Creation of Superficial Temporal Arteriovenous Loop for Staged Free Tissue Transfer for Dural Coverage in the Setting of Radiation: A Case Report

Free tissue transfer for dural coverage can be challenging for various reasons. In the case of malignancy, patients often have received significant doses of radiation to the head and neck leading to fibrosis and osteoradionecrosis. Not only will free tissue transfer need to accommodate an often large defect but will need to protect intracranial contents. Recipient vessel quality and patency is often affected by comorbidities such as diabetes mellitus and coronary artery disease and can be compounded by radiation. Due to these factors, more proximal vessels in the head and neck are often pursued but due to insufficient length, often require vein grafts or arteriovenous loops to reach the donor vessels for anastomosis. This requires larger incisions and harvesting of lengthy veins. In this study, we discuss a technique of harvesting a small dorsal hand vein, that is hidden well in a hand crease, to create an arteriovenous loop between the superficial temporal vessels. Benefits include exploration of the recipient superficial temporal vessels prior to craniectomy without creating additional incisions, readily accessible recipient vessels to reach donor vessels without harvesting lengthy vein grafts, and allowing for arterialization of the superficial temporal vein leading to decreased venous congestion and thrombosis. While this can be done in 1 stage, we perform this in 2 stages to avoid an increased number of anastomoses and increased risk of flap failure. We present the case of an elderly male with multiple comorbidities and scalp osteoradionecrosis secondary to malignancy who this technique was successfully performed on.

Utilization of Intraparotid Segments of Superficial Temporal Vessels for Head and Scalp Free Flap Microanastomosis: A Clinical, Histological, and Cadaveric Study

Background The superficial temporal vessels (STV) are an underutilized target for head and neck microvascular reconstruction. Most surgeons regard the dissection as difficult, unreliable, and the anastomosis prone to vasospasm. The intraparotid course of the STV may provide more reliable flow without accompanying morbidity. Methods A retrospective review of patients who underwent head and scalp free flap reconstruction utilizing STV intraparotid segment was performed. Demographic factors such as intraoperative and postoperative complications are reported. Five bilateral cadaver heads were dissected to describe the relationship to the facial nerve. STV histology was performed on four of the cadavers, noting intraluminal diameter and vessel wall thickness. Results Thirty-nine patients underwent free flap reconstruction with anastomosis to intraparotid STVs. Defect etiology included tumor resection (71.8%), traumatic brain injury (10.3%), intracranial bleed (12.8%), and acute trauma (5.1%). Flaps transferred included anterolateral thigh (51.3%), latissimus (33.3%), thoracodorsal artery perforator (7.7%), radial forearm (2.8%), and vastus lateralis (5.1%). Two flaps (5.1%) required takeback for arterial thrombosis, with one incidence of total flap loss (2.8%). There were no instances of transient or permanent facial nerve damage nor sialocele. On cadaver dissection, three distinct vessel segments were identified. Segments 1 and 2 represented the STVs superior to the upper tragal border. Segment 3 (intraparotid segment) began at the upper tragal border and STVs enlarged with a targeted anastomosis point at an average of 16.3 mm medial and 4.5 mm inferior to the upper border of the tragus. The frontal branch coursed 11.7 mm inferior and 11.5 mm anterior to this point. On histology, the intraluminal diameter of segment 3 was significantly larger than segment 2 (1.2 vs. 0.9 mm, p = 0.007). Conclusion Head and neck free flap reconstruction with microanastomosis to the intraparotid segment of STVs can be safely and reliably performed.

Scalp replantation in a cervical spine injury patient: Lessons learnt

ABSTRACTTotal scalp avulsion injury with cervical spine injury is rare. This article is to describe the technical difficulties and precautions to be taken during anatomical replantation. The patients with cervical spine injury should not be considered as an absolute contraindication for anatomical replant if patients are fit for general anaesthesia. We found that the supratrochlear and supraorbital vessels which are anterior and superficial temporal vessels which are lateral can be used to replant without much technical difficulty. We conclude that anatomical replant is always better keeping in mind the technical limitations of anatomical replant in case of cervical spine injury.