Shazad Shaikh scite author profile

Focal chondral lesions of the knee are the most frequent type of trauma in younger patients and are associated with a high risk of developing early posttraumatic osteoarthritis. The only current clinical solutions include microfracture, osteochondral grafting, and autologous chondrocyte implantation. Cartilage tissue engineering based on biomimetic scaffolds has become an appealing strategy to repair cartilage defects. Here, a chondrogenic collagen-chondroitin sulfate scaffold is tested in an orthotopic Lapine in vivo model to understand the beneficial effects of the immunomodulatory biomaterial on the full chondral defect. Using a combination of noninvasive imaging techniques, histological and whole transcriptome analysis, the scaffolds are shown to enhance the formation of cartilaginous tissue and suppression of host cartilage degeneration, while also supporting tissue integration and increased tissue regeneration over a 12 weeks recovery period. The results presented suggest that biomimetic materials could be a clinical solution for cartilage tissue repair, due to their ability to modulate the immune environment in favor of regenerative processes and suppression of cartilage degeneration.

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Improving the accuracy of wide resection of bone tumors and enhancing implant fit: A cadaveric study

Helguero

Kao

Komatsu

et al. 2015

Journal of Orthopaedics

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Case Report of a Complex Chest Wall Reconstruction with a Cadaveric Achilles Tendon

et al. 2020

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Unusual clinical course Background:Chest wall reconstruction is sometimes needed after resection of a thoracic malignancy. Various materials and techniques have been utilized to restore stability and integrity to the chest wall. We report what we believe is the first use of a cadaveric Achilles tendon to restore stability and function to the chest wall of a young woman who underwent chest wall resection and right upper lobectomy for a superior sulcus tumor. Case Report:A 46-year-old woman underwent resection of her first through fourth right ribs in addition to her right upper lobe for a squamous cell superior sulcus tumor. Because it was felt her right scapula provided sufficient coverage of her resultant chest wall defect, her chest wall was not reconstructed post-operatively. The patient experienced 2 episodes of scapular prolapse into her thoracic cavity several months after her resection. After the second episode, her right chest wall was successfully reconstructed with a cadaveric Achilles tendon to prevent further episodes of prolapse. Conclusions:We believe this is the first description of chest wall reconstruction with a cadaveric Achilles tendon. The use of a cadaveric Achilles tendon should be considered for reconstruction of the chest wall after complex resection due to its strength characteristics, resistance to subsequent infection, and availability.

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Biomimetic Scaffolds Modulate the Posttraumatic Inflammatory Response in Articular Cartilage Contributing to Enhanced Neoformation of Cartilaginous Tissue In Vivo (Adv. Healthcare Mater. 1/2022)

Bauza‐Mayol¹,

Quintela²,

Brozovich³

et al. 2022

Adv Healthcare Materials

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Cartilage Repair In article number 2101127 by Lewis W. Francis, Francesca Taraballi, and co‐workers, a biomimetic immune tuning scaffold is implanted in a full‐thickness chondral defect in rabbits. The early inflammatory infiltrates changed in the treated animals resulting in a better cartilage homeostasis at longer timepoints. This work represents the first approach of tuning the inflammatory reaction with a bulk material to achieve a better regeneration in cartilage.

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Shazad Shaikh

Biomimetic Scaffolds Modulate the Posttraumatic Inflammatory Response in Articular Cartilage Contributing to Enhanced Neoformation of Cartilaginous Tissue In Vivo

Improving the accuracy of wide resection of bone tumors and enhancing implant fit: A cadaveric study

Case Report of a Complex Chest Wall Reconstruction with a Cadaveric Achilles Tendon

Biomimetic Scaffolds Modulate the Posttraumatic Inflammatory Response in Articular Cartilage Contributing to Enhanced Neoformation of Cartilaginous Tissue In Vivo (Adv. Healthcare Mater. 1/2022)

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