Your search keyword '"Feng, Shiqing"' showing total 48 results

1. Nicotinamide Riboside Promotes the Proliferation of Endogenous Neural Stem Cells to Repair Spinal Cord Injury

Author

Zhang, Jianping, Shang, Jun, Ding, Han, Li, Wenxiang, Li, Zonghao, Yuan, Zhongze, Zheng, Han, Lou, YongFu, Wei, Zhijian, Zhou, Hengxing, Feng, Shiqing, Kong, Xiaohong, and Ran, Ning

Published

2024

2. Regulation of MicroRNAs After Spinal Cord Injury in Adult Zebrafish

Author

Shen, Wenyuan, Cai, Jun, Li, Jinze, Li, Wenchang, Shi, Pengcheng, Zhao, Xiumei, and Feng, Shiqing

Published

2024

3. A critical role for microglia in regulating metabolic homeostasis and neural repair after spinal cord injury

Author

Jian, Huan, Wu, Kailin, Lv, Yigang, Du, Jiawei, Hou, Mengfan, Zhang, Chi, Gao, Jianqing, Zhou, Hengxing, and Feng, Shiqing

Published

2024

4. Macrophage membrane-mediated targeted curcumin biomimetic nanoparticles delivery for diagnosis and treatment of spinal cord injury by suppressing neuroinflammation and ferroptosis

Author

Huang, Shenghui, Xu, Zhengyu, Wang, Jianhao, Liu, Peng, Wang, Zhishuo, Ren, Yiming, Wan, Junming, Feng, Shiqing, and Shu, Tao

Published

2024

5. An integrated long-acting implant of clinical safe cells, drug and biomaterials effectively promotes spinal cord repair and restores motor functions

Author

Li, Liming, Mu, Jiafu, Chen, Jiachen, Huang, Tianchen, Zhang, Yu, Cai, Youzhi, Zhang, Tianyuan, Kong, Xianglei, Sun, Jihong, Jiang, Xinchi, Wu, Jiahe, Cao, Jian, Zhang, Xunqi, Huang, Fei, Feng, Shiqing, and Gao, Jianqing

Published

2024

6. ROS-responsive nanoparticle delivery of ferroptosis inhibitor prodrug to facilitate mesenchymal stem cell-mediated spinal cord injury repair

Author

Hua, Renshuai, Zhao, Chenxi, Xu, Zhengyu, Liu, Derong, Shen, Wenyuan, Yuan, Wenlu, Li, Yan, Ma, Jun, Wang, Zhishuo, and Feng, Shiqing

Published

2024

7. New strategy to treat spinal cord injury: Nafamostat mesilate suppressed NLRP3-mediated pyroptosis during acute phase

Author

Lou, Yongfu, Li, Zonghao, Zheng, Han, Yuan, Zhongze, Li, Wenxiang, Zhang, Jianping, Shen, Wenyuan, Gao, Yiming, Ran, Ning, Kong, Xiaohong, and Feng, Shiqing

Published

2024

8. Celastrol inhibits oligodendrocyte and neuron ferroptosis to promote spinal cord injury recovery

Author

Shen, Wenyuan, Li, Chuanhao, Liu, Quan, Cai, Jun, Wang, Zhishuo, Pang, Yilin, Ning, Guangzhi, Yao, Xue, Kong, Xiaohong, and Feng, Shiqing

Published

2024

9. Attention Mechanism with Spatial-Temporal Joint Deep Learning Model for the Forecasting of Short-Term Passenger Flow Distribution at the Railway Station

Author

Dai, Zhicheng, Li, Dewei, and Feng, Shiqing

Subjects

Passenger rail services -- Analysis, High speed trains -- Analysis, Railroads -- Stations

Abstract

Accurate understanding of passenger flow distribution is crucial for effective station crowd management. However, due to the complexity and randomness of passenger flow and the unclear spatial-temporal correlation between functional areas within the station, predicting the spatiotemporal distribution dynamics of inflow and future short-term distribution trends is challenging. Emerging deep learning models offer valuable insights for accurately predicting passenger flow distribution. Thus, we propose a deep learning architecture, named “ST-Bi-LSTM,” which combines a bidirectional long short-term memory network with a spatial-temporal attention mechanism. Initially, we outline the methodologies of Bi-LSTM, the DeepWalk-based spatial attention mechanism, and the temporal attention mechanism. The spatial attention mechanism is employed to extract station spatial network topology information and enhance the representation of passenger flow characteristics in highly correlated areas during the forecasting process. Simultaneously, the temporal attention Bi-LSTM is utilized for capturing temporal correlations. The architecture comprises four branches dedicated to station real-time video monitoring data, spatial network topology, function area attributes, and train timetables. Subsequently, leveraging in-station CCTV data, passenger travel behavior data, and train timetables, we apply the architecture to the Tianjin West High-Speed Railway Station. We conduct a comparative analysis of the prediction performance and time complexity of the proposed architecture against existing baseline models, demonstrating superior performance and robustness exhibited by the ST-Bi-LSTM model (achieving a reduction in RMSE of over 10%). This study facilitates the transition of station management from passive response to active prediction of station passenger flow dynamics., Author(s): Zhicheng Dai [1,2]; Dewei Li (corresponding author) [1,2]; Shiqing Feng [3] 1. Introduction With its attributes of speed, exceptional comfort, high safety standards, and environmental friendliness, global high-speed railway [...]

Published

2024

10. 3D printing of personalized magnesium composite bone tissue engineering scaffold for bone and angiogenesis regeneration

Author

Wang, Wenzhao, Wang, Ling, Zhang, Boqing, Shang, Shenghui, Zhao, Chenxi, Zhang, Wencan, Chen, Jing, Zhou, Changchun, Zhou, Hengxing, and Feng, Shiqing

Published

2024

11. A Functionalized Scaffold Facilitates Neurites Extension for Spinal Cord Injury Therapy.

Author

Huang, Tianchen, Mu, Jiafu, Wu, Jiahe, Cao, Jian, Zhang, Xunqi, Guo, Jing, Zhu, Manning, Ma, Teng, Jiang, Xinchi, Feng, Shiqing, and Gao, Jianqing

Published

2024

12. Surgical interventions for degenerative lumbar spinal stenosis: a systematic review with network meta-analysis.

Author

Chen, Lingxiao, Guan, Bin, Anderson, David B., Ferreira, Paulo H., Stanford, Ralph, Beckenkamp, Paula R., Van Gelder, James M., Bayartai, Munkh-erdene, Radojčić, Maja R., Fairbank, Jeremy C. T., Feng, Shiqing, Zhou, Hengxing, and Ferreira, Manuela L.

Subjects

SPINAL stenosis, PHYSICAL mobility, RANDOMIZED controlled trials, CINAHL database, MUSCULOSKELETAL system diseases

Abstract

Background : Several surgical options for degenerative lumbar spinal stenosis (LSS) are available, but current guidelines do not recommend which one should be prioritized. Although previous network meta-analyses (NMAs) have been performed on this topic, they have major methodological problems and could not provide the convincing evidence and clinical practical information required. Methods: Randomized controlled trials (RCTs) comparing at least two surgical interventions were included by searching AMED, CINAHL, EMBASE, the Cochrane Library, and MEDLINE (inception to August 2023). A frequentist random-effects NMA was performed for physical function and adverse events due to any reason. For physical function, three follow-up time points were included: short-term (< 6 months post-intervention), mid-term (≥ 6 months but < 12 months), and long-term (≥ 12 months). Laminectomy was the reference comparison intervention. Results: A total of 43 RCTs involving 5017 participants were included in the systematic review and 28 RCTs encompassing 14 types of surgical interventions were included in the NMA. For improving physical function (scale 0–100), endoscopic-assisted laminotomy (mean difference: − 8.61, 95% confidence interval: − 10.52 to − 6.69; moderate-quality evidence), laminectomy combined with Coflex (− 8.41, − 13.21 to − 3.61; moderate quality evidence), and X-stop (− 6.65, − 8.60 to − 4.71; low-quality evidence) had small effects at short-term follow-up; no statistical difference was observed at mid-term follow-up (very low- to low-quality evidence); at long-term follow-up, endoscopic-assisted laminotomy (− 7.02, − 12.95 to − 1.08; very low-quality evidence) and X-stop (− 10.04, − 18.16 to − 1.93; very low-quality evidence) had a small and moderate effect, respectively. Compared with laminectomy, endoscopic-assisted laminotomy was associated with fewer adverse events due to any reason (odds ratio: 0.27, 0.09 to 0.86; low-quality evidence). Conclusions: For adults with degenerative LSS, endoscopic-assisted laminotomy may be the safest and most effective intervention in improving physical function. However, the available data were insufficient to indicate whether the effect was sustainable after 6 months. Trial registration: PROSPERO (CRD42018094180). [ABSTRACT FROM AUTHOR]

Published

2024

13. Progression of mesenchymal stem cell regulation on imbalanced microenvironment after spinal cord injury.

Author

Liu, Yifan, Zhao, Chenxi, Zhang, Rong, Pang, Yilin, Li, Linquan, and Feng, Shiqing

Subjects

SPINAL cord injuries, NERVOUS system regeneration, CELLULAR control mechanisms, NEURAL inhibition, INFLAMMATION

Abstract

Spinal cord injury (SCI) results in significant neural damage and inhibition of axonal regeneration due to an imbalanced microenvironment. Extensive evidence supports the efficacy of mesenchymal stem cell (MSC) transplantation as a therapeutic approach for SCI. This review aims to present an overview of MSC regulation on the imbalanced microenvironment following SCI, specifically focusing on inflammation, neurotrophy and axonal regeneration. The application, limitations and future prospects of MSC transplantation are discussed as well. Generally, a comprehensive perspective is provided for the clinical translation of MSC transplantation for SCI. [ABSTRACT FROM AUTHOR]

Published

2024

14. miR-NPs-RVG promote spinal cord injury repair: implications from spinal cord-derived microvascular endothelial cells.

Author

Li, Chao, Xiang, Zhenyang, Hou, Mengfan, Yu, Hao, Peng, Peng, Lv, Yigang, Ma, Chao, Ding, Han, Jiang, Yunpeng, Liu, Yang, Zhou, Hengxing, and Feng, Shiqing

Subjects

SPINAL cord injuries, ENDOTHELIAL cells, AXONS, BLOOD vessels, NEURONS

Abstract

Background: Spinal cord injury (SCI) often leads to a loss of motor and sensory function. Axon regeneration and outgrowth are key events for functional recovery after spinal cord injury. Endogenous growth of axons is associated with a variety of factors. Inspired by the relationship between developing nerves and blood vessels, we believe spinal cord-derived microvascular endothelial cells (SCMECs) play an important role in axon growth. Results: We found SCMECs could promote axon growth when co-cultured with neurons in direct and indirect co-culture systems via downregulating the miR-323-5p expression of neurons. In rats with spinal cord injury, neuron-targeting nanoparticles were employed to regulate miR-323-5p expression in residual neurons and promote function recovery. Conclusions: Our study suggests that SCMEC can promote axon outgrowth by downregulating miR-323-5p expression within neurons, and miR-323-5p could be selected as a potential target for spinal cord injury repair. [ABSTRACT FROM AUTHOR]

Published

2024

15. Pharmacologic activation of activating transcription factor 6 contributes to neuronal survival after spinal cord injury in mice.

Author

Chang, Yong, Chen, Lu, Zhang, Mingzhe, Zhang, Shiji, Liu, Renshuai, and Feng, Shiqing

Subjects

TRANSCRIPTION factors, UNFOLDED protein response, SPINAL cord injuries, SMALL molecules, LABORATORY mice

Abstract

The impact of primary and secondary injuries of spinal cord injury (SCI) results in the demise of numerous neurons, and there is still no efficacious pharmacological intervention for it. Recently, studies have shown that endoplasmic reticulum stress (ERS) plays a pivotal role in recovery of neurological function after spinal cord injury. As a process to cope with intracellular accumulation of misfolded and unfolded proteins which triggers ERS, the unfolded protein response (UPR) plays an important role in maintaining protein homeostasis. And, a recently disclosed small molecule AA147, which selectively activates activating transcription factor 6 (ATF6), has shown promising pharmacological effects in several disease models. Thus, it seems feasible to protect the neurons after spinal cord injury by modulating UPR. In this study, primary neurons were isolated from E17‐19 C57BL/6J mouse embryos and we observed that AA147 effectively promoted the survival of neurons and alleviated neuronal apoptosis after oxygen–glucose deprivation/reoxygenation (OGD/R) in vitro. This was evident through a decrease in the proportion of PI‐positive and TUNEL‐positive cells, an increase in BCL‐2 expression, and a decrease in the expression of BAX and C‐caspase3. In in‐vivo experiments, these findings were corroborated by TUNEL staining and immunohistochemistry. It was also found that AA147 enhanced three arms of the unfolded protein response with reduced CHOP expression. Besides, AA147 mitigated the accumulation of ROS in neurons probably by upregulating catalase expression. Furthermore, spinal cord injury models of C57BL/6J mice were established and behavioral experiments revealed that AA147 facilitated the recovery of motor function following SCI. Thus, pharmacologic activation of ATF6 represents a promise therapeutic approach to ameliorate the prognosis of SCI. [ABSTRACT FROM AUTHOR]

Published

2024

16. ROS-mediated lysosomal membrane permeabilization and autophagy inhibition regulate bleomycin-induced cellular senescence.

Author

Qi, Zhangyang, Yang, Weiqi, Xue, Baibing, Chen, Tingjun, Lu, Xianjie, Zhang, Rong, Li, Zhichao, Zhao, Xiaoqing, Zhang, Yang, Han, Fabin, Kong, Xiaohong, Liu, Ruikang, Yao, Xue, Jia, Rui, and Feng, Shiqing

Subjects

CELLULAR aging, FERRITIN, TRANSCRIPTION factors, AUTOPHAGY, RIBOSOMAL proteins, INTERLEUKIN receptors, GALACTOSIDASES, MEMBRANE proteins

Abstract

Bleomycin exhibits effective chemotherapeutic activity against multiple types of tumors, and also induces various side effects, such as pulmonary fibrosis and neuronal defects, which limit the clinical application of this drug. Macroautophagy/autophagy has been recently reported to be involved in the functions of bleomycin, and yet the mechanisms of their crosstalk remain insufficiently understood. Here, we demonstrated that reactive oxygen species (ROS) produced during bleomycin activation hampered autophagy flux by inducing lysosomal membrane permeabilization (LMP) and obstructing lysosomal degradation. Exhaustion of ROS with N-acetylcysteine relieved LMP and autophagy defects. Notably, we observed that LMP and autophagy blockage preceded the emergence of cellular senescence during bleomycin treatment. In addition, promoting or inhibiting autophagy-lysosome degradation alleviated or exacerbated the phenotypes of senescence, respectively. This suggests the alternation of autophagy activity is more a regulatory mechanism than a consequence of bleomycin-induced cellular senescence. Taken together, we reveal a specific role of bleomycin-induced ROS in mediating defects of autophagic degradation and further regulating cellular senescence in vitro and in vivo. Our findings, conversely, indicate the autophagy-lysosome degradation pathway as a target for modulating the functions of bleomycin. These provide a new perspective for optimizing bleomycin as a clinically applicable chemotherapeutics devoid of severe side-effects. Abbreviations: AT2 cells: type II alveolar epithelial cells; ATG7: autophagy related 7; bEnd.3: mouse brain microvascular endothelial cells; BNIP3L: BCL2/adenovirus E1B interacting protein 3-like; CCL2: C-C motif chemokine ligand 2; CDKN1A: cyclin dependent kinase inhibitor 1A; CDKN2A: cyclin dependent kinase inhibitor 2A; FTH1: ferritin heavy polypeptide 1; γ-H2AX: phosphorylated H2A.X variant histone; GAPDH: glyceraldehyde-3-phosphate dehydrogenase; HUVEC: human umbilical vein endothelial cells; HT22: hippocampal neuronal cell lines; Il: interleukin; LAMP: lysosomal-associated membrane protein; LMP: lysosome membrane permeabilization; MTORC1: mechanistic target of rapamycin kinase complex 1; NAC: N-acetylcysteine; NCOA4: nuclear receptor coactivator 4; PI3K: phosphoinositide 3-kinase; ROS: reactive oxygen species; RPS6KB/S6K: ribosomal protein S6 kinase; SA-GLB1/β-gal: senescence-associated galactosidase, beta 1; SAHF: senescence-associated heterochromatic foci; SASP: senescence-associated secretory phenotype; SEC62: SEC62 homolog, preprotein translocation; SEP: superecliptic pHluorin; SQSTM1/p62: sequestosome 1; TFEB: transcription factor EB [ABSTRACT FROM AUTHOR]

