The biointegration profile of fiber‐reinforced plates following tibial implantation in sheep

Jackson, Nicolette D.; Nyska, Abraham; Palmanovich, Ezequiel; Nyska, Meir

doi:10.1002/jor.25682

Cited by 3 publications

(2 citation statements)

References 48 publications

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“…Previously published preclinical studies for ber reinforced implants demonstrate a similar cellular response observed in this study dominated by a non-destructive phagocytic response during polymer degradation 54,55 . The cellular response at all sites was characterized by non-in ammatory M2-like macrophages and MNGCs, with peak bioabsorption at 52W to 104W.…”

Section: Discussionsupporting

confidence: 80%

Anterior Cruciate Ligament Reconstruction in a Translational Model in Sheep Using Bio- Integrative Mineral Fiber-Reinforced Screws

Cole,

Easley,

Nyska

et al. 2024

Preprint

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Anterior cruciate ligament reconstruction (ACLR) is one of the more common procedures performed worldwide and perhaps the most widely studied construct in orthopedic literature. Interference screws are reliable and frequently used for ligament reconstruction, providing rigid fixation and facilitates graft incorporation allowing for the physiologic loads of early rehabilitation. The purpose of this study was to determine the bio-integration profile of mineral fiber-reinforced screws and evaluate the quality of soft tissue fixation. Nine sheep underwent ACLR using harvested autologous tendon graft fixated with 4.75mm screws made of continuous mineral fibers. Histopathology and imaging evaluation at 28, 52, 104, 132-weeks (W) demonstrated mesenchymal tissue ingrowth into the implant wall at 28W, which increased at 52W and peaked at 104W. At 132W, implants were fully replaced by newly remodeled bone. Graft cellularity was evident at 28W and continued to increase through 132W as the tendon ossified sites of bone contact. Pro-healing M2 macrophages and giant cells remained infrequent, with minor increases between 52W and 104W, attributed to expected phagocytic response. Pro-inflammatory cells (i.e., M1 macrophages, polymorphonuclears) were absent through the entire study course. In conclusion, bio-integrative screws provide secure soft tissue fixation with replacement by bone demonstrating graft cellularization over time.

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Section: Discussionsupporting

confidence: 80%

Anterior Cruciate Ligament Reconstruction in a Translational Model in Sheep Using Bio- Integrative Mineral Fiber-Reinforced Screws

Cole,

Easley,

Nyska

et al. 2024

Preprint

Self Cite

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“…A new generation of materials is emerging with more of a focus on mimicking the biological, topographic, and bioactive features of the native tissue, such as the natural niche in which stem cells reside. Prominent examples include regenerative periodontal bioactive materials [1], skin-mimicking hydrogel dressings for advancing wound care [2], and enhancements for cellular integration in bone structural repairs [3]. In ophthalmology, biomaterials play a key role both surgically-in the form of stitches-and remedially (as contact lenses).…”

Section: Introductionmentioning

confidence: 99%

Fabrication and Characterisation of Hydrogels with Reversible Wrinkled Surfaces for Limbal Study and Reconstruction

Dimmock,

Rotherham,

El Haj

et al. 2023

Gels

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In the biomedical field, there is a demand for the development of novel approaches for the investigation of optical epithelial anatomical features with biomimetic materials. These materials are not only required to replicate structures but also enable dynamic modelling for disease states such as limbal stem cell deficiency and ageing. In the present study, the effective generation of reversible wrinkled polydimethylsiloxane (PDMS) substrates was undertaken to mimic the undulating anatomy of the limbal epithelial stem cell niche. This undulating surface pattern was formed through a dual treatment with acid oxidation and plasma using an innovatively designed stretching frame. This system enabled the PDMS substrate to undergo deformation and relaxation, creating a reversible and tuneable wrinkle pattern with cell culture applications. The crypt-like pattern exhibited a width of 70–130 µm and a depth of 17–40 µm, resembling the topography of a limbal epithelial stem cell niche, which is characterised by an undulating anatomy. The cytocompatibility of the patterned substrate was markedly improved using a gelatin methacrylate polymer (GelMa) coating. It was also observed that these wrinkled PDMS surfaces were able to dictate cell growth patterns, showing alignment in motile cells and colony segregation in colony-forming cells when using human and porcine limbal cells, respectively.

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Anterior cruciate ligament reconstruction in a translational model in sheep using biointegrative mineral fiber reinforced screws

Cole,

Easley,

Nyska

et al. 2024

Sci Rep

View full text Add to dashboard Cite

Anterior cruciate ligament reconstruction (ACLR) is one of the more common procedures performed worldwide and perhaps the most widely studied construct in orthopedic literature. Interference screws are reliable and frequently used for ligament reconstruction, providing rigid fixation and facilitates graft incorporation allowing for the physiologic loads of early rehabilitation. The purpose of this study was to determine the bio-integration profile and quality of soft tissue graft when using mineral fiber-reinforced screws in an ACLR interference model. Nine sheep underwent ACLR using harvested autologous tendon graft fixated with 4.75 mm screws made of continuous mineral fibers. Histopathology and imaging evaluation at 28, 52, 104, 132-weeks (W) demonstrated mesenchymal tissue ingrowth into implant wall at 28 W, which increased at 52 W and peaked at 104 W. At 132 W, implants fully replaced by newly remodeled bone. Graft cellularity was evident at 28 W and continued to increase through 132 W as the tendon ossified at sites of bone contact. Pro-healing M2-macrophages and giant cells remained infrequent, with minor increases between 52 W and 104 W, attributed to expected phagocytic response. Pro-inflammatory cells (i.e., M1-macrophages, polymorphonuclears) were absent through the entire study course. In conclusion, bio-integrative screws provide secure soft tissue fixation with replacement by bone demonstrating graft cellularization over time.

show abstract

The biointegration profile of fiber‐reinforced plates following tibial implantation in sheep

Cited by 3 publications

References 48 publications

Anterior Cruciate Ligament Reconstruction in a Translational Model in Sheep Using Bio- Integrative Mineral Fiber-Reinforced Screws

Anterior Cruciate Ligament Reconstruction in a Translational Model in Sheep Using Bio- Integrative Mineral Fiber-Reinforced Screws

Fabrication and Characterisation of Hydrogels with Reversible Wrinkled Surfaces for Limbal Study and Reconstruction

Anterior cruciate ligament reconstruction in a translational model in sheep using biointegrative mineral fiber reinforced screws

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