Lesions of the upper parapharyngeal space (UPPS) present a surgical challenge. The objective of this study was to ascertain the feasibility of a novel technique of modified transpterygoid approach to the UPPS.
Six fresh cadaveric specimens (12 sides) were dissected, developing a technique that includes en bloc mobilization of the lateral pterygoid plate and muscle to access the UPPS.
Following an endoscopic Denker\'s approach and the removal of posterolateral wall of the antrum, the lateral pterygoid plate was detached from the pterygoid process. Subsequently, the lateral pterygoid plate and muscle were displaced laterally as a unit, allowing the identification of the posterior trunk of V3 and the fat in prestyloid compartment. Dissecting off the styloid aponeurosis affords entering the poststyloid UPPS exposing the internal carotid artery, internal jugular vein, and cranial nerves IX to XII.
This novel modification of the endonasal transpterygoid approach offers a viable alternative for access to the UPPS.

Soft tissue defects of the forefoot represent a challenging surgical modality to reconstructive microsurgeons. This study describes the anatomical basis and design of the perforator-based intermediate dorsal pedal neurocutaneous vascular flap. Thirty fresh human lower limb specimens were injected with red latex and used for dissection of the dorsal vascular and neural anatomy of the foot. The direction and distribution of the intermediate dorsal cutaneous nerve and the vascular anatomy of the third dorsal artery of the plantar arch, along with the intermediate dorsal neurocutaneous nutrient vessels, were mapped. A simulated flap elevation procedure was performed on one fresh cadaver specimen. A clinical series of five cases is presented to demonstrate the feasibility of using the perforator-based intermediate dorsal pedal neurocutaneous vascular flap to reconstruct soft-tissue defects of the forefoot. The intermediate dorsal cutaneous nerve usually originates from the lateral branch of the superficial peroneal nerve. Crossing the surface of the cruciate ligament, it descends distally to the proximal part of the fourth intermetatarsal space and divides into the third and fourth dorsal metatarsal branches. The intermediate dorsal cutaneous neural nutrient vessels, which are multi-segmental and polyphyletic, offer innervation to the skin paddle of the flap elevated on the basis of the third dorsal perforator of the plantar arch. This perforator occupies a relatively constant position in the proximal part of the intermetatarsal space. It sends multiple tiny branches toward the intermediate dorsal cutaneous neural or paraneural nutrient vessel chain. In terms of clinical application, all flaps survived completely; one patient had partial loss of the skin graft. The design and anatomical basis of the intermediate dorsal pedal neurocutaneous vascular flap based on the third dorsal perforator of the plantar arch is a reliable reconstructive option for reconstructing small soft tissue defects in the forefoot. Clin. Anat. 31:1077-1084, 2018. © 2018 Wiley Periodicals, Inc.