1.A Practical Exploration ofConstruction for Enhanced Recovery after Surgery Wards from the Perspective of Optimal Hlealing Environments
Lihua SHEN ; Hongxia XU ; Qunli XU ; Weijing SUI ; Yiyu ZHUANG
Chinese Hospital Management 2024;44(8):50-52
Zhejiang University School of Medicine's affiliated Sir Run Run Shaw Hospital has responded to innovative rehabilitation healthcare policy by implementing enhanced recovery after surgery(ERAS)wards based on healing concepts during the development of new wards in its multi-campus integration.By integrating 5G communication technology with the hospital's various information systems and leveraging the hospital's locational advantages,the hospital has upgraded its software and hardware configurations,promoting a multidisciplinary collaborative bedside management model in the context of new technologies.In terms of overall environment construction,the hospital uses best healing theories in physical design,organizational conditions,and interpersonal relationships to facilitate and support patients'healing experiences,effectively improving medical and nursing services.
2.A Practical Exploration ofConstruction for Enhanced Recovery after Surgery Wards from the Perspective of Optimal Hlealing Environments
Lihua SHEN ; Hongxia XU ; Qunli XU ; Weijing SUI ; Yiyu ZHUANG
Chinese Hospital Management 2024;44(8):50-52
Zhejiang University School of Medicine's affiliated Sir Run Run Shaw Hospital has responded to innovative rehabilitation healthcare policy by implementing enhanced recovery after surgery(ERAS)wards based on healing concepts during the development of new wards in its multi-campus integration.By integrating 5G communication technology with the hospital's various information systems and leveraging the hospital's locational advantages,the hospital has upgraded its software and hardware configurations,promoting a multidisciplinary collaborative bedside management model in the context of new technologies.In terms of overall environment construction,the hospital uses best healing theories in physical design,organizational conditions,and interpersonal relationships to facilitate and support patients'healing experiences,effectively improving medical and nursing services.
3.A Practical Exploration ofConstruction for Enhanced Recovery after Surgery Wards from the Perspective of Optimal Hlealing Environments
Lihua SHEN ; Hongxia XU ; Qunli XU ; Weijing SUI ; Yiyu ZHUANG
Chinese Hospital Management 2024;44(8):50-52
Zhejiang University School of Medicine's affiliated Sir Run Run Shaw Hospital has responded to innovative rehabilitation healthcare policy by implementing enhanced recovery after surgery(ERAS)wards based on healing concepts during the development of new wards in its multi-campus integration.By integrating 5G communication technology with the hospital's various information systems and leveraging the hospital's locational advantages,the hospital has upgraded its software and hardware configurations,promoting a multidisciplinary collaborative bedside management model in the context of new technologies.In terms of overall environment construction,the hospital uses best healing theories in physical design,organizational conditions,and interpersonal relationships to facilitate and support patients'healing experiences,effectively improving medical and nursing services.
4.A Practical Exploration ofConstruction for Enhanced Recovery after Surgery Wards from the Perspective of Optimal Hlealing Environments
Lihua SHEN ; Hongxia XU ; Qunli XU ; Weijing SUI ; Yiyu ZHUANG
Chinese Hospital Management 2024;44(8):50-52
Zhejiang University School of Medicine's affiliated Sir Run Run Shaw Hospital has responded to innovative rehabilitation healthcare policy by implementing enhanced recovery after surgery(ERAS)wards based on healing concepts during the development of new wards in its multi-campus integration.By integrating 5G communication technology with the hospital's various information systems and leveraging the hospital's locational advantages,the hospital has upgraded its software and hardware configurations,promoting a multidisciplinary collaborative bedside management model in the context of new technologies.In terms of overall environment construction,the hospital uses best healing theories in physical design,organizational conditions,and interpersonal relationships to facilitate and support patients'healing experiences,effectively improving medical and nursing services.
