Mario J. Ciani scite author profile

The annual incidence and number of repairs of SLAP lesions in the United States are constantly increasing. Surgical repairs of type II SLAP lesions have overall good success rates. However, a low satisfaction rate and low rate of return to preinjury level of play remain a challenge with elite overhead and throwing athletes. Recent anatomic studies suggest that current surgical techniques over-tension the biceps anchor and the superior labrum. These studies suggest that restoration of the normal anatomy will improve clinical outcomes and sports performance. We present a "double-pulley" technique for arthroscopic fixation of type II SLAP lesions. In this technique the normal anatomy is respected by preserving the mobility of the articular aspect of the superior labrum while reinforcing the biceps anchor and its posterior fibers medially.

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White-Tailed Deer as an Ex Vivo Knee Model: Joint Morphometry and ACL Rupture Strength

Zaino

Hedgeland

Ciani

et al. 2016

Ann Biomed Eng

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Animal joints are valuable proxies for those of humans in biomechanical studies, however commonly used quadruped knees differ greatly from human knees in scale and morphometry. To test the suitability of the cervine stifle joint (deer knee) as a laboratory model, gross morphometry, ACL cross section, and ACL rupture strength were measured and compared to values previously reported for the knees of humans and commonly studied animals. Twelve knee joints from wild white-tailed deer were tested. Several morphometry parameters, including bicondylar width (53.5 ± 3.0 mm) and notch width (14.7 ± 2.5 mm), showed a high degree of similarity to those of the human knee, while both medial (16.7 ± 2.1°) and lateral (17.6 ± 4.7°) tibial slopes were steeper than in humans but less steep than other quadrupeds. The median ACL rupture force (2054 N, 95% CI 2017-2256 N), mean stiffness (260 ± 166 N/mm), mean length (33 ± 7 mm), and mean cross sectional area (44.8 ± 18.3 mm) were also comparable to previously reported values for human knees. In our limited sample size, no significant sexual dimorphism in strength or morphometry was observed (p ≥ 0.05 for all parameters), though female specimens generally had steeper tibial slopes (lateral: p = 0.52, medial: p = 0.07). Our results suggest that the deer knee may be a suitable model for ex vivo studies of ACL rupture and repair.

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The Combined “Double-Pulley” Simple Knot Technique for Arthroscopic Transtendon Fixation of Partial Articular-Sided Tear of the Subscapularis Tendon

Parnes

Carey²,

Ciani

et al. 2016

Arthroscopy Techniques

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Subscapularis tendon tears occur more frequently than previously suspected. Most subscapularis tendon tears are partial tears that have the potential to progress to complete tears. Repairs of partial tears of the tendon are performed to preserve normal shoulder function. This report describes a combined transtendon double-pulley and simple knot technique for repair of partial articular tears of the subscapularis tendon. This technique incorporates the advantages of transtendon repair, the double-pulley technique, and simple knot fixation.

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The Odocoileus virginianus Femur: Mechanical Behavior and Morphology

et al. 2016

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Biomechanical research relies heavily on laboratory evaluation and testing with osseous animal structures. While many femora models are currently in use, including those of the European red deer (Cervus elaphus), the Odocoileus virginianus femur remains undocumented, despite its regional abundance in North America. The objective of this study was to compare biomechanical and morphological properties of the Odocoileus virginianus femur with those of the human and commonly used animal models. Sixteen pairs of fresh-frozen cervine femora (10 male, 6 female, aged 2.1 ± 0.9 years) were used for this study. Axial and torsional stiffnesses (whole bone) were calculated following compression and torsion to failure tests (at rates of 0.1 mm/sec and 0.2°/sec). Lengths, angles, femoral head diameter and position, periosteal and endosteal diaphyseal dimensions, and condylar dimensions were measured. The results show that the cervine femur is closer in length, axial and torsional stiffness, torsional strength, and overall morphology to the human femur than many other commonly used animal femora models; additional morphological measurements are comparable to many other species’ femora. The distal bicondylar width of 59.3mm suggests that cervine femora may be excellent models for use in total knee replacement simulations. Furthermore, the cervine femoral head is more ovoid than other commonly-used models for hip research, making it a more suitable model for studies of hip implants. Thus, with further, more application-specific investigations, the cervine femur could be a suitable model for biomechanical research, including the study of ballistic injuries and orthopaedic device development.

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Considering an aortic arch anomaly in patients with dysphagia

Ciani

Gonzalez

Henson

et al. 2013

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Mario J. Ciani

The Double-Pulley Anatomic Technique for Type II SLAP Lesion Repair

White-Tailed Deer as an Ex Vivo Knee Model: Joint Morphometry and ACL Rupture Strength

The Combined “Double-Pulley” Simple Knot Technique for Arthroscopic Transtendon Fixation of Partial Articular-Sided Tear of the Subscapularis Tendon

The Odocoileus virginianus Femur: Mechanical Behavior and Morphology

Considering an aortic arch anomaly in patients with dysphagia

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