Published

2024

17. SP1/CTR1‐mediated oxidative stress‐induced cuproptosis in intervertebral disc degeneration.

Author

Chen, Xuanzuo, Li, Kanglu, Xiao, Yan, Wu, Wei, Lin, Hui, Qing, Xiangcheng, Tian, Shuo, Liu, Sheng, Feng, Shiqing, Wang, Baichuan, Shao, Zengwu, and Peng, Yizhong

Subjects

APOPTOSIS, CELL death inhibition, NUCLEUS pulposus, INTERVERTEBRAL disk, LUMBAR pain

Abstract

Intervertebral disc degeneration (IDD) is an age‐related disease and is responsible for low back pain. Oxidative stress‐induced cell death plays a fundamental role in IDD pathogenesis. Cuproptosis is a recently discovered form of programmed cell death dependent on copper availability. Whether cuproptosis is involved in IDD progression remains unknown. Herein, we established in vitro and in vivo models to investigate cuproptosis in IDD and the mechanisms by which oxidative stress interacts with copper sensitivity in nucleus pulposus cells (NPCs). We found that ferredoxin‐1 (FDX1) content increased in both rat and human degenerated discs. Sublethal oxidative stress on NPCs led to increased FDX1 expression, tricarboxylic acid (TCA) cycle‐related proteins lipoylation and aggregation, and cell death in the presence of Cu2+ at physiological concentrations, while FDX1 knockdown inhibited cell death. Since copper homeostasis is involved in copper‐induced cytotoxicity, we investigated the role of copper transport‐related proteins, including importer (CTR1) and efflux pumps (ATPase transporter, ATP7A, and ATP7B). CTR1 and ATP7A content increased under oxidative stress, and blocking CTR1 reduced oxidative stress/copper‐induced TCA‐related protein aggregation and cell death. Moreover, oxidative stress promoted the expression of specific protein 1 (SP1) and SP1‐mediated CTR1 transcription. SP1 inhibition decreased cell death rates, preserved disc hydration, and alleviated tissue degeneration. This suggests that oxidative stress upregulates FDX1 expression and copper flux through promoting SP1‐mediated CTR1 transcription, leading to increased TCA cycle‐related protein aggregation and cuproptosis. This study highlights the importance of cuproptosis in IDD progression and provides a promising therapeutic target for IDD treatment. [ABSTRACT FROM AUTHOR]

Published

2024

18. Systematic analysis of co-expression network and gene expression profile of differentially expressed lncRNA-mRNA one week after spinal cord injury

Author

Kang, Yi, primary, Song, Yijie, additional, Shi, Zhongju, additional, Li, Qiang, additional, Lv, Yigang, additional, Hou, Mengfan, additional, Ding, Cui, additional, Xie, Jing, additional, Lou, Yongfu, additional, Zhang, Chi, additional, Jian, Huan, additional, Li, Xueying, additional, Zhou, Hengxing, additional, and Feng, Shiqing, additional

Published

2024

19. Protocol for the Chinese Real-World Evidence for Acute Spinal Cord Injury (ChiRES) study: a prospective, observational, multicentre cohort study of acute spinal cord injury

Author

Yuan, Wenjian, primary, Sun, Jiuxiao, additional, Li, Qingyang, additional, Zheng, Ruiyuan, additional, Guan, Bin, additional, Chen, Zhuo, additional, Ding, Jiaming, additional, Sun, Qingyu, additional, Fu, Runhan, additional, Wang, Wei, additional, Fan, Yuxuan, additional, Kang, Yi, additional, Sun, Chao, additional, Li, Ang, additional, Wu, Dongjin, additional, Wang, Dachuan, additional, Qi, Lei, additional, Chen, Lingxiao, additional, Feng, Shiqing, additional, and Zhou, Hengxing, additional

Published

2024

20. PGC1α‐Inducing Senomorphic Nanotherapeutics Functionalized with NKG2D‐Overexpressing Cell Membranes for Intervertebral Disc Degeneration

Author

Liu, Sheng, primary, Li, Kanglu, additional, He, Yuxin, additional, Chen, Sheng, additional, Yang, Wenbo, additional, Chen, Xuanzuo, additional, Feng, Shiqing, additional, Xiong, Liming, additional, Peng, Yizhong, additional, and Shao, Zengwu, additional

Published

2024

21. Piezo1 channel exaggerates ferroptosis of nucleus pulposus cells by mediating mechanical stress-induced iron influx

Author

Xiang, Ziqian, primary, Zhang, Pengfei, additional, Jia, Chunwang, additional, Xu, Rongkun, additional, Cao, Dingren, additional, Xu, Zhaoning, additional, Lu, Tingting, additional, Liu, Jingwei, additional, Wang, Xiaoxiong, additional, Qiu, Cheng, additional, Fu, Wenyang, additional, Li, Weiwei, additional, Cheng, Lei, additional, Yang, Qiang, additional, Feng, Shiqing, additional, Wang, Lianlei, additional, Zhao, Yunpeng, additional, and Liu, Xinyu, additional

Published

2024

22. Epidemiological age-based differences in traumatic spinal cord injury patients: A multicenter study based on 13,334 inpatients

Author

Wang, Chaoyu, primary, Shang, Shenghui, additional, Hou, Mengfan, additional, Wang, Jinghua, additional, Kang, Yi, additional, Lou, Yongfu, additional, Wang, Wei, additional, Zhao, Hua, additional, Chen, Lingxiao, additional, Zhou, Hengxing, additional, and Feng, Shiqing, additional

Published

2024

23. An Implantable Self-Driven Diaphragm Pacing System Based on a Microvibration Triboelectric Nanogenerator for Phrenic Nerve Stimulation.

Author

Zhong, Hao, Zhang, Ke, Zhou, Mi, Xing, Cong, An, Yang, Zhang, Qi, Guo, Junrui, Liu, Song, Qu, Zhigang, Feng, Shiqing, and Ning, Guangzhi

Published

2024

24. Re-analysis of single-cell RNA-seq data reveals the origin and roles of cycling myeloid cells.

Author

Zhang, Jiawei, Shi, Jingsong, Wang, Liangge, Liu, Xinjie, Cao, Zemin, Ruan, Cihan, Ning, Guangzhi, Feng, Shiqing, Yao, Xue, and Gao, Shan

Subjects

MYELOID cells, EMBRYOLOGY, RNA sequencing, PROGENITOR cells

Abstract

Cycling myeloid cells (CMCs) are often detected from various tissues using single-cell RNA sequencing (scRNA-seq) datasets, however, their research value was not noticed before. For the first time, our study preliminarily revealed the origin, differentiation, and roles of CMCs in physiological processes. Particularly, subgroup a of cycling myeloid cells (aCMCs) were conclusively identified as belonging to a specific cell type. In an active state, aCMCs rapidly proliferate during the early stages of an embryonic development. With an individual maturing, most aCMCs differentiate into specialized cells, while a small portion of them enter an inactive or dormant state. Under pathological conditions, aCMCs restore their proliferative and differentiation capacities via activation or revival. The present study has set the stage for future research on CMCs by linking them with progenitors of immune cells, and provided a crucial starting point to understand the origin, differentiation, and roles of CMCs in various physiological and pathological processes, particularly those related to traumatic injury, cancer, and pathogen infection, leading to develop targeted therapies or interventions. [ABSTRACT FROM AUTHOR]

Published

2024

25. Magnetic Nanoparticles and Methylprednisolone Based Physico‐Chemical Bifunctional Neural Stem Cells Delivery System for Spinal Cord Injury Repair.

