Search Results (128)

Background: The prognostic relevance of surgical timing at glioblastoma recurrence remains uncertain, and definitions of early versus delayed reoperation vary widely. Whether earlier surgery provides meaningful survival or functional benefit has not been clearly established. Methods: Databases including PubMed, Embase, Scopus, and Web of Science were searched from inception to May 2025. Eighteen observational studies met the inclusion criteria, fourteen of which provided extractable hazard ratios for survival. The primary outcome was overall survival after reoperation; secondary outcomes included functional status (ΔKPS or discharge home) and major postoperative complications. Random-effects models with Hartung–Knapp adjustment were used, with subgroup analyses stratified by KPS, extent of resection, and eloquence. Results: Across 2267 reoperated patients from 14 survival studies, earlier reoperation was associated with significantly longer survival (pooled HR 0.86; 95% CI 0.78–0.95). Subgroup analyses showed stronger effects in patients with KPS ≥ 70 (HR 0.81; 95% CI 0.72–0.92), non-eloquent tumors (HR 0.84; 95% CI 0.75–0.94), and near-total/gross-total resection (HR 0.79; 95% CI 0.68–0.93). Functional outcomes were pooled from 9 studies (n = 1182), demonstrating higher odds of postoperative stability or improvement with early surgery (OR 1.28; 95% CI 1.12–1.46). Major complications were reported in 9 studies (n = 1344) and did not differ between groups (OR 0.98; 95% CI 0.81–1.19). Sensitivity analyses and influence diagnostics showed consistent effect estimates and no undue single-study influence. Conclusions: Earlier reoperation for recurrent glioblastoma is associated with improved survival and better functional outcomes without increased morbidity in appropriately selected patients. Surgical timing should be incorporated into multidisciplinary planning. Prospective studies with standardized timing definitions and time-dependent modeling are needed to validate these findings. Full article

This article reinterprets the doctrine of iʿjāz al-Qurʾān (the inimitability of the Qurʾān) by shifting the question from what makes the Qurʾān miraculous to how it is miraculous. It argues that the Qurʾān’s primary miracle lies not merely in its content, i.e., its eloquence or correspondence with scientific truth, but in its method: the transformation of the very frameworks through which knowledge, reason, and revelation were understood. Using Muḥammad ʿĀbid al-Jābirī’s tripartite epistemology of bayān (expressive reasoning), burhān (demonstrative reasoning), and ʿirfān (reflective reasoning) together with Gadamer’s “fusion of horizons,” the article argues that the Qurʾān can be read as fusing and transcending these three systems, uniting Arabic eloquence, Greek rationalism, and Persian–gnostic spirituality into a single, holistic discourse. Through close analysis of key passages, such as Abraham’s dialectical reasoning in Sūrat al-Anbiyāʾ and the metaphysics of light in Āyat al-Nūr, the article shows how the Qurʾān integrates poetic language, rational argument, and mystical depth to create an epistemic design that addresses intellect, emotion, and spirit simultaneously. This synthesis allows the Qurʾān to be interpreted, within classical and later exegetical traditions, not only as a linguistic or theological miracle but as a paradigmatic reconfiguration of cognition: one that these traditions understood as teaching readers how to think, reflect, and awaken. Full article