5.A Practical Exploration ofConstruction for Enhanced Recovery after Surgery Wards from the Perspective of Optimal Hlealing Environments
Lihua SHEN ; Hongxia XU ; Qunli XU ; Weijing SUI ; Yiyu ZHUANG
Chinese Hospital Management 2024;44(8):50-52
Zhejiang University School of Medicine's affiliated Sir Run Run Shaw Hospital has responded to innovative rehabilitation healthcare policy by implementing enhanced recovery after surgery(ERAS)wards based on healing concepts during the development of new wards in its multi-campus integration.By integrating 5G communication technology with the hospital's various information systems and leveraging the hospital's locational advantages,the hospital has upgraded its software and hardware configurations,promoting a multidisciplinary collaborative bedside management model in the context of new technologies.In terms of overall environment construction,the hospital uses best healing theories in physical design,organizational conditions,and interpersonal relationships to facilitate and support patients'healing experiences,effectively improving medical and nursing services.
6.A Practical Exploration ofConstruction for Enhanced Recovery after Surgery Wards from the Perspective of Optimal Hlealing Environments
Lihua SHEN ; Hongxia XU ; Qunli XU ; Weijing SUI ; Yiyu ZHUANG
Chinese Hospital Management 2024;44(8):50-52
Zhejiang University School of Medicine's affiliated Sir Run Run Shaw Hospital has responded to innovative rehabilitation healthcare policy by implementing enhanced recovery after surgery(ERAS)wards based on healing concepts during the development of new wards in its multi-campus integration.By integrating 5G communication technology with the hospital's various information systems and leveraging the hospital's locational advantages,the hospital has upgraded its software and hardware configurations,promoting a multidisciplinary collaborative bedside management model in the context of new technologies.In terms of overall environment construction,the hospital uses best healing theories in physical design,organizational conditions,and interpersonal relationships to facilitate and support patients'healing experiences,effectively improving medical and nursing services.
7.A Practical Exploration ofConstruction for Enhanced Recovery after Surgery Wards from the Perspective of Optimal Hlealing Environments
Lihua SHEN ; Hongxia XU ; Qunli XU ; Weijing SUI ; Yiyu ZHUANG
Chinese Hospital Management 2024;44(8):50-52
Zhejiang University School of Medicine's affiliated Sir Run Run Shaw Hospital has responded to innovative rehabilitation healthcare policy by implementing enhanced recovery after surgery(ERAS)wards based on healing concepts during the development of new wards in its multi-campus integration.By integrating 5G communication technology with the hospital's various information systems and leveraging the hospital's locational advantages,the hospital has upgraded its software and hardware configurations,promoting a multidisciplinary collaborative bedside management model in the context of new technologies.In terms of overall environment construction,the hospital uses best healing theories in physical design,organizational conditions,and interpersonal relationships to facilitate and support patients'healing experiences,effectively improving medical and nursing services.
8.A Practical Exploration ofConstruction for Enhanced Recovery after Surgery Wards from the Perspective of Optimal Hlealing Environments
Lihua SHEN ; Hongxia XU ; Qunli XU ; Weijing SUI ; Yiyu ZHUANG
Chinese Hospital Management 2024;44(8):50-52
Zhejiang University School of Medicine's affiliated Sir Run Run Shaw Hospital has responded to innovative rehabilitation healthcare policy by implementing enhanced recovery after surgery(ERAS)wards based on healing concepts during the development of new wards in its multi-campus integration.By integrating 5G communication technology with the hospital's various information systems and leveraging the hospital's locational advantages,the hospital has upgraded its software and hardware configurations,promoting a multidisciplinary collaborative bedside management model in the context of new technologies.In terms of overall environment construction,the hospital uses best healing theories in physical design,organizational conditions,and interpersonal relationships to facilitate and support patients'healing experiences,effectively improving medical and nursing services.
9.Matrix-Assisted Laser Desorption Ionization Mass Spectrometry Analysis and Imaging of Porcine Brain Tissue Section Using Precoated Nanocarbon-Sodium Dodecyl Sulfate Composite Matrix
Si-Jia ZHUANG ; Yu-Lin SHEN ; Fan YANG ; Can GONG ; Xu XU
Chinese Journal of Analytical Chemistry 2024;52(7):985-994,中插22-中插29
Nanomaterial matrices have unique advantages in small molecule analysis by matrix-assisted laser desorption ionization mass spectrometry(MALDI-MS).On the basis of comparing different surfactants,a method for pre-coating nanocarbon sodium dodecyl sulfate(SDS)composite matrix was established,which could alleviate the issue of aggregation of nanocarbon particles as a matrix.The experimental results showed that the nanocarbon-SDS composite pre-coated matrix effectively suppressed the background ion peak of the nano matrix,significantly improved the MS peak intensity and signal-to-noise ratio of the tested substance.Under the optimal conditions,cholesterol,1,2-dipalmitoyl-sn-glyceryl-3-phosphorylcholine(DPPC),and triglyceride standards were analyzed,with intra-point repeatability(RSD)of MS peak intensity≤5%and inter-point repeatability≤7%.As to measurement of cyclic adenosine monophosphate and DPPC samples in the range of 0.05?1.0 mg/mL,linear correlation coefficient(R2)between peak intensity and concentration was greater than 0.993,indicating good quantitative analysis potential.The nanocarbon-SDS composite pre-coating matrix was used for MALDI-MS imaging of pig brain tissue,and the differences in component distribution between pig brain white matter and gray matter were observed,demonstrating the potential of nanocarbon-SDS composite pre-coating matrix for MALDI-MS imaging.
10.Objective indicators of tongue and pulse manifestations in endometriosis diseases
Xu ZHENG ; Mengfei ZHUANG ; Weiwei ZENG ; Li SHEN ; Tingting ZHANG ; Liping TU ; Jiatuo XU ; Xinyi ZHU
Academic Journal of Naval Medical University 2024;45(9):1077-1082
Objective To explore the objective indicators of tongue and pulse manifestations in patients with endometriosis diseases by collecting the data of tongue and pulse manifestations of patients with endometriosis diseases by digital tongue and pulse diagnostic instrument. Methods The endometriosis disease group included 72 patients with endometriosis diseases who were treated in Department of Gynecology (Professor ZHANG Tingting),Yueyang Hospital of Integrated Traditional Chinese and Western Medicine from Jun. 1,2021 to Sep. 15,2022. The normal group included 35 healthy adult women recruited by the Physical Examination Center of Shuguang Hospital,Shanghai University of Traditional Chinese Medicine. Results In terms of age,there was no significant difference between the endometriotic disease group and normal group (P>0.05). In terms of tongue color,the values of zhiCon,zhiASM,zhiENT,zhiMEAN,zhiClrB,zhiClrI,zhiClrLa,zhiClrCb,and zhiClrLb in the endometriosis disease group were significantly different from those in the normal group (all P<0.05),while there were no significant differences in the values of zhiClrR,zhiClrG,zhiClrS,zhiClrL,zhiClrY,or zhiClrCr between the 2 groups (all P>0.05). In terms of tongue coating color,the values of taiClrR,taiClrB,taiClrI,taiClrS,taiClrLa,taiClrLb,taiClrCr,and taiClrCb in the endometriosis disease group were significantly different from those in the normal group (all P<0.05),while there were no significant differences in the values of taiClrG,taiClrL,or taiClrY (all P>0.05). In terms of texture and thickness of tongue coating,there were no significant differences in the values of perAll,perPart,taiCon,taiASM,taiENT,or taiMEAN between the 2 groups (all P>0.05). In terms of pulse manifestation,the values of h3,h4,h5,t4,h3/h1,and h4/h1 in the endometriosis disease group were significantly different from those in the normal group (all P<0.05),while there were no significant differences in the values of h1,t,t1,or t5 (all P>0.05). Conclusion There are significant differences in tongue and pulse indicators between patients with endometriosis diseases and healthy individuals. It can provide objective indicators for further research on the pathogenesis changes and clinical differentiation of endometriosis diseases.

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