Your search keyword '"BRAIN surgery"' showing total 13,651 results

1. Detection of a Water-Soluble Hypericin Formulation in Glioblastoma Tissue with Fluorescence Lifetime and Intensity Using a Dual-Tap CMOS Camera System.

Author

Mischkulnig, Mario, Reichert, David, Wightman, Lionel, Roth, Vanessa, Hölz, Marijke, Körner, Lisa I., Kiesel, Barbara, Vejzovic, Djenana, Giardina, Gabriel A., Erkkilae, Mikael T., Unterhuber, Angelika, Andreana, Marco, Rinner, Beate, Kubin, Andreas, Leitgeb, Rainer, and Widhalm, Georg

Subjects

*IMAGING systems, *BRAIN tumors, *HYPERICIN, *BRAIN surgery, TUMOR surgery

Abstract

Background: High hypericin-loaded polyvinylpyrrolidone (HHL-PVP) constitutes a novel approach to utilize the promising characteristics of hypericin for photodynamic diagnosis (PDD) and therapy (PDT) of brain tumors in an orally bioavailable formulation. The aim of this study was to investigate the ability of a Complementary Metal-Oxide-Semiconductor (CMOS) camera-based fluorescence imaging system to selectively visualize HHL-PVP in glioblastoma tissue even in the presence of 5-Aminolvevulinic acid (5-ALA) induced fluorescence, which is widely utilized in brain tumor surgery. Methods: We applied a previously established system with a non-hypericin specific filter for 5-ALA fluorescence visualization and a newly introduced hypericin-specific filter at 575–615 nm that transmits the spectrum of hypericin, but not 5-ALA fluorescence. Glioblastoma specimens obtained from 12 patients (11 with preoperative 5-ALA intake) were ex vivo incubated with HHL-PVP. Subsequently, fluorescence intensity and lifetime changes using both the non-hypericin specific filter and hypericin-specific filter were measured before and after HHL-PVP incubation and after subsequent rinsing. Results: While no significant differences in fluorescence signal were observed using the non-hypericin specific filter, statistically significant increases in fluorescence intensity (p = 0.001) and lifetime (p = 0.028) after HHL-PVP incubation were demonstrated using the hypericin-specific filter. In consequence, specimens treated with HHL-PVP could be identified according to the fluorescence signal with high diagnostic sensitivity (87.5%) and specificity (100%). Conclusions: Our CMOS camera-based system with a hypericin-specific filter is capable of selectively visualizing hypericin fluorescence in glioblastoma tissue after ex vivo HHL-PVP incubation. In the future, this technique could facilitate clinical investigations of HHL-PVP for PDD and PDT while maintaining the current standard of care with 5-ALA guidance. [ABSTRACT FROM AUTHOR]

Published

2024

2. Invasive neurophysiological recordings in human basal ganglia. What have we learned about non‐motor behaviour?

Author

Sanchez, Ana Maria Alzate, Roberts, Mark J., Temel, Yasin, and Janssen, Marcus L. F.

Subjects

*BASAL ganglia, *BRAIN anatomy, *BRAIN surgery, *MOVEMENT disorders, *HUMAN experimentation, *NEUROSCIENCES

Abstract

Research into the function of deep brain structures has benefited greatly from microelectrode recordings in animals. This has helped to unravel physiological processes in the healthy and malfunctioning brain. Translation to the human is necessary for improving basic understanding of subcortical structures and their implications in diseases. The use of microelectrode recordings as a standard component of deep brain stimulation surgery offers the most viable route for studying the electrophysiology of single cells and local neuronal populations in important deep structures of the human brain. Most of the studies in the basal ganglia have targeted the motor loop and movement disorder pathophysiology. In recent years, however, research has diversified to include limbic and cognitive processes. This review aims to provide an overview of advances in neuroscience made using intraoperative and post‐operative recordings with a focus on non‐motor activity in the basal ganglia. [ABSTRACT FROM AUTHOR]

Published

2024

3. Winding Back the Clock on Advanced Therapies: It's Time to Get Smart.

Author

Georgiades, Matthew J., van der Plas, Anton A., Bloem, Bastiaan R., and Lewis, Simon J.G.

Subjects

*PATIENTS' attitudes, *DEEP brain stimulation, *PARKINSON'S disease, *SMARTPHONES, *BRAIN surgery

Abstract

Our language affects patients' perceptions of therapies. In Parkinson's disease, emergent response fluctuations and dyskinesias typically trigger conversations around commencing an "Advanced Therapy" which carries notions of Advanced Disease. The patient, resolute in their commitment to fighting the disease, is misled. Chasing reassurance that their disease has not yet progressed considerably; they may therefore resist a potentially life-changing therapy. Instead, we should offer a "Smart Therapy". This term more accurately and positively describes therapies on offer that stabilize response fluctuations and improve quality of life, without a focus on the negative connotations of progression to more advanced disease. Plain Language Summary: The language we use with our patients affects their perception of a therapy on offer and their willingness to take it up. In Parkinson's disease when motor response fluctuations and dyskinesias become extremely challenging and disabling for patients despite medication optimization, it might prompt conversations with the patient in appropriate circumstances about offering an "Advanced Therapy" such as deep brain stimulation surgery or continuous infusion pumps. However, from the patient's perspective, putting up a steadfast fight against their disease, this label carries unwanted and misleading connotations of Advanced Disease. This can lead to hesitation from taking up these potentially life-changing therapies. Therefore, in this Commentary we propose a rebranding in line with other modern technology like smart phones and smart homes, emphasizing the positive and personalized features of these therapies, and focusing on the goal of stabilizing symptoms and improving quality of life. We should offer patients "Smart Therapies". It's time to Get Smart! [ABSTRACT FROM AUTHOR]

Published

2024

4. Awake surgery with mapping-based resection to treat focal epilepsy in eloquent brain areas.

Author

Guibourd de Luzinais, Mathilde, Engelhardt, Julien, Ollivier, Morgan, Planchon, Charlotte, Gallice, Thomas, Michel, Véronique, de Montaudouin, Marie, Aupy, Jérôme, and Penchet, Guillaume

Subjects

*EPILEPSY surgery, *STATUS epilepticus, *BRAIN mapping, *BRAIN surgery, *SURGICAL excision

Abstract

Objectives: Resective surgery is a potential therapeutic option for select patients with intractable focal epilepsy. However, the presence of ictal onset zones within or surrounding highly functional brain areas presents a surgical challenge, leading to poor seizure and functional outcomes. This report describes our experiences with awake mapping-tailored resection of epileptogenic areas involving eloquent cortices and evaluates their feasibility, tolerance, limitations, and significance. Methods: The study included patients who underwent surgery for drug-resistant focal epilepsy at our center under awake conditions. The surgical approach aimed to achieve maximum resection of preoperatively defined epileptogenic zones, considering the boundaries defined by surrounding functional areas. We collected data on preoperative evaluations, intraoperative tests and seizures, postoperative status epilepticus, and neurological functional outcomes. Results: We included 22 patients, 10 of whom had non-lesional epilepsy. Language, motor function, and sensory function were at risk in 19, 9, and 4 patients, respectively. Resection was performed as planned in 14 (63.6%) patients, while modifications were necessary in 8 (36.4%) patients due to functional constraints. The mean follow-up duration was 29.8 months. Sixteen (72.7%) patients achieved Engel class Ia outcomes, indicating seizure freedom, while none of the patients experienced clinically significant permanent postoperative neurological deficits. Significance: Resective surgery with intraoperative brain mapping under awake conditions was a valid treatment option for achieving a cure in cases of drug-resistant focal epilepsy, even in situations in which the condition is considered inoperable due to the risk of significant postoperative neurological deficits. [ABSTRACT FROM AUTHOR]

Published

2024

5. Intraoperative neuromonitoring of visual evoked potentials in a pregnant patient with meningioma: a case report.

Author

Mori, Fumi, Sumi, Koichiro, Watanabe, Mitsuru, Shijo, Katsunori, Yumoto, Masatoshi, Oshima, Hideki, Fukaya, Chikashi, Otani, Naoki, and Yoshino, Atsuo

Subjects

*VISUAL evoked potentials, *PREGNANT women, *BRAIN surgery, *INTRAVENOUS anesthetics, *VISUAL acuity, *INTRAOPERATIVE monitoring, *NEUROPHYSIOLOGIC monitoring

Abstract

Background: Meningioma in the parasellar region may lead to visual impairment, so intraoperative neurological monitoring is essential for enucleation surgery. However, intraoperative neurological monitoring in pregnant women is challenging, as the anesthesia management must consider the effects and risks to the fetus. Remimazolam is a newly introduced intravenous anesthetic that has little effect on blood pressure. However, the effects of remimazolam on intraoperative neuromonitoring are little known. We treated a pregnant patient with parasellar meningioma who developed visual impairment, using remimazolam for anesthesia and intraoperative neurophysiological monitoring of the visual evoked potential. Case presentation: A 34-year-old woman who was 20 weeks pregnant presented with visual acuity disturbances. Neuroimaging demonstrated a parasellar meningioma, and rapid tumor growth and worsening of symptoms subsequently occurred. Craniotomy for tumor removal was performed under anesthesia with remimazolam, which allowed monitoring of the visual evoked potentials. Her visual acuity was restored postoperatively, and no adverse events occurred in the fetus. Conclusion: Our experience with intraoperative neuromonitoring of a pregnant woman in the third trimester showed that anesthesia with remimazolam allows safe brain surgery combined with intraoperative visual evoked potential monitoring. Further research is needed to determine the effects of remimazolam on the fetus, as well as the safe dosage and duration of exposure. [ABSTRACT FROM AUTHOR]

Published

2024

6. Science for tomorrow's neurosurgery: insights on establishing a neurosurgery patient group focused on developing novel intra-operative imaging techniques.

Author

MacCormac, Oscar, Elliot, Matthew, Whittaker, Lisa, Bahl, Anisha, Ségaud, Silvère, Plowright, Andrew J., Winslade, Shannon, Taylor-Gee, Alice, Spencer, Bella, Vercauteren, Tom, and Shapey, Jonathan

Subjects

BRAIN surgery, PATIENT participation, PATIENTS' attitudes, RESEARCH ethics, OPTICAL images, BRAIN

Abstract

Background: Incorporating patient and public involvement (PPI) in research is crucial for ensuring the relevance and success of studies, yet it remains significantly underutilised in surgical research. Main body: This commentary presents insights from our neurosurgical research team's experience with establishing and working with a PPI group called "Science for Tomorrow's Neurosurgery" on research regarding novel intra-operative optical imaging techniques. Through collaboration with patient-focused charities, we have successfully incorporated patient perspectives into our work at each stage of the research pipeline, whilst adhering to core PPI principles, such as reciprocal relationships, co-learning, partnerships, and transparency. Conclusion: We highlight the specific value added to our work in terms of participant recruitment, research ethics and results dissemination. Plain English summary: Including patients and members of the public in medical research is really important. It helps make sure the research is useful and successful. Surprisingly, it's not used enough in surgical research. This article talks about how our team of brain surgeons and scientists worked with a group called "Science for Tomorrow's Neurosurgery" to include brain surgery patients in our research about new ways to look at the brain during surgery. We worked closely with charities that focus on helping patients with brain conditions, and we made sure to listen to what patients had to say every step of the way, from planning our research to sharing our results. We followed some important rules, like making sure everyone involved felt like they were being treated fairly, learning together, working together with different groups, and being honest and open. We found that having patients involved in the design and development really helped us find the right people to take part in our research, make sure we were doing things the right way, and share our findings in a way that made sense to everyone. [ABSTRACT FROM AUTHOR]

Published

2024

7. Intraventricular baclofen for intractable spasticity and secondary dystonia: a frame-based stereotactic approach and case series.

Author

Lin, Zhengyu, Huang, Peng, Pan, Yixin, Shen, Ruinan, Lin, Suzhen, Wu, Yiwen, and Li, Dianyou

Subjects

*DEEP brain stimulation, *INTRACRANIAL hemorrhage, *BRAIN surgery, *DYSTONIA, *OPERATIVE surgery, *SPASTICITY

Abstract

Objective: Intraventricular baclofen has been reported as an alternative to intrathecal baclofen for managing refractory spasticity and dystonia in some circumstances. In this report, we described a frame-based stereotactic approach for precisely positioning of the infusion catheter into the third ventricle. Material and methods: High resolution contrast-enhanced anatomical MR sequences was acquired prior to surgery for pre-planning. Catheter trajectory was planned to pass from the lateral ventricle to the third ventricle through the Foramen of Monro. The surgical procedure was adapted from the frame-based deep brain stimulation surgery. The Touch-Loc kit (SceneRay, China) was used to temporarily secure the catheter in place during the surgery. From July 2022 to December 2022, three patients suffering from intractable spasticity and/or secondary dystonia received IVB successfully using the described technique. Results: No severe adverse events, including death, intracranial hemorrhage, infection, catheter migration or fracture, were documented at the last follow-up (range: 12‒24 months). Transient side effects included mild nausea following the initiation of infusion or the increase in infusion rate. All three patients responded to the IVB. Conclusions: The described frame-based stereotactic technique for IVB catheter implant is feasible and could be quickly mastered by neurosurgeons in related fields. Larger prospective cohorts with longer follow-up periods are necessary to further evaluate the long-term safety and efficacy of this procedure. [ABSTRACT FROM AUTHOR]

Published

2024

8. Spontaneous speech: a robust measurement before, during and after awake brain surgery in patients with glioma.

Author

Collée, E., Vincent, A.J.P.E., Jiskoot, L.C., Bos, E.M., Schouten, J.W., Dirven, C.M.F., and Satoer, D.

Subjects

*MEAN length of utterance, *LANGUAGE ability testing, *BRAIN surgery, *SPEECH, TUMOR surgery

Abstract

AbstractBackgroundMethodsResultsConclusionsPatients with glioma often report language complaints with devastating effect on daily life. Analysing spontaneous speech can help to understand underlying language problems. Spontaneous speech monitoring is also of importance during awake brain surgery: it can guide tumour resection and contributes to maintaining language function. We aimed to investigate the spontaneous speech of patients with glioma in the perioperative period and the additional value of spontaneous speech analyses compared to standardised language testing.We elicited and transcribed spontaneous speech of eight patients with glioma elected for awake brain surgery preoperatively, intraoperatively and 2.0–3.5 months postoperatively. Linguistic errors were coded. Type Token Ratio, Mean Length of Utterance of words, minimal utterances, and errors were extracted from the transcriptions. Patients were categorised based on total error patterns: stable, decrease or increase during surgery. Reliable Change Index scores were calculated for all spontaneous speech variables to objectify changes between time points. Language performance on language tests was compared to spontaneous speech variables.Most errors occurred in lexico-syntax, followed by phonology/articulation, syntax, and semantics. The predominant errors were Repetitions, Self-corrections, and Incomplete sentences. Most patients remained stable over time in almost all spontaneous speech variables, except in Incomplete sentences, which deteriorated in most patients postoperatively compared to intraoperatively. Some spontaneous speech variables (total errors, MLUw, TTR) gave more information on language change than a standard language test.While the course of spontaneous speech over time remained relatively stable in most patients, Incomplete sentences seems to be a robust marker of language difficulties patients with glioma. These errors can be prioritised in spontaneous speech analysis to save time, especially to determine intra- to postoperative deterioration. Importantly, spontaneous speech analyses can give more information on language change than standardised language testing and should therefore be used in addition to standardised language tests. [ABSTRACT FROM AUTHOR]

Published

2024

9. Assessing Language Lateralization through Gray Matter Volume: Implications for Preoperative Planning in Brain Tumor Surgery.

Author

Solomons, Daniel, Rodriguez-Fernandez, Maria, Mery-Muñoz, Francisco, Arraño-Carrasco, Leonardo, Costabal, Francisco Sahli, and Mendez-Orellana, Carolina

Subjects

*PREFRONTAL cortex, *DOMINANT language, *FUNCTIONAL magnetic resonance imaging, *BRAIN surgery, *GRAY matter (Nerve tissue), *BRAIN tumors, *DICHOTIC listening tests

Abstract

Background/Objectives: Functional MRI (fMRI) is widely used to assess language lateralization, but its application in patients with brain tumors can be hindered by cognitive impairments, compensatory neuroplasticity, and artifacts due to patient movement or severe aphasia. Gray matter volume (GMV) analysis via voxel-based morphometry (VBM) in language-related brain regions may offer a stable complementary approach. This study investigates the relationship between GMV and fMRI-derived language lateralization in healthy individuals and patients with left-hemisphere brain tumors, aiming to enhance accuracy in complex cases. Methods: The MRI data from 22 healthy participants and 28 individuals with left-hemisphere brain tumors were analyzed. Structural T1-weighted and functional images were obtained during three language tasks. Language lateralization was assessed based on activation in predefined regions of interest (ROIs), categorized as typical (left) or atypical (right or bilateral). The GMV in these ROIs was measured using VBM. Linear regressions explored GMV-lateralization associations, and logistic regressions predicted the lateralization based on the GMV. Results: In the healthy participants, typical left-hemispheric language dominance correlated with higher GMV in the left pars opercularis of the inferior frontal gyrus. The brain tumor participants with atypical lateralization showed increased GMV in six right-hemisphere ROIs. The GMV in the language ROIs predicted the fMRI language lateralization, with AUCs from 80.1% to 94.2% in the healthy participants and 78.3% to 92.6% in the tumor patients. Conclusions: GMV analysis in language-related ROIs effectively complements fMRI for assessing language dominance, particularly when fMRI is challenging. It correlates with language lateralization in both healthy individuals and brain tumor patients, highlighting its potential in preoperative language mapping. Further research with larger samples is needed to refine its clinical utility. [ABSTRACT FROM AUTHOR]

Published

2024

10. Comparative Side‐Effects of Neurosurgical Treatment of Treatment‐Resistant Depression.

Author

Keat, Alexandre Lim Eng, Li, Keith Tan Jian, Hau, Teo Chuin, and Soga, Tomoko

Subjects

*VAGUS nerve stimulation, *DEEP brain stimulation, *SUICIDAL ideation, *BRAIN surgery, *NEUROSURGERY, *BRAIN stimulation, *NEURAL stimulation

Abstract

Introduction: Treatment‐resistant depression (TRD) is a condition in which patients suffering from depression no longer respond to common methods of treatment, such as anti‐depressant medication. Neurosurgical procedures such as ablative surgery, deep brain stimulation, and vagus nerve stimulation have been used in efforts to overcome TRD. Objectives: This review aims to provide an overview of the side effects of neurosurgery performed in clinical studies related to depression. Methods: A literature search was conducted through PubMed, MEDLINE, EMBASE, Ovid, and ClinicalTrials.gov databases. Results: This review selected 10 studies for ablative surgery, 12 for deep brain stimulation, and 10 for vagus nerve stimulation, analyzing their side effect profiles of neurosurgery for TRD. The major side effects of each type of neurosurgery were identified, such as incontinence and confusion for ablative surgery, headaches and increased suicide ideation for deep brain stimulation, and voice hoarseness and dyspnea for vagus nerve stimulation. Conclusion: The review discusses the merits and demerits of neurosurgery as a treatment option for TRD. It also suggests new insights into decreasing the burden of these neurosurgical side effects so that they can be a viable, high‐efficacy treatment method for TRD. [ABSTRACT FROM AUTHOR]

Published

2024

11. Cylinder tumor surgery in pediatric low-grade gliomas.

Author

Jaimovich, Sebastian Gaston, Takeuchi, Kazuhito, Testa, Victoria Tcherbbis, Okumura, Eriko, Jaimovich, Roberto, and Cinalli, Giuseppe

Subjects

*MINIMALLY invasive procedures, *OPERATIVE surgery, *BRAIN surgery, *LITERATURE reviews, TUMOR surgery

Abstract

Background: Periventricular pediatric low-grade gliomas (pLGG) present a surgical challenge due to their deep-seated location, accessibility, and relationship with the subcortical network connections. Minimally invasive parafascicular approaches with tubular brain retractors (port brain surgery) have emerged, in recent years, as an alternative to conventional microsurgical and endoscopic approaches for removal of periventricular tumors. Objectives: To describe the minimally invasive approach with tubular brain retractors for periventricular pLGG, its technique, applications, safety, and efficacy. Methods: In this article, we describe the port brain surgery techniques for periventricular pLGG as performed in different centers, with different commercialized tubular retractor systems. Illustrative cases followed by a literature review are analyzed, with a detailed description of different approaches or techniques, comparing their advantages and disadvantages with contemporary microsurgical and endoscopic approaches. Conclusions: The port brain surgery with micro-exoscopic vision and endoscopic assistance, for the treatment of deep-seated lesions such as periventricular pLGG, is an alternative for achieving a functionally safe—gross total or subtotal—tumor resection, obtaining adequate tissue for pathological examination. This technique could offer a new dimension for a less-invasive, safe, and effective access to deep-seated tumors, offering the possibility to lower morbidity in experienced hands. [ABSTRACT FROM AUTHOR]

Published

2024

12. Routine ICU Surveillance after Brain Tumor Surgery: Patient Selection Using Machine Learning.

Author

Neumann, Jan-Oliver, Schmidt, Stephanie, Nohman, Amin, Naser, Paul, Jakobs, Martin, and Unterberg, Andreas

Subjects

*BOOSTING algorithms, *BRAIN surgery, *MACHINE learning, *INTRACRANIAL hypertension, *BRAIN tumors, TUMOR surgery

Abstract

Background/Objectives: Routine postoperative ICU admission following brain tumor surgery may not benefit selected patients. The objective of this study was to develop a risk prediction instrument for early (within 24 h) postoperative adverse events using machine learning techniques. Methods: Retrospective cohort of 1000 consecutive adult patients undergoing elective brain tumor resection. Nine events/interventions (CPR, reintubation, return to OR, mechanical ventilation, vasopressors, impaired consciousness, intracranial hypertension, swallowing disorders, and death) were chosen as target variables. Potential prognostic features (n = 27) from five categories were chosen and a gradient boosting algorithm (XGBoost) was trained and cross-validated in a 5 × 5 fashion. Prognostic performance, potential clinical impact, and relative feature importance were analyzed. Results: Adverse events requiring ICU intervention occurred in 9.2% of cases. Other events not requiring ICU treatment were more frequent (35% of cases). The boosted decision trees yielded a cross-validated ROC-AUC of 0.81 ± 0.02 (mean ± CI95) when using pre- and post-op data. Using only pre-op data (scheduling decisions), ROC-AUC was 0.76 ± 0.02. PR-AUC was 0.38 ± 0.04 and 0.27 ± 0.03 for pre- and post-op data, respectively, compared to a baseline value (random classifier) of 0.092. Targeting a NPV of at least 95% would require ICU admission in just 15% (pre- and post-op data) or 30% (only pre-op data) of cases when using the prediction algorithm. Conclusions: Adoption of a risk prediction instrument based on boosted trees can support decision-makers to optimize ICU resource utilization while maintaining adequate patient safety. This may lead to a relevant reduction in ICU admissions for surveillance purposes. [ABSTRACT FROM AUTHOR]

Published

2024

13. Biomechanical instability of the brain–CSF interface in hydrocephalus.

Author

Duy, Phan Q, Mehta, Neel H, and Kahle, Kristopher T

Subjects

*NEURAL stem cells, *BRAIN surgery, *CEREBROSPINAL fluid, *INTRACRANIAL pressure, *HYDROCEPHALUS

Abstract

Hydrocephalus, characterized by progressive expansion of the CSF-filled ventricles (ventriculomegaly), is the most common reason for brain surgery. 'Communicating' (i.e. non-obstructive) hydrocephalus is classically attributed to a primary derangement in CSF homeostasis, such as choroid plexus-dependent CSF hypersecretion, impaired cilia-mediated CSF flow currents, or decreased CSF reabsorption via the arachnoid granulations or other pathways. Emerging data suggest that abnormal biomechanical properties of the brain parenchyma are an under-appreciated driver of ventriculomegaly in multiple forms of communicating hydrocephalus across the lifespan. We discuss recent evidence from human and animal studies that suggests impaired neurodevelopment in congenital hydrocephalus, neurodegeneration in elderly normal pressure hydrocephalus and, in all age groups, inflammation-related neural injury in post-infectious and post-haemorrhagic hydrocephalus, can result in loss of stiffness and viscoelasticity of the brain parenchyma. Abnormal brain biomechanics create barrier alterations at the brain–CSF interface that pathologically facilitates secondary enlargement of the ventricles, even at normal or low intracranial pressures. This 'brain-centric' paradigm has implications for the diagnosis, treatment and study of hydrocephalus from womb to tomb. [ABSTRACT FROM AUTHOR]

Published

2024

14. Endoscopic and exoscopic surgery for brain tumors.

Author

Sasagawa, Yasuo, Tanaka, Shingo, Kinoshita, Masashi, and Nakada, Mitsutoshi

Subjects

*PITUITARY tumors, *SKULL tumors, *BRAIN surgery, *SKULL base, *BRAIN tumors, TUMOR surgery

Abstract

Nerves and blood vessels must be protected during brain tumor surgery, which has traditionally relied on microscopes. In the 2000s, endoscopes and related equipment were developed for neurosurgery. In this review, we aim to outline the role of endoscopes in brain tumor surgery and discuss the emerging use of exoscopes. The primary use of endoscopes in brain tumor surgery is in endoscopic endonasal surgery for pituitary tumors. By using the space within the sphenoid sinus, surgeons can insert an endoscope and instruments such as forceps or scissors through the nose to access and remove the tumor. Compared to microscopes, endoscopes can get closer to tumors, nerves, and blood vessels. They enable wide-angle observation of the skull base, making them valuable for skull base tumors as well as pituitary tumors. Endoscopes are also used in cases where a brain tumor is associated with hydrocephalus, allowing surgeons to correct obstructive hydrocephalus and perform tumor biopsies simultaneously. Exoscopy, a newer technique introduced in recent years, involves surgeons wearing special glasses and removing the tumor while viewing a three-dimensional monitor. This approach reduces surgeon fatigue and allows for more natural positioning during lengthy brain tumor surgeries. Future brain tumor surgeries will likely involve robotic surgery, which is already used for other organs. This is expected to make brain tumor removal safer and more accurate. [ABSTRACT FROM AUTHOR]

Published

2024

15. Placement accuracy of the second electrode in bilateral deep brain stimulation surgery.

Author

Bunyaratavej, Krishnapundha, Phokaewvarangkul, Onanong, and Wangsawatwong, Piyanat

Subjects

*DEEP brain stimulation, *PARKINSON'S disease, *GLOBUS pallidus, *SUBTHALAMIC nucleus, *BRAIN surgery

Abstract

Purpose: Due to brain shift during bilateral deep brain stimulation (DBS) surgery, placement of the second electrode may be subjected to more error than that of the first electrode. The authors aimed to investigate the accuracy of second electrode placement in this setting. Materials and methods: Fifty-five patients with Parkinson's disease who underwent bilateral DBS surgery (110 electrodes) were retrospectively evaluated. The targets were subthalamic nucleus (STN) and globus pallidus interna (GPi) in 40 and 15 cases, respectively. Preoperative planning and postoperative electrode images were co-registered to compare the error margin between the two sides. Results: There is a statistically significant difference in the directional axis error along the y axis only when comparing each laterality (posterior 0.04 ± 1.21 mm vs anterior 0.41 ± 1.07 mm, p = 0.006). There is no significant difference of other error parameters, final track location, and number of microelectrode recording passes between the two sides. In a subgroup analysis, there is a significant difference in directional axis error along the y axis only in the STN subgroup (posterior 0.40 ± 1.05 mm vs anterior 0.18 ± 1.04 mm, p = 0.003). Conclusion: Although a statistically significant difference in directional axis error along the y axis was found between first and second electrode placements in the STN group but not in the GPi group, its magnitude is well below the clinically significant threshold. [ABSTRACT FROM AUTHOR]

Published

2024

16. Pattern of use of intraoperative ultrasound in surgery for brain tumors influences outcomes in glial tumors.

Author

Yeole, Ujwal, Shetty, Prakash, Singh, Vikas, and Moiyadi, Aliasgar

Subjects

*BRAIN surgery, *ELECTRONIC records, *GLIOMAS, *MUSIC charts, *BRAIN tumors, TUMOR surgery

Abstract

Background: Intraoperative ultrasound (iUS) imaging has emerged as a promising adjunct in glioma surgery with both, 2-dimensional (2D) as well as navigated 3-dimensional (n3D), modes increasingly being used. Methods: We analyzed our decade-long experience of 1075 brain tumor (807, 75% gliomas) cases operated using iUS. A retrospective chart and electronic records review was performed. The primary aim was to understand the patterns of use of iUS mode and its purpose of application (as a localizing tool or as a resection control modality) as well as to evaluate its impact on the extent of resection. Results: The use of iUS increased over time, especially with the introduction of n3DUS though 2DUS remained the more commonly used mode (63%) overall during this period. For biopsies (156 cases), both 2D, as well as n3D iUS, were used as a localizing tool only. Lesion localization was the major purpose for use of iUS even for tumor resections (61%). Resection control was performed more often for gliomas (46.5% compared to 16.5% in non-glial tumors). n3DUS was the preferred modality as a resection control tool irrespective of histological class. GTR (gross total resection) was achieved in 53.1% cases overall, while in glial and non-glial tumors it was 44.7% and 80.7%, respectively. GTR was higher when iUS was used as a resection control modality. The US and MR defined EOR (extent of resection) showed substantial agreement (κ = 0.678) with high diagnostic accuracy of 84% for glial tumors. In glial tumors, iUS was used more often in eloquent tumors and GTR rates were slightly higher than when iUS was not used. Conclusion: iUS is a versatile tool and is a useful surgical adjunct for glioma surgeons. Besides its proven benefit as a localizing tool, when used as a tool for resection control it improves the resection rates. n3DUS may offer benefits over 2DUS as a resection control modality, though the evidence is still evolving. [ABSTRACT FROM AUTHOR]

Published

2024

17. Falx cerebelli and its associated occipital venous sinus: an anatomical study.

Author

Hosapatna, Mamatha, Kunder, Kushi, Bhat, Nandini Prashanth, Shetty, Ashwija, Sanyal, Sanjoy, Prabhath, Sushma, and Sumalatha, Suhani

Subjects

*POSTERIOR cranial fossa, *BRAIN surgery, *MEDICAL drainage, *SURGICAL site, *HEMORRHAGE

Abstract

Purpose: This study presents the morphological variation of falx cerebelli, which helps to identify the possible variations in the presence of the occipital sinus in the posterior margin of the fold whose damage during midline incision of posterior cranial fossa surgeries may lead to internal hemorrhage. Method: The study was conducted on 48 cranial cavities exploring the falx cerebelli. Variations in the number of folds, its proximal and distal attachments, and the drainage pattern of the occipital sinus were evaluated by histological processing of the upper 1/3rd section of the falx fold. Results: The variation in the number of folds recorded are single folds in 87.5%, double folded in 8.3%, and multiple folds (five and seven folded) in 4.2% of the cases. The variation in the proximal and distal attachments in single falx folds showed three combinations: Ramified triangular in 66.7%, both ramified type in 12.5%, and both triangular type in 8.3% of the cases. Double and multiple folds showed ramified and triangular types of variation in their attachments. Histological findings showed the presence of occipital venous sinuses in most of the single falx fold. Two aberrant venous sinuses were seen in a double and five-folded falx cerebelli. Conclusions: This study records the variations in the morphology of falx cerebelli. The histological data of this study sheds light on the drainage pattern of venous sinuses in the area whose negligence during midline incisions of brain surgeries may increase the possibility of hemorrhage. [ABSTRACT FROM AUTHOR]

Published

2024

18. Disease burden and healthcare utilization in pediatric low-grade glioma: A United States retrospective study of linked claims and electronic health records.

Author

Zelt, Susan, Cooney, Tabitha, Yu, Sandie, Daral, Shailaja, Krebs, Blake, Markan, Riddhi, Manley, Peter, Kieran, Mark, and Raju, Sandya Govinda

Subjects

*MENTAL illness, *BRAIN tumors, *ELECTRONIC health records, *COGNITION disorders, *BRAIN surgery

Abstract

Background Despite high long-term survival rates, pediatric low-grade gliomas (pLGGs) are linked with significant tumor- and treatment-associated morbidities that may persist throughout life. The aims of this descriptive cross-sectional pilot study were to characterize health conditions among a cohort of patients with pLGG and explore the feasibility of quantifying disease burden and healthcare resource utilization (HRU). Methods Optum® Market Clarity Data were used to identify patients aged ≤18 years with an ICD-10 code for brain neoplasm, ≥1 physician notes, and with evidence of pLGG recorded between January 1, 2017 and June 30, 2018. Outcomes including health characteristics, HRU, medications, and procedures were assessed at 6-month intervals over 36 months. Results One hundred and fifty-four patients were identified with pLGG and over half experienced headache/migraine, respiratory infection, pain, or behavioral issues during the 36-month study period. The most common comorbidities were ocular/visual (including blindness), mental health disorders, seizures, and behavioral/cognition disorders. Most symptoms and comorbidities persisted or increased during the study period, indicating long-term health deficits. HRU, including speciality care visits, filled prescriptions, and administered medications, was common; 74% of patients had prescriptions for anti-infectives, 56% antiemetics, and 52% required pain or fever relief. Sixty-five percent of patients underwent treatment to control their pLGG, the most common being brain surgery. Little decline was observed in medication use during the study period. Conclusions Patients with pLGG have complex healthcare needs requiring high HRU, often over a long time. Patients need to be optimally managed to minimize disease- and treatment-related burden and HRU. [ABSTRACT FROM AUTHOR]

Published

2024

19. Novel technique of switching TIVA and sevoflurane during epilepsy surgery for combined intraoperative motor evoked potentials monitoring and electrocorticography: an illustrative case report.

Author

Mukoyama, Yoko, Ichikawa, Junko, Komori, Makiko, Kodaka, Mitsuharu, Yokosako, Suguru, and Kubota, Yuichi

Subjects

EVOKED potentials (Electrophysiology), EPILEPSY surgery, TEMPORAL lobe epilepsy, BRAIN surgery, ANESTHETICS, INTRAOPERATIVE monitoring

Abstract

Background: During epilepsy surgery, it is equally important to record electrocorticography (ECoG) for detecting epileptogenic activity and guiding brain resection, and to evaluate neuromonitoring data, particularly motor evoked potentials (MEP), for avoidance of postoperative neurological complications. However, sevoflurane, which is commonly used during recording of ECoG, may attenuate the MEP response. It enforces anesthesiologists and neurosurgeons to select one anesthetic agent over another, facilitating either ECoG or MEP monitoring. Case presentation: In the presented case of a 20-year-old man, who underwent surgery for temporal lobe epilepsy, a novel technique of neuroanesthesia was introduced, integrating initial induction of the total intravenous anesthesia (TIVA) with propofol (effect-site concentration, 2.3–3.0 μg/ml), its subsequent switching to sevoflurane (end-tidal concentration, 2.5%) for ECoG recording, and further change back to TIVA for MEP monitoring during brain resection. Conclusions: Intraoperative switch of anesthetic agents according to specific intraoperative requirements may be useful for cases of brain surgery requiring both ECoG recordings and MEP monitoring. [ABSTRACT FROM AUTHOR]

Published

2024

20. Neuronal tissue collection from intra-cranial instruments used in deep brain stimulation surgery for Parkinson's disease with implications for study of alpha-synuclein.

Author

Sorrentino, Zachary A., Riklan, Joshua, Lloyd, Grace M., Lucke-Wold, Brandon P., Mampre, David, Quintin, Stephan, Zakare-Fagbamila, Rasheedat, Still, Megan, Chandra, Vyshak, Foote, Kelly D., Giasson, Benoit I., and Hilliard, Justin D.

Subjects

*PARKINSON'S disease, *SURGICAL instruments, *ESSENTIAL tremor, *BRAIN surgery, *BLOOD cells, *DEEP brain stimulation

Abstract

Alpha-synuclein (αSyn) forms pathologic aggregates in Parkinson's disease (PD) and is implicated in mechanisms underlying neurodegeneration. While pathologic αSyn has been extensively studied, there is currently no method to evaluate αSyn within the brains of living patients. Patients with PD are often treated with deep brain stimulation (DBS) surgery in which surgical instruments are in direct contact with neuronal tissue; herein, we describe a method by which tissue is collected from DBS surgical instruments in PD and essential tremor (ET) patients and demonstrate that αSyn is detected. 24 patients undergoing DBS surgery for PD (17 patients) or ET (7 patients) were enrolled; from patient samples, 81.2 ± 44.8 µg of protein (n = 15), on average, was collected from surgical instruments. Light microscopy revealed axons, capillaries, and blood cells as the primary components of purified tissue (n = 3). ELISA assay further confirmed the presence of neuronal and glial tissue in DBS samples (n = 4). Further analysis was conducted using western blot, demonstrating that multiple αSyn antibodies are reactive in PD (n = 5) and ET (n = 3) samples; truncated αSyn (1–125 αSyn) was significantly increased in PD (n = 5) compared to ET (n = 3), in which αSyn misfolding is not expected (0.64 ± 0.25 vs. 0.25 ± 0.12, P = 0.046), thus showing that multiple forms of αSyn can be detected from living PD patients with this method. [ABSTRACT FROM AUTHOR]

Published

2024

21. Role of intraoperative cranial ultrasonography in detection of residual brain lesions during surgery.

Author

Gomaa, Mahmoud Ahmed, Hussein, Mohamed Ahmed, Hussein, Mohamed Abdellatif, and Osman, Ashraf Abdellatif

Subjects

*BRAIN surgery, *BRAIN damage, *BRAIN imaging, *NEUROSURGERY, *ULTRASONIC imaging

Abstract

Background: The use of IOUS is increasingly common in recent neurosurgical practice. IOUS has become very valuable in neurosurgery. It plays a key role in the localization of space-occupying lesion location and decreasing operation time and hence improves both surgical efficiency and safety. Ultrasound is very useful in the determination of the lesion location, its most superficial portion, and in differentiation between solid tumors and cystic components. Results: Intraoperative ultrasonography has a significant edge over the other intraoperative aids for image guidance in brain surgery, especially in terms of independence, cost, and adaptability to multiple different clinical scenarios. Ultrasound-based neuro-navigation is an easy-to-use, fast, and safe technique of real-time imaging for various neurosurgical procedures. Conclusion: We conclude that ultrasound-based neuro-navigation is an easy-to-use, fast, and safe technique of real-time imaging for various neurosurgical procedures. [ABSTRACT FROM AUTHOR]

Published

2024

22. Conductive Gel Phantoms for Training in Electrosurgery.

Author

Migliorini, Lorenzo, Valaperta, Giacomo, Acocella, Fabio, Santaniello, Tommaso, Castelli, Nicolò, Perin, Alessandro, Cavaliere, Francesco, Vertemati, Maurizio, Zuccotti, Gian Vincenzo, and Milani, Paolo

Subjects

BRAIN surgery, SURGICAL instruments, MEDICAL practice, TISSUES, ELECTROSURGERY

Abstract

Considering the increasing demand for personalized surgical care, as well as current healthcare resources limitations, the use of anatomical accurate 3D physical phantoms is becoming increasingly important for the training of surgeons and the test of surgical instruments. A lack of physical models is nowadays denoted regarding the training in electrosurgery, despite its wide diffusion in medical practice. This work reports an extensive characterization of electrosurgical physical phantoms fabricated with tissue‐mimicking ionogels and hydrogels. A careful design of the conductive gels allow the fine tuning of their mechanical and electrical properties, in order to match those of biological tissues. The manufacturing of a novel multi‐material skin stratification bench‐top pad is reported together with its use for training in both cold and electrical surgery. Furthermore, a feasibility study is reported, showing the use of conductive ionogels for simulating the coagulation of cortical vessels during brain surgery. [ABSTRACT FROM AUTHOR]

Published

2024

23. Challenges and Opportunities in Awake Craniotomy for Brain Tumor Surgery in Low- and Lower-Middle-Income Countries: A Narrative Review and Perspective.

Author

Pascual, Juan Silvestre G., de Lotbiniere-Bassett, Madeleine, Khu, Kathleen Joy O., Starreveld, Yves P., Lama, Sanju, Legaspi, Gerardo D., Berger, Mitchel S., Duffau, Hugues, and Sutherland, Garnette R.

Subjects

*BRAIN surgery, *BRAIN tumors, *LOW-income countries, *WEB databases, TUMOR surgery

Abstract

Low-income countries (LICs) and lower-middle-income countries (LMICs) are presented with unique challenges and opportunities when performing awake craniotomy (AC) for brain tumors. These circumstances arise from factors that are financial, infrastructural, educational, personnel, and sociocultural in nature. We performed a systematic narrative review of series on AC for intra-axial brain tumors in LICs/LMICs using Preferred Reporting Items for Systematic Reviews and Meta-Analyses guidelines, focusing on the challenges and opportunities in these settings. The PubMed, Scopus, and Web of Science databases were searched. After initially identifying 74 studies, inclusion-exclusion criteria were applied, leaving a total of 14 studies included in the review. These involved 409 patients who underwent AC in LICs/LMICs. These series were from India, Ghana, Nigeria, Iran, Pakistan, Morocco, the Philippines, and Egypt. The most common pathology encountered were gliomas (10–70%). Most studies (11/14, 78.5%) reported on their technique of cortical-subcortical mapping. All reported on motor mapping and 8 of these performed language mapping. The most common outcomes reported were seizure and neurologic deficits, and longest follow-up was at 1 year. Challenges noted were lack of equipment and trained personnel, need for validated tests for the local setting, and sociocultural factors. Opportunities identified were volume for training, technique innovation, and international collaboration. There are numerous challenges and opportunities that arise when performing AC in LICs/LMICs. A collaborative approach toward harnessing the opportunities, and seeking creative solutions to address the challenges, would provide an ideal mechanism toward advancing neurosurgical care and specialty worldwide. [ABSTRACT FROM AUTHOR]

Published

2024

24. Sir William Macewen (1848–1924): Pioneering the Field of Neurosurgery with Early Breakthroughs in Tumor Resection.

Author

Shah, Muhammad Hamza, Awuah, Wireko Andrew, Adebusoye, Favour Tope, Ahluwalia, Arjun, Tan, Joecelyn Kirani, and Atallah, Oday

Subjects

*HERNIA surgery, *BRAIN surgery, *BRAIN abscess, *BONE surgery, *BRAIN tumors, TUMOR surgery

Abstract

Sir William Macewen, a Scottish surgeon, made significant contributions to neurosurgery, beginning with his successful brain tumor resection in 1879. Born in 1848, Macewen's upbringing in a maritime family fostered a practical approach to learning. Macewen's pivotal brain tumor surgery demonstrated his adherence to antiseptic practices and precise localization techniques. Controversy arose regarding his precedence in neurosurgery, which he addressed through meticulous documentation and public presentations. His diagnostic prowess extended to cases of cerebral abscesses and intracranial conditions, relying on clinical observations rather than imaging technology. His 1893 monograph on brain infections remains influential in neurosurgery. Beyond neurosurgery, Macewen was innovative in asepsis, hernia repair, and bone surgery. His legacy as a clinical educator and advocate for surgical advancements earned him widespread recognition. This historical review aimed to explore and evaluate the published literature regarding Macewen's early brain tumor surgeries, seeking to establish his precedence over later surgeons including Godlee and Bennett. [ABSTRACT FROM AUTHOR]

Published

2024

25. The Association of Brain Insulin Resistance with Anesthesia/Surgery-Induced Cognitive Deterioration Is Female-Specific in 5XFAD Transgenic Mice.

Author

Zhang, Junyao, Zhang, Yinglin, Zhang, Yingying, and Yao, Junyan

Subjects

*TRANSGENIC mice, *INSULIN resistance, *ALZHEIMER'S disease, *BRAIN surgery, *ABDOMINAL surgery

Abstract

Background: Our previous studies indicated that anesthesia/surgery could aggravate cognitive impairment and tau pathology in female 5XFAD transgenic (Tg) mice. However, it is unknown whether there are sex differences in the susceptibility of developing postoperative cognitive dysfunction in 5XFAD Tg mice. Objective: In this study, we aim to determine whether anesthesia/surgery can have different effects on female and male 5XFAD Tg mice, and to explore the underpinning mechanisms. Methods: The mice received abdominal surgery under isoflurane anesthesia. Morris water maze was used to assess the cognitive function. Hippocampal levels of p-tau (AT8), p-IRS1 (Ser612), IRS1, p-GSK3β (Tyr216), and p-GSK3β (Ser9) at postoperative day 1 were evaluated by western blot assays. Results: Anesthesia/surgery exaggerated cognitive impairment and tau pathology in female, but not male 5XFAD Tg mice. The anesthesia/surgery led to elevated hippocampus protein levels of p-IRS1 (Ser612)/IRS1 ratio and p-GSK3β (Tyr216) and reduced hippocampus protein levels of p-GSK3β (Ser9) in female, but not male 5XFAD Tg mice. Conclusions: This study demonstrated that female 5XFAD Tg mice were more susceptible to anesthesia/surgery-induced cognitive deterioration and tau pathology aggravation, potentially due to female-specific brain insulin resistance. [ABSTRACT FROM AUTHOR]

Published

2024

26. Clinical asymmetry in Parkinson's disease is characterized by prevalence of subthalamic pause-burst neurons and alpha-beta oscillations.

Author

Pavlovsky, Philip, Sayfulina, Ksenia, Gamaleya, Anna, Tomskiy, Alexey, Belova, Elena, and Sedov, Alexey

Subjects

*DEEP brain stimulation, *PARKINSON'S disease, *ACTION potentials, *BRAIN surgery, *SUBTHALAMIC nucleus, *HYPOKINESIA

Abstract

• More affected (MA) STN comprises more pause-burst neurons compared to less affected. • Oscillations of pause-burst neurons in MA STN correlate with bradykinesia and rigidity. • More affected STNs feature greater oscillation power in the alpha-beta range. We aimed to establish specific biomarkers of Parkinson's disease (PD) by comparing activity of more affected (MA) and less affected (LA) subthalamic nucleus (STN) of patients with prominent clinical asymmetry. We recorded single unit activity and local field potentials (LFP) of the STN during deep brain stimulation surgeries. Neuronal firing patterns and discharge rate, as well as oscillatory features of both single cells and LFP, were analyzed. We observed notable differences in proportions of irregular-burst and pause-burst, but not tonic neurons, between the hemispheres. Oscillations of pause-burst neurons correlated significantly with the bradykinesia and rigidity scores of the corresponding hemibody. LFP derived from MA STN featured greater power in 12–15 Hz. Our results provide evidence that the increased proportion of units with prolonged pauses may be associated with PD. We also speculate that some of them may gain rhythmicity in the alpha-beta range in relation to hypokinetic symptoms, long-term disease, or both. Our findings highlight the relation between specific oscillatory features of the STN, predominance of subthalamic pause-burst units and PD pathophysiology. [ABSTRACT FROM AUTHOR]

Published

2024

27. Robot-assisted Neuroendoscopy: Surgeon's Third Hand – a Proof of Concept Study.

Author

Karnam, Murali, Rychen, Jonathan, Guzman, Raphael, Cattin, Philippe C., Rauter, Georg, and Gerig, Nicolas

Subjects

ENDOSCOPY, BRAIN surgery, DETECTORS, TORQUE, HUMAN-robot interaction

Abstract

In neuroendoscopy, an assistant surgeon holds the endoscope while the operating surgeon performs brain surgery using surgical instruments in both hands. The assistant surgeon's task can be strenuous over time, especially in long surgeries, and unsteadiness or tremor might affect the visualization quality that the operating surgeon depends upon. Existing mechanical and pneumatic arms offer limited flexibility. We propose a robotic assistant as a third hand to the surgeon. It holds the endoscope and can be moved freely or held in place. As a proof of concept, we attached a neuroendoscope to an offthe- shelf robot with a custom handle, including a force/torque (F/T) sensor. We qualitatively identified the requirements for the third hand with a surgeon as a participant. We also quantitatively identified the range of forces applied by the endoscope to act as a retractor on two brain phantoms while visualizing the surgical site. With our proof of concept study, we could show the feasibility of robotic assistance in neuroendoscopy. Based on our observations, we found that an intuitive input device to switch the different robot modes, a second F/T sensor to measure the surgeon's input and tissue interaction separately, and a differently shaped precision grip handle represent promising improvements to our third hand prototype. [ABSTRACT FROM AUTHOR]

Published

2024

28. Beyin tümörü biyopsisi için derin öğrenme tabanlı risk minimizasyonlu otomatik planlama.

Author

Şahin, Mustafa, Şahin, Emrullah, Özdemir, Edanur, Talu, Muhammed Fatih, and Öztürk, Sait

Subjects

*AUTOMATED planning & scheduling, *STEREOTAXIC techniques, *BASIC needs, *BRAIN surgery, *BIOPSY

Abstract

Biopsy emerges as a critical procedure for determining tumor types and establishing pathological diagnoses. This process encompasses two primary stages: planning and surgical intervention. During the planning stage, anatomical points in the patient's brain are marked based on MRI data, known to take an average of four hours. However, the accuracy deficiencies, subjective variations, and time consumption associated with manual marking reveal the critical need for an automated planning tool. In this study, we propose a biopsy planning method, entirely automated and incorporating cutting-edge deep learning architectures, on MRI and MRA data. The suggested approach aims to execute biopsy planning rapidly, consistently, and repeatably. The method consists of four main stages: 1) Removal of the brain's upper shell, 2) Tumor detection and target point determination, 3) Segmentation of the brain's vascular network, and 4) Combination of the three stages and risk calculation for optimal trajectory determination. This automatic method has been validated with 42 patient data in ITKTubeTK. Furthermore, this study, prepared as a "3D Slicer" plugin, is offered as a free computer-assisted tool for clinics. In subsequent phases of the research, integration of fMRI data is planned to further enhance risk calculation. [ABSTRACT FROM AUTHOR]

Published

2025

29. Detecting and Addressing Secondary Neural Injuries in Cranial Surgery: Case Report.

Author

Silverstein, Justin W., Duehr, James, Vilaysom, Sabena, Schulder, Michael, and Eichberg, Daniel G.

Subjects

*EVOKED potentials (Electrophysiology), *SOMATOSENSORY evoked potentials, *EXTRAVASATION, *SURGICAL site, TUMOR surgery

Abstract

Intraoperative neurophysiological monitoring (IONM) is instrumental in mitigating neurological deficits following cranial and spinal procedures. Despite extensive research on IONM’s ability to recognize limb-malposition-related issues, less attention has been given to other secondary neural injuries in cranial surgeries. A comprehensive multimodal neuromonitoring approach was employed during a left frontal craniotomy for tumor resection. The electronic medical record was reviewed in detail in order to describe the patient’s clinical course. The patient, a 46-year-old female, underwent craniotomy for excision of a meningioma. Deteriorations in somatosensory evoked potential and transcranial motor evoked potential recordings identified both a mal-positioned limb as well as an infiltrated intravenous (IV) line in the arm contralateral to the surgical site. The IONM findings for the infiltrated IV were initially attributed to potential limb malposition until swelling and blistering of the limb were appreciated and investigated. The timely identification and management of the infiltrated IV and adjustment of limb positioning contributed to the patient’s recovery, avoiding fasciotomy, with no postoperative neurological deficits. This case is the first published demonstration of the utility of IONM in detecting IV infiltration. This early recognition facilitated early intervention, saving the patient from a potential fasciotomy and enabling their recovery with no postoperative neurological deficits. The findings from this single case highlight the necessity for vigilant and dynamic application of IONM techniques to enhance patient safety and outcomes in neurosurgical procedures. Further research is needed to explore broader applications and further optimize the detection capabilities of IONM. [ABSTRACT FROM AUTHOR]

Published

2024

30. Intraoperative ultrasound and magnetic resonance comparative analysis in brain tumor surgery: a valuable tool to flatten ultrasound's learning curve.

Author

Brugada-Bellsolà, Ferran, Rodríguez, Pilar Teixidor, González-Crespo, Antonio, Menéndez-Girón, Sebastián, Panisello, Cristina Hostalot, Garcia-Armengol, Roser, and Alonso, Carlos J. Domínguez

Subjects

*MAGNETIC resonance imaging, *LEARNING curve, *BRAIN surgery, *ULTRASONIC imaging, TUMOR surgery

Abstract

Background: Intraoperative ultrasound (IOUS) is a profitable tool for neurosurgical procedures' assistance, especially in neuro-oncology. It is a rapid, ergonomic and reproducible technique. However, its known handicap is a steep learning curve for neurosurgeons. Here, we describe an interesting postoperative analysis that provides extra feedback after surgery, accelerating the learning process. Method: We conducted a descriptive retrospective unicenter study including patients operated from intra-axial brain tumors using neuronavigation (Curve, Brainlab) and IOUS (BK-5000, BK medical) guidance. All patients had preoperative Magnetic Resonance Imaging (MRI) prior to tumor resection. During surgery, 3D neuronavigated IOUS studies (n3DUS) were obtained through craniotomy N13C5 transducer's integration to the neuronavigation system. At least two n3DUS studies were obtained: prior to tumor resection and at the resection conclusion. A postoperative MRI was performed within 48 h. MRI and n3DUS studies were posteriorly fused and analyzed with Elements (Brainlab) planning software, permitting two comparative analyses: preoperative MRI compared to pre-resection n3DUS and postoperative MRI to post-resection n3DUS. Cases with incomplete MRI or n3DUS studies were withdrawn from the study. Results: From April 2022 to March 2024, 73 patients were operated assisted by IOUS. From them, 39 were included in the study. Analyses comparing preoperative MRI and pre-resection n3DUS showed great concordance of tumor volume (p < 0,001) between both modalities. Analysis comparing postoperative MRI and post-resection n3DUS also showed good concordance in residual tumor volume (RTV) in cases where gross total resection (GTR) was not achieved (p < 0,001). In two cases, RTV detected on MRI that was not detected intra-operatively with IOUS could be reviewed in detail to recheck its appearance. Conclusions: Post-operative comparative analyses between IOUS and MRI is a valuable tool for novel ultrasound users, as it enhances the amount of feedback provided by cases and could accelerate the learning process, flattening this technique's learning curve. [ABSTRACT FROM AUTHOR]

Published

2024

31. Endoscopic diving technique for surgery of brain abscess.

Author

Suzuki, Yota, Ogiwara, Toshihiro, Kitamura, Satoshi, Fujii, Yu, Hanaoka, Yoshiki, Natsume, Takenori, and Horiuchi, Tetsuyoshi

Subjects

*BRAIN abscess, *BRAIN surgery, *OPERATIVE surgery, *SKULL base, *BACTERIAL contamination, *DIVING

Abstract

Recent advances in neuroendoscopic surgery have led to the minimally invasive treatment of brain abscesses using various endoscopy techniques. The endoscopic diving technique (EDT) involving the formation of fluid lenses to improve the visibility of the endoscope has been reported to be useful in the endoscopic endonasal approach (EEA) for pituitary and midline cranial base lesions. Here, we report a case of brain abscess treated endoscopically using EDT in cylinder surgery. A 29-year-old man with 11q trisomy syndrome developed a fever and progressive right hemiparesis was observed. A diagnosis of a brain abscess was made based on neuroradiological imaging, and endoscopic irrigation and drainage with EDT via a transparent endoscopic sheath were performed, which provided a clear operative field and allowed satisfactory irrigation without bacterial contamination. The bacterium identified by PCR was Streptococcus intermedius, and antibiotic therapy was administered. Postoperatively, his symptoms gradually improved. This is the first technical case report describing the clinical experience of EDT in brain abscess surgery. EDT may be a useful technique not only in EEA but also in cylinder surgery for brain abscesses. [ABSTRACT FROM AUTHOR]

Published

2024

32. Postoperative Acute Intracranial Hemorrhage and Venous Thromboembolism in Patients with Brain Metastases Receiving Acetylsalicylic Acid Perioperatively.

Author

Tonchev, Nikolay, Pinchuk, Anatoli, Dumitru, Claudia A., Neyazi, Belal, Swiatek, Vanessa Magdalena, Stein, Klaus Peter, Sandalcioglu, Ibrahim Erol, and Rashidi, Ali

Subjects

*ASPIRIN, *INTRACRANIAL hemorrhage, *BRAIN surgery, *THROMBOEMBOLISM, TUMOR surgery

Abstract

Cranial operations are associated with a high risk of postoperative intracranial hemorrhage (pICH) and venous thromboembolic events, along with increased mortality and morbidity. With the use of acetylsalicylic acid (ASA) for prophylaxis becoming more prevalent, the risk of bleeding when ASA is administered preoperatively is unknown, as are the effects of discontinuation upon the occurrence of thromboembolic events, especially in societies with aging demographics. To address these questions, a retrospective analysis was performed using medical records and radiological images of 1862 patients subjected to brain tumor surgery over a decade in our department. The risk of pICH was compared in patients with metastases receiving ASA treatment versus patients not receiving ASA treatment. The occurrence of venous thromboembolic events after surgery was also evaluated. The study group consisted of 365 patients with different types of brain metastases. In total, 20 patients suffered pICH and 7 of these were associated with clinical neurological deterioration postoperatively. Of the 58 patients who took ASA preoperatively, 2 patients experienced pICH, compared with 5 patients in the non-ASA impact group (p = 0.120). Patients who took ASA were not at significantly higher risk of pICH and therefore a worse outcome compared to the group without ASA. Therefore, these data suggest that in patients at high cardiovascular risk, ASA can be safely continued during elective brain tumor surgery. [ABSTRACT FROM AUTHOR]

Published

2024

33. Predictors of cognition after glioma surgery: connectotomy, structure-function phenotype, plasticity.

Author

Herbet, Guillaume, Duffau, Hugues, and Mandonnet, Emmanuel

Subjects

*BRAIN surgery, *GLIOMAS, *MACHINE learning, *PHENOTYPES, TUMOR surgery

Abstract

Determining preoperatively the maximal extent of resection that would preserve cognitive functions is the core challenge of brain tumour surgery. Over the past decade, the methodological framework to achieve this goal has been thoroughly renewed: the population-level topographically-focused voxel-based lesion-symptom mapping has been progressively overshadowed by machine learning (ML) algorithmics, in which the problem is framed as predicting cognitive outcomes in a patient-specific manner from a typically large set of variables. However, the choice of these predictors is of utmost importance, as they should be both informative and parsimonious. In this perspective, we first introduce the concept of connectotomy: instead of parameterizing resection topography through the status (intact/resected) of a huge number of voxels (or parcels) paving the whole brain in the Cartesian 3D-space, the connectotomy models the resection in the connectivity space, by computing a handful number of networks disconnection indices, measuring how the structural connectivity sustaining each network of interest was hit by the resection. This connectivity-informed reduction of dimensionality is a necessary step for efficiently implementing ML tools, given the relatively small number of patient-examples in available training datasets. We further argue that two other major sources of interindividual variability must be considered to improve the accuracy with which outcomes are predicted: the underlying structure-function phenotype and neuroplasticity, for which we provide an in-depth review and propose new ways of determining relevant predictors. We finally discuss the benefits of our approach for precision surgery of glioma. [ABSTRACT FROM AUTHOR]

Published

2024

34. Metagenomic sequencing of the skin microbiota of the scalp predicting the risk of surgical site infections following surgery of traumatic brain injury in sub-Saharan Africa.

Author

Lekuya, Hervé Monka, Kateete, David Patrick, Olweny, Geofrey, Kigozi, Edgar, Kamabu, Larrey Kasereka, Mudekereza, Safari Paterne, Nantambi, Rose, Mbiine, Ronald, Makumbi, Fredrick, Cose, Stephen, Vandersteene, Jelle, Baert, Edward, Kalala, Jean-Pierre Okito, and Galukande, Moses

Subjects

*SURGICAL site infections, *BRAIN injuries, *SCALP, *BRAIN surgery, *METAGENOMICS, *SURGICAL swabs

Abstract

Background: Surgical site infections (SSI) are a significant concern following traumatic brain injury (TBI) surgery and often stem from the skin's microbiota near the surgical site, allowing bacteria to penetrate deeper layers and potentially causing severe infections in the cranial cavity. This study investigated the relationship between scalp skin microbiota composition and the risk of SSI after TBI surgery in sub-Saharan Africa (SSA). Methods: This was a prospective cohort study, enrolling patients scheduled for TBI surgery. Sterile skin swabs were taken from the surrounding normal skin of the head and stored for analysis at -80°Celcius. Patients were monitored postoperatively for up to three months to detect any occurrences of SSI. 16S rRNA sequencing was used to analyze the skin microbiota composition, identifying different taxonomic microorganisms at the genus level. The analysis compared two groups: those who developed SSI and those who did not. Results: A total of 57 patients were included, mostly male (89.5%) with a mean age of 26.5 years, predominantly from urban areas in Uganda and victims of assault. Graphical visualization and metagenomic metrics analysis revealed differences in composition, richness, and evenness of skin microbiota within samples (α) or within the community (β), and showed specific taxa (phylum and genera) associated with either the group of SSI or the No SSI. Conclusions: Metagenomic sequencing analysis uncovered several baseline findings and trends regarding the skin microbiome's relationship with SSI risk. There is an association between scalp microbiota composition (abundancy and diversity) and SSI occurrence following TBI surgery in SSA. We hypothesize under reserve that the scalp microbiota dysbiosis could potentially be an independent predictor of the occurrence of SSI; we advocate for further studies with larger cohorts. [ABSTRACT FROM AUTHOR]

Published

2024

35. Treatment effects in epilepsy: a mathematical framework for understanding response over time.

Author

Harrington, Elanor G., Kissack, Peter, Terry, John R., Woldman, Wessel, and Junges, Leandro

Subjects

TREATMENT of epilepsy, TREATMENT effectiveness, ANTICONVULSANTS, BRAIN physiology, BRAIN surgery

Abstract

Epilepsy is a neurological disorder characterized by recurrent seizures, affecting over 65 million people worldwide. Treatment typically commences with the use of anti-seizure medications, including both mono- and poly-therapy. Should these fail, more invasive therapies such as surgery, electrical stimulation and focal drug delivery are often considered in an attempt to render the person seizure free. Although a significant portion ultimately benefit from these treatment options, treatment responses often fluctuate over time. The physiological mechanisms underlying these temporal variations are poorly understood, making prognosis a significant challenge when treating epilepsy. Here we use a dynamic network model of seizure transition to understand how seizure propensity may vary over time as a consequence of changes in excitability. Through computer simulations, we explore the relationship between the impact of treatment on dynamic network properties and their vulnerability over time that permit a return to states of high seizure propensity. For small networks we show vulnerability can be fully characterised by the size of the first transitive component (FTC). For larger networks, we find measures of network efficiency, incoherence and heterogeneity (degree variance) correlate with robustness of networks to increasing excitability. These results provide a set of potential prognostic markers for therapeutic interventions in epilepsy. Such markers could be used to support the development of personalized treatment strategies, ultimately contributing to understanding of long-term seizure freedom. [ABSTRACT FROM AUTHOR]

Published

2024

36. Multimodal microsurgical video-assisted occlusion of aneurysms of the anterior brain circulation: i mportance of the application of indocyanine green contrast and QEVO inspection - preliminary results.

Author

Džurlić, Almir, Ahmetspahić, Adi, Burazerović, Eldin, Sefo, Haso, Rovčanin, Bekir, Hajdarpašić, Edin, Kujača, Eleonora, Rizvanović, Hana, and Omerhodžić, Ibrahim

Subjects

*ANGIOGRAPHY, *INDOCYANINE green, *ANEURYSM surgery, *NEUROSURGERY, *BRAIN surgery

Abstract

Introduction: Indocyanine green (ICG) video angiography (VA) has been widely used in various medical indications, including neurosurgery. The technique enables real -time assessment of vascular structures during surgery. ICG VA is particularly useful in neurosurgery due to its ability to provide high-quality imaging of vascular structures. The aim of the study was to evaluate the practicality, feasibility, and importance of combining ICG VA with endoscopic inspection tool (QEVO) in improving the outcomes of aneurysm clipping surgery. Materials and methods: the study population comprised individuals admitted to the Clinic of Neurosurgery of the Clinical Center University of Sarajevo (CCUS), who underwent microsurgical clipping of the aneurysm. All patients included in the study were surgically treated with the occlusion of brain aneurysm. After the aneurysm was occluded with the clip video-assisted angiography using ICG contrast and endoscopically-assisted inspection of the occluded aneurysm and surrounding blood vessels, QEVO was used for the best clip positioning. Results: this preliminary study included a total of seven patients who fulfilled the inclusion criteria; five of them (71%) were female. After clipping of the anurysm control microscopic inspection revealed that in five patients (71%) the clip was well placed without the anurysm remains while the remains were detected in two patients. ICG video angiography showed that microscopic remains of the aneurysm were detected in one patient, with no angiographic signs of the aneurysm remains. In one patient where the microscopic clip appeared to be well placed, after ICG video angiography, the remains of the aneurysm were detected and the perforator arteries were occluded. Conclusion: the study aimed to evaluate the practicality, feasibility, and importance of combining ICG VA and QEVO in improving the outcomes of aneurysm clipping surgery. The results suggest that this combination can improve visualization of arteries and enhance the outcomes of aneurysm clipping surgery. The study highlights the importance of using both ICG VA and endoscope during microsurgical clipping of aneurysms to achieve better outcomes. [ABSTRACT FROM AUTHOR]

Published

2024

37. Quantitative Assessment of Brain Expansion After Evacuation of Chronic Subdural Hematoma as a Predictor of Recurrence.

Author

Nair, Bijesh Ravindran and Rajshekhar, Vedantam

Subjects

*SUBDURAL hematoma, *BED rest, *GLASGOW Coma Scale, *COMPUTED tomography, *BRAIN surgery

Abstract

A lack of brain expansion is considered a risk factor for recurrence after evacuation of a chronic subdural hematoma (CSDH). To the best of our knowledge, no studies have reported on objective measurement of brain expansion after evacuation of a CSDH. We performed a retrospective analysis of prospectively collected data of patients undergoing 2 burr hole evacuation of a CSDH. We measured the depth of the brain surface from the frontal burr hole dural opening after hematoma evacuation using a specially devised measuring tool. Other predictors analyzed for recurrence of hematoma were age, gender, a history of hypertension, the use of anticoagulant and/or antiplatelet agents, Glasgow coma scale score at presentation, unilateral or bilateral hematoma, computed tomography appearance, and hematoma thickness. Among 88 patients who underwent hematoma evacuation, 3 (3.4%) underwent surgery for recurrence. The significant factors associated with recurrence were the presence of bilateral hematoma (P = 0.001), hematoma width >2.3 cm (P = 0.04), gradation type of hematoma on the computed tomography scan (P = 0.03), and the depth of the brain after hematoma evacuation (P = 0.02). The brain expanded less in those with recurrence, with a mean depth of the brain of 18 ± 6 mm versus 7.27 ± 7.8 mm in those without recurrence. Evacuation of a CSDH through 2 burr holes, along with copious irrigation and bed rest for 3 days, resulted in a very low recurrence rate without the use of a drain. A lack of brain expansion might be a predictor of recurrence. To the best of our knowledge, this is the first study to quantitatively measure the depth of the brain at surgery in patients undergoing surgery for CSDH. [ABSTRACT FROM AUTHOR]

Published

2024

38. Effects of the Use of Neuronavigation in Patients with Supratentorial Brain Gliomas: A Cohort Study.

Author

Perera Valdivia, Doriam, Zapata Vega, Luis, Herrera Pérez, Edgar, Toledo Cisneros, Francisco, Gómez López, Lorena, Guzmán Reynoso, Lagree, Rumià Arboix, Jordi, Di Somma, Alberto, Enseñat Nora, Joaquim, Ferrés Pijoan, Abel, and Roldán Ramos, Pedro

Subjects

*GLIOMAS, *COHORT analysis, *BRAIN surgery, *MILITARY hospitals, *SURGICAL excision, *NEUROPHYSIOLOGIC monitoring, TUMOR surgery

Abstract

Despite the growing acceptance of neuronavigation in the field of neurosurgery, there is limited comparative research with contradictory results. This study aimed to compare the effectiveness (tumor resection rate and survival) and safety (frequency of neurological complications) of surgery for brain gliomas with or without neuronavigation. This retrospective cohort study evaluated data obtained from electronic records of patients who underwent surgery for gliomas at Dr. Alejandro Dávila Bolaños Military Hospital and the Clinic Hospital of Barcelona between July 2016 and September 2022. The preoperative and postoperative clinical and radiologic characteristics were analyzed and compared according to the use of neuronavigation. This study included 110 patients, of whom 79 underwent surgery with neuronavigation. Neuronavigation increased gross total resection by 57% in patients in whom it was used; gross total resection was performed in 56% of patients who underwent surgery with neuronavigation as compared with 35.5% in those who underwent surgery without neuronavigation (risk ratio [RR], 1.57; P = 0.056). The incidence of postoperative neurologic deficits (transient and permanent) decreased by 79% with the use of neuronavigation, (12% vs. 33.3%; RR, 0.21; P = 0.0003). Neuronavigation improved survival in patients with grade IV gliomas (15 months vs. 13.8 months), but it was not statistically significant (odds ratio (OR), 0.19; P = 0.13). Neuronavigation improved the effectiveness (greater gross total resection of tumors) and safety (fewer neurological deficits) of brain glioma surgery. However, neuronavigation does not significantly influence the survival of patients with grade IV gliomas. [ABSTRACT FROM AUTHOR]

Published

2024

39. The Role of Early and Delayed Surgery for Infants with Congenital Brain Tumors.

Author

Jong Seok Lee, Ji Yeoun Lee, Kyung Hyun Kim, Sung-Hye Park, Eun Jung Koh, Seung-Ki Kim, and Ji Hoon Phi

Subjects

*OVERALL survival, *BRAIN surgery, *BODY weight, *CONFIDENCE intervals, *BRAIN tumors, MORTALITY risk factors

Abstract

Purpose: The present study aimed to evaluate the role of early and delayed surgery in congenital brain tumors and analyze the clinical outcomes of infantile brain tumors. Materials and Methods: We performed a retrospective cohort study on 69 infantile brain tumors at a single institution from January 2008 to June 2023. Outcomes were assessed as early mortality (within 30 days following surgery) to evaluate the risk of early surgery in congenital brain tumors. Outcomes of recurrence and overall survival were analyzed in infantile brain tumors. Results: Surgery-related early mortality appeared to occur in young and low-body-weight patients. Cut-off values of age and body weight were found to be 1.3 months and 5.2 kg to avoid early mortality. Three patients (3/10, 30%) showed early mortality in the early surgery group, and early mortality occurred in one patient (1/14, 7.14%) in the delayed surgery group, whose tumor was excessively enlarged. Younger age at diagnosis (< 3 months of age; hazard ratios [HR], 7.1; 95% confidence intervals [CI], 1.4 to 35.6; p=0.018) and leptomeningeal seeding (LMS; HR, 30.6; 95% CI, 3.7 to 253.1; p=0.002) were significant independent risk factors for high mortality in infantile brain tumors. Conclusion We suggest delaying surgery until the patient reaches 1.3 months of age and weighs over 5.2 kg with short-term imaging follow-up unless tumors grow rapidly in congenital brain tumors. Younger ages and the presence of LMS are independent risk factors for high mortality in infantile brain tumors. [ABSTRACT FROM AUTHOR]

Published

2024

40. Are geriatric transfer patients with traumatic brain injury at risk for worse outcomes compared to non-geriatric? Propensity-matched study.

Author

Wycech Knight, Joanna, Fokin, Alexander A., Menzione, Nicholas, Rabinowitz, Sarah R., Viitaniemi, Sari A., and Puente, Ivan

Subjects

*CRANIAL radiography, *ANTICOAGULANTS, *PATIENTS, *HOSPITAL care, *TRAUMA severity indices, *COMPUTED tomography, *HOSPITAL admission & discharge, *RETROSPECTIVE studies, *DESCRIPTIVE statistics, *TRAUMA centers, *LONGITUDINAL method, *ANTIDOTES, *INTENSIVE care units, *BRAIN surgery, *BRAIN injuries, *PLATELET aggregation inhibitors, *COMPARATIVE studies, *CRITICAL care medicine, *TIME

Abstract

To compare outcomes between geriatric and non-geriatric patients with traumatic brain injury (TBI) transferred to trauma center and effects of anticoagulants/antiplatelets (AC/AP) and reversal therapy. A retrospective review of 1,118 patients with TBI transferred from acute care facilities to level 1 trauma center compared in groups: geriatric versus non-geriatric, geriatric with AC/AP therapy versus without, and geriatric AC/AP with AC/AP reversal therapy versus without. Patients with TBI constituted 54.4% of trauma transfers. Mean transfer time was 3.9 h. Propensity matched by Injury Severity Score and Abbreviated Injury Score (AIS) head geriatric compared to non-geriatric patients had more AC/AP use (53.9% vs 8.8%), repeat head computed tomography (93.7% vs 86.1%), intensive care unit (ICU) admissions (57.4% vs 45.7%) and mortality (9.8% vs 3.2%), all p < 0.004. Patients on AC/AP versus without had more ICU admissions (69.1% vs 51.8%, p < 0.001). Patients with AC/AP reversals compared to without reversals had more AIS head 5 (32.0% vs 13.1%), brain surgeries (17.8% vs 3.5%) and ICU admissions (84.8% vs 57.1%), all p < 0.001. TBI constituted half of trauma transfers and 10% required surgery. Based on higher ICU admissions, mortality, and prevalence of AC/AP therapy requiring reversal, geriatric patients with TBI on anticoagulants/antiplatelets should be considered for direct trauma center admission. [ABSTRACT FROM AUTHOR]

Published

2024

41. Experience, Embodiment, and Post-Trial Obligations in Brain-Based Visual Prosthesis Research.

Author

van Stuijvenberg, Odile C., Versalovic, Erika, Lázaro-Muñoz, Gabriel, and Zuk, Peter

Subjects

*SURGERY, *PATIENTS, *MEDICAL technology, *ARTIFICIAL eyes, *BRAIN surgery, *BLINDNESS, *PATIENTS' attitudes

Published

2024

42. Discernible interindividual patterns of global efficiency decline during theoretical brain surgery.

Author

Yueh-Hsin, Lin, Dadario, Nicholas B., Tang, Si Jie, Crawford, Lewis, Tanglay, Onur, Dow, Hsu-Kang, Young, Isabella, Ahsan, Syed Ali, Doyen, Stephane, and Sughrue, Michael E.

Subjects

*BRAIN surgery, *BRAIN function localization, *DIFFUSION tensor imaging, *GRAPH connectivity, TUMOR surgery

Abstract

The concept of functional localization within the brain and the associated risk of resecting these areas during removal of infiltrating tumors, such as diffuse gliomas, are well established in neurosurgery. Global efficiency (GE) is a graph theory concept that can be used to simulate connectome disruption following tumor resection. Structural connectivity graphs were created from diffusion tractography obtained from the brains of 80 healthy adults. These graphs were then used to simulate parcellation resection in every gross anatomical region of the cerebrum by identifying every possible combination of adjacent nodes in a graph and then measuring the drop in GE following nodal deletion. Progressive removal of brain parcellations led to patterns of GE decline that were reasonably predictable but had inter-subject differences. Additionally, as expected, there were deletion of some nodes that were worse than others. However, in each lobe examined in every subject, some deletion combinations were worse for GE than removing a greater number of nodes in a different region of the brain. Among certain patients, patterns of common nodes which exhibited worst GE upon removal were identified as "connectotypes". Given some evidence in the literature linking GE to certain aspects of neuro-cognitive abilities, investigating these connectotypes could potentially mitigate the impact of brain surgery on cognition. [ABSTRACT FROM AUTHOR]

Published

2024

43. Aging-associated weakening of the action potential in fast-spiking interneurons in the human neocortex.

Author

Szegedi, Viktor, Tiszlavicz, Ádám, Furdan, Szabina, Douida, Abdennour, Bakos, Emoke, Barzo, Pal, Tamas, Gabor, Szucs, Attila, and Lamsa, Karri

Subjects

*ACTION potentials, *INTERNEURONS, *NEOCORTEX, *NEURAL circuitry, *BRAIN surgery, *SODIUM channels

Abstract

Aging is associated with the slowdown of neuronal processing and cognitive performance in the brain; however, the exact cellular mechanisms behind this deterioration in humans are poorly elucidated. Recordings in human acute brain slices prepared from tissue resected during brain surgery enable the investigation of neuronal changes with age. Although neocortical fast-spiking cells are widely implicated in neuronal network activities underlying cognitive processes, they are vulnerable to neurodegeneration. Herein, we analyzed the electrical properties of 147 fast-spiking interneurons in neocortex samples resected in brain surgery from 106 patients aged 11–84 years. By studying the electrophysiological features of action potentials and passive membrane properties, we report that action potential overshoot significantly decreases and spike half-width increases with age. Moreover, the action potential maximum-rise speed (but not the repolarization speed or the afterhyperpolarization amplitude) significantly changed with age, suggesting a particular weakening of the sodium channel current generated in the soma. Cell passive membrane properties measured as the input resistance, membrane time constant, and cell capacitance remained unaffected by senescence. Thus, we conclude that the action potential in fast-spiking interneurons shows a significant weakening in the human neocortex with age. This may contribute to the deterioration of cortical functions by aging. • Recordings in human acute brain slices prepared from tissue resected during brain surgery enable investigating neuronal changes with age. • Action potential in fast-spiking interneurons shows a significant weakening in the human neocortex with age. • Neuron intrinsic excitability, measured as the input resistance, membrane time constant, and cell capacitance remained unaffected by senescence. • These changes in neurons' electrical activity may contribute to the deterioration of cortical functions with age. [ABSTRACT FROM AUTHOR]

Published

2024

44. Left-Parietal Angiocentric Glioma: Our Experience and a Review of the Literature.

Author

Curcio, Antonello, Espahbodinea, Shervin, Li Trenta, Eva Azzurra, Ferrarotto, Rosamaria, Nanni, Aristide, Arabia, Noemi, Ciccolo, Giorgio, Raffa, Giovanni, Granata, Francesca, and Germanò, Antonino

Subjects

*LITERATURE reviews, *EPILEPSY, *GLIOMAS, *BRAIN damage, *BRAIN surgery, *HEALING

Abstract

Background: Angiocentric glioma (AG) is a rare, benign, and slow-growing tumor. First described in 2005, it is now gaining attention with respect to the possibility of being diagnosed. Even with no statistical differences between sex, it has been reported both in children and the elderly. A total of 120 cases have been described in the literature. The aim of this study is to provide new data for a new statistical assessment of the prevalence and incidence of AG in populations. Case report: An 8-year-old male patient with no history of epilepsy and no need for antiepileptic therapy underwent surgery for a left-parietal brain lesion, revealed through MRI. Imaging was acquired after his first absence episode. The lesion was completely resected. Histological findings indicated angiocentric glioma. No signs of recurrency after two years of follow-up. Conclusion: AG is usually an epilepsy-related low-grade glioma. Few cases exhibit disease progression and exitus. Surgical management should aim for a gross total resection to avoid recurrence and persisting epilepsy. Surgery represents the gold standard in diagnosis and treatment and must be performed as soon as possible in consideration of its healing properties and its useful diagnosis. [ABSTRACT FROM AUTHOR]

Published

2024

45. Effectiveness of Preoperative Red Cell Preparation and Intraoperative Massive Transfusion in Brain Tumor Operation.

Author

Tunthanathip, Thara, Sae-heng, Sakchai, Oearsakul, Thakul, Kaewborisutsakul, Anukoon, and Taweesomboonyat, Chin

Subjects

*BRAIN tumors, *BRAIN surgery, *ERYTHROCYTES, *BLOOD transfusion, TUMOR surgery

Abstract

Background Excessive requests for preoperative packed red cell (PRC) preparation have been noted, resulting in waste of blood products and higher costs in brain tumor surgery. The objectives of the present study were as follows: (1) the primary objective was to assess the effectiveness index of blood preparation and utilization; (2) the secondary objective was to explore factors associated with intraoperative PRC transfusion; and (3) the third objective was to identify the prevalence and analyze risk factors of massive transfusion. Methods A retrospective cohort study was done on patients who had undergone brain tumor operations. The effectiveness indexes of preoperative PRC preparation and intraoperative utilization were calculated as follows: the crossmatch to transfusion (C/T) ratio, transfusion probability (Tp), and transfusion index (Ti). Additionally, factors associated with intraoperative PRC transfusion and massive transfusion were analyzed. Results There were 1,708 brain tumor patients and overall C/T, Tp, and Ti were 3.27, 45.54%, and 1.10, respectively. Prevalence of intraoperative PRC transfusion was 44.8%, and meningioma, intraosseous/skull-based tumor, and tumor size were linked with massive transfusion. Conclusion Unnecessary preoperative blood component preparation for brain tumor surgery was noticed in routine practice. Exploring intraoperative transfusion variables has been challenged in optimizing crossmatch and actual use. [ABSTRACT FROM AUTHOR]

Published

2024

46. Detecting local perturbations of networks in a latent hyperbolic embedding space.

Author

Longhena, A., Guillemaud, M., and Chavez, M.

Subjects

*HYPERBOLIC spaces, *LARGE-scale brain networks, *EPILEPSY surgery, *BRAIN surgery, *GEOMETRIC modeling

Abstract

This paper introduces two novel scores for detecting local perturbations in networks. For this, we consider a non-Euclidean representation of networks, namely, their embedding onto the Poincaré disk model of hyperbolic geometry. We numerically evaluate the performances of these scores for the detection and localization of perturbations on homogeneous and heterogeneous network models. To illustrate our approach, we study latent geometric representations of real brain networks to identify and quantify the impact of epilepsy surgery on brain regions. Results suggest that our approach can provide a powerful tool for representing and analyzing changes in brain networks following surgical intervention, marking the first application of geometric network embedding in epilepsy research. [ABSTRACT FROM AUTHOR]

Published

2024

47. Association of the combined stereotactic radiosurgery and embolization strategy and long- term outcomes in brain arteriovenous malformations with a volume =10 mL: a nationwide multicenter observational prospective cohort study.

Author

Hengwei Jin, Zhipeng Li, Dezhi Gao, Yu Chen, Heze Han, Li Ma, Debin Yan, Ruinan Li, Anqi Li, Haibin Zhang, Kexin Yuan, Yukun Zhang, Yang Zhao, Xiangyu Meng, Youxiang Li, Xiaolin Chen, Hao Wang, Shibin Sun, and Yuanli Zhao

Subjects

ARTERIOVENOUS malformation, SURGERY, PATIENTS, DEATH, RESEARCH funding, BRAIN, THERAPEUTIC embolization, SCIENTIFIC observation, PROBABILITY theory, RADIOSURGERY, TREATMENT effectiveness, DESCRIPTIVE statistics, HEMORRHAGIC stroke, LONGITUDINAL method, BRAIN surgery, COMBINED modality therapy, RESEARCH, SURVIVAL analysis (Biometry), CONFIDENCE intervals, PROPORTIONAL hazards models

Abstract

Background To compare the long-term outcomes of stereotactic radiosurgery (SRS) with or without prior embolization in brain arteriovenous malformations (AVMs) (volume ≤10 mL) for which SRS is indicated. Methods Patients were recruited from a nationwide multicenter prospective collaboration registry (the MATCH study) between August 2011 and August 2021, and categorized into combined embolization and SRS (E+SRS) and SRS alone cohorts. We performed propensity score-matched survival analysis to compare the long-term risk of non-fatal hemorrhagic stroke and death (primary outcomes). The long-term obliteration rate, favorable neurological outcomes, seizure, worsened mRS score, radiation-induced changes, and embolization complications were also evaluated (secondary outcomes). Hazard ratios (HRs) were calculated using Cox proportional hazards models. Results After study exclusions and propensity score matching, 486 patients (243 pairs) were included. The median (IQR) follow-up duration for the primary outcomes was 5.7 (3.1--8.2) years. Overall, E+SRS and SRS alone were similar in preventing long-term non-fatal hemorrhagic stroke and death (0.68 vs 0.45 per 100 patient-years; HR=1.46 (95% CI 0.56 to 3.84)), as well as in facilitating AVM obliteration (10.02 vs 9.48 per 100 patient-years; HR=1.10 (95% CI 0.87 to 1.38)). However, the E+SRS strategy was significantly inferior to the SRS alone strategy in terms of neurological deterioration (worsened mRS score: 16.0% vs 9.1%; HR=2.00 (95% CI 1.18 to 3.38)). Conclusions In this observational prospective cohort study, the combined strategy of E+SRS does not show substantial advantages over SRS alone. The findings do not support pre-SRS embolization for AVMs with a volume ≤10 mL. [ABSTRACT FROM AUTHOR]

Published

2024

48. Conductive Gel Phantoms for Training in Electrosurgery

Author

Lorenzo Migliorini, Giacomo Valaperta, Fabio Acocella, Tommaso Santaniello, Nicolò Castelli, Alessandro Perin, Francesco Cavaliere, Maurizio Vertemati, Gian Vincenzo Zuccotti, and Paolo Milani

Subjects

brain surgery, conductive gels, electrosurgery, physical phantoms, surgical training, tissue‐mimicking materials, Physics, QC1-999, Technology

Abstract

Abstract Considering the increasing demand for personalized surgical care, as well as current healthcare resources limitations, the use of anatomical accurate 3D physical phantoms is becoming increasingly important for the training of surgeons and the test of surgical instruments. A lack of physical models is nowadays denoted regarding the training in electrosurgery, despite its wide diffusion in medical practice. This work reports an extensive characterization of electrosurgical physical phantoms fabricated with tissue‐mimicking ionogels and hydrogels. A careful design of the conductive gels allow the fine tuning of their mechanical and electrical properties, in order to match those of biological tissues. The manufacturing of a novel multi‐material skin stratification bench‐top pad is reported together with its use for training in both cold and electrical surgery. Furthermore, a feasibility study is reported, showing the use of conductive ionogels for simulating the coagulation of cortical vessels during brain surgery.

Published

2024

49. The World's first 3D-printed PEEK cranial implant: a new horizon in precision and personalized neurosurgery.

Author

MohanaSundaram, ArunSundar, Kamalakannan, Yeshwanth, Raja, Velmurugan, Mofatteh, Mohammad, and Haque, Md Ariful

Subjects

*BRAIN surgery, *NEUROSURGERY, *HEMATOMA, *TREATMENT effectiveness, TUMOR surgery

Abstract

Cranioplasty is a reconstructive neurosurgical procedure that fixes the cranial bone defects after the craniotomy for brain surgeries like tumours, aneurysms, arterio-venous malformations, subdural empyemas and hematomas. Personalized 3D-printed implants offer various advantages, including anatomical accuracy, functional restoration, time-sparing surgery, excellent cosmetic outcomes through their impeccable adjustment to cranial vault defects, and better clinical outcomes. PEEK has a meritorious profile in terms of high success rate, low complication rate, fracture resistance and low toxicity profile, high strength, high toughness, and excellent biocompatibility in cranioplasty. On the other hand, the need for more cost-effective yet ideal biomaterials must be met for nations and patients with financial constraints. Nevertheless, this additively manufactured 3D-printed cranial implant marks the dawn of a new era in precision and personalized neurosurgery. [ABSTRACT FROM AUTHOR]

Published

2024

50. The Management of Brain Tumor Patients in the Neurointensive Care Unit

Author

Govindarajan, Vaidya, Morell, Alexis A., Patel, Nitesh V., Komotar, Ricardo J., Mahanna Gabrielli, Elizabeth, editor, O'Phelan, Kristine H., editor, Kumar, Monisha A., editor, Levine, Joshua, editor, Le Roux, Peter, editor, Gabrielli, Andrea, editor, and Layon, A. Joseph, editor

Published

2024