Scholarly journal addresses big jump in neurosurgery

A primary mission of academic neurosurgery is to identify, support, and amplify the voices of emerging investigators in a specialty defined by technical mastery, intellectual rigor, and a uniquely long and demanding training pathway. This special issue of Frontiers in Surgery - Rising Stars in Neurosurgery 2025, seeks to highlight young neurosurgeons who pursue research alongside their surgical practice. This issue's contributors include residents, fellows, and early-career faculty from institutions across the globe. Their work reflects the breadth and depth of contemporary neurosurgical inquiry, spanning pediatric epilepsy, vascular anomalies, neuro-inflammation, spinal biomechanics, and skull base neurosurgery. Together this work demonstrates neurosurgery's increasing reliance on translational science, precision diagnostics, and data-driven decision making. Moreover, the new age of artificial intelligence has arrived, and with it comes a profound shift in how neurosurgeons diagnose, prognosticate, and treat disease. From predictive analytics in perioperative care to molecular profiling of tumors and vascular malformations, the next generation of neurosurgeons will increasingly rely on artificial intelligence to personalize treatment and enhance clinical decision-making.

For example, two contributions in pediatric

neurosurgery exhibit this shift. The first represents institutional experience with intracranial neuromodulation in children with drug-resistant epilepsy by Uchitel et al. While initial trials utilizing deep brain stimulation and responsive neurostimulation excluded pediatric patients, important insights can be gleaned to achieve seizure control in this vulnerable population. This represents a key step both for safety and optimizing neurodevelopmental trajectory. A companion study by Fariyike et al. focuses on diagnostic challenges in pediatric epilepsy with focus on the role of somatic mutation in small cortical regions (Fariyike et al.). Using advanced molecular techniques, the authors reframe epilepsy as a genetic mosaic disorder. This perspective allows neurosurgeons to work as diagnostic collaborators, prior to resection or ablation, defining the underlying biology of the disease.

In cerebrovascular neurosurgery, an important article by Jabarkheel et al. explores the molecular underpinnings of brain arteriovenous malformations (AVMs) (Jabarkheel et al.). They present compelling evidence of the role of the KRAS/MAPK signaling pathways. This concept expands the definition of AVMs from a purely anatomical perspective, allowing for early pharmacological intervention that could displace current treatment paradigms of open surgery, endovascular embolization, or radiosurgery. This innovation at the intersection of molecular biology and vascular neurosurgery shows promise.

Outside of the basic science laboratory, continual improvement of neurosurgical operative techniques is essential. A study by Padmanaban et al. regarding carotid endarterectomy performed under regional anesthesia shows how thoughtful improvement of classic approaches can improve patient safety and outcomes (Padmanaban et al.). In an aging population with an increasing number of comorbidities, regional techniques allow for precise neurologic monitoring and less hemodynamic stress. Similarly, Fischer et al. compare lateral lumbar interbody fusion (LLIF) with release of the anterior longitudinal ligament (so-called "anterior column realignment") vs. standard LLIF techniques using expandable spacers (Fischer et al.). Their retrospective cohorts study provides valuable guidance for patients requiring complex deformity correction. As spine instrumentation becomes increasingly modular and patient-specific, this work helps refine surgical decision-making and support the personalization of care.

Beyond the scientific content, the most striking feature of this collection may be the academic mentorship exhibited among the contributors. The senior authors serve as mentors, collaborators, and sponsors for the rising stars featured here. Their role in fostering early-career development is critical. In a field where time is scarce and clinical productivity is often prioritized; meaningful mentorship is a strategic investment in the future of the discipline. These partnerships are not incidental; they are foundational to the survival of the neurosurgeon-scientist model. The international representation in this issue is equally noteworthy. Contributors hail from institutions in the United States, Europe, Africa and Asia, reflecting a growing recognition that academic neurosurgery must be inclusive and globally engaged.