Your search keyword '"Tejas, Sankar"' showing total 3 results

1. Intradural synovial cyst of the upper cervical spine: A rare cause of symptomatic cord compression

Author

Khormi, Yahya H., primary, Chrenek, Ryan, additional, and Tejas, Sankar, additional

Published

2020

2. Magnetic resonance imaging analysis of human skull diploic venous anatomy

Author

Abdullah Ishaque, Jonathan Tyler, Keith E. Aronyk, Ravi Bhargava, Abdullah K. Alarfaj, Tejas Sankar, Richard C. Fox, Anil H. Walji, and Aziz Sagga

Subjects

0301 basic medicine, business.industry, Anatomy, medicine.disease, Skull regions, Hydrocephalus, Cerebrospinal fluid diversion, 03 medical and health sciences, Skull, 0302 clinical medicine, medicine.anatomical_structure, Cerebrospinal fluid, Dural venous sinuses, medicine, Original Article, Diploic venous space, Surgery, 030101 anatomy & morphology, Neurology (clinical), Coronal suture, business, Vein, 030217 neurology & neurosurgery, Superior sagittal sinus

Abstract

Background: The skull diploic venous space (DVS) represents a potential route for cerebrospinal fluid (CSF) diversion and absorption in the treatment of hydrocephalus. The goal of this study was to carry out a detailed characterization of the drainage pattern of the DVS of the skull using high-resolution MRI, especially the diploic veins draining to the lacunae laterales (LLs) since the LLs constitute an important channel for the CSF to access the superior sagittal sinus and subsequently the systemic circulation. The objective was to identify those skull regions optimally suited for an intraosseous CSF diversion system. Methods: High-resolution, T1-weighted MRI scans from 20 adult and 16 pediatric subjects were selected for analysis. Skulls were divided into four regions, that is, frontal, parietal, temporal, and occipital. On each scan, a trained observer counted all diploic veins in every skull region. Each diploic vein was also followed to determine its final drainage pathway (i.e., dural venous sinus, dural vein, LL, or indeterminate). Results: In the adult age group, the frontal and occipital skull regions showed the highest number of diploic veins. However, the highest number of draining diploic veins connecting to the lacunae lateralis was found in the frontal and parietal skull region, just anterior and just posterior to the coronal suture. In the pediatric age group, the parietal skull region, just posterior to the coronal suture, showed the highest overall number of diploic veins and also the highest number of draining diploic veins connecting to the LL. Conclusion: This study suggested that diploic venous density across the skull varies with age, with more parietal diploic veins in the pediatric age range, and more occipital and frontal diploic veins in adults. If the DVS is ultimately used for CSF diversion, our anatomical data point to optimal sites for the insertion of specially designed intraosseous infusion devices for the treatment of hydrocephalus. Likely the optimal sites for CSF diversion would be the parietal region just posterior to the coronal suture in children, and in adults, frontal and/or parietal just anterior or just posterior to the coronal suture.

Published

2021

3. Novel applications of deep brain stimulation

Author

Clement Hamani, Tejas Sankar, and Travis S. Tierney

Subjects

medicine.medical_specialty, Deep brain stimulation, Movement disorders, Traumatic brain injury, medicine.medical_treatment, Epilepsy, Physical medicine and rehabilitation, medicine, Dementia, Psychiatry, Depression (differential diagnoses), business.industry, Alzheimer's disease, medicine.disease, psychiatry, deep brain stimulation, Substance abuse, Surgical Neurology International: Stereotactic, Mood, depression, epilepsy, movement disorders, Surgery, Neurology (clinical), medicine.symptom, business

Abstract

The success of deep brain stimulation (DBS) surgery in treating medically refractory symptoms of some movement disorders has inspired further investigation into a wide variety of other treatment-resistant conditions. These range from disorders of gait, mood, and memory to problems as diverse as obesity, consciousness, and addiction. We review the emerging indications, rationale, and outcomes for some of the most promising new applications of DBS in the treatment of postural instability associated with Parkinson's disease, depression, obsessive-compulsive disorder, obesity, substance abuse, epilepsy, Alzheimer's-type dementia, and traumatic brain injury. These studies reveal some of the excitement in a field at the edge of a rapidly expanding frontier. Much work still remains to be done on basic mechanism of DBS, optimal target and patient selection, and long-term durability of this technology in treating new indications.

Published

2012