Your search keyword '"Elias, Tristan"' showing total 3 results

1. Osteochondral Allograft Reaming Significantly Affects Chondrocyte Viability.

Author

Elias, Tristan J., Allahabadi, Sachin, Haneberg, Erik, Morgan, Vince, Walker, Alexandra, Beals, Corey, Cole, Brian J., and Yanke, Adam B.

Subjects

*KNEE physiology, *CARTILAGE cell transplantation, *IN vitro studies, *ARTICULAR cartilage, *PHYSIOLOGIC salines, *GRAFT survival, *DATA analysis, *HOMOGRAFTS, *ORGAN donation, *DESCRIPTIVE statistics, *MANN Whitney U Test, *ORTHOPEDIC surgery, *BONE grafting, *STATISTICS, *CELL survival, *IRRIGATION (Medicine), *COMPARATIVE studies, *DATA analysis software, FEMUR surgery

Abstract

Background: Chondrocyte viability is associated with the clinical success of osteochondral allograft (OCA) transplantation. Purpose: To investigate the effect of distal femoral OCA plug harvest and recipient site preparation on regional cell viability using traditional handheld saline irrigation versus saline submersion. Study Design: Controlled laboratory study. Methods: For each of 13 femoral hemicondyles, 4 cartilage samples were harvested: (1) 5-mm control cartilage, (2) 15-mm OCA donor plug harvested with a powered coring reamer and concurrent handheld saline irrigation ("traditional"), (3) 15-mm OCA donor plug harvested while submerged under normal saline ("submerged"), and (4) 5-mm cartilage from the peripheral rim of a recipient socket created with a 15-mm cannulated counterbore reamer to a total depth of 7 mm with concurrent handheld saline irrigation ("recipient"). The 15 mm–diameter plugs were divided into the central 5 mm and the peripheral 5 mm (2 edges) for comparisons. Samples were stained using calcein and ethidium, and live/dead cell percentages were calculated and compared across groups. Results: Compared with the submerged group, the traditional group had significantly lower percentages of live cells across the whole plug (71.54% ± 4.82% vs 61.42% ± 4.98%, respectively; P =.003), at the center of the plug (72.76% ± 5.87% vs 62.30% ± 6.11%, respectively; P =.005), and at the periphery of the plug (70.93% ± 4.51% vs 60.91% ± 4.75%, respectively; P =.003). The traditional group had significantly fewer live cells in all plug regions compared with the control group (77.51% ± 9.23%; P <.0001). There were no significant differences in cell viability between the control and submerged groups (whole: P =.590; center: P =.713; periphery: P =.799). There were no differences between the central and peripheral 5-mm plug regions for the traditional (62.30% ± 6.11% vs 60.91% ± 4.75%, respectively; P =.108) and submerged (72.76% ± 5.87% vs 70.93% ± 4.51%, respectively; P =.061) groups. The recipient group (61.10% ± 5.02%) had significantly lower cell viability compared with the control group (P <.0001) and the periphery of the submerged group (P =.009) but was equivalent to the periphery of the traditional group (P =.990). Conclusion: There was a significant amount of chondrocyte death induced by OCA donor plug harvesting using a powered coring reamer with traditional handheld saline irrigation, which was mitigated by harvesting the plug while the allograft was submerged under saline. Clinical Relevance: Mitigating this thermally induced damage by harvesting the OCA plug while the allograft was submerged in saline maintained chondrocyte viability throughout the plug and may help to improve the integration and survival of OCAs. [ABSTRACT FROM AUTHOR]

Published

2024

2. Patient-Specific Distal Femoral Guides Optimize Cartilage Topography Matching in Osteochondral Allograft Transplantations.

Author

Elias, Tristan J., Credille, Kevin, Wang, Zachary, Inoue, Nozomu, Espinoza Orías, Alejandro A., Beals, Corey T., Haneberg, Erik, Hevesi, Mario, Cole, Brian J., and Yanke, Adam B.

Subjects

*ARTICULAR cartilage, *LASERS, *THREE-dimensional imaging, *COMPUTER-aided design, *DATA analysis, *MEDICAL cadavers, *HOMOGRAFTS, *DESCRIPTIVE statistics, *BONE grafting, *RESEARCH methodology, *STATISTICS, *THREE-dimensional printing, *DATA analysis software, *ALGORITHMS, FEMUR surgery