Background/Objectives: Arteriovenous malformations (AVMs) in the dominant temporo-parieto-occipital (TPO) junction of the brain are extremely rare and very difficult to remove surgically because this area includes multiple sensory and language networks. Due to the fact that many patients present with bleeding, surgeons have to find a delicate balance between removing all of the AVM tissue and preserving the functional areas of the brain where important functions occur. This study is reporting a case demonstrating how precise clinical–radiologic correlation, detailed anatomical knowledge, and deliberate microsurgical techniques can allow safe removal of the AVM and improve the patient’s neurologic function without the need for additional intraoperative technology. Case Presentation: A 47-year-old right-handed male patient experienced persistent neurological deficits after experiencing a hemorrhage from an AVM in his dominant posterior hemisphere, which included mild language difficulties, right hemifacial–brachial spasticity, parietal sensory loss and a visual field defect of his right eye known as an inferior quadrantanopia localized to the TPO junction. Cerebral angiography identified a small, compact, high-flow AVM (40 × 30 mm) fed by distal branches of the middle cerebral artery (M4), posterior cerebral artery (P4), anterior cerebral artery (A4), as well as a small branch of the superior cerebellar artery (SCA). Blood drained into two veins of the Trolard and Labbé. The authors removed the AVM completely by circumferential dissection of the nidus along gliotic planes using a microscope. Feeders were then sequentially disconnected, and the venous outflow was preserved until the AVM could be removed en bloc. Post-operative angiograms demonstrated complete removal of the AVM with normalization of blood flow to the surrounding cortex. The patient’s neurologic function improved over time and at three months post-operatively, he was functioning independently (modified Rankin Scale = 1; Barthel Index = 100) and there was no evidence of residual nidus or edema on imaging. Conclusions: High-flow AVMs in the dominant TPO junction can be completely removed using a disciplined microsurgical approach and a feeder first/vein last disconnection method based on anatomy. The patient’s improvement in function represented reperfusion and reintegration of an injured but still functional network of the brain, reinforcing the idea that careful observation, a deep understanding of brain anatomy, and restrained surgical technique are critical to achieving long-term results in AVM surgery. Full article

The intellectual legacy of the Baṣrān Muʿtazila has had a profound and lasting impact on the development of discussions on Qurʾānic inimitability. Numerous writings have been composed by Baṣrān Muʿtazila on the topic; among them is Iʿjāz al-Qurʾān by Abū Rashīd al-Naysābūrī, an unpublished manuscript preserved in the King Saud University Library under the number 7752. This paper focuses on the development of al-Naysābūrī’s understanding of Qurʾānic inimitability in the context of this manuscript, especially analysing his reception of early Muʿtazilī (specifically Bahshamī) thoughts on Qurʾānic inimitability. Moreover, it pays particular attention to al-Naysābūrī’s engagement with the critiques directed against the Bahshamī theory of Qurʾānic inimitability. This paper adopts a source-criticism approach to studying the manuscript and evaluating the historical development of its contents. It argues that the theoretical foundation underlying the theory of miraculous eloquence developed by ʿAbd al-Jabbār drew al-Naysābūrī’s attention towards a deep engagement with hypothetical dialogues inspired by the refutations of questions concerning Qurʾānic inimitability posed by the freethinkers’ movement. This engagement prompted al-Naysābūrī to adopt and assess numerous hypothetical frameworks and conditional views, including the ṣarfa theory, in his defence of Qurʾānic inimitability. This approach of addressing the freethinker critiques aligns greatly with the dynamic and responsive nature of Baṣrān Muʿtazila’s thoughts against freethinkers’ movement. Full article

Objective: Gliomas disrupt functional brain networks and impair neurological functions. While left-hemispheric tumors are well-studied because of their impact on language domains, the influence of right-sided gliomas on higher cognitive functions remains less understood. This study aimed to assess pre- and postoperative neurocognitive performance and to link cognitive outcomes with structural findings derived from function-based tractography in patients with right-hemispheric gliomas. Methods: Patients with gliomas were enrolled in this prospective observational study. A structured neurocognitive test battery was administered preoperatively, postoperatively, and at 3-month follow-up. Preoperative cortical mapping using navigated transcranial magnetic stimulation (nTMS) and function-based fiber tracking, based on diffusion tensor imaging (DTI), was performed. Results: Eighteen patients aged 52.7 ± 18.3 years were included. Preoperatively, 88.8% of patients showed impairments in at least one cognitive test, most frequently in the Nine-Hole Peg Test (66.7%), Bells Test task completion time (61.1%), Trail Making Test A and B (TMT-A: 50.0%; TMT-B: 44.4%), and digit symbol substitution test (27.8%). At follow-up, task performance improved on most cognitive tests. Function-based tractography showed that involvement of the superior longitudinal fasciculi I–III (44.4% of cases) was associated with impairments in attention, executive function, visuospatial processing, and processing speed. The involvement of the inferior frontooccipital fasciculus (55.5% of cases) was related to deficits in processing speed, attention, executive function, and episodic memory. Conclusions: Neurocognitive deficits are common in patients with right-hemispheric gliomas even before surgery. Maximal safe resection and sparing of these tracts is associated with cognitive recovery at follow-up. Function-based tractography emphasizes the structural involvement of key association fibers related to these cognitive deficits. Full article

Advances in neuroimaging and intraoperative mapping have transformed brain tumour surgery from anatomy-based resection to function-guided intervention. This review synthesises current evidence on multimodal strategies for maximising tumour removal while preserving cognitive and neurological function. Integrating task-based and resting-state functional MRI (fMRI), diffusion tensor imaging (DTI), tractography, and connectomic analysis enables personalised mapping of eloquent and cognitive networks. Intraoperatively, awake craniotomy with direct electrical stimulation (DES) remains the gold standard for real-time functional validation, while adjuncts such as intraoperative MRI (iMRI), 5-aminolevulinic acid (5-ALA) fluorescence, and ultrasound-based extended resection accuracy. However, these technologies present unique limitations, including neurovascular uncoupling in fMRI, tract distortion in DTI, and resource constraints in low-income settings. Our review differentiates their application across low-grade and high-grade gliomas, emphasising that tumour biology determines the balance between neuroplasticity-driven mapping and imaging-guided radicality. Key future priorities include validation of multimodal imaging protocols, integration of longitudinal neuropsychological outcomes, and development of interpretable connectomic models. Addressing the technological and ethical challenges of high-field MRI, data standardisation, and cost-effective implementation will be essential for equitable global adoption. Ultimately, the evolution of functional neurosurgery depends not only on new technologies but on integrating multimodal evidence and patient-centred outcome measures to achieve reproducible, safe, and personalised brain tumour surgery. Full article

Drug-resistant epilepsy affects nearly one-third of individuals with epilepsy and remains a major cause of neurological morbidity worldwide. Surgical intervention offers a potential cure, but its success critically depends on the precise identification of the epileptogenic zone and the preservation of eloquent cortical and subcortical regions. This review aims to provide a comprehensive synthesis of current evidence on the role of multimodal neuroimaging in the personalized presurgical evaluation and planning of epilepsy surgery. We analyze how structural, functional, metabolic, and electro-physiological imaging modalities contribute synergistically to improving localization accuracy and surgical outcomes. Structural MRI remains the cornerstone of presurgical assessment, with advanced sequences, post-processing techniques, and ultra-high-field (7 T) MRI enhancing lesion detection in previously MRI-negative cases. Functional and metabolic imaging, including FDG-PET, ictal/interictal SPECT, and arterial spin labeling MRI, offer complementary insights by revealing regions of altered metabolism or perfusion associated with seizure onset. Functional MRI enables non-invasive mapping of language, memory, and motor networks, while diffusion tensor imaging and tractography delineate critical white-matter pathways to minimize postoperative deficits. Electrophysiological integration through EEG source imaging and magnetoencephalography refines localization when combined with MRI and PET data, forming the basis of multimodal image integration platforms used for surgical navigation. Our review also briefly explores emerging intraoperative applications such as augmented and virtual reality, intraoperative MRI, and laser interstitial thermal therapy, as well as advances driven by artificial intelligence, such as automated lesion detection and predictive modeling of surgical outcomes. By consolidating recent developments and clinical evidence, this review underscores how multimodal imaging transforms epilepsy surgery from a lesion-centered to a patient-centered discipline. The purpose is to highlight best practices, identify evidence gaps, and outline future directions toward precision-guided, minimally invasive, and function-preserving neurosurgical strategies for patients with drug-resistant focal epilepsy. Full article

