et al. 2015

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Yu-Chieh Lin

Portal Vein Innervation Underlying the Pressor Effect of Water Ingestion with and without Cold Stress

Cooling-Evoked Hemodynamic Perturbations Facilitate Sympathetic Activity with Subsequent Myogenic Vascular Oscillations via Alpha2-Adrenergic Receptors

Effect of cardiac sympathectomy, reserpine, and environmental temperatures on the catecholamine levels in the chicken heart

Role of vasopressin V1 antagonist in the action of vasopressin on the cooling-evoked hemodynamic perturbations of rats

Role of Calcitonin Gene-Related Peptide in Cooling-Induced Hemodynamic Perturbations in Rats: Investigation by Spectrum Analysis

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