Scaphometacarpal arthroplasty with a TOUCH® prosthesis: feasibility and biomechanical impact in a cadaver model.

In this cadaveric study, we compared the performance of the TOUCH® dual mobility trapeziometacarpal prosthesis implanted sequentially in the trapeziometacarpal joint and scaphometacarpal joint. Intraprosthetic mobility, implant dislocation, intraprosthetic impingement and the effect on scaphoid position were evaluated in six hands using radiographic measurements. The standard necks of 6-10 mm were used for trapeziometacarpal arthroplasty.

Scaphotrapeziotrapezoid joint loading during key pinch grip before and after trapeziometacarpal arthroplasty: a cadaver study.

In a previous cadaver study, we directly measured the load acting on the trapeziometacarpal joint for increasingly greater key pinch forces. We noted that the joint load ranges from 2 kg to 4 kg during progressively greater key pinch from 0.5 kg to 1.

Trapeziometacarpal joint loading during key pinch grip: A cadaver study.

To our knowledge, no study has directly measured the loads in the trapeziometacarpal joint during an isometric key pinch. The aim of this study was to measure the load acting on the trapeziometacarpal joint for increasingly greater key pinch forces (0.5 kg-1.

Assessment of trapezial prosthetic cup migration: A biomechanical study.

We performed a biomechanical study using 60 Sawbones® rigid foam blocks of two simulated densities (osteoporotic, n = 30 and non-osteoporotic, n = 30) and 10 cadaveric trapezium bones from fresh-frozen, unembalmed adult cadaver hands to assess the trapezial prosthetic cup migration with progressively greater compression loads (10-40 kg). Two cups from the Touch® prosthesis were compared: 9-mm conical cup and 9-mm spherical cup. Uniaxial compression tests were carried out using an MTS Criterion® Series 40 Electromechanical Testing System.