Outcomes Following Exploratory Burr Holes for Traumatic Brain Injury in a Resource Poor Setting

Eaton, Jessica; Hanif, Asma Bilal; Mulima, Gift; Kajombo, Chifundo; Charles, Anthony

doi:10.1016/j.wneu.2017.05.153

Cited by 24 publications

(22 citation statements)

References 21 publications

(18 reference statements)

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“…4 For example, we published a retrospective study, using data made available by a local neurosurgeon, to evaluate the effectiveness of exploratory burr holes in the reduction of mortality in patients with severe traumatic brain injury and localizing signs when CT scanners were unavailable. 3,7 These data were accessible because the local neurosurgeon kept separate records of her own, making the data more complete than normal Malawian hospital records. However, as we highlighted in the publication, the discordant nature of the UNC trauma database used to gather a control group of patients with severe TBI allowed for an imperfect comparison, at best, which may have affected our analysis.…”

Section: Resultsmentioning

confidence: 99%

Challenges and opportunities for effective data collection in global neurosurgery: traumatic brain injury surveillance experience in Malawi

Quinsey¹,

Eaton

Northam³

et al. 2018

Neurosurgical Focus

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Global health research can transform clinical and surgical practice worldwide. Partnerships between US academic centers and hospitals in low- and middle-income counties can improve clinical care at the host institution hospital and give the visiting institution access to a large volume of valuable research data. Recognizing the value of these partnerships, the University of North Carolina (UNC) formed a partnership with Kamuzu Central Hospital (KCH) in Lilongwe, Malawi.The Department of Neurosurgery joined the partnership with KCH and designed a Head Trauma Surveillance Registry. The success of this registry depended on the development of methods to accurately collect head injury data at KCH. Since medical record documentation is often unreliable in this setting, data collection teams were implemented to capture data from head trauma patients on a 24-hours-a-day, 7-days-a-week basis. As data collection improved, pilot groups tested methods to collect new variables and the registry expanded. UNC provided onsite and remote oversight to strengthen the accuracy of the data.Data accuracy still remains a hurdle in global research. Data collection teams, oversight from UNC, pilot group testing, and meaningful collaboration with local physicians improved the accuracy of the head trauma registry. Overall, these methods helped create a more accurate epidemiological and outcomes-centered analysis of brain injury patients at KCH to date.

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Section: Resultsmentioning

confidence: 99%

Challenges and opportunities for effective data collection in global neurosurgery: traumatic brain injury surveillance experience in Malawi

Quinsey¹,

Eaton

Northam³

et al. 2018

Neurosurgical Focus

Self Cite

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“…As of 2010, there were only 12 papers examining TBI management in non-high-income settings, only 1 of which was from a low-income country. 2,21 Despite a recent increase in published data on TBI management and outcomes in LMICs, 9,10,13,22,27 there are no previous studies applying survival analyses to inpatient TBI outcomes data.…”

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confidence: 99%

An evaluation of outcomes in patients with traumatic brain injury at a referral hospital in Tanzania: evidence from a survival analysis

Elahi

Rocha

Silva

et al. 2019

Neurosurgical Focus

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OBJECTIVEThe purpose of this study was to determine if patients with traumatic brain injury (TBI) in low- and middle-income countries who receive surgery have better outcomes than patients with TBI who do not receive surgery, and whether this differs with severity of injury.METHODSThe authors generated a series of Kaplan-Meier plots and performed multiple Cox proportional hazard models to assess the relationship between TBI surgery and TBI severity. The TBI severity was categorized using admission Glasgow Coma Scale scores: mild (14, 15), moderate (9–13), or severe (3–8). The authors investigated outcomes from admission to hospital day 14. The outcome considered was the Glasgow Outcome Scale–Extended, categorized as poor outcome (1–4) and good outcome (5–8). The authors used TBI registry data collected from 2013 to 2017 at a regional referral hospital in Tanzania.RESULTSOf the final 2502 patients, 609 (24%) received surgery and 1893 (76%) did not receive surgery. There were significantly fewer road traffic injuries and more violent causes of injury in those receiving surgery. Those receiving surgery were also more likely to receive care in the ICU, to have a poor outcome, to have a moderate or severe TBI, and to stay in the hospital longer. The hazard ratio for patients with TBI who underwent operation versus those who did not was 0.17 (95% CI 0.06–0.49; p < 0.001) in patients with moderate TBI; 0.2 (95% CI 0.06–0.64; p = 0.01) for those with mild TBI, and 0.47 (95% CI 0.24–0.89; p = 0.02) for those with severe TBI.CONCLUSIONSThose who received surgery for their TBI had a lower hazard for poor outcome than those who did not. Surgical intervention was associated with the greatest improvement in outcomes for moderate head injuries, followed by mild and severe injuries. The findings suggest a reprioritization of patients with moderate TBI—a drastic change to the traditional practice within low- and middle-income countries in which the most severely injured patients are prioritized for care.

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“…When a patient suffers a traumatic head injury (THI), such as an expanding epidural hematoma (EDH), or subdural hematoma (SDH), usually, a neurosurgeon will take an urgent operative intervention to relieve pressure on the brain and control hemorrhaging [ 56 , 74 ]. When this happens in rural and remote areas where neurosurgeons may not be readily available, surgical intervention by community general surgeons (CGS) may be required to prevent progressive neurological impairment or possible death of the patient [ 34 , 78 , 87 ]. Even with the remote assistance by a skilled neurosurgeon through video call, the stress of an emergency and a CGS’s rare hands-on experience may increase the risk of surgical complications [ 56 ].…”

Section: Maxsimhealth Projectsmentioning

confidence: 99%

maxSIMhealth: An Interconnected Collective of Manufacturing, Design, and Simulation Labs to Advance Medical Simulation Training

Brooks

Brahman²,

Kapralos

et al. 2021

Intelligent Systems Reference Library

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maxSIMhealth is a multidisciplinary collaborative manufacturing, design, and simulation laboratory at Ontario Tech University in Oshawa, Canada combining expertise in Health Sciences, Computer Science, Engineering, Business and Information Technology, aiming at building community partnerships to advance simulation training. It focuses on existing simulation gaps, while providing innovative solutions that can change the status quo, thus leading to improved healthcare outcomes comprised of cutting-edge training opportunities. maxSIMhealth utilizes disruptive technologies (e.g., 3D printing, gaming, and emerging technologies such as extended reality) as innovative solutions that deliver cost-effective, portable, and realistic simulation catering the high variability of users and technologies, which is currently lacking. maxSIMhealth is a novel collaborative innovation with aims to develop future cohorts of scholars with strong interdisciplinary competencies to collaborate in new environments and to communicate professionally for successful medical-tech problem solving. The work being conducted within maxSIMhealth will transform the current health professional education landscape by providing novel, flexible, and inexpensive simulation experiences. In this chapter, a description of maxSIMhealth is provided along with an overview of several ongoing projects.

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Outcomes Following Exploratory Burr Holes for Traumatic Brain Injury in a Resource Poor Setting

Cited by 24 publications

References 21 publications

Challenges and opportunities for effective data collection in global neurosurgery: traumatic brain injury surveillance experience in Malawi

Challenges and opportunities for effective data collection in global neurosurgery: traumatic brain injury surveillance experience in Malawi

An evaluation of outcomes in patients with traumatic brain injury at a referral hospital in Tanzania: evidence from a survival analysis

maxSIMhealth: An Interconnected Collective of Manufacturing, Design, and Simulation Labs to Advance Medical Simulation Training

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