The multidirectional roles of the anterior oblique ligament and dorsoradial ligament of the thumb carpometacarpal joint

Kalshoven, Josephine M.; Badida, Rohit; Morton, Amy M.; Molino, Janine; Weiss, Arnold‐Peter C.; Ladd, Amy L.; Crisco, Joseph J.

doi:10.1002/jor.25922

Journal Orthopaedic Research

2024

DOI: 10.1002/jor.25922

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The multidirectional roles of the anterior oblique ligament and dorsoradial ligament of the thumb carpometacarpal joint

Josephine M. Kalshoven,

Rohit Badida,

Amy M. Morton

et al.

Abstract: The multidirectional biomechanics of the thumb carpometacarpal (CMC) joint underlie the remarkable power and precision of the thumb. Because of the unconfined nature of thumb CMC articulation, these biomechanics are largely dictated by ligaments, notably the anterior oblique ligament (AOL) and the dorsoradial ligament (DRL). However, the rotational and translational stabilizing roles of these ligaments remain unclear, as evidenced by the variety of interventions employed to treat altered pathological CMC biome… Show more

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Morphological and Mechanical Property Differences in Trapeziometacarpal Ligaments of Healthy and Osteoarthritic Female Joints

Walker,

Gordon,

Chiaramonti

et al. 2024

Ann Biomed Eng

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Purpose To identify changes in morphological and mechanical properties in the volar ligament complex (VLC), dorsoradial ligaments (DRL), and posterior oblique ligaments (POL) in healthy and osteoarthritic female trapeziometacarpal (TMC) joints. Methods Twenty-four fresh-frozen female cadaveric TMCs were separated into (1) younger healthy/early-stage osteoarthritic, (2) elder healthy/early-stage osteoarthritic, and (3) advanced-stage osteoarthritic groups based on age and Eaton-Littler grading. Stress relaxation and load-to-failure testing were performed to characterize mechanical tensile properties. Light imaging and scanning electron microscopy (SEM)/energy dispersive spectroscopy (EDS) were performed to further assess enthesis structural integrity. Results The VLC in advanced-stage osteoarthritic TMCs had attenuated mechanical properties in stress relaxation experiments compared to the elder healthy/early-stage osteoarthritic specimens: Young’s modulus at 20% strain (P = 0.044), instantaneous (P = 0.023), relaxed (P = 0.017) moduli. VLCs in advanced-stage osteoarthritic TMCs also had significantly lower properties in the load-to-failure experiments compared to the younger healthy/early-stage osteoarthritic specimens: stiffness (P = 0.048), ultimate load (P = 0.017), toughness (P = 0.003). Light and SEM/EDS imaging revealed partial detachment and loss of enthesis mineral gradient at VLC metacarpal insertion in advanced-stage osteoarthritic specimens. There were no mechanical or structural changes in the DRL and POL between experiment groups. Conclusion VLC morphological and mechanical properties deteriorate across progressively severe osteoarthritis classifications while the DRL and POL remain unchanged. The attenuated mechanical properties of VLCs in advanced-stage osteoarthritic TMCs can be explained by ligament degradation as evidenced by partial detachment and loss of mineral gradient at the metacarpal insertion.

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Morphological and Mechanical Property Differences in Trapeziometacarpal Ligaments of Healthy and Osteoarthritic Female Joints

Walker,

Gordon,

Chiaramonti

et al. 2024

Ann Biomed Eng

View full text Add to dashboard Cite

show abstract

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The multidirectional roles of the anterior oblique ligament and dorsoradial ligament of the thumb carpometacarpal joint

Cited by 1 publication

References 48 publications

Morphological and Mechanical Property Differences in Trapeziometacarpal Ligaments of Healthy and Osteoarthritic Female Joints

Morphological and Mechanical Property Differences in Trapeziometacarpal Ligaments of Healthy and Osteoarthritic Female Joints

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