Intracranial cavernous malformations (CMs) are angiographically occult, slow-flow vascular lesions composed of dilated, mulberry-like capillary clusters lacking intervening brain parenchyma. CMs typically have a low annual hemorrhage risk and are often discovered incidentally. Most patients are asymptomatic or exhibit mild neurological symptoms at the time of diagnosis. Despite decades of investigation, the optimal management of CMs remains controversial. Key clinical dilemmas include identifying which lesions warrant active treatment and when, selecting the best therapeutic approach based on patient age and lesion location (eloquent vs. non-eloquent areas), and determining how to address the hemosiderin rim often found surrounding the malformation. Additional questions involve the role of radiosurgery and appropriate management strategies during pregnancy. This review critically evaluates current literature concerning the natural history and treatment strategies for CMs, emphasizing evidence-based approaches to these unresolved issues. By summarizing and interpreting recent findings, we aim to provide a concise yet comprehensive overview to support clinicians in tailoring patient-specific management plans for this complex neurovascular pathology. Full article

Background: Glioblastomas (GBMs) in eloquent areas, particularly within the motor system, represent a significant surgical challenge due to the risk of postoperative neurological deficits. This study evaluates the effectiveness of a structured preoperative protocol, including nTMS-guided motor mapping, to optimize surgical outcomes and minimize neurological deficits, with a particular focus on the timing of adjuvant oncological therapy initiation. Methods: A retrospective analysis was conducted on 44 GBM patients, divided into two groups: 11 with motor area lesions (group A) and 33 with non-eloquent lesions (group B). All patients underwent a standardized preoperative protocol. Surgical outcomes (EORs), neurological function (MRC score and KPS index), time to oncological therapy initiation and survival (OS and PFS) were compared between groups. Results: Both groups achieved high rates of GTR without significant differences in EOR (72.7% group A vs. 78.8% group B). Although group A exhibited a higher incidence of postoperative motor deficits, motor function at three-month follow-up was similar between groups. Time to initiation of oncological therapy did not differ between groups (40.6 days group A vs. 41.9 days group B, p = 0.719), highlighting that preservation of motor function helped minimize delays in starting oncological therapy. No significant differences were found in survival outcomes. Conclusions: A structured preoperative protocol incorporating nTMS motor mapping allows for safe and aggressive resection of motor-area GBMs. This approach effectively mitigates the risk of delays in initiating adjuvant oncological therapy, optimizing the patient prognosis. Further studies are needed to explore the long-term benefits of this protocol in both functional and oncological outcomes. Full article

Background: Language mapping is a critical component of epilepsy surgery, as postoperative language deficits can significantly impact patients’ quality of life. Electrical stimulation mapping has emerged as a valuable tool for identifying eloquent areas of the brain and minimising post-surgical language deficits. However, recent studies have shown that language deficits can occur despite language mapping, potentially due to variability in stimulation techniques and language task selection. The validity of specific linguistic tasks for mapping different cortical regions remain inadequately characterised. Objective: To systematically evaluate the validity of linguistic tasks used during electrical cortical stimulation (ECS) for language mapping in epilepsy surgery, analyse task-specific responses across cortical regions, and assess current evidence supporting optimal task selection for different brain areas. Methods: Following PRISMA [2020] guidelines, a systematic literature search was conducted in PubMed and Scopus covering articles published from January 2013 to November 2025. Studies on language testing with electrical cortical stimulation in epilepsy surgery cases were screened. Two reviewers independently screened 956 articles, with 45 meeting the inclusion criteria. Data extraction included language tasks, stimulation modalities (ECS, SEEG, ECoG, DECS), cortical regions and language error types. Results: Heterogeneity in language testing techniques across various centres was identified. Visual naming deficits were primarily associated with stimulation of the posterior and basal temporal regions, fusiform gyrus, and parahippocampal gyrus. Auditory naming elicited impairments in the posterior superior and middle temporal gyri, angular gyrus, and fusiform gyrus. Spontaneous speech errors varied, with phonemic dysphasic errors linked to the inferior frontal and supramarginal gyri, and semantic errors arising from superior temporal and perisylvian parietal regions. Conclusions: Task-specific language mapping reveals distinct cortical specialisations, with systematic patterns emerging across studies. However, marked variability in testing protocols and inadequate standardisation limit reproducibility and cross-centre comparisons. Overall, refining and standardising the language task implementation process could lead to improved outcomes, ultimately minimising resection-related language impairment. Future research should validate task–region associations through prospective multicentre studies with long-term outcome assessment. Full article