Author

Zhang, Wencan, Liu, Mingshan, Ren, Jie, Han, Shuwei, Zhou, Xiaolong, Zhang, Dapeng, Guo, Xianzheng, Feng, Haiwen, Ye, Lei, Feng, Shiqing, Song, Xizi, Jin, Lin, and Wei, Zhijian

Subjects

MAGNETIC nanoparticles, SPINAL cord injuries, ACUTE phase reaction, METHYLPREDNISOLONE, NERVOUS system regeneration, NEURAL stem cells, NANOMEDICINE, DNA repair

Abstract

Neural stem cells (NSCs) transplantation is an attractive and promising treatment strategy for spinal cord injury (SCI). Various pathological processes including the severe inflammatory cascade and difficulty in stable proliferation and differentiation of NSCs limit its application and translation. Here, a novel physico‐chemical bifunctional neural stem cells delivery system containing magnetic nanoparticles (MNPs and methylprednisolone (MP) is designed to repair SCI, the former regulates NSCs differentiation through magnetic mechanical stimulation in the chronic phase, while the latter alleviates inflammatory response in the acute phase. The delivery system releases MP to promote microglial M2 polarization, inhibit M1 polarization, and reduce neuronal apoptosis. Meanwhile, NSCs tend to differentiate into functional neurons with magnetic mechanical stimulation generated by MNPs in the static magnetic field, which is related to the activation of the PI3K/AKT/mTOR pathway. SCI mice achieve better functional recovery after receiving NSCs transplantation via physico‐chemical bifunctional delivery system, which has milder inflammation, higher number of M2 microglia, more functional neurons, and axonal regeneration. Together, this bifunctional NSCs delivery system combined physical mechanical stimulation and chemical drug therapy is demonstrated to be effective, which provides new treatment insights into clinical transformation of SCI repair. [ABSTRACT FROM AUTHOR]

Published

2024

26. A fully automatic MRI‐guided decision support system for lumbar disc herniation using machine learning.

Author

Zhang, Di, Du, Jiawei, Shi, Jiaxiao, Zhang, Yundong, Jia, Siyue, Liu, Xingyu, Wu, Yu, An, Yicheng, Zhu, Shibo, Pan, Dayu, Zhang, Wei, Zhang, Yiling, and Feng, Shiqing

Subjects

DECISION support systems, MACHINE learning, HERNIA, INTERVERTEBRAL disk hernias, MAGNETIC resonance imaging

Abstract

Background: Normalized decision support system for lumbar disc herniation (LDH) will improve reproducibility compared with subjective clinical diagnosis and treatment. Magnetic resonance imaging (MRI) plays an essential role in the evaluation of LDH. This study aimed to develop an MRI‐based decision support system for LDH, which evaluates lumbar discs in a reproducible, consistent, and reliable manner. Methods: The research team proposed a system based on machine learning that was trained and tested by a large, manually labeled data set comprising 217 patients' MRI scans (3255 lumbar discs). The system analyzes the radiological features of identified discs to diagnose herniation and classifies discs by Pfirrmann grade and MSU classification. Based on the assessment, the system provides clinical advice. Results: Eventually, the accuracy of the diagnosis process reached 95.83%. An 83.5% agreement was observed between the system's prediction and the ground‐truth in the Pfirrmann grade. In the case of MSU classification, 95.0% precision was achieved. With the assistance of this system, the accuracy, interpretation efficiency and interrater agreement among surgeons were improved substantially. Conclusion: This system showed considerable accuracy and efficiency, and therefore could serve as an objective reference for the diagnosis and treatment procedure in clinical practice. [ABSTRACT FROM AUTHOR]

Published

2024

27. Multifunctional Conductive and Electrogenic Hydrogel Repaired Spinal Cord Injury via Immunoregulation and Enhancement of Neuronal Differentiation

Author

Liu, Mingshan, primary, Zhang, Wencan, additional, Han, Shuwei, additional, Zhang, Dapeng, additional, Zhou, Xiaolong, additional, Guo, Xianzheng, additional, Chen, Haosheng, additional, Wang, Haifeng, additional, Jin, Lin, additional, Feng, Shiqing, additional, and Wei, Zhijian, additional

Published

2024

28. An Engineered Bionic Nanoparticle Sponge as a Cytokine Trap and Reactive Oxygen Species Scavenger to Relieve Disc Degeneration and Discogenic Pain

Author

Yang, Wenbo, primary, Li, Kanglu, additional, Pan, Qing, additional, Huang, Wei, additional, Xiao, Yan, additional, Lin, Hui, additional, Liu, Sheng, additional, Chen, Xuanzuo, additional, Lv, Xiao, additional, Feng, Shiqing, additional, Shao, Zengwu, additional, Qing, Xiangcheng, additional, and Peng, Yizhong, additional

Published

2024

29. Argatroban promotes recovery of spinal cord injury by inhibiting the PAR1/JAK2/STAT3 signaling pathway

Author

Yao, Xue, primary, Feng, Shiqing, primary, Zhao, Chenxi, additional, Zhou, Tiangang, additional, Li, Ming, additional, Liu, Jie, additional, Zhao, Xiaoqing, additional, Pang, Yilin, additional, Liu, Xinjie, additional, Zhang, Jiawei, additional, Ma, Lei, additional, and Li, Wenxiang, additional

Published

2024

30. Variability in the prevalence of depression among adults with chronic pain: UK Biobank analysis through clinical prediction models.

Author

Chen, Lingxiao, Ashton-James, Claire E, Shi, Baoyi, Radojčić, Maja R, Anderson, David B, Chen, Yujie, Preen, David B, Hopper, John L, Li, Shuai, Bui, Minh, Beckenkamp, Paula R, Arden, Nigel K, Ferreira, Paulo H, Zhou, Hengxing, Feng, Shiqing, and Ferreira, Manuela L

Subjects

CHRONIC pain, PREDICTION models, PERIPHERAL vascular diseases, ADULTS, MENTAL depression

Abstract

Background: The prevalence of depression among people with chronic pain remains unclear due to the heterogeneity of study samples and definitions of depression. We aimed to identify sources of variation in the prevalence of depression among people with chronic pain and generate clinical prediction models to estimate the probability of depression among individuals with chronic pain. Methods: Participants were from the UK Biobank. The primary outcome was a "lifetime" history of depression. The model's performance was evaluated using discrimination (optimism-corrected C statistic) and calibration (calibration plot). Results: Analyses included 24,405 patients with chronic pain (mean age 64.1 years). Among participants with chronic widespread pain, the prevalence of having a "lifetime" history of depression was 45.7% and varied (25.0–66.7%) depending on patient characteristics. The final clinical prediction model (optimism-corrected C statistic: 0.66; good calibration on the calibration plot) included age, BMI, smoking status, physical activity, socioeconomic status, gender, history of asthma, history of heart failure, and history of peripheral artery disease. Among participants with chronic regional pain, the prevalence of having a "lifetime" history of depression was 30.2% and varied (21.4–70.6%) depending on patient characteristics. The final clinical prediction model (optimism-corrected C statistic: 0.65; good calibration on the calibration plot) included age, gender, nature of pain, smoking status, regular opioid use, history of asthma, pain location that bothers you most, and BMI. Conclusions: There was substantial variability in the prevalence of depression among patients with chronic pain. Clinically relevant factors were selected to develop prediction models. Clinicians can use these models to assess patients' treatment needs. These predictors are convenient to collect during daily practice, making it easy for busy clinicians to use them. [ABSTRACT FROM AUTHOR]

Published

2024

31. Long-Acting Heterodimeric Paclitaxel–Idebenone Prodrug-Based Nanomedicine Promotes Functional Recovery after Spinal Cord Injury.

