1.Application of endothelial markers detection in early target organ damage degree determination for patients with primary aldosteronism
Ruyi WANG ; Qin LI ; Meiling WANG
Chinese Journal of Primary Medicine and Pharmacy 2014;(15):2296-2298
Objective To compare plasma concentrations of biomarkers of endothelial dysfunction between patients with primary aldosteronism (PA) and essential hypertension (EH),and to determine whether elevated levels of these biomarkers could predict development of early organ damage .Methods 56 PA patients ( the observation group) and 56 EH patients(the control group) matched for age,sex,blood pressure and duration of hypertension were included in this study .The plasma levels of biomarkers reflecting endothelial dysfunction [ von Willebrand factor (vWF),soluble intercellular adhesion molecule 1(sICAM-1),oxidized low density lipoprotein(ox-LDL)]were detec-ted and compared between PA and EH patients .The left ventricular mass index ( LVMI) determined by echocardio-graphy,24-hour urinary protein quantitative determination and urinary albumin excretion rate ( UAER) were analyzed to evaluate early organ damage .Results ( 1 ) In the observation group , the plasma markers of endothelial damage vWF (133.4 ±54.9)%,sICAM-1 (412.1 ±75.2)μg/L and ox-LDL (13.7 ±9.0) U/L levels were higher than those in the control group(t=4.642,3.955,2.843,all P<0.05),and the observation group had a higher 24 h urina-ry protein(t=2.042,P<0.05) and LVMI(t=7.235,P<0.05).(2)Correlation analysis showed that LVMI was positively correlated with PAC,ox-LDL,vWF (r=0.447,0.385,0.393,P=0.020,0.046,0.029),and was nega-tively correlated with admission blood K +(r=-0.294,P<0.05).UAER was positively correlated with PAC,vWF and sICAM-1 (r=0.622,0.389,0.499,all P<0.05),and was negatively correlated with admission blood K +(r=-0.314,P<0.05).Conclusion Patients with PA have severer endothelial dysfunction reflected by multiple bio-markers and earlier organ damage than patients with EH ,and plasma aldosterone concentration and multiple endotheli-al dysfunction biomarkers could independently predict early organ damage .
2.Development of an Analgesia Therapy System for Delivery Based on Bio-feedback Transcuataneous Electrical Nerve Stimulation.
Deng SONGBO ; Lu YAOSHENG ; Kun FANG ; Ruyi QIN ; Zhan LIN
Journal of Biomedical Engineering 2015;32(3):650-655
Transcuataneous electrical nerve stimulation (TENS) analgesia as a non-drug method has received people's more and more attention recently. Considering problems of existing products, such as unstable performance and unsatisfied effectiveness, we developed a new analgesia therapy system for delivery based on bio-feedback TENS in our laboratory. We proposed a new idea for stimulation signal design, that is, we modulated a middle frequency signal by a traditional low frequency TENS wave in the new system. We designed different prescription waves for pain relief during a uterine contraction or massage between contractions. In the end, a bio-feedback TENS method was proposed, in which the waveforms of stimulation signals were selected and their parameters were modified automatically based on feedback from uterine pressure, etc. It was proved through quality tests and clinical trials that the system had good performance and satisfied analgesia effectiveness.
Analgesia
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methods
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Biofeedback, Psychology
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methods
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Female
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Humans
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Pain Management
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Transcutaneous Electric Nerve Stimulation
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methods
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Uterine Contraction
3.Self-propelled nanomotor reconstructs tumor microenvironment through synergistic hypoxia alleviation and glycolysis inhibition for promoted anti-metastasis.
Wenqi YU ; Ruyi LIN ; Xueqin HE ; Xiaotong YANG ; Huilin ZHANG ; Chuan HU ; Rui LIU ; Yuan HUANG ; Yi QIN ; Huile GAO
Acta Pharmaceutica Sinica B 2021;11(9):2924-2936
Solid tumors always exhibit local hypoxia, resulting in the high metastasis and inertness to chemotherapy. Reconstruction of hypoxic tumor microenvironment (TME) is considered a potential therapy compared to directly killing tumor cells. However, the insufficient oxygen delivery to deep tumor and the confronting "Warburg effect" compromise the efficacy of hypoxia alleviation. Herein, we construct a cascade enzyme-powered nanomotor (NM-si), which can simultaneously provide sufficient oxygen in deep tumor and inhibit the aerobic glycolysis to potentiate anti-metastasis in chemotherapy. Catalase (Cat) and glucose oxidase (GOx) are co-adsorbed on our previously reported CAuNCs@HA to form self-propelled nanomotor (NM), with hexokinase-2 (HK-2) siRNA further condensed (NM-si). The persistent production of oxygen bubbles from the cascade enzymatic reaction propels NM-si to move forward autonomously and in a controllable direction along H