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2. Novel design and synthesis of 1D bamboo-like CNTs@Sn4P3@C coaxial nanotubes for long-term sodium ion storage

Author

Chaofeng Zhang, Axue Liu, Jiujun Zhang, Yan-Jie Wang, Rui Wang, Yuling Xu, Lifeng Qiu, Longhai Zhang, and Qianyu Zhang

Subjects
Materials science, Renewable Energy, Sustainability and the Environment, Sodium, chemistry.chemical_element, Nanoparticle, 02 engineering and technology, 010402 general chemistry, 021001 nanoscience & nanotechnology, Electrochemistry, 01 natural sciences, Hydrothermal circulation, 0104 chemical sciences, Anode, chemistry, Chemical engineering, Coaxial, 0210 nano-technology, Layer (electronics), Carbon
Abstract

In this work, a novel bamboo-like carbon nanotubes@Sn4P3@carbon (BLCNTs@Sn4P3@C) coaxial nanotubes are designed and prepared using a newly developed hydrothermal method followed by a phophidation process. The prepared Sn4P3 nanoparticles are uniformly coated and wrapped on the one-dimensional (1D) bamboo-like CNTs, which is covered by a uniform carbon layer to form a sandwich-like structure with Sn4P3 in between. The inner CNT and outer carbon can effectively maintain the structural stability and serve as the good electron conductors. Additionally, the outer carbon coating layer can effectively keep BLCNTs@Sn4P3@C nanotubes separate each other, preventing aggregation of Sn4P3 during charge/discharge when this material is used as anode for sodium ion batteries. The anode of BLCNTs@Sn4P3@C shows excellent reversible capacity and a long cycling of over 2000 cycles. The unique design of coaxial nanotubes is greatly beneficial to the electrochemical performance of Sn4P3 for sodium ion storage.

Published
2022

5. A microfiber scaffold-based 3Din vitrohuman neuronal culture model of Alzheimer's disease

Author

Li Zeng, Lifeng Qiu, Kah-Leong Lim, Se Eun Jang, Eng-King Tan, Vivek Damodar Ranjan, Wei Min Huang, Chou Chai, Xuelong Chen, Jolene Wei-Ling Lee, and Yilei Zhang

Subjects
Neurons, 0303 health sciences, Scaffold, Tissue Scaffolds, Chemistry, Cell growth, Cellular differentiation, Induced Pluripotent Stem Cells, Biomedical Engineering, Cell Differentiation, 02 engineering and technology, 021001 nanoscience & nanotechnology, Neural stem cell, In vitro, Cell biology, 03 medical and health sciences, Neural Stem Cells, Alzheimer Disease, In vivo, Humans, General Materials Science, Stem cell, 0210 nano-technology, Induced pluripotent stem cell, 030304 developmental biology
Abstract

Increasing evidence indicates superiority of three-dimensional (3D) in vitro cell culture systems over conventional two-dimensional (2D) monolayer cultures in mimicking native in vivo microenvironments. Tissue-engineered 3D culture models combined with stem cell technologies have advanced Alzheimer's disease (AD) pathogenesis studies. However, existing 3D neuronal models of AD overexpress mutant genes or have heterogeneities in composition, biological properties and cell differentiation stages. Here, we encapsulate patient induced pluripotent stem cell (iPSC) derived neural progenitor cells (NPC) in poly(lactic-co-glycolic acid) (PLGA) microtopographic scaffolds fabricated via wet electrospinning to develop a novel 3D culture model of AD. First, we enhanced cellular infiltration and distribution inside the scaffold by optimizing various process parameters such as fiber diameter, pore size, porosity and hydrophilicity. Next, we compared key neural stem cell features including viability, proliferation and differentiation in 3D culture with 2D monolayer controls. The 3D microfibrous substrate reduces cell proliferation and significantly accelerates neuronal differentiation within seven days of culture. Furthermore, 3D culture spontaneously enhanced pathogenic amyloid-beta 42 (Aβ42) and phospho-tau levels in differentiated neurons carrying familial AD (FAD) mutations, compared with age-matched healthy controls. Overall, our tunable scaffold-based 3D neuronal culture platform serves as a suitable in vitro model that robustly recapitulates and accelerates the pathogenic characteristics of FAD-iPSC derived neurons.