Author

Xu, Zunkai, Liu, Xinjie, Pang, Yilin, Chen, Zhixia, Jiang, Yaoyao, Liu, Tao, Zhang, Jiawei, Xiong, Haoning, Gao, Xiang, Liu, Jiao, Liu, Shen, Ning, Guangzhi, Feng, Shiqing, Yao, Xue, and Guo, Shutao

Published

2024

32. Enzymatically Bioactive Nucleus Pulposus Matrix Hydrogel Microspheres for Exogenous Stem Cells Therapy and Endogenous Repair Strategy to Achieve Disc Regeneration.

Author

Peng, Yizhong, Chen, Xuanzuo, Zhang, Qimin, Liu, Sheng, Wu, Wei, Li, Kanglu, Lin, Hui, Qing, Xiangcheng, Xiao, Yan, Wang, BaiChuan, Quan, Daping, Feng, Shiqing, Rao, Zilong, Bai, Ying, and Shao, Zengwu

Subjects

NUCLEUS pulposus, STEM cell treatment, INTERVERTEBRAL disk, TRANSFORMING growth factors, MICROSPHERES, CHONDROITIN sulfate proteoglycan, LACTATE dehydrogenase

Abstract

Exogenous stem cell therapy and endogenous repair has shown great potential in intervertebral disc regeneration. However, limited nutrients and accumulation of lactate largely impair the survival and regenerative capacity of implanted stem cells and endogenous nucleus pulposus cells (NPCs). Herein, an injectable hydrogel microsphere (LMGDNPs) have been developed by immersing lactate oxidase (LOX)‐manganese dioxide (MnO2) nanozyme (LM) into glucose‐enriched decellularized nucleus pulposus hydrogel microspheres (GDNPs) through a microfluidic system. LMGDNPs showed a delayed release profile of LOX and satisfactory enzymatic capacity in consuming lactate. Mesenchymal stem cells (MSCs) plated on LMGDNPs exhibited better cell viability than cells on GelMA and decellularized nucleus pulposus microspheres (DNP) and showed a obviously increased NPCs phenotype. LMGDNPs prevented MSCs and NPCs death and promoted extracellular matrix synthesis by exhausting lactate. It is determined that LMGDNPs promoted NPCs autophagy by activating transforming growth factor β2 overlapping transcript 1 (TGFB2‐OT1), relying on the nanozyme. MSCs‐loaded LMGDNPs largely preserved disc hydration and alleviated matrix degradation in vivo. Summarily, LMGDNPs promoted cell survival and matrix regeneration by providing a nutrient supply, exhausting lactate, and activating autophagy via TGFB2‐OT1 and its downstream pathway and may serve as an ideal delivery system for exogenous stem cell therapy and endogenous repair. [ABSTRACT FROM AUTHOR]

Published

2024

33. Tolerant and Rapid Endochondral Bone Regeneration Using Framework‐Enhanced 3D Biomineralized Matrix Hydrogels.

Author

Bai, Baoshuai, Liu, Yanhan, Huang, Jinyi, Wang, Sinan, Chen, Hongying, Huo, Yingying, Zhou, Hengxing, Liu, Yu, Feng, Shiqing, Zhou, Guangdong, and Hua, Yujie

Subjects

BONE regeneration, ENDOCHONDRAL ossification, HYDROGELS, MESENCHYMAL stem cells, MECHANICAL efficiency, BONE marrow, BONE growth

Abstract

Tissue‐engineered bone has emerged as a promising alternative for bone defect repair due to the advantages of regenerative bone healing and physiological functional reconstruction. However, there is very limited breakthrough in achieving favorable bone regeneration due to the harsh osteogenic microenvironment after bone injury, especially the avascular and hypoxic conditions. Inspired by the bone developmental mode of endochondral ossification, a novel strategy is proposed for tolerant and rapid endochondral bone regeneration using framework‐enhanced 3D biomineralized matrix hydrogels. First, it is meticulously designed 3D biomimetic hydrogels with both hypoxic and osteoinductive microenvironment, and then integrated 3D‐printed polycaprolactone framework to improve their mechanical strength and structural fidelity. The inherent hypoxic 3D matrix microenvironment effectively activates bone marrow mesenchymal stem cells self‐regulation for early‐stage chondrogenesis via TGFβ/Smad signaling pathway due to the obstacle of aerobic respiration. Meanwhile, the strong biomineralized microenvironment, created by a hybrid formulation of native‐constitute osteogenic inorganic salts, can synergistically regulate both bone mineralization and osteoclastic differentiation, and thus accelerate the late‐stage bone maturation. Furthermore, both in vivo ectopic osteogenesis and in situ skull defect repair successfully verified the high efficiency and mechanical maintenance of endochondral bone regeneration mode, which offers a promising treatment for craniofacial bone defect repair. [ABSTRACT FROM AUTHOR]

Published

2024

34. 109 - Low back pain-driven inpatient stays in the United States: A nationwide repeated cross-sectional analysis

Author

Chen, Lingxiao, Sun, Qingyu, Chou, Roger, Anderson, David B., Shi, Baoyi, Chen, Yujie, Liu, Xinyu, Feng, Shiqing, Zhou, Hengxing, and Ferreira, Manuela L.

Published

2024

35. Clinical Neurorestorative Therapeutic Guidelines for Spinal Cord Injury (IANR/CANR version 2019)

Author

Huang, Hongyun, Young, Wise, Skaper, Stephen, Chen, Lin, Moviglia, Gustavo, Saberi, Hooshang, Al-Zoubi, Ziad, Sharma, Hari Shanker, Muresanu, Dafin, Sharma, Alok, El Masry, Wagih, and Feng, Shiqing

Abstract

Functional restoration after spinal cord injury (SCI) is one of the most challenging tasks in neurological clinical practice. With a view to exploring effective neurorestorative methods in the acute, subacute, and chronic phases of SCI, “Clinical Therapeutic Guidelines of Neurorestoration for Spinal Cord Injury (China Version 2016)” was first ​proposed in 2016 by the Chinese Association of Neurorestoratology (CANR). Given the rapid advances in this field in recent years, the International Association of Neurorestoratology (IANR) and CANR formed and approved the “Clinical Neurorestorative Therapeutic Guidelines for Spinal Cord Injury (IANR/CANR version 2019)”. These guidelines mainly introduce restoring damaged neurological structure and functions by varying neurorestorative strategies in acute, subacute, and chronic phases of SCI. These guidelines can provide a neurorestorative therapeutic standard or reference for clinicians and researchers in clinical practice to maximally restore functions of patients with SCI and improve their quality of life.

Published

2024

36. WITHDRAWN: Clinical Neurorestorative Therapeutic Guidelines for Spinal Cord Injury (IANR/CANR Version 2019)

Author

Huang, Hongyun, Feng, Shiqing, Dimitrijevic, Milan, Feng, Yaping, Young, Wise, Sun, Tiansheng, Skaper, Stephen, Chen, Lin, Moviglia, Gustavo, Saberi, Hooshang, Al-Zoubi, Ziad, Sharma, Hari S., Muresanu, Dafin, Sharma, Alok, and El Masry, Wagih

Abstract

This article has been withdrawn at the request of the author(s) and/or editor. The Publisher apologizes for any inconvenience this may cause.

