Spine Trauma Resource Priorities in Sub-Saharan Africa: A Delphi Approach.
Charlotte F Wahle, Chellandra Samuels, Shravya Kakulamarri, Babapelumi Adejuyigbe, Trisha Tee, Francisco Gomez Alvarado, Saam Morshed, Ashraf N El Naga, David W Shearer, David Gendelberg, East Africa Spine Trauma Network, Africa Spine Trauma Delphi Study Group
Abstract
Open AccessStudy DesignDelphi study.ObjectiveOptimal spine trauma care requires extensive resource availability and training. In LMICs, where resources and training are scarcer, spine trauma represents a major source of disability and public health burden. This study aimed to evaluate the highest priority resource needs for spine surgeons in sub-Saharan Africa in order to provide safe, high-quality spine trauma care.MethodsThis study utilized a Delphi methodology with three electronic surveys. Participants were identified through the Continental Association of African Neurosurgical Societies (CAANS) and College of Surgeons of East, Central, and Southern Africa (COSECSA) networks. Response collection lasted from August 2024 to May 2025. The initial survey was an open-ended collection of all spine trauma resource priorities. In each subsequent round, participants rated topics on a Likert scale from 1 (most important) to 9 (least important). Consensus was defined as topics ranked 1, 2 or 3 (highly important) by >70% of participants.ResultsInvitations were sent to 75 potential participants, with 36 participating in round one. Thirty-four participants (94.4%) and thirty-five (97.2%) completed the second and third consensus rounds respectively. Fifty-one items reached consensus. The most highly rated items included braces/c-collars, spine training/education of emergency room physicians and surgeons, and access to implants. Items not reaching consensus included microscopes, endoscopes, navigation and specialized auxiliary personnel.ConclusionGiven the high burden of traumatic spine injury and resource needs in these regions, efforts should be focused on providing essential resources related to timely stabilization of the spine over advanced tools and technologies.