Painful Peroneal Tendon Subluxation in a Patient With a Prior Ankle Fusion.

This case report describes a patient who underwent an ankle fusion using a lateral approach and fibular-onlay strut 14 years ago. She presented with increasing lateral ankle pain and giving way. Despite bracing and steroid injections, she had continued symptoms and surgery for hardware removal was recommended. While under anesthesia, she was found to have subluxation of her peroneal tendons. Operative findings included impingement of the peroneal brevis on the screw head from her fibular-onlay strut and a peroneal tendon tear. Hardware removal, a peroneal tenodesis, and reconstruction of the peroneal retinaculum were performed with a good clinical result.Level of Evidence: V (case report).

Axial Growth Characteristics of Optically Active InGaAs Nanowire Heterostructures for Integrated Nanophotonic Devices.

III-V semiconductor nanowire (NW) heterostructures with axial InGaAs active regions hold large potential for diverse on-chip device applications, including site-selectively integrated quantum light sources, NW lasers with high material gain, as well as resonant tunneling diodes and avalanche photodiodes. Despite various promising efforts toward high-quality single or multiple axial InGaAs heterostacks using noncatalytic growth mechanisms, the important roles of facet-dependent shape evolution, crystal defects, and the applicability to more universal growth schemes have remained elusive. Here, we report the growth of optically active InGaAs axial NW heterostructures via completely catalyst-free, selective-area molecular beam epitaxy directly on silicon (Si) using GaAs(Sb) NW arrays as tunable, high-uniformity growth templates and highlight fundamental relationships between structural, morphological, and optical properties of the InGaAs region. Structural, compositional, and 3D-tomographic characterizations affirm the desired directional growth along the NW axis with no radial growth observed. Clearly distinct luminescence from the InGaAs active region is demonstrated, where tunable array-geometry parameters and In content up to 20% are further investigated. Based on the underlying twin-induced growth mode, we further describe the facet-dependent shape and interface evolution of the InGaAs segment and its direct correlation with emission energy.

Anterior tibial artery and deep peroneal nerve entrapment in spiral distal third tibia fracture.

The rate of injury to arterial structures following long bone injuries is low. The rate in tibial diaphyseal fractures is similarly low. This rate increases with open fractures, likely reflective of the higher energy nature of open fractures. The possibility of iatrogenic injury to neurovascular structures during fracture fixation is more concerning. Consequently, the clinician must be aware of the location of neurovascular structures and the possible distortion of the normal anatomy when treating fractures. The anterior tibial artery is in proximity to the distal tibia. Typically, the neurovascular bundle lies directly on the anterolateral tibia between the tibialis anterior and the extensor hallucis longus in the distal third of the tibia. After fracture, this normal relationship may be disrupted.