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Arthroscopic ligament debridement combined with tendon repair benefits lateral collateral ligament lesions in recalcitrant lateral epicondylitis patients: A retrospective comparative study.
J Shoulder Elbow Surg
November 2024
Sports Medicine Department, Peking University Fourth School of Clinical Medicine, No. 31, Xin Jie Kou Dong Street, Xi Cheng District, Beijing 100035, P.R. China; Sports Medicine Department, Beijing Ji Shui Tan Hospital, Capital Medical University, No. 31, Xin Jie Kou Dong Street, Xi Cheng District, Beijing 100035, P.R. China. Electronic address:
Background: Untreated lateral collateral ligament (LCL) lesions in recalcitrant lateral epicondylitis (RLE) may cause residual pain and progressed to elbow instability. However, there is not enough research on the effect of arthroscopic treatment of combined LCL degenerative lesions without instability in RLE patients. The purpose of this study was to 1) evaluate the clinical and radiological results of RLE patients with LCL degenerative lesions without instability who received arthroscopic LCL débridement and ECRB repair, and 2) compare clinical outcomes between RLE patients with LCL degenerative lesion and those without, which received ECRB repair alone.
View Article and Find Full Text PDFChitosan derived nitrogen and oxygen dual-doped hierarchical porous carbon/TiCT MXene fiber for flexible cable shaped lithium-selenium battery.
Int J Biol Macromol
December 2024
National Engineering Lab for Textile Fiber Materials & Processing Technology, Zhejiang Sci-Tech University, Hangzhou 310018, PR China; Zhejiang Provincial Innovation Center of Advanced Textile Technology, Shaoxing 312000, PR China. Electronic address:
Article Synopsis
- * The Se-NOCT electrode demonstrates outstanding performance with high specific capacitance (866 mAh/g), efficient charge/discharge rates, and strong durability after 500 cycles, making it suitable for flexible applications.
- * When integrated into a fibrous lithium-selenium battery, this electrode maintains excellent functionality, flexibility, and can even be woven into clothing, illustrating its potential for enhancing smart wearable technologies.
Cytologic Assessment of the Supernatants of Formalin Solution Following Histologic Examination of Transurethral Biopsy/Resection Specimens.
Arch Pathol Lab Med
September 2024
Urology (Wu, Miyamoto), University of Rochester Medical Center, Rochester, New York.
Context.—: Urothelial denudation seen in transurethral biopsy specimens may occasionally indicate the presence of discohesive high-grade urothelial carcinoma (HGUC).
Objective.
High-Entropy Engineering Reinforced Surface Electronic States and Structural Defects of Hierarchical Metal Oxides@Graphene Fibers toward High-Performance Wearable Supercapacitors.
Adv Mater
August 2024
National Engineering Lab for Textile Fiber Materials and Processing Technology, Zhejiang Sci-Tech University, Hangzhou, 310018, P. R. China.
Construction advanced fibers with high Faradic activity and conductivity are effective to realize high energy density with sufficient redox reactions for fiber-based electrochemical supercapacitors (FESCs), yet it is generally at the sacrifice of kinetics and structural stability. Here, a high-entropy doping strategy is proposed to develop high-energy-density FESCs based on high-entropy doped metal oxide@graphene fiber composite (HE-MO@GF). Due to the synergistic participation of multi-metal elements via high-entropy doping, the HE-MO@GF features abundant oxygen vacancies from introducing various low-valence metal ions, lattice distortions, and optimized electronic structure.
View Article and Find Full Text PDFInterfacially Ordered NiCoMoS Nanosheets Arrays on Hierarchical TiCT MXene for High-Energy-Density Fiber-Shaped Supercapacitors with Accelerated Pseudocapacitive Kinetics.
Angew Chem Int Ed Engl
September 2024
National Engineering Lab for Textile Fiber Materials and Processing Technology, School of Materials Science and Engineering, Zhejiang Sci-Tech University, Hangzhou, 310018, P. R. China.
Balancing electrochemical activity and structural reversibility of fibrous electrodes with accelerated Faradaic charge transfer kinetics and pseudocapacitive storage are highly crucial for fiber-shaped supercapacitors (FSCs). Herein, we report novel core-shell hierarchical fibers for high-performance FSCs, in which the ordered NiCoMoS nanosheets arrays are chemically anchored on TiCT fibers. Beneficial from architecting stable polymetallic sulfide arrays and conductive networks, the NiCoMoS-TiCT fiber maintains fast charge transfer, low diffusion and OH adsorption barrier, and stabilized multi-electronic reaction kinetics of polymetallic sulfide.
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