Published

2024

37. Trojan Horse Strategy for Wireless Electrical Stimulation-Induced Zn 2+ Release to Regulate Neural Stem Cell Differentiation for Spinal Cord Injury Repair.

Author

Han S, Zhang D, Kao Y, Zhou X, Guo X, Zhang W, Liu M, Chen H, Kong X, Wei Z, Liu H, and Feng S

Abstract

Due to the uncertain differentiation of neural stem cells (NSCs), replenishing lost neurons by endogenous neural differentiation to repair spinal cord injury (SCI) remains challenging. The electrical stimulation-induced drug release is a promising approach for the localized and controlled release of drugs to regulate the differentiation of NSCs into neurons. Here, we developed Zn-PDA@BT nanoparticles acted as Trojan Horse to enter cells through endocytosis for Zn 2+ -controlled release therapy by the potentials generated by the piezoelectric effect. Due to the presence of polydopamine (PDA), under ultrasound stimulation, the electrical signal derived from the piezoelectric effect of barium titanate nanoparticles can be attracted to the surface of Trojan Horse nanoparticles to facilitate the controlled release of Zn 2+ . And Zn 2+ bonded with PDA can increase the intracellular Zn 2+ concentration within mouse-derived NSCs (mNSCs) to regulate the differentiation of mNSCs, which could enhance excitatory neuronal differentiation and inhibit astrocyte differentiation of mNSCs by activating the TGF-β and p53 pathways. More importantly, this Trojan Horse therapy allowed mNSCs to differentiate into mature neurons in 5 days, while the natural differentiation process took 10 days. Moreover, the transplantation of mNSC-ingested Zn-PDA@BT nanoparticles effectively replenished lost neurons at the damaged site and promoted function recovery after SCI in vivo, demonstrating the great potential of electrical stimulation-induced Zn 2+ release for SCI repair.

Published

2024

38. Senescence- and Immunity-Related Changes in the Central Nervous System: A Comprehensive Review.

Author

Feng H, Li J, Wang H, Wei Z, and Feng S

Abstract

Senescence is a cellular state characterized by an irreversible halt in the cell cycle, accompanied by alterations in cell morphology, function, and secretion. Senescent cells release a plethora of inflammatory and growth factors, extracellular matrix proteins, and other bioactive substances, collectively known as the senescence-associated secretory phenotype (SASP). These excreted substances serve as crucial mediators of senescent tissues, while the secretion of SASP by senescent neurons and glial cells in the central nervous system modulates the activity of immune cells. Senescent immune cells also influence the physiological activities of various cells in the central nervous system. Further, the interaction between cellular senescence and immune regulation collectively affects the physiological and pathological processes of the central nervous system. Herein, we explore the role of senescence in the physiological and pathological processes underlying embryonic development, aging, degeneration, and injury of the central nervous system, through the immune response. Further, we elucidate the role of senescence in the physiological and pathological processes of the central nervous system, proposing a new theoretical foundation for treating central nervous system diseases.

Published

2024

39. Vancomycin-encapsulated hydrogel loaded microarc-oxidized 3D-printed porous Ti6Al4V implant for infected bone defects: Reconstruction, anti-infection, and osseointegration.

Author

Zhang T, Zhou W, Yang W, Bi J, Li H, Gao X, Zhang B, Shi G, Li K, Wei Z, Pan X, and Feng S

Abstract

Infected bone defect is a formidable clinical challenge. Conventional approaches to prevention and treatment for infected bone defects are unsatisfactory. The key elements of the treatment are bone defect reconstruction, anti-infection, and osteogenesis. Conventional treatment methods remain unsatisfactory owing to the absence of composite integrating materials with anti-infective, and osteogenic activities as well as proper mechanical strength at the same time. In this study, we fabricated a vancomycin-encapsulated hydrogel with bacteria-responsive release properties combined with a shaved porous (submicron-micron) three-dimensional-printed Ti6Al4V implant. The implant surface, modified with submicron-sized pores through microarc oxidation (MAO), showed enhanced osteogenic activity and integrated well with the hydrogel drug release system, enabling sustained vancomycin release. In vitro experiments underscored the commendable antibacterial ability, biosafety, and osteoinductive potential. Effective antibacterial and osteogenic abilities of the implant were further demonstrated in vivo in infected rabbit bone defects. These results showed that the vancomycin-encapsulated hydrogel-loaded microarc-oxidized 3D-printed porous Ti6Al4V can repair the infected bone defects with satisfactory anti-infection and osseointegration effects., Competing Interests: None., (© 2024 The Authors.)

Published

2024

40. Machine learning identifies key cells and therapeutic targets during ferroptosis after spinal cord injury.

Author

Lv Y, Li Z, Shi L, Jian H, Yang F, Qiu J, Li C, Xiao P, Ruan W, Li H, Li X, Feng S, and Zhou H

Abstract

Ferroptosis, a type of cell death that mainly involves iron metabolism imbalance and lipid peroxidation, is strongly correlated with the phagocytic response caused by bleeding after spinal cord injury. Thus, in this study, bulk RNA sequencing data (GSE47681 and GSE5296) and single-cell RNA sequencing data (GSE162610) were acquired from gene expression databases. We then conducted differential analysis and immune infiltration analysis. Atf3 and Piezo1 were identified as key ferroptosis genes through random forest and least absolute shrinkage and selection operator algorithms. Further analysis of single-cell RNA sequencing data revealed a close relationship between ferroptosis and cell types such as macrophages/microglia and their intrinsic state transition processes. Differences in transcription factor regulation and intercellular communication networks were found in ferroptosis-related cells, confirming the high expression of Atf3 and Piezo1 in these cells. Molecular docking analysis confirmed that the proteins encoded by these genes can bind cycloheximide. In a mouse model of T8 spinal cord injury, low-dose cycloheximide treatment was found to improve neurological function, decrease levels of the pro-inflammatory cytokine inducible nitric oxide synthase, and increase levels of the anti-inflammatory cytokine arginase 1. Correspondingly, the expression of the ferroptosis-related gene Gpx4 increased in macrophages/microglia, while the expression of Acsl4 decreased. Our findings reveal the important role of ferroptosis in the treatment of spinal cord injury, identify the key cell types and genes involved in ferroptosis after spinal cord injury, and validate the efficacy of potential drug therapies, pointing to new directions in the treatment of spinal cord injury., (Copyright © 2025 Copyright: © 2025 Neural Regeneration Research.)

Published

2024

41. Osteogenic Induction and Anti-Inflammatory Effects of Calcium-Chlorogenic Acid Nanoparticles Remodel the Osteoimmunology Microenvironment for Accelerating Bone Repair.

Author

Liu Q, Zhang S, Shi L, Shi J, Sun C, Wang J, Zhou W, Zhou H, Shan F, Wang H, Wang J, Ren N, Feng S, Liu H, and Wang S

Abstract

Successful bone regeneration requires close cooperation between bone marrow mesenchymal stem cells (BMSCs) and macrophages, but the low osteogenic differentiation efficiency of stem cells and the excessive inflammatory response of immune cells hinder the development of bone repair. It is necessary to develop a strategy that simultaneously regulates the osteogenic differentiation of BMSCs and the anti-inflammatory polarization of macrophages for accelerating the bone regeneration. Herein, calcium-chlorogenic acid nanoparticles (Ca-CGA NPs) are synthesized by combining the small molecules of chlorogenic acid (CGA) with Ca 2+ . Ca-CGA NPs internalized by cells can be dissolved to release free CGA and Ca 2+ under low pH conditions in lysosomes. In vitro results demonstrate that Ca-CGA NPs can not only enhance the osteogenic differentiation of BMSCs but also promote the phenotype transformation of macrophages from M1 to M2. Furthermore, in vivo experiments confirm that Ca-CGA NPs treatment facilitates the recovery of rat skull defect model through both osteoinduction and immunomodulation. This study develops a new Ca-CGA NPs-based strategy to induce the differentiation of BMSCs into osteoblasts and the polarization of macrophages into M2 phenotype, which is promising for accelerating bone repair., (© 2024 Wiley‐VCH GmbH.)

