Kévin Brochard scite author profile

Kévin Brochard

5Publications

22Citation Statements Received

0Citation Statements Given

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Affiliations

Institut de Recherche en Génie Civil et Mécanique

Publications

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Effect of Microfracture on Meniscal Tear Healing in a Goat ( Capra hircus ) Model

Howarth¹,

Brochard²,

Campbell³

et al. 2016

Orthopedics

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Meniscal injuries are an extremely common cause of knee pain. Meniscal repairs performed with concomitant anterior cruciate ligament reconstruction appear to heal at a higher rate than meniscal repairs performed in isolation. This may be due in part to the release of marrow elements into the knee and the time of meniscal repair. In cases of isolated meniscal repair, some orthopedic surgeons use microfracture to release marrow elements into the joint as an adjunct to enhance meniscal healing. This study evaluated rates of meniscal tear healing with or without the performance of microfracture in a goat (Capra hircus) model. Forty castrated young adult male goats underwent either a horizontal or a longitudinal 1.0-cm meniscal tear with or without microfracture. All procedures were performed open, in a bloodless field. Meniscal tears were created in the peripheral half of the body of the medial meniscus. The goats were euthanized at 6 months, and meniscal tears were analyzed and classified as complete healing, partial healing, or no healing by direct visualization. A probe was used as an aid to evaluate and classify the meniscal tears. Twenty (87%) of 23 goat meniscal tears showed at least partial healing when performed with concomitant microfracture. Only 5 (29%) of 17 menisci showed any healing in goats that did not receive microfracture. This difference in healing rates was statistically significant (P<.001). Fifteen (65%) meniscal tears accomplished with microfracture were completely healed, whereas only 2 (12%) menisci showed complete healing without microfracture (P<.001). The results of this study suggest that the release of bone marrow elements into the knee by microfracture improves meniscal healing rates.

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Extension of the string-on-foundation method to study the shock wave response of an immersed cylinder

Brochard

Sourne

Barras

2018

International Journal of Impact Engineering

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Estimation of the response of a deeply immersed cylinder to the shock wave generated by an underwater explosion

2020

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Resistance of Composite Structures Under Extreme Hydrodynamic Loads

BERTHELOT¹,

Brochard²,

BLOCH³

et al. 2022

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Tenue des structures composites sous chargements hydrodynamiques sévères

PETITEAU¹,

BERTHELOT²,

Brochard³

et al. 2022

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Kévin Brochard

Effect of Microfracture on Meniscal Tear Healing in a Goat ( Capra hircus ) Model

Extension of the string-on-foundation method to study the shock wave response of an immersed cylinder

Estimation of the response of a deeply immersed cylinder to the shock wave generated by an underwater explosion

Resistance of Composite Structures Under Extreme Hydrodynamic Loads

Tenue des structures composites sous chargements hydrodynamiques sévères

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