Published
2020

7. Facile Synthesis of Carbon-Coated Porous Sb2Te3 Nanoplates with High Alkali Metal Ion Storage

Author

Jiang Wu, Lifeng Qiu, Chaofeng Zhang, Sen Xin, Qiufan Shi, Qianyu Zhang, Chuan-Ling Zhang, and Wudi Zhang

Subjects
Materials science, Carbonization, 010401 analytical chemistry, chemistry.chemical_element, 02 engineering and technology, 021001 nanoscience & nanotechnology, Electrochemistry, 01 natural sciences, Hydrothermal circulation, Energy storage, 0104 chemical sciences, Anode, chemistry, Chemical engineering, Gravimetric analysis, General Materials Science, 0210 nano-technology, Porosity, Carbon
Abstract

Constructing advanced anode materials with suitable operational potential and high energy density toward metal ion batteries is of significance for next-generation batteries. Carbon-coated porous Sb2Te3 nanoplates with high density and suitable operational potential, prepared by a hydrothermal and carbonization technique, manifest good electrochemical performance, including excellent rate capability, high capacities, and outstanding cycling performance. This performance can be traced to its special structure, including porous Sb2Te3 and the shell of carbon, which can provide fast charge transfer paths and maintain the structural stability for the entire material. The proposed strategy here of embedding porous high-density anode material in two-dimensional carbon provides a new avenue for designing anode materials with excellent gravimetric and volumetric capacities toward superior energy storage.

Published
2019

8. Facile Synthesis of Carbon-Coated Porous Sb

Author

Wudi, Zhang, Qianyu, Zhang, Qiufan, Shi, Sen, Xin, Jiang, Wu, Chuan-Ling, Zhang, Lifeng, Qiu, and Chaofeng, Zhang

Abstract

Constructing advanced anode materials with suitable operational potential and high energy density toward metal ion batteries is of significance for next-generation batteries. Carbon-coated porous Sb

Published
2019

9. In utero infection of Zika virus leads to abnormal central nervous system development in mice

Author

Lifeng Qiu, Hai-Tao Tu, Wei Zhang, Eng-King Tan, Li Zeng, Justin Jang Hann Chu, Yong Wah Tan, and Wan Keat Yam

Subjects
0301 basic medicine, Pathology, medicine.medical_specialty, Microcephaly, Epidemiology, Central nervous system, lcsh:Medicine, Cell Count, Grey matter, Article, Zika virus, Mice, 03 medical and health sciences, 0302 clinical medicine, Neural Stem Cells, Pregnancy, Animals, Humans, Medicine, Muscle Strength, lcsh:Science, Neurons, Fetus, Multidisciplinary, biology, Zika Virus Infection, business.industry, lcsh:R, Spinal Cord Ventral Horn, Brain, Extremities, Zika Virus, Muscular Dystrophy, Animal, biology.organism_classification, medicine.disease, Spinal cord, Neural stem cell, Disease Models, Animal, 030104 developmental biology, medicine.anatomical_structure, Viral infection, Prenatal Exposure Delayed Effects, Female, lcsh:Q, Neuron, business, 030217 neurology & neurosurgery, Central nervous system infections
Abstract

The World Health Organization has declared ZIKA virus (ZIKV) a global public health emergency, prompted by the association of ZIKV infections with severe brain abnormalities in the human fetus. ZIKV preferentially targets human neuronal precursor cells (NPCs) in both monolayer and cortical brain organoid culture systems and stunts their growth. Although ZIKV is well recognized to cause microcephaly, there is no systematic analysis to demonstrate the effect of ZIKV on central nervous system (CNS) development, including brain malformations and spinal cord dysfunction. Here, we conducted a longitudinal analysis to show that a novel mouse model (infected in utero and monitored after birth until adulthood) recapitulates the effects of ZIKV infection affecting neural stem cells fate and leads to a thinner cortex and a smaller brain. Furthermore, we demonstrate the effect of ZIKV on spinal cord function. Specifically, we found significant reductions in neuron numbers in the anterior horn of grey matter of the spinal cord and muscle dystrophy with a significant decrease in forepaw grip strength in the ZIKV group. Thus, the established mouse model of ZIKV infection leading to abnormal CNS development will help to further advance our understanding of the disease pathogenesis.

