Todd C Hankinson

Overview

Explore the profile of Todd C Hankinson including associated specialties, affiliations and a list of published articles.

Snapshot

Articles 139

Citations 1250

Followers 0

Related Specialties

Pediatrics

Neurosurgery

Oncology

Top 10 Co-Authors

Richard C E Anderson

Michael H Handler

Nicholas K Foreman

Eric M Jackson

David D Limbrick

John C Wellons

Mark D Krieger

Andrew M Donson

Douglas L Brockmeyer

Arthur K Liu

Published In

J Neurosurg Pediatr

Childs Nerv Syst

Neurosurgery

Neuro Oncol

J Neurooncol

Affiliations

Soon will be listed here.

Recent Articles

Building consensus regarding the definition of abnormal craniocervical motion in pediatric patients with Chiari malformation: a modified Delphi study

Alexiades N, Anderson D, DAmbrosio A, Iyer R, Bauer D, Bonfield C, et al.

J Neurosurg Pediatr . 2025 Mar; :1-11. PMID: 40053925

Objective: Abnormal craniocervical motion (ACCM) in the setting of pediatric Chiari type 1 and 1.5 malformation (CM-1/1.5) is generally regarded to be uncommon. The focus of this modified Delphi study...

Current state and promise of user-centered design to harness explainable AI in clinical decision-support systems for patients with CNS tumors

Prince E, Mirsky D, Hankinson T, Gorg C

Front Radiol . 2025 Jan; 4:1433457. PMID: 39872709

In neuro-oncology, MR imaging is crucial for obtaining detailed brain images to identify neoplasms, plan treatment, guide surgical intervention, and monitor the tumor's response. Recent AI advances in neuroimaging have...

Bedside transfontanelle drain placement reduces the need for operative intervention in infants with subdural fluid collections

Pazniokas J, Harris W, Alshareef M, Alexander A, Hankinson T, Handler M, et al.

Childs Nerv Syst . 2024 Dec; 41(1):55. PMID: 39680149

Objective: Subdural fluid collection is a common neurosurgical condition in the pediatric population. Patients requiring surgical intervention have historically been managed with subdural drains, subdural-subgaleal shunting, subdural-peritoneal shunting, and mini-craniotomies....

A Visual Analytics Framework for Assessing Interactive AI for Clinical Decision Support

Prince E, Hankinson T, Gorg C

Pac Symp Biocomput . 2024 Dec; 30:40-53. PMID: 39670360

Human involvement remains critical in most instances of clinical decision-making. Recent advances in AI and machine learning opened the door for designing, implementing, and translating interactive AI systems to support...

Does machine learning improve prediction accuracy of the Endoscopic Third Ventriculostomy Success Score? A contemporary Hydrocephalus Clinical Research Network cohort study

Malhotra A, Kulkarni A, Verhey L, Reeder R, Riva-Cambrin J, Jensen H, et al.

Childs Nerv Syst . 2024 Dec; 41(1):42. PMID: 39658658

Purpose: This Hydrocephalus Clinical Research Network (HCRN) study had two aims: (1) to compare the predictive performance of the original ETV Success Score (ETVSS) using logistic regression modeling with other...

Pediatric CSF diversion procedures for treatment of hydrocephalus during the COVID-19 pandemic

Lundy P, Barkley A, Rahman A, Arynchyna-Smith A, Thrower J, Stewart A, et al.

J Neurosurg Pediatr . 2024 Oct; 35(1):57-63. PMID: 39393095

Objective: Because there is not a link between COVID-19 and pediatric hydrocephalus, the COVID-19 pandemic should not have altered the incidence of pediatric hydrocephalus or the rate of CSF diversion...

Does pre-irradiation gross tumor volume predict the risk of progression after radiation therapy in pediatric patients with adamantinomatous craniopharyngioma?

Brooks T, Gao D, Dorris K, Boone K, Mirsky D, Staulcup S, et al.

J Neurosurg Pediatr . 2024 Sep; 34(6):642-648. PMID: 39332032

Objective: In a cohort of patients who were treated with resection and adjuvant radiotherapy (RT) for adamantinomatous craniopharyngioma (ACP), the authors aimed to determine whether gross tumor volume (GTV) at...

Operative Adjuncts in Pediatric Brain Tumor Surgery with a Focus on Suprasellar Tumors

Alshareef M, Bsat S, Hankinson T

Adv Tech Stand Neurosurg . 2024 Sep; 53:13-25. PMID: 39287800

The primary objective of surgery for brain tumor resection has always been maximizing safe resection while minimizing the risk to normal brain tissue. Technological advances applied in the operating room...

The Iterative Design Process of an Explainable AI Application for Non-Invasive Diagnosis of CNS Tumors: A User-Centered Approach

Prince E, Hankