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We report the surgical management of a spontaneous and recurrent nasal fistula using a temporoparietal fascial flap for definitive treatment after several failed attempts to close the fistula by conventional approaches. Two formalin-fixed cadaveric human heads were also dissected to study the anatomy and surgical technique involved in the design of the temporoparietal fascial flap (AU)

Reportamos el manejo quirúrgico de una fístula nasal espontánea y recurrente utilizando un colgajo de fascia temporoparietal para el tratamiento definitivo después de varios intentos fallidos de cerrar la fístula mediante abordajes convencionales. También se diseccionaron 2 cabezas de cadáver humano y fijadas con formol para estudiar la anatomía y la técnica quirúrgica que intervienen en el diseño del colgajo de fascia temporoparietal (AU)

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BACKGROUND: Cadaver dissection remains one of the most reliable and safest ways to study anatomy, whereas computed tomography angiography (CTA) is an essential technology for enabling students to become familiar with human anatomy and surgical planning. Thus, the convergence of both radiologic and anatomic information is important for surgical success, especially in regions of complex anatomy such as the nasosinusal and skull base regions. Here we propose an experimental model in formalinized cadaver heads consisting of intravascular injection of colored latex and iodinated contrast mixture, followed by CTA scans of the nasosinusal and skull base arterial and venous systems before dissection. METHODS: Six cadaver heads that had been preserved for >5 years in 10% formaldehyde were immersed for 72 hours in a solution containing a dimethyldiethanol mono/dialkyloyl ester quaternary ammonium salt. In 5 of these heads, a mixture composed of latex, tissue ink, and iodinated contrast (Ultravist 300) was injected into the vascular system. CTA scans were performed sequentially after the injection, followed by endonasal and macroscopic dissections. RESULTS: There was good radiologic and macroscopic vessel uptake in 4 specimens, allowing a detailed anatomic study. CONCLUSIONS: An experimental model was made feasible by injecting iodinated contrast and colored latex into formalinized cadavers for CTA evaluation of the nasosinusal and skull base arterial and venous systems before performing dissections.

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Background Understanding the anatomy of the skull base is paramount for every skull base surgeon, particularly in light of the expanded endoscopic endonasal approaches, and of the refined surgical technique used in both medial and lateral approaches. A comprehensive knowledge of anatomy is the cornerstone for a safe surgery, maximizing resection and minimizing complications. The best study method is the careful dissection of fresh human cadaveric heads in a well-equipped anatomy laboratory. In this study, we describe our protocol for preparing cadaveric specimens without vascular injection, which had been preserved in a formaldehyde solution after treating them with a dimethyldioctadecylammonium chloride/distearyl dimethyl ammonium chloride solution (commercial fabric softener) and injecting the vascular system with latex. Method Six cadaveric specimens underwent our treatment and subsequent injection of the vascular system and dissection. Results All specimens showed a good penetration of the latex and a clear improvement of the malleability of the tissues was noticed. The authors agree that this technique improved the quality of the head and facilitated studying. Conclusion We consider this an effective treatment with latex, reaching small caliber vessels, and a greater malleability and flexibility of tissues, allowing better dissections, and greater anatomical exposure, making them suitable for skull base training, study, and research.