Published

2024

42. Analysis and experimental validation of genes and their transcription factor prediction in contused rat spinal cord at the intermediate phase.

Author

Shi Z, Fang T, Fan B, Ma J, Wang J, and Feng S

Subjects

Animals, Rats, Protein Interaction Maps genetics, Gene Expression Profiling, Spinal Cord metabolism, DNA-Binding Proteins genetics, DNA-Binding Proteins metabolism, Gene Regulatory Networks, Rats, Sprague-Dawley, Gene Expression Regulation, Mitochondrial Proteins genetics, Mitochondrial Proteins metabolism, Spinal Cord Injuries genetics, Spinal Cord Injuries metabolism, Transcription Factors genetics, Transcription Factors metabolism, Insulin-Like Growth Factor I genetics, Insulin-Like Growth Factor I metabolism

Abstract

The intermediate phase of spinal cord injury (SCI) serves as an important target site for therapeutic mediation of SCI. However, there is a lack of insight into the mechanism of the intermediate phase of SCI. The present study aimed to investigate the molecular mechanism and the feasible treatment targets in the intermediate phase of SCI. We downloaded GSE2599 from GEO and identified 416 significant differentially expressed genes (DEGs), including 206 downregulated and 210 upregulated DEGs. Further enrichment analysis of DEGs revealed that many important biological processes and signal pathways were triggered in the injured spinal cord. Furthermore, a protein-protein interaction (PPI) network was constructed and the top 10 high-degree hub nodes were identified. Furthermore, 27 predicted transcription factors (TFs) and 136 predicted motifs were identified. We then selected insulin-like growth factor 1 (IGF1) and its predicted transcription factor, transcription factor A, mitochondrial (TFAM) for further investigation. We speculated and preliminarily confirmed that TFAM may regulate gene transcription of IGF1 and effected alterations in the function recovery of rats after SCI. These findings together provide novel information that may improve our understanding of the pathophysiological processes during the intermediate phase of SCI.

Published

2024

43. Targeted Repair of Spinal Cord Injury Based on miRNA-124-3p-Loaded Mesoporous Silica Camouflaged by Stem Cell Membrane Modified with Rabies Virus Glycoprotein.

Author

Fan X, Shi L, Yang Z, Li Y, Zhang C, Bai B, Chen L, Yilihamu EE, Qi Z, Li W, Xiao P, Liu M, Qiu J, Yang F, Ran N, Shang Y, Liu J, Zhang T, Kong X, Liu H, Zhou H, and Feng S

Subjects

Animals, Humans, Mice, Cell Membrane metabolism, Drug Delivery Systems methods, Glycoproteins metabolism, Mesenchymal Stem Cells metabolism, Nanoparticles chemistry, Disease Models, Animal, MicroRNAs genetics, MicroRNAs administration & dosage, Rabies virus genetics, Silicon Dioxide chemistry, Spinal Cord Injuries therapy

Abstract

Spinal cord injury (SCI) has no effective treatment modalities. It faces a significant global therapeutical challenge, given its features of poor axon regeneration, progressive local inflammation, and inefficient systemic drug delivery due to the blood-spinal cord barrier (BSCB). To address these challenges, a new nano complex that achieves targeted drug delivery to the damaged spinal cord is proposed, which contains a mesoporous silica nanoparticle core loaded with microRNA and a cloaking layer of human umbilical cord mesenchymal stem cell membrane modified with rabies virus glycoprotein (RVG). The nano complex more readily crosses the damaged BSCB with its exosome-resembling properties, including appropriate size and a low-immunogenic cell membrane disguise and accumulates in the injury center because of RVG, where it releases abundant microRNAs to elicit axon sprouting and rehabilitate the inflammatory microenvironment. Culturing with nano complexes promotes axonal growth in neurons and M2 polarization in microglia. Furthermore, it showed that SCI mice treated with this nano complex by tail vein injection display significant improvement in axon regrowth, microenvironment regulation, and functional restoration. The efficacy and biocompatibility of the targeted delivery of microRNA by nano complexes demonstrate their immense potential as a noninvasive treatment for SCI., (© 2024 The Authors. Advanced Science published by Wiley‐VCH GmbH.)

Published

2024

44. Epidemiological and clinical features, treatment status, and economic burden of traumatic spinal cord injury in China: a hospital-based retrospective study.

Author

Zhou H, Lou Y, Chen L, Kang Y, Liu L, Cai Z, Anderson DB, Wang W, Zhang C, Wang J, Ning G, Gao Y, He B, Ding W, Wang Y, Mei W, Song Y, Zhou Y, Xia M, Wang H, Zhao J, Yin G, Zhang T, Jing F, Zhu R, Meng B, Duan L, Zhang Z, Wu D, Cai Z, Huang L, Yin Z, Li K, Lu S, and Feng S

Abstract

Traumatic spinal cord injury is potentially catastrophic and can lead to permanent disability or even death. China has the largest population of patients with traumatic spinal cord injury. Previous studies of traumatic spinal cord injury in China have mostly been regional in scope; national-level studies have been rare. To the best of our knowledge, no national-level study of treatment status and economic burden has been performed. This retrospective study aimed to examine the epidemiological and clinical features, treatment status, and economic burden of traumatic spinal cord injury in China at the national level. We included 13,465 traumatic spinal cord injury patients who were injured between January 2013 and December 2018 and treated in 30 hospitals in 11 provinces/municipalities representing all geographical divisions of China. Patient epidemiological and clinical features, treatment status, and total and daily costs were recorded. Trends in the percentage of traumatic spinal cord injuries among all hospitalized patients and among patients hospitalized in the orthopedic department and cost of care were assessed by annual percentage change using the Joinpoint Regression Program. The percentage of traumatic spinal cord injuries among all hospitalized patients and among patients hospitalized in the orthopedic department did not significantly change overall (annual percentage change, -0.5% and 2.1%, respectively). A total of 10,053 (74.7%) patients underwent surgery. Only 2.8% of patients who underwent surgery did so within 24 hours of injury. A total of 2005 (14.9%) patients were treated with high-dose (≥ 500 mg) methylprednisolone sodium succinate/methylprednisolone (MPSS/MP); 615 (4.6%) received it within 8 hours. The total cost for acute traumatic spinal cord injury decreased over the study period (-4.7%), while daily cost did not significantly change (1.0% increase). Our findings indicate that public health initiatives should aim at improving hospitals' ability to complete early surgery within 24 hours, which is associated with improved sensorimotor recovery, increasing the awareness rate of clinical guidelines related to high-dose MPSS/MP to reduce the use of the treatment with insufficient evidence., Competing Interests: None

Published

2024

45. Human umbilical cord mesenchymal stem cell-derived exosomes loaded into a composite conduit promote functional recovery after peripheral nerve injury in rats.

