Parkinson’s disease is a neurodegenerative disorder that significantly impacts patients’lives.Currently,treatment primarily relies on drug therapy,while effective nursing interventions can help mitigate adverse reac...Parkinson’s disease is a neurodegenerative disorder that significantly impacts patients’lives.Currently,treatment primarily relies on drug therapy,while effective nursing interventions can help mitigate adverse reactions associated with medication use.This article reviews medication selection and nursing interventions for patients with Parkinson’s disease,aiming to alleviate symptoms,improve quality of life,and provide a scientific and comprehensive basis for medication and clinical nursing practices.展开更多
非化学计量微米氧化硅(SiO_(x))由于其高理论容量和低成本,有望成为锂离子电池石墨负极材料的替代品.然而,SiO_(x)的实际应用仍然受到其较差的固有导电性和循环过程中明显的体积变化的阻碍.在本工作中,为了同时解决这些问题,我们使用可...非化学计量微米氧化硅(SiO_(x))由于其高理论容量和低成本,有望成为锂离子电池石墨负极材料的替代品.然而,SiO_(x)的实际应用仍然受到其较差的固有导电性和循环过程中明显的体积变化的阻碍.在本工作中,为了同时解决这些问题,我们使用可规模化的溶剂热和热还原方法制备了具有TiO_(1-y)Ny-C涂层的SiO_(x)基负极材料(SiO_(x)@TiON-C).我们通过系统性研究发现,TiO_(1-y)Ny-C涂层可以适应SiO_(x)循环过程中大的体积变化且有效提高其导电性.因此,SiO_(x)@TiON-C负极具有突出的储锂性能.具体而言,SiO_(x)@TiON-C负极可以在500 mA g^(-1)的电流密度下循环500圈后仍保持750.2 mA h g^(-1)的优异可逆容量,75.1%的初始库仑效率和优异的倍率性能.这项工作为促进下一代锂离子电池微米SiO_(x)基负极材料的实际商业化提供了一种很有前途的方法.展开更多
Rechargeable magnesium-metal batteries(RMBs)have gained much attention due to their abundant resources as well as high safety.However,the high charge density of Mg^(2+)is one of the main reasons for the slow kinetics ...Rechargeable magnesium-metal batteries(RMBs)have gained much attention due to their abundant resources as well as high safety.However,the high charge density of Mg^(2+)is one of the main reasons for the slow kinetics performance of RMBs,and modulation of the charge density is an important strategy to improve the kinetics and electrochemical performance of RMBs.Herein,we report on the conductive polymer polyaniline(PANI)for RMBs,which is found to have excellent kinetics and high discharge voltage when storing MgCl^(+).In the storage of MgCl^(+),PANI exhibits a high average discharge voltage platform is 2.3 V vs.Mg^(2+)/Mg,which is higher than that in storage of Mg^(2+).We demonstrated the reversible intercalation/de-intercalation of MgCl^(+)in PANI accompanying with the reversible transformation between the quinone ring(C–C,–N=)and the benzene ring(C=C,–NH–)during charging and discharging.Density functional theory calculation reveals that PANI exhibit higher voltages(2.25 V vs.1.82 V)along with lower diffusion energy barriers(1.27 eV vs.1.55 eV)for MgCl^(+)storage compared to Mg^(2+)storage.This work refines the storage mechanism of PANI in RMBs and provides new guidelines for the application of PANI in RMBs.展开更多
Mitochondrial diseases are caused by variants in both mitochondrial and nuclear genomes.A nuclear gene HPDL(4-hydroxyphenylpyruvate dioxygenase-like),which encodes an intermembrane mitochondrial protein,has been recen...Mitochondrial diseases are caused by variants in both mitochondrial and nuclear genomes.A nuclear gene HPDL(4-hydroxyphenylpyruvate dioxygenase-like),which encodes an intermembrane mitochondrial protein,has been recently implicated in causing a neurodegenerative disease characterized by pediatric-onset spastic movement phenotypes.Here,we report six Chinese patients with bi-allelic HPDL pathogenic variants from four unrelated families showing neuropathic symptoms of variable severity,including developmental delay/intellectual disability,spasm,and hypertonia.Seven different pathogenic variants are identified,of which five are novel.Both fibroblasts and immortalized lymphocytes derived from patients show impaired mitochondrial respiratory function,which is also observed in HPDL-knockdown(KD)He La cells.In these He La cells,overexpression of a wild-type HPDL gene can rescue the respiratory phenotype of oxygen consumption rate.In addition,a decreased activity of the oxidative phosphorylation(OXPHOS)complex II is observed in patient-derived lymphocytes and HPDL-KD He La cells,further supporting an essential role of HPDL in the mitochondrial respiratory chain.Collectively,our data expand the clinical and mutational spectra of this mitochondrial neuropathy and further delineate the possible disease mechanism involving the impairment of the OXPHOS complex II activity due to the bi-allelic inactivations of HPDL.展开更多
文摘Parkinson’s disease is a neurodegenerative disorder that significantly impacts patients’lives.Currently,treatment primarily relies on drug therapy,while effective nursing interventions can help mitigate adverse reactions associated with medication use.This article reviews medication selection and nursing interventions for patients with Parkinson’s disease,aiming to alleviate symptoms,improve quality of life,and provide a scientific and comprehensive basis for medication and clinical nursing practices.
基金supported by the National Natural Science Foundation of China (52102225 and 51874104)the Start-up Research Grant of Guangdong University of Technology,China (220413729)。
文摘非化学计量微米氧化硅(SiO_(x))由于其高理论容量和低成本,有望成为锂离子电池石墨负极材料的替代品.然而,SiO_(x)的实际应用仍然受到其较差的固有导电性和循环过程中明显的体积变化的阻碍.在本工作中,为了同时解决这些问题,我们使用可规模化的溶剂热和热还原方法制备了具有TiO_(1-y)Ny-C涂层的SiO_(x)基负极材料(SiO_(x)@TiON-C).我们通过系统性研究发现,TiO_(1-y)Ny-C涂层可以适应SiO_(x)循环过程中大的体积变化且有效提高其导电性.因此,SiO_(x)@TiON-C负极具有突出的储锂性能.具体而言,SiO_(x)@TiON-C负极可以在500 mA g^(-1)的电流密度下循环500圈后仍保持750.2 mA h g^(-1)的优异可逆容量,75.1%的初始库仑效率和优异的倍率性能.这项工作为促进下一代锂离子电池微米SiO_(x)基负极材料的实际商业化提供了一种很有前途的方法.
基金supported by the National Key Research and Development Program of China(No.2023YFB3809501)the National Natural Science Foundation of China(No.52302246)the Natural Science Foundation of Hubei Province(No.2022CFA087).
文摘Rechargeable magnesium-metal batteries(RMBs)have gained much attention due to their abundant resources as well as high safety.However,the high charge density of Mg^(2+)is one of the main reasons for the slow kinetics performance of RMBs,and modulation of the charge density is an important strategy to improve the kinetics and electrochemical performance of RMBs.Herein,we report on the conductive polymer polyaniline(PANI)for RMBs,which is found to have excellent kinetics and high discharge voltage when storing MgCl^(+).In the storage of MgCl^(+),PANI exhibits a high average discharge voltage platform is 2.3 V vs.Mg^(2+)/Mg,which is higher than that in storage of Mg^(2+).We demonstrated the reversible intercalation/de-intercalation of MgCl^(+)in PANI accompanying with the reversible transformation between the quinone ring(C–C,–N=)and the benzene ring(C=C,–NH–)during charging and discharging.Density functional theory calculation reveals that PANI exhibit higher voltages(2.25 V vs.1.82 V)along with lower diffusion energy barriers(1.27 eV vs.1.55 eV)for MgCl^(+)storage compared to Mg^(2+)storage.This work refines the storage mechanism of PANI in RMBs and provides new guidelines for the application of PANI in RMBs.
基金funded by the Precision Medical Research of National Key Research and Development Program(2018YFC1002200,2019YFC1005100 to Y.Yu,2018YFC1002400 to Y.Sun,and 2018YFC1002501 to Y.Shen)National Natural Science Foundation of China(81873633 and 82071276 to Y.Shen,81830071 to J.Lyu,81873724 to Y.Sun,and 82070914 and 81873671 to Y.Yu)+7 种基金Shanghai Shen Kang Hospital Development Center(SHDC12017109 to Y.Yu)the Shanghai Science and Technology Commission(19140904500 to Y.Yu)Jiaotong University Cross Biomedical Engineering(YG2017MS72 to Y.Yu)the“Eastern Scholar”Fundthe“Guangxi Bagui Scholar”fund(to Y.Shen)the Major Research Plan of the Provincial Science and Technology Foundation of Guangxi(AB16380214 to Y.Shen)Foundation of Shanghai Municipal Health Commission(shslczdzk05702,to Y.Yu and Y.Sun)Municipal Education Commission-Gaofeng Clinical Medicine Grant Support(20191908,to Y.Yu)。
文摘Mitochondrial diseases are caused by variants in both mitochondrial and nuclear genomes.A nuclear gene HPDL(4-hydroxyphenylpyruvate dioxygenase-like),which encodes an intermembrane mitochondrial protein,has been recently implicated in causing a neurodegenerative disease characterized by pediatric-onset spastic movement phenotypes.Here,we report six Chinese patients with bi-allelic HPDL pathogenic variants from four unrelated families showing neuropathic symptoms of variable severity,including developmental delay/intellectual disability,spasm,and hypertonia.Seven different pathogenic variants are identified,of which five are novel.Both fibroblasts and immortalized lymphocytes derived from patients show impaired mitochondrial respiratory function,which is also observed in HPDL-knockdown(KD)He La cells.In these He La cells,overexpression of a wild-type HPDL gene can rescue the respiratory phenotype of oxygen consumption rate.In addition,a decreased activity of the oxidative phosphorylation(OXPHOS)complex II is observed in patient-derived lymphocytes and HPDL-KD He La cells,further supporting an essential role of HPDL in the mitochondrial respiratory chain.Collectively,our data expand the clinical and mutational spectra of this mitochondrial neuropathy and further delineate the possible disease mechanism involving the impairment of the OXPHOS complex II activity due to the bi-allelic inactivations of HPDL.
基金the National Key Research and Development Program of China (Nos. 2016YFA0202601and 2016YFA0202603)the National Natural Science Foundation of China (Nos.51425204 and 51602239)+2 种基金the Hubei Provincial Natural Science Foundation of China (No.2016CFB267)the Fundamental Research Funds for the Central Universities (No.2017-CL-A1-43)Prof.Liqiang Mai gratefully acknowledged financial support from China Scholarship Council (No.201606955096).
