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OBJECTIVE: Wide disparities in neurosurgical oncology care and treatment outcomes exist globally despite recent improvements in diagnostics and cancer therapy. To better understand the challenges to neurosurgical oncology care in low-resource settings, the authors collected data on national neurosurgical capacity and hospital diagnostic and treatment capacity across 7 national referral hospitals in 7 countries in sub-Saharan Africa (SSA). METHODS: In April 2023, a 42-item self-administered questionnaire was distributed to partner neurosurgeons at the 7 centers via REDCap to provide country- and hospital-level capacity data on neurosurgical oncology care. RESULTS: Neurosurgical and neurosurgical oncology care were reported to be available in a limited number of provinces, states, regions, and counties in 6 of the 7 countries. The general neurosurgical workforce density across the 7 countries ranged from 0.03 to 0.67 per 100,000 persons, and that of the pediatric neurosurgical workforce ranged from 0 to 0.05 per 100,000 persons. Two centers had no pediatric ICUs, and the remaining 5 centers had pediatric ICUs with bed capacities between 1 and 8. One hospital had neither a CT nor an MRI scanner available and relied solely on private diagnostic facilities for neuroimaging. Histopathology services were largely limited to basic histopathology staining only; molecular subtyping was available at a single center. Three hospitals offered pediatric anesthesia expertise. None of the hospitals offered subspecialty neuro-oncology care or had a pediatric neuro-oncologist. None of the 7 hospitals had formal neurocritical care, neuroradiology, or neuropathology expertise. Neither adjuvant chemotherapy nor radiotherapy was available at 3 centers. Rehabilitation was largely limited to basic physical and occupational therapy at all 7 centers. Although all 7 countries had a multiple health payer system, the payment structure differed across the 7 hospitals for different neurosurgical oncology services, with patients making out-of-pocket payments for all services in some cases. CONCLUSIONS: There are significant challenges to timely and quality neurosurgical oncology care in SSA especially for children. System-level interventions are needed to strengthen neurosurgical oncology care capacity in SSA.
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Background: Understanding of the epidemiology and biology of pediatric CNS tumors has advanced dramatically over the last decade; however there remains a discrepancy in the understanding of epidemiologic data and clinical capacity between high- and lower-income countries. Objective: We collected and analyzed hospital-level burden and capacity-oriented data from pediatric neurosurgical oncology units at 7 referral hospitals in Sub-Saharan Africa (SSA). Methods: A cross sectional epidemiological survey was conducted using REDCap at the 7 SSA sites, capturing 3-month aggregate data for patients managed over a total of 9 months. Descriptive statistical analyses for the aggregate data were performed. Results: Across the neurosurgical spectrum, 15% of neurosurgery outpatient and 16% of neurosurgery operative volume was represented by pediatric neuro-oncology across the 7 study sites. Eighty-six percent and 87% of patients who received surgery underwent preoperative CT scan and/or MRI respectively. Among 312 patients evaluated with a CNS tumor, 211 (68%) underwent surgery. Mean surgery wait time was 26.6 ± 36.3 days after initial presentation at the clinic. The most common tumor location was posterior fossa (n=94, 30%), followed by sellar/suprasellar region (n=56, 18%). Histopathologic analysis was performed for 189 patients (89%). The most common pathologic diagnosis was low grade glioma (n=43, 23%), followed by medulloblastoma (n=37, 20%), and craniopharyngioma (n=31, 17%). Among patients for whom adjuvant therapy was indicated, only 26% received chemotherapy and 15% received radiotherapy. Conclusion: The histopathologic variety of pediatric brain and spinal tumors managed across 7 SSA referral hospitals was similar to published accounts from other parts of the world. About two-thirds of patients received a tumor-directed surgery with significant inter-institutional variability. Less than a third of patients received adjuvant therapy when indicated. Multi-dimensional capacity building efforts in neuro-oncology are necessary to approach parity in the management of children with brain and spinal tumors in SSA.