Author

Tang H, Li J, Wang H, Ren J, Ding H, Shang J, Wang M, Wei Z, and Feng S

Abstract

Complete transverse injury of peripheral nerves is challenging to treat. Exosomes secreted by human umbilical cord mesenchymal stem cells are considered to play an important role in intercellular communication and regulate tissue regeneration. In previous studies, a collagen/hyaluronic acid sponge was shown to provide a suitable regeneration environment for Schwann cell proliferation and to promote axonal regeneration. This three-dimensional (3D) composite conduit contains a collagen/hyaluronic acid inner sponge enclosed in an electrospun hollow poly (lactic-co-glycolic acid) tube. However, whether there is a synergy between the 3D composite conduit and exosomes in the repair of peripheral nerve injury remains unknown. In this study, we tested a comprehensive strategy for repairing long-gap (10 mm) peripheral nerve injury that combined the 3D composite conduit with human umbilical cord mesenchymal stem cell-derived exosomes. Repair effectiveness was evaluated by sciatic functional index, sciatic nerve compound muscle action potential recording, recovery of muscle mass, measuring the cross-sectional area of the muscle fiber, Masson trichrome staining, and transmission electron microscopy of the regenerated nerve in rats. The results showed that transplantation of the 3D composite conduit loaded with human umbilical cord mesenchymal stem cell-derived exosomes promoted peripheral nerve regeneration and restoration of motor function, similar to autograft transplantation. More CD31-positive endothelial cells were observed in the regenerated nerve after transplantation of the loaded conduit than after transplantation of the conduit without exosomes, which may have contributed to the observed increase in axon regeneration and distal nerve reconnection. Therefore, the use of a 3D composite conduit loaded with human umbilical cord mesenchymal stem cell-derived exosomes represents a promising cell-free therapeutic option for the treatment of peripheral nerve injury., Competing Interests: None

Published

2024

46. Low back pain-driven inpatient stays in the United States: a nationwide repeated cross-sectional analysis.

Author

Chen L, Sun Q, Chou R, Anderson DB, Shi B, Chen Y, Liu X, Feng S, Zhou H, and Ferreira ML

Subjects

Humans, United States epidemiology, Cross-Sectional Studies, Constriction, Pathologic, Inpatients, Low Back Pain epidemiology, Fractures, Compression, Spinal Fractures, Spinal Stenosis

Abstract

Background: Low back pain (LBP)-driven inpatient stays are resource-intensive and costly, yet data on contemporary national trends are limited., Materials and Methods: This study used repeated cross-sectional analyses through a nationally representative sample (US National Inpatient Sample, 2016-2019). Outcomes included the rate of LBP-driven inpatient stays; the resource utilization (the proportion of receiving surgical treatments and hospital costs) and prognosis (hospital length of stay and the proportion of nonroutine discharge) among LBP-driven inpatient stays. LBP was classified as overall, nonspecific, and specific (i.e. cancer, cauda equina syndrome, vertebral infection, vertebral compression fracture, axial spondyloarthritis, radicular pain, and spinal canal stenosis). Analyses were further stratified by age, sex, and race/ethnicity., Results: 292 987 LBP-driven inpatient stays (weighted number: 1 464 690) were included, with 269 080 (91.8%) of these for specific LBP and 23 907 (8.2%) for nonspecific LBP. The rate of LBP-driven inpatient stays varied a lot across demographic groups and LBP subtypes (e.g. for overall LBP, highest for non-Hispanic White 180.4 vs. lowest for non-Hispanic Asian/Pacific Islander 42.0 per 100 000 population). Between 2016 and 2019, the rate of nonspecific LBP-driven inpatient stays significantly decreased (relative change: 46.9%); however, substantial variations were found within subcategories of specific LBP-significant increases were found for vertebral infection (relative change: 17.2%), vertebral compression fracture (relative change: 13.4%), and spinal canal stenosis (relative change: 19.9%), while a significant decrease was found for radicular pain (relative change: 12.6%). The proportion of receiving surgical treatments also varied a lot (e.g. for overall LBP, highest for non-Hispanic White 74.4% vs. lowest for non-Hispanic Asian/Pacific Islander 62.8%), and significantly decreased between 2016 and 2019 (e.g. for nonspecific LBP, relative change: 28.6%). Variations were also observed for other outcomes., Conclusions: In the US, the burden of LBP-driven inpatient stays (i.e. rates of LBP-driven inpatient stays, resource utilization, and prognosis among LBP-driven inpatient stays) is enormous. More research is needed to understand why the burden varies considerably according to the LBP subtype (i.e. nonspecific and specific LBP as well as subcategories of specific LBP) and the subpopulation concerned (i.e. stratified by age, sex, and race/ethnicity)., (Copyright © 2023 The Author(s). Published by Wolters Kluwer Health, Inc.)

Published

2024

47. Argatroban promotes recovery of spinal cord injury by inhibiting the PAR1/JAK2/STAT3 signaling pathway.

Author

Zhao C, Zhou T, Li M, Liu J, Zhao X, Pang Y, Liu X, Zhang J, Ma L, Li W, Yao X, and Feng S

Abstract

Argatroban is a synthetic thrombin inhibitor approved by U.S. Food and Drug Administration for the treatment of thrombosis. However, whether it plays a role in the repair of spinal cord injury is unknown. In this study, we established a rat model of T10 moderate spinal cord injury using an NYU Impactor Moder III and performed intraperitoneal injection of argatroban for 3 consecutive days. Our results showed that argatroban effectively promoted neurological function recovery after spinal cord injury and decreased thrombin expression and activity in the local injured spinal cord. RNA sequencing transcriptomic analysis revealed that the differentially expressed genes in the argatroban-treated group were enriched in the JAK2/STAT3 pathway, which is involved in astrogliosis and glial scar formation. Western blotting and immunofluorescence results showed that argatroban downregulated the expression of the thrombin receptor PAR1 in the injured spinal cord and the JAK2/STAT3 signal pathway. Argatroban also inhibited the activation and proliferation of astrocytes and reduced glial scar formation in the spinal cord. Taken together, these findings suggest that argatroban may inhibit astrogliosis by inhibiting the thrombin-mediated PAR1/JAK2/STAT3 signal pathway, thereby promoting the recovery of neurological function after spinal cord injury., Competing Interests: None

Published

2024

48. Trends in prevalence of fractures among adults in the United States, 1999-2020: a population-based study.

Author

Xu B, Radojčić MR, Anderson DB, Shi B, Yao L, Chen Y, Feng S, Lee JH, and Chen L

Subjects

Adult, United States epidemiology, Humans, Female, Middle Aged, Nutrition Surveys, Prevalence, Wrist Fractures, Hip Fractures, Spinal Fractures epidemiology

Abstract

Background: Population data that examines recent national trends in the prevalence of fractures are lacking in the United States (US)., Materials and Methods: Analyses were based on 1999-2020 data from the National Health and Nutrition Examination Survey (NHANES). Primary outcomes included the prevalence of hip, wrist, and vertebral fractures among adults aged greater than or equal to 50 years. Changes in the prevalence over time were determined by joinpoint regression analysis. The authors also described the variation by fracture subtypes, sociodemographic characteristics, and their combination., Results: For adults aged greater than or equal to 50 years in NHANES 2017-March 2020, the authors estimated that there was 2.6 million Americans with hip fractures, 14.6 million Americans with wrist fractures, and 5.2 million Americans with vertebral fractures. The prevalence of wrist fractures significantly increased from 8.7% (7.4-9.9%) in 1999-2000 to 12.8% (11.6-14.1%) in 2017-March 2020 among adults aged greater than or equal to 50 years ( P for trend=0.04); significant increases were also observed in fractures that occurred at age less than 50 years, non-Hispanic White, high family income groups, and several combination subgroups (e.g. fractures occurred at age <50 years among women). The prevalence of vertebral fractures increased from 2.2% (1.7-2.8%) in 1999-2000 to 4.6% (3.7-5.5%) in 2017-March 2020 among adults aged greater than or equal to 50 years ( P for trend=0.02); significant increases were also observed in 50-64 years, women, non-Hispanic White, high family income groups and several combination subgroups (e.g. fractures that occurred at age <50 years among women). The authors did not observe significant trend changes in the prevalence of hip fractures among adults aged greater than or equal to 50 years between 1999 and 2020., Conclusion: The estimated prevalence of wrist and vertebral fractures significantly increased among US adults aged greater than or equal to 50 years from 1999 to 2020, although hip fractures did not significantly change., (Copyright © 2023 The Author(s). Published by Wolters Kluwer Health, Inc.)

Published

2024