Design Considerations, Formulation Approaches, and Strategic Advances of Hydrogel Platforms for Tendinopathy Management
Junhao Lin, Xuan Yao, Hongyan Zhou, Yuheng Li, Jie Liao, Shiwu Dong, Wenhui Hu

TL;DR
This paper reviews how hydrogels can be designed and used to improve treatment outcomes for tendinopathy, a painful musculoskeletal disorder.
Contribution
The paper provides a comprehensive overview of hydrogel design considerations and formulation approaches for tendinopathy management.
Findings
Hydrogels offer advantages like biocompatibility, degradability, and stimuli-responsive drug delivery for tendon healing.
Hydrogels can be formulated into scaffolds, patches, sprays, and injectable systems based on material and structural design.
Artificial intelligence is highlighted as a tool for optimizing hydrogel design and application in tendinopathy treatment.
Abstract
Tendinopathy is a musculoskeletal disorder characterized by severe pain that may persist for weeks or months, often resulting in disability. Existing treatments primarily consist of conservative interventions, including rest, nonsteroidal anti-inflammatory medications, localized corticosteroid injections, ultrasound, bracing, and stem cell-based therapies, as well as surgical procedures. However, therapeutic outcomes remain unsatisfactory. Consequently, there is an urgent need for effective strategies in tendinopathy management. As a bioengineered material, the hydrogel has been extensively studied for the treatment of tendinopathy due to its stable physicochemical properties, biocompatibility, degradability, mechanical robustness, injectability, and stimuli-responsive drug delivery capability. Based on the anatomical structure of tendons and therapeutic requirements during disease…
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Taxonomy
TopicsTendon Structure and Treatment · Shoulder Injury and Treatment · Spine and Intervertebral Disc Pathology