Pediatric diffuse midline gliomas in the brainstem (bDMGs) are malignant primary brain neoplasms with poor prognosis. Conventional dogma cites that biopsy procedures have risks of devastating injury to the eloquent brainstem and have no direct benefit to affected patients. In recent years, the use of augmented reality (AR) adjuncts has demonstrated potential in providing excellent intraoperative three-dimensional (3D) visualization of intracranial structures. Put together, we hypothesize that the application of AR will be useful as a training tool for brainstem biopsy procedures. Anatomical models of bDMG tumors are created and uploaded to an AR application. The processed data is transferred into designated AR head-mounted devices. Briefly, individual 3D-rendered bDMG images are overlaid with an age-matched, life-sized child mannequin in prone position. A virtual stereotactic brain biopsy needle is deployed by the user into the lesion. At the end of the exercise, each user evaluates their trajectory of choice to assess its accuracy. Overall, the participants reported that the AR platform was useful in reviewing technical nuances for brainstem biopsy in a safe environment. This focused, proof-of-concept study adds to the growing body of literature that AR platforms demonstrate feasibility for neurosurgeons in the understanding of challenging operative neuroanatomy. Full article

Malignant gliomas remain among the most formidable challenges in neuro-oncology, given their high morbidity and rising incidence worldwide. Surgical resection represents the cornerstone of treatment, typically followed by adjuvant radiotherapy and chemotherapy. Achieving maximal safe resection, however, requires advanced intraoperative guidance. A range of adjuncts are currently employed, including 5-aminolevulinic acid (5-ALA), intraoperative ultrasound, computed tomography (iCT), and intraoperative magnetic resonance imaging (iMRI). More recently, an emerging technique—virtual MRI (vMRI)—has been developed, fusing intraoperative CT with preoperative high-resolution MRI to provide real-time, MRI-like updates of brain anatomy. Beyond imaging, tumour removal itself induces reorganization of eloquent brain networks, underscoring the critical need for precision tools that balance oncological control with preservation of neurological function. In this narrative review, we highlight and synthesize the evolving armamentarium of intraoperative technologies shaping the future of precision neuro-oncology. Full article

Background and Clinical Significance: Fourth ventricular epidermoid cysts are among the least frequently encountered intracranial tumors (less than 1%). Their slow growth pattern along cisternal and subarachnoid spaces, and their close proximity to neurovascular structures (brainstem–cerebellar), create difficulty for surgical treatment. Total removal is often complicated by the capsule’s adherence to eloquent structures and requires a thoughtful surgical approach of weighing radical resection versus neurologic/function preservation. This case description provides an example of using careful clinical–radiological correlation and anatomy-dissecting microsurgery as a method of permanent decompression and neurologic recovery with low operative risk. Case Presentation: A 57-year-old female presented with impaired stability of gait, gaze-evoked nystagmus, appendicular ataxia, minimal ipsilateral hypotonia, and mild bulbar dyscoordination. Imaging (MRI, MRA) revealed a large, lobulated mass that was lobulated and avascular centered in the left cerebellar hemisphere, with an extension into the vermis and cisterna magna, and partial filling of the fourth ventricle with classic epidermoid imaging. Resection was performed via a midline suboccipital telovelar approach with microsurgery, relying on native arachnoid planes and quadrant opportunities of decompression, while preserving critical neurovascular structures. A thin rim of capsule intimately adherent to the floor of the ventricle was intentionally left to minimize irreversible cranial nerve injury. Histology showed keratinizing stratified squamous epithelium with laminated keratin and cholesterol clefts. Following resection, truncal stability, limb coordination, and ocular pursuit improved without additional deficits. Initial and 3-month postoperative MRI showed total decompression, re-established CSF pathways, and no recurrence. Conclusions: This case demonstrates that maximal safe resection (with function preservation) through natural anatomy corridors can achieve excellent neurologic results in fourth ventricular epidermoids. Lifelong MRI surveillance will be needed due to the srisk of delayed recurrence even after near-total resection. Full article