Abstract

Background: Osteochondral allograft (OCA) transplantation is an important surgical technique for full-thickness chondral defects in the knee. For patients undergoing this procedure, topography matching between the donor and recipient sites is essential to limit premature wear of the OCA. Currently, there is no standardized process of donor and recipient graft matching. Purpose: To evaluate a novel topography matching technique for distal femoral condyle OCA transplantation using 3-dimensional (3D) laser scanning to create 3D-printed patient-specific instrumentation in a human cadaveric model. Study Design: Descriptive laboratory study. Methods: Human cadaveric distal femoral condyles (n = 12) underwent 3D laser scanning. An 18-mm circular osteochondral recipient defect was virtually created on the medial femoral condyle (MFC), and the position and orientation of the best topography-matched osteochondral graft from a paired donor lateral femoral condyle (LFC) were determined using an in silico analysis algorithm minimizing articular step-off distances between the edges of the graft and recipient defect. Distances between the entire surface of the OCA graft and the underneath surface of the MFC were evaluated as surface mismatch. Donor (LFC) and recipient (MFC) 3D-printed patient-specific guides were created based on 3D reconstructions of the scanned condyles. Through use of the guides, OCAs were harvested from the LFC and transplanted to the reamed recipient defect site (MFC). The post-OCA recipient condyles were laser scanned. The 360° articular step-off and cartilage topography mismatch were measured. Results: The mean cartilage step-off and graft surface mismatch for the in silico OCA transplant were 0.073 ± 0.029 mm (range, 0.005-0.113 mm) and 0.166 ± 0.039 mm (range, 0.120-0.243 mm), respectively. Comparatively, the cadaveric specimens postimplant had significantly larger step-off differences (0.173 ± 0.085 mm; range, 0.082-0.399 mm; P =.001) but equivalent graft surface topography matching (0.181 ± 0.080 mm; range, 0.087-0.396 mm; P =.678). All 12 OCA transplants had mean circumferential step-off differences less than a clinically significant cutoff of 0.5 mm. Conclusion: These findings suggest that the use of 3D-printed patient-specific guides for OCA transplantation has the ability to reliably optimize cartilage topography matching for LFC to MFC transplantation. This study demonstrated substantially lower step-off values compared with previous orthopaedic literature when also evaluating LFC to MFC transplantation. Using this novel technique in a model performing MFC to MFC transplantation has the potential to yield further enhanced results due to improved radii of curvature matching. Clinical Relevance: Topography-matched graft implantation for focal chondral defects of the knee in patients improves surface matching and has the potential to improve long-term outcomes. Efficient selection of the allograft also allows improved availability of the limited allograft sources. [ABSTRACT FROM AUTHOR]

Published

2024

3. Biomechanical Analysis of Anteroinferior Bankart Repair Anchor Types.

Author

Yanke, Adam B., Allahabadi, Sachin, Wang, Zachary, Credille, Kevin T., Shewman, Elizabeth, Bonadiman, Joao Artur, Elias, Tristan J., Hevesi, Mario, Garrigues, Grant E., and Verma, Nikhil N.

Subjects

SUTURING, IN vitro studies, MEDICAL cadavers, SHOULDER injuries, COMPARATIVE studies, DESCRIPTIVE statistics, RESEARCH funding, BIOMECHANICS, STATISTICAL sampling

Abstract

Background: All-suture anchors and knotless anchors are increasingly used in the repair of anteroinferior labral tears in patients with shoulder instability. Optimal repair constructs may limit recurrent instability. Purpose: To perform a quantitative biomechanical comparison of 3 labral fixation devices for soft tissue Bankart lesions: knotless soft-body tensionable anchor (SB knotless), knotted soft-body anchor (SB knotted), and knotless hard-body PEEK (polyether ether ketone) interference anchor (HB knotless). Study Design: Controlled laboratory study. Methods: A total of 21 glenoid specimens were randomized into 3 groups: SB knotless, SB knotted, and HB knotless. Artificial Bankart lesions were created at the anteroinferior labrum. Anchors were placed at the 3:30, 4:30, and 5:30 clockface positions, and sutures were passed through 1 cm of tissue. Anchors were tested simultaneously as one construct by pulling capsular tissue connected to the anteroinferior quadrant. Cyclic loading (5-25 N, 100 cycles) was followed by load-to-failure testing (15 mm/min). Biomechanical testing variables were collected, and failure mechanisms were recorded per individual anchor. Results: There were no differences in baseline specimen characteristics. There was no difference in elongation during cyclic loading (P =.40). The ultimate load to failure between SB knotless (309.7 ± 125.6 N), SB knotted (226.4 ± 34.8 N), and HB knotless (256.5 ± 90.5 N) did not significantly differ (P =.25). Failure mechanisms differed among groups (P =.008); mechanisms included anchor pullout (SB knotless: 33.3%; SB knotted: 23.8%; HB knotless: 28.6%), suture pull-through (SB knotless: 66.7%; SB knotted: 38.1%; HB knotless: 33.3%), and anchor fixation method failure, defined as knot failure for knotted anchors or locking mechanism failure for knotless anchors (SB knotless: 0.0%; SB knotted: 38.1%; HB knotless: 38.1%).) Conclusion: The SB knotless, SB knotted, and HB knotless labral fixation anchors studied exhibited comparable elongation during cyclic loading, stiffness, and ultimate loads to failure in a cadaveric model. However, the failure mechanisms significantly differed, as SB knotless anchors failed primarily from suture pull-through, while SB knotted and HB knotless anchors were subject to knot failure and locking mechanism failure, respectively. Clinical Relevance: These data support the benefit of SB knotless anchors for anteroinferior labral repair in limiting knot failure typically seen with knotted anchors, perhaps demonstrating that all-suture anchors may have better locking mechanism quality than their PEEK counterparts. [ABSTRACT FROM AUTHOR]

Published

2023