Jayoung Pak scite author profile

Depth electrodes can be placed safely and accurately by using a commercially available frameless stereotactic navigation system and a custom-made adapter. Depth electrode placement to record ictal onsets during epilepsy surgery only requires the contacts to touch rather than to reside within the intended structure. The laterotemporal approach is a more accurate method of placing electrodes than is the occipitotemporal one, likely due to the increased distance from the entry point to the target.

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Deciphering the surgical treatment gap for drug‐resistant epilepsy (DRE): A literature review

Solli

Colwell

Say

et al. 2020

Epilepsia

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Patients with drug‐resistant epilepsy (DRE) rarely achieve seizure freedom with medical therapy alone. Despite being safe and effective for select patients with DRE, epilepsy surgery remains heavily underutilized. Multiple studies have indicated that the overall rates of surgery in patients with DRE have stagnated in recent years and may be decreasing, even when hospitalizations for epilepsy‐related problems are on the rise. Ultimately, many patients with DRE who might otherwise benefit from surgery continue to have intractable seizures, lacking access to the full spectrum of available treatment options. In this article, we review the various factors accounting for the persistent underutilization of epilepsy surgery and uncover several key themes, including the persistent knowledge gap among physicians in identifying potential surgical candidates, lack of coordinated patient care, patient misconceptions of surgery, and socioeconomic disparities impeding access to care. Moreover, factors such as the cost and complexity of the preoperative evaluation, a lack of federal resource allocation for the research of surgical therapies for epilepsy, and difficulties recruiting patients to clinical trials all contribute to this multifaceted dilemma.

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Giant Paraganglioma of the Cauda Equina in Adolescence: Magnetic Resonance Imaging Demonstration

Wolansky¹,

Stewart²,

Pramanik

et al. 1996

Journal of Neuroimaging

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Standardization of Amygdalohippocampectomy with Intraoperative Magnetic Resonance Imaging: Preliminary Experience

Schwartz¹,

Marks

Pak

et al. 2002

Epilepsia

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Summary:Purpose: Intraoperative magnetic resonance imaging (IMRI) is an extremely useful neurosurgical tool in surgeries in which the extent of resection is known to have a significant impact on outcome. Residual hippocampus is the most common cause of recurrent seizures after temporal lobectomy for medial temporal lobe epilepsy. Although the risk/ benefit ratio of a policy of universal radical hippocampal resection is not known, we hypothesized that IMRI would aid in the intraoperative assessment of the extent of hippocampal resection and assist in accomplishing a complete hippocampectomy.Methods: Five consecutive patients with medically intractable medial temporal lobe epilepsy underwent a radical amygdalohippocampectomy as part of the their surgery for epilepsy. IMRI was used before surgery and after an initial resection. The quality of images was assessed. Postoperative MR images were evaluated by a radiologist to determine the extent of resection of the amygdala, hippocampus, and parahippocampal gyrus.Results: There were no perioperative infections. After a mean follow-up of 10 months, all patients are seizure free. T 1 -weighted coronal intraoperative images were judged adequate at visualizing the medial structures in all patients. T 2 and fluid-attenuated inversion recovery (FLAIR) images did not provide useful information. Postoperative MR images indicated that a complete hippocampectomy had been achieved in all patients.Conclusions: IMRI is a useful adjunct in the surgical treatment of medial temporal lobe epilepsy and perhaps the most reliable method of standardizing a complete hippocampectomy. T 1 -weighted coronal images are the most helpful sequence.

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Early‐onset epileptic encephalopathy with myoclonic seizures related to 9q33.3‐q34.11 deletion involving STXBP1 and SPTAN1 genes

Aravindhan

Shah

Pak

et al. 2018

Epileptic Disorders

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We describe a 10‐month‐old boy with early‐onset epileptic encephalopathy who was found to have a hemizygous deletion in 9q33.3‐q34.11 involving STXBP1 and SPTAN1 genes. He presented at the age of 2.5 months with frequent upper extremity myoclonus, hypotonia, and facial dysmorphisms. Interictal EEG showed multifocal polyspike and wave during wakefulness and sleep. Ictal EEG revealed low‐amplitude generalized sharp slow activity, followed by diffuse attenuation. Metabolic testing was unrevealing. Brain MRI showed thinning of the corpus callosum with an absence of rostrum. This patient is the second reported case with 9q33.3‐q34.11 deletion involving STXBP1 and SPTAN1 genes associated with epileptic encephalopathy and myoclonic seizures. Larger case series are needed to better delineate this association.

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Jayoung Pak

Frameless stereotactic placement of depth electrodes in epilepsy surgery

Deciphering the surgical treatment gap for drug‐resistant epilepsy (DRE): A literature review

Giant Paraganglioma of the Cauda Equina in Adolescence: Magnetic Resonance Imaging Demonstration

Standardization of Amygdalohippocampectomy with Intraoperative Magnetic Resonance Imaging: Preliminary Experience

Early‐onset epileptic encephalopathy with myoclonic seizures related to 9q33.3‐q34.11 deletion involving STXBP1 and SPTAN1 genes

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