Background: Brain metastases represent the most common intracranial tumours in cancer patients, with no consensus on surgical outcomes and prognostic factors. This study aimed to analyse the demographic, clinical, and tumour-related factors influencing postoperative complications, recurrence, and functional outcomes in patients undergoing surgical resection of brain metastases at a tertiary neurosurgical centre in South-Eastern Europe. Materials and Methods: A retrospective cohort of adult patients who underwent gross total (GTR) or subtotal resection (STR) for brain metastases was analysed, stratified by sex, extent of resection (GTR vs. STR), and recurrence status. Results: A total of 358 patients underwent surgical resection for brain metastases, with pulmonary carcinoma being the most common primary tumour (46.4%). Most patients had solitary metastases (87.4%), and eloquent brain regions were involved in 53.9% of cases, 20.1% experienced postoperative complications, and recurrence occurred in 10.9%. Higher preoperative KPS predicted fewer complications. GTR was not associated with complications or recurrence but was linked to lower postoperative mortality. Median overall survival was 325 days. For the three hundred fifty-four patients with survival data, median overall survival (OS) was 325 days (95% CI: 270–380). OS did not meaningfully differ by sex. Conclusions: Gross total resection was not independently associated with reduced postoperative complications or recurrence but was significantly associated with lower postoperative mortality. Functional status, eloquent brain region involvement, and age remained key determinants of clinical outcomes. Full article

Background: Glioblastoma (GBM), IDH-wildtype, is one of the most aggressive primary brain malignancies, and maximal safe resection is consistently recognized as a significant prognostic factor. Intraoperative adjuncts including functional mapping, neuronavigation, and fluorescence-guidance are not always present in many centers around the world. The aim is not to suggest equivalence to adjunct-assisted resections, but rather to illustrate the feasibility of anatomy-guided surgery in carefully selected cases and to contribute to the broader discussion on safe operative strategies in resource-limited environments. Methods: We present the case of a 54-year-old right-handed male who presented with progressive non-fluent aphasia, seizures, and signs of intracranial hypertension. Pre-operative MRI showed a heterogeneously hyperintense, frontobasal intra-axial mass involving the dominant inferior frontal gyrus, extending toward the corpus callosum and orbitofrontal cortex, and early subfalcine shift. Surgery was performed via a left frontobasal craniotomy, using subpial dissection and cortical–sulcal anatomical landmarks while aiming to preserve eloquent subcortical tracts (frontal aslant tract, superior longitudinal fasciculus). Nueronavigation, functional mapping or fluorescence was not used. We defined our outcomes by the extent of resection, functional preservation, and early radiological stability. Results: The procedure achieved a subtotal-near-total resection (>95% estimated volume) while maintaining functional motor function from prior to surgery and the patient’s baseline expressive aphasia, with no new neurological deficits. Early post-operative CT showed decompression of the resection cavity without hemorrhage or shift. At three months post-operative, CT showed stability of the cavity and resolution of the most perilesional edema with no evidence of recurrence. Clinically, the patient showed gradual improvement in verbal fluency, he remained seizure free, and maintained independence, which allowed for timeliness of the initiation of adjuvant chemoradiotherapy. Conclusions: We intend for the case to illustrate that, in selected dominant frontal GBM, following microsurgical anatomical principles closely may provide a high extent of resection with the preservation of function, even without advanced intraoperative adjuncts. We hope that our experience may support our colleagues who practice in resource-limited settings and contribute to our shared goal of both oncological outcomes and the quality of life of our patients. Full article