Shung‐Te Kao scite author profile

1. The aim of the present study was to clarify the role of ginsenoside Rh2 as the active compound in Panax ginseng root for lowering plasma glucose in animals. 2. Plasma glucose was assessed using the glucose oxidase method. Changes in the levels of insulin and C-peptide in plasma were measured by ELISA using commercially available kits. 3. After intravenous injection into fasting Wistar rats for 60 min, ginsenoside Rh2 (0.1-1.0 mg/kg) decreased plasma glucose in a dose-dependent manner. In parallel with the decrease in plasma glucose, increases in plasma insulin levels, as well as plasma C-peptide, were observed in rats receiving the same treatment. These effects of Rh2 were reversed by atropine (0.1-1.0 mg/kg), but not affected by the ganglionic nicotinic antagonists pentolinium or hexamethonium (both at 7.5 mg/kg). 4. Disruption of synaptically available acetylcholine (ACh) using an inhibitor of choline uptake (hemicholinium-3; 1-10 microg/kg) or an inhibitor of vesicular ACh transport (vesamicol; 1.5-3.5 mg/kg) abolished the actions of Rh2. In addition, physostigmine (0.1-0.5 mg/kg), at a concentration sufficient to inhibit acetylcholinesterase, enhanced the actions of the ginsenoside Rh2. Thus, mediation of the effects of Rh2 to enhance insulin secretion by ACh released from nerve terminals can be considered. 5. Blockade of the increase in plasma insulin and the plasma glucose-lowering action of Rh2 by 4-diphenylacetoxy-N-methylpiperdine methiodide (4-DAMP; 5-10 microg/kg) indicates the participation of muscarinic M(3) receptors. Increases in plasma C-peptide level induced by Rh2 were also sensitive to 4-DAMP. 6. The results of the present study suggest that ginsenoside Rh2 has the ability to increase insulin secretion as a result of the release of ACh from nerve terminals that then stimulates muscarinic M(3) receptors in pancreatic cells. This finding shows the mechanism for the plasma glucose-lowering action of ginsenoside Rh2, that is one of the major principles contained in P. ginseng root. Thus, ginsenoside Rh2 may be applied as an adjuvant for the management of diabetes.

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Radial Pressure Pulse and Heart Rate Variability in Heat‐ and Cold‐Stressed Humans

Huang

Chang

Kao

et al. 2010

Evidence-Based Complementary and Alternative Medicine

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This study aims to explore the effects of heat and cold stress on the radial pressure pulse (RPP) and heart rate variability (HRV). The subjects immersed their left hand into 45°C and 7°C water for 2 minutes. Sixty healthy subjects (age 25 ± 4 yr; 29 men and 31 women) were enrolled in this study. All subjects underwent the supine temperature measurements of the bilateral forearms, brachial arterial blood pressure, HRV and RPP with a pulse analyzer in normothermic conditions, and thermal stresses. The power spectral low-frequency (LF) and high-frequency (HF) components of HRV decreased in the heat test and increased in the cold test. The heat stress significantly reduced radial augmentation index (AIr) (P < .05), but the cold stress significantly increased AIr (P < .01). The spectral energy of RPP did not show any statistical difference in 0 ~ 10 Hz region under both conditions, but in the region of 10 ~ 50 Hz, there was a significant increase (P < .01) in the heat test and a significant decrease in the cold test (P < .01). The changes in AIr induced by heat and cold stress were significantly negatively correlated with the spectral energy in the region of 10 ~ 50 Hz (SE10−50 Hz) but not in the region of 0 ~ 10 Hz (SE0−10 Hz). The results demonstrated that the SE10−50 Hz, which only possessed a small percentage in total pulse energy, presented more physiological characteristics than the SE0−10 Hz under the thermal stresses.

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Ginsenoside Rh2 is One of the Active Principles of Panax Ginseng Root to Improve Insulin Sensitivity in Fructose-rich Chow-fed Rats

Lee¹,

Kao²,

Liu³

et al. 2007

Horm Metab Res

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Ginsenoside Rh2, one of the ginsenosides contained in the Panax ginseng root, was employed to screen the effect on insulin resistance of rats induced by a diet containing 60% fructose. Single intravenous injection of ginsenoside Rh2 decreased the plasma glucose concentrations in 60 minutes in a dose-dependent manner from 0.1 mg/kg to 1 mg/kg in rats with insulin resistance induced by fructose-rich chow. Repeated intravenous injection of ginsenoside Rh2 (1 mg/kg per injection, 3 times daily) into rats which received fructose-rich chow for 3 consecutive days decreased the value of glucose-insulin index, the product of the areas under the curve of glucose and insulin during the intraperitoneal (i.p.) glucose tolerance test. This means that ginsenoside Rh2 has an ability to improve insulin action on glucose disposal. The plasma glucose lowering action of tolbutamide, induced by the secretion of endogenous insulin, is widely used to characterize the formation of insulin resistance. Time for the loss of plasma glucose lowering response to tolbutamide (10 mg/kg, i.p.) in rats during insulin resistance induction by fructose-rich chow was also markedly delayed by the repeated treatment of ginsenoside Rh2, as compared to the vehicle-treated control. Thus, the repeated treatment of ginsenoside Rh2 delayed the development of insulin resistance in high fructose feeding rats. Increase of insulin sensitivity by ginsenoside Rh2 was further identified using the plasma glucose lowering action of exogenous insulin in streptozotocin-induced diabetic rats (STZ-diabetic rats). Repeated injection of ginsenoside Rh2 at the same dosing (1 mg/kg, 3 times daily) into STZ-diabetic rats for 10 days made an increase of the responses to exogenous insulin. Taken together, it can be concluded that ginsenoside Rh2 has an ability to improve insulin sensitivity and it seems suitable to use ginsenoside Rh2 as an adjuvant for diabetic patients and/or the subjects wishing to increase insulin sensitivity.

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Developing the Effective Method of Spectral Harmonic Energy Ratio to Analyze the Arterial Pulse Spectrum

Huang

Wei

Liao

et al. 2011

Evidence-Based Complementary and Alternative Medicine

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In this article, we analyze the arterial pulse in the spectral domain. A parameter, the spectral harmonic energy ratio (SHER), is developed to assess the features of the overly decreased spectral energy in the fourth to sixth harmonic for palpitation patients. Compared with normal subjects, the statistical results reveal that the mean value of SHER in the patient group (57.7 ± 27.9) is significantly higher than that of the normal group (39.7 ± 20.9) (P-value = .0066 < .01). This means that the total energy in the fourth to sixth harmonic of palpitation patients is significantly less than it is in normal subjects. In other words, the spectral distribution of the arterial pulse gradually decreases for normal subjects while it decreases abruptly in higher-order harmonics (the fourth, fifth and sixth harmonics) for palpitation patients. Hence, SHER is an effective method to distinguish the two groups in the spectral domain. Also, we can thus know that a “gradual decrease” might mean a “balanced” state, whereas an “abrupt decrease” might mean an “unbalanced” state in blood circulation and pulse diagnosis. By SHER, we can determine the ratio of energy distribution in different harmonic bands, and this method gives us a novel viewpoint from which to comprehend and quantify the spectral harmonic distribution of circulation information conveyed by the arterial pulse. These concepts can be further applied to improve the clinical diagnosis not only in Western medicine but also in traditional Chinese medicine (TCM).

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Shung‐Te Kao

Osteopontin increases lung cancer cells migration via activation of the αvβ3 integrin/FAK/Akt and NF-κB-dependent pathway

Increase of Insulin Secretion by Ginsenoside Rh2 to Lower Plasma Glucose in Wistar Rats

Radial Pressure Pulse and Heart Rate Variability in Heat‐ and Cold‐Stressed Humans

Ginsenoside Rh2 is One of the Active Principles of Panax Ginseng Root to Improve Insulin Sensitivity in Fructose-rich Chow-fed Rats

Developing the Effective Method of Spectral Harmonic Energy Ratio to Analyze the Arterial Pulse Spectrum

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