Coconut Model for Learning First Steps of Craniotomy Techniques and Cerebrospinal Fluid Leak Avoidance.

INTRODUCTION: Neurosurgery simulation has gained attention recently due to changes in the medical system. First-year neurosurgical residents in low-income countries usually perform their first craniotomy on a real subject. Development of high-fidelity, cheap, and largely available simulators is a challenge in residency training. An original model for the first steps of craniotomy with cerebrospinal fluid leak avoidance practice using a coconut is described. MATERIAL AND METHODS: The coconut is a drupe from Cocos nucifera L. (coconut tree). The green coconut has 4 layers, and some similarity can be seen between these layers and the human skull. The materials used in the simulation are the same as those used in the operating room. PROCEDURE: The coconut is placed on the head holder support with the face up. The burr holes are made until endocarp is reached. The mesocarp is dissected, and the conductor is passed from one hole to the other with the Gigli saw. The hook handle for the wire saw is positioned, and the mesocarp and endocarp are cut. After sawing the 4 margins, mesocarp is detached from endocarp. Four burr holes are made from endocarp to endosperm. Careful dissection of the endosperm is done, avoiding liquid albumen leak. The Gigli saw is passed through the trephine holes. Hooks are placed, and the endocarp is cut. After cutting the 4 margins, it is dissected from the endosperm and removed. The main goal of the procedure is to remove the endocarp without fluid leakage. DISCUSSION: The coconut model for learning the first steps of craniotomy and cerebrospinal fluid leak avoidance has some limitations. It is more realistic while trying to remove the endocarp without damage to the endosperm. It is also cheap and can be widely used in low-income countries. However, the coconut does not have anatomic landmarks. The mesocarp makes the model less realistic because it has fibers that make the procedure more difficult and different from a real craniotomy. CONCLUSION: The model has a potential pedagogic neurosurgical application for freshman residents before they perform a real craniotomy for the first time. Further validity is necessary to confirm this hypothesis.

Tratamento cirúrgico do traumatismo raquimedular por arma branca retida em coluna cervical: relato de caso / Surgical Treatment for Spinal Cord Injury Caused by Knife Held in Cervical Spine: Case Report

As lesões traumáticas da medula espinhal provocadas por objetos perfurantes retidos são raras e configuram um desafio para o cirurgião da coluna vertebral. A cirurgia precoce pode minimizar o risco de sequela neurológica. Exames de diagnósticos por imagem são fundamentais para o planejamento e sucesso terapêutico, mas não devem retardar o tratamento cirúrgico. Os autores descrevem um caso de lesão medular por arma branca retida provocando a síndrome de Brown-Séquard e discutema abordagem terapêutica. Os objetivos da cirurgia são a retirada do objeto retido, sem causar déficit motor ou sensitivo adicional, e a correção da lesão dural e de eventuais instabilidades da coluna.

Traumatic spinal cord injuries caused by perforating retained objects are rare and challenging for spinal surgeons. Early surgery can minimize the risk of neurological sequelae. Diagnostic imaging exams are essential for planning and therapeutic success, but should not delay surgical treatment. The authors describe a case of spinal cord injury by stab retained causing Brown-Sequard syndrome and discuss the therapeutic approach. The goal of surgery is the removal of the object retained without causing additional motor or sensory deficit, fix the dural injury and possible spinal instabilities.