Published
2019

10. Aggregation-induced emission (AIE) nanoparticles labeled human embryonic stem cells (hESCs)-derived neurons for transplantation

Author

Eng-King Tan, Xiaolei Cai, Bin Liu, Se Eun Jang, Lifeng Qiu, Li Zeng, Jolene Wei Ling Lee, and Wei Zhang

Subjects
Human Embryonic Stem Cells, Induced Pluripotent Stem Cells, Biophysics, Bioengineering, 02 engineering and technology, Striatum, Biomaterials, 03 medical and health sciences, In vivo, medicine, Progenitor cell, Induced pluripotent stem cell, 030304 developmental biology, Neurons, 0303 health sciences, Microglia, Chemistry, Cell Differentiation, 021001 nanoscience & nanotechnology, Embryonic stem cell, Cell biology, Transplantation, medicine.anatomical_structure, nervous system, Mechanics of Materials, Cancer cell, Ceramics and Composites, Nanoparticles, 0210 nano-technology, Stem Cell Transplantation
Abstract

Transplantation of differentiated neurons derived from either human embryonic stem cells (hESCs) or induced pluripotent stem cells (iPSCs) is an emerging therapeutic strategy for various neurodegenerative diseases. One important aspect of transplantation is the accessibility to track and control the activity of the stem cells-derived neurons post-transplantation. Recently, the characteristics of organic nanoparticles (NPs) with aggregation-induced emission (AIE) have emerged as efficient cell labeling reagents, where positive outcomes were observed in long-term cancer cell tracing in vivo. In the current study, we designed, synthesized, and analyzed the biocompatibility of AIE-NPs in cultured neurons such as in mouse neuronal progenitor cells (NPCs) and hESC-derived neurons. Our data demonstrated that AIE-NPs show high degree of penetration into cells and presented intracellular long-term retention in vitro without altering the neuronal proliferation, differentiation, and viability. Furthermore, we have tracked AIE-NPs labeled neuronal grafts in mouse brain striatum in various time points post-transplantation. We demonstrated prolonged cellular retention of AIE-NPs labeled neuronal grafts 1 month post-transplantation in mouse brain striatum. Lastly, we have shown activation of brain microglia in response to AIE-NPs labeled grafts. Together, these findings highlight the potential application of AIE-NPs in neuronal transplantation.

Published
2021

11. Rational Design of Core‐Shell ZnTe@N‐Doped Carbon Nanowires for High Gravimetric and Volumetric Alkali Metal Ion Storage

Author

Tengfei Zhou, Vitor Sencadas, Qiufan Shi, Shu-Hong Yu, Lifeng Qiu, Shuanggui Zhang, Chuan Ling Zhang, Zaiping Guo, Yuling Xu, Yang Zheng, Chaofeng Zhang, Shilin Zhang, and Longhai Zhang

Subjects
Materials science, Doped carbon, Nanowire, Rational design, 02 engineering and technology, 010402 general chemistry, 021001 nanoscience & nanotechnology, Condensed Matter Physics, Alkali metal, 01 natural sciences, 0104 chemical sciences, Electronic, Optical and Magnetic Materials, Ion, Anode, Biomaterials, Core shell, Chemical engineering, Electrochemistry, Gravimetric analysis, 0210 nano-technology
Published
2020

12. Modelling Alzheimer's disease: Insights from in vivo to in vitro three-dimensional culture platforms

Author

Eng-King Tan, Li Zeng, Yilei Zhang, Lifeng Qiu, and Vivek Damodar Ranjan

Subjects
0301 basic medicine, Computer science, Induced Pluripotent Stem Cells, Biomedical Engineering, Cell Culture Techniques, Medicine (miscellaneous), Disease, medicine.disease, Models, Biological, Biomaterials, 03 medical and health sciences, Disease Models, Animal, 030104 developmental biology, Alzheimer Disease, medicine, Dementia, Animals, Humans, Neuroscience
Abstract

Alzheimer's disease (AD) is the most common form of dementia and is characterized by progressive memory loss, impairment of other cognitive functions, and inability to perform activities of daily life. The key to understanding AD aetiology lies in the development of effective disease models, which should ideally recapitulate all aspects pertaining to the disease. A plethora of techniques including in vivo, in vitro, and in silico platforms have been utilized in developing disease models of AD over the years. Each of these approaches has revealed certain essential characteristics of AD; however, none have managed to fully mimic the pathological hallmarks observed in the AD human brain. In this review, we will provide details into the genesis, evolution, and significance of the principal methods currently employed in modelling AD, the advantages and limitations faced in their application, including the headways made by each approach. This review will focus primarily on two-dimensional and three-dimensional in vitro modelling of AD, which during the last few years has made significant breakthroughs in the areas of AD pathology and therapeutic screening. In addition, a glimpse into state-of-the-art neural tissue engineering techniques incorporating biomaterials and microfluidics technologies is provided, which could pave the way for the development of more accurate and comprehensive AD models in the future.

Published
2017

13. Comparison of the ability to identify arterial stiffness between two new anthropometric indices and classical obesity indices in Chinese adults

Author

Wenhua Zhu, Lijuan Huang, Lifeng Qiu, Yunsong Yu, Lizheng Fang, and Jia Zhang

Subjects
Male, 030204 cardiovascular system & hematology, Logistic regression, Body Mass Index, 0302 clinical medicine, Risk Factors, Odds Ratio, Medicine, Pulse wave velocity, Adiposity, Waist-to-height ratio, Aged, 80 and over, Anthropometry, Linear model, Body Shape Index, Middle Aged, Cardiovascular Diseases, Area Under Curve, Cardiology, Female, Waist Circumference, Cardiology and Cardiovascular Medicine, Adult, medicine.medical_specialty, China, Adolescent, 030209 endocrinology & metabolism, Pulse Wave Analysis, 03 medical and health sciences, Young Adult, Sex Factors, Vascular Stiffness, Asian People, Predictive Value of Tests, Internal medicine, Linear regression, Humans, Ankle Brachial Index, Obesity, Aged, Chi-Square Distribution, Waist-Height Ratio, business.industry, Reproducibility of Results, medicine.disease, Endocrinology, Cross-Sectional Studies, Logistic Models, ROC Curve, Arterial stiffness, Linear Models, business, Body mass index
Abstract

Background and aims The association between anthropometric indices of body composition and arterial stiffness is inconclusive. The objective of this study was to examine the predictive ability of two new obesity indices: a body shape index (ABSI), and a body roundness index (BRI), for the identification of arterial stiffness among Chinese adults, as well as to compare the relative strength of association between the anthropometric indices and arterial stiffness. Methods A total of 10,197 subjects were recruited in this cross-sectional study. We tested the association between anthropometric indices (body mass index [BMI], waist circumference [WC], waist-height-ratio [WHtR], ABSI and BRI) and brachial–ankle pulse wave velocity (PWV). Receiver operating characteristic curve and area under curve (AUC) were employed to evaluate the predictive value of the anthropometric indices for identification of arterial stiffness. Results After adjusting for confounding variables, BRI (linear regression: 0.112; AUC: 0.726; OR: 1.228 for female and linear regression: 0.047; AUC: 0.631; OR: 1.173 for male) exhibited a more powerful predictive ability of arterial stiffness than ABSI (linear regression: 0.110; AUC: 0.674; OR: 1.315 for female and linear regression: 0.058; AUC: 0.610; OR: 1.150 for male) and WC (linear regression: 0.078; AUC: 0.699; logistic regression: negative for female and linear regression: negative; AUC: 0.593; logistic regression: negative for male) while having a similar predictive value to that of WHtR (linear regression: 0.113; AUC: 0.726; OR: 1.228 for female and linear regression: 0.047; AUC: 0.631; OR: 1.185 for male) among both sexes. BMI (linear and logistic regression: negative; AUC: 0.660 for female and 0.568 for male) had the lowest predictive power in both sex categories. The optimal cut-off of WHtR for detecting arterial stiffness was 0.49 in females and 0.53 in males, that of BRI was 3.19 in females and 3.89 in males. Conclusions WHtR, ABSI and BRI were significantly associated with arterial stiffness. BRI and WHtR, rather than ABSI, showed superior predictive abilities for arterial stiffness in both sexes.

Published
2017

14. Deciphering the Function and Regulation of microRNAs in Alzheimer’s Disease and Parkinson’s Disease

Author

Li Zeng, Wei Zhang, Lifeng Qiu, and Eng-King Tan

Subjects
Neurons, Genetics, Parkinson's disease, Physiology, Cognitive Neuroscience, Parkinson Disease, Cell Biology, General Medicine, Computational biology, Disease, Biology, Non-coding RNA, medicine.disease, Biochemistry, MicroRNAs, Alzheimer Disease, microRNA, medicine, Animals, Humans, Gene silencing, Regulatory Pathway, Gene, Neuroinflammation
Abstract

MicroRNAs (miRNAs) are single stranded, noncoding RNA molecules that are encoded by eukaryotic nuclear DNA. miRNAs function through imperfect base-pairing with complementary sequences of target mRNA molecules, which is typically via the cleavage of target mRNA with transcriptional repression or translational degradation. An increasing number of studies identified dysregulation of miRNAs in neurodegenerative disease and suggest that alterations in the miRNA regulatory pathway could contribute to the disease pathogenesis. However, molecular mechanisms underlying the pathological implications of dysregulated miRNA expression and regulation of the key genes that are involved in neurodegenerative diseases remain largely unknown. Here, we review the evidence for the functional role of dysregulated miRNAs involved in disease pathogenesis, as well as how miRNAs govern neuronal functions either upstream or downstream of target genes that are disease pathogenic factors. Furthermore, we review the cellular feedback regulation between miRNAs and target genes in neurodegenerative diseases, with a focus on Alzheimer's disease and Parkinson's disease.

Published
2014

16. Chronic cerebral hypoperfusion enhances Tau hyperphosphorylation and reduces autophagy in Alzheimer's disease mice

Author

Nagaendran Kandiah, Ping Liao, Lifeng Qiu, Eng-King Tan, Li Zeng, and Gandi Ng

Subjects
0301 basic medicine, Male, Pathology, medicine.medical_specialty, Mice, 129 Strain, Immunoblotting, Hippocampus, Mice, Transgenic, tau Proteins, Brain damage, Biology, Article, Brain Ischemia, Brain ischemia, 03 medical and health sciences, 0302 clinical medicine, Downregulation and upregulation, Alzheimer Disease, medicine, Autophagy, Animals, Humans, Phosphorylation, Multidisciplinary, Amyloid beta-Peptides, Age Factors, medicine.disease, Peptide Fragments, Frontal Lobe, Mice, Inbred C57BL, Disease Models, Animal, 030104 developmental biology, Frontal lobe, Chronic Disease, Female, Alzheimer's disease, medicine.symptom, Ligation, Microtubule-Associated Proteins, 030217 neurology & neurosurgery
Abstract

Cerebral hypoperfusion and impaired autophagy are two etiological factors that have been identified as being associated with the development of Alzheimer’s disease (AD). Nevertheless, the exact relationships among these pathological processes remain unknown. To elucidate the impact of cerebral hypoperfusion in AD, we created a unilateral common carotid artery occlusion (UCCAO) model by occluding the left common carotid artery in both young and old 3xTg-AD mice. Two months after occlusion, we found that ligation increases phospho-Tau (p-Tau) at Serine 199/202 in the hippocampus of 3-month-old AD mice, compared to sham-operated AD mice; whereas, there is no change in the wild type (WT) mice after ligation. Moreover, cerebral hypoperfusion led to significant increase of p-Tau in both the hippocampus and cortex of 16-month-old AD mice and WT mice. Notably, we did not detect any change in Aβ42 level in either young or old AD and WT mice after ligation. Interestingly, we observed a downregulation of LC3-II in the cortex of aged AD mice and WT mice after ligation. Our results suggest that elevated p-Tau and reduced autophagy are major cellular changes that are associated with hypoperfusion in AD. Therefore, targeting p-Tau and autophagy pathways may ameliorate hypoperfusion-induced brain damage in AD.

Published
2015

17. Multiple C2 domains transmembrane protein 1 is expressed in CNS neurons and possibly regulates cellular vesicle retrieval and oxidative stress

Author

Fengyi Liang, Hanry Yu, and Lifeng Qiu

Subjects
Central Nervous System, Male, Endosome, Endocytic recycling, Biology, Biochemistry, PC12 Cells, Cellular and Molecular Neuroscience, Pregnancy, medicine, Synaptic vesicle recycling, Animals, Humans, Axon, Rats, Wistar, Cells, Cultured, Neurons, Cellular Vesicle, Glutamate receptor, Membrane Proteins, Secretory Vesicle, Transmembrane protein, Cell biology, Rats, Oxidative Stress, medicine.anatomical_structure, nervous system, Gene Expression Regulation, Female, Rabbits, Synaptic Vesicles
Abstract

Multiple C2 domains transmembrane protein 1 (MCTP1) contains two transmembrane regions and three C2 domains of high Ca(2+)-binding affinity. Single-nucleotide polymorphism (SNP) of human MCTP1 gene is reportedly associated with bipolar disorder, but expression and function of MCTP1 in the CNS is still largely unknown. We cloned rat MCTP1 isoforms, and studied expression of MCTP1 transcript and protein in the CNS. Subcellular distribution and functional roles of MCTP1 were investigated in cultured primary neurons or PC12 cells by over-expression, cell imaging, and flow cytometry. MCTP1 immunostaining was seen in both CNS neuronal cell bodies and processes, especially in the hippocampus, dentate gyrus, medial habenular nucleus, amygdala, and selected cerebral and cerebellar cortical areas/layers. Under an electron microscope, MCTP1 immunoreactivity was observed on vesicles in neuronal cell bodies and pre-synaptic axon terminals. In cultured primary neurons and PC12 cells MCTP1 was detected on selected populations of secretory vesicles and endosomes. MCTP1 over-expression significantly inhibited neuronal transferrin endocytosis, secretory vesicle retrieval, cell migration, and oxidative stress from glutamate toxicity. Thus MCTP1 might be involved in regulating endocytic recycling of specific CNS neurons and synapses. MCTP1 abnormality might cause altered synaptic vesicle recycling, and thereby lead to vulnerability to neuropsychiatric diseases.

Published
2015

18. microRNAs and Neurodegenerative Diseases

Author

Lifeng Qiu, Eng-King Tan, and Li Zeng

Subjects
Regulation of gene expression, Huntington's disease, microRNA, Neurodegeneration, medicine, Computational biology, Disease, Alzheimer's disease, Biology, Regulatory Pathway, Non-coding RNA, medicine.disease
Abstract

microRNAs (miRNAs) are small, noncoding RNA molecules that through imperfect base-pairing with complementary sequences of target mRNA molecules, typically cleave target mRNA, causing subsequent degradation or translation inhibition. Although an increasing number of studies have identified misregulated miRNAs in the neurodegenerative diseases (NDDs) Alzheimer's disease, Parkinson's disease, Huntington's disease, and amyotrophic lateral sclerosis, which suggests that alterations in the miRNA regulatory pathway could contribute to disease pathogenesis, the molecular mechanisms underlying the pathological implications of misregulated miRNA expression and the regulation of the key genes involved in NDDs remain largely unknown. In this chapter, we provide evidence of the function and regulation of miRNAs and their association with the neurological events in NDDs. This will help improve our understanding of how miRNAs govern the biological functions of key pathogenic genes in these diseases, which potentially regulate several pathways involved in the progression of neurodegeneration. Additionally, given the growing interest in the therapeutic potential of miRNAs, we discuss current clinical challenges to developing miRNA-based therapeutics for NDDs.

Published
2015

19. The influence of influenza A (H1N1) virus on creatinine and cystatin C

Author

Liangrong Zheng, Qiqi Wang, Jianhua Zhu, Lifeng Qiu, Zhidong Guo, Zhangying Wu, and Yuan-gang Qiu

Subjects
Adult, Male, medicine.medical_specialty, viruses, Clinical Biochemistry, macromolecular substances, medicine.disease_cause, Biochemistry, Virus, chemistry.chemical_compound, Influenza A Virus, H1N1 Subtype, Internal medicine, Influenza, Human, medicine, Kidney injury, Influenza A virus, Humans, Cystatin C, Retrospective Studies, Creatinine, biology, business.industry, Biochemistry (medical), virus diseases, Retrospective cohort study, General Medicine, Acute Kidney Injury, Middle Aged, Influenza A virus subtype H5N1, chemistry, Immunology, Influenza A (H1N1) virus, biology.protein, Female, business
Abstract

In March 2009, the novel 2009 influenza A (H1N1) virus was first reported in the southwestern USA and Mexico. It rapidly spread to China and worldwide. We investigated possible kidney injury in patients with the 2009 influenza A (H1N1) virus in China.This study was a retrospective cohort investigation of the potential renal injury in patients of influenza. One hundred and seventy-two patients confirmed to have the 2009 influenza A (H1N1) virus but who had different levels of severity (non-severe, severe, and critically severe) and 21 cases who were influenza A (H1N1)-negative but who had an influenza-like illness were investigated. Blood samples were obtained for the measurement of creatinine (Cr) and cystatin C (Cy-C).The influenza A (H1N1) virus caused more illness in middle-aged people in all groups. The patients in the non-severe group were younger than those in the severe group (p0.05) and the non-influenza A (H1N1) group (p0.01). Four subjects in the critically severe group died (3 due to respiratory failure, 1 heart injury). A significant difference in the levels of Cr and Cy-C between the groups was not observed (p0.05).The 2009 influenza A (H1N1) virus did not cause severe kidney injury in the acute phase in adult patients.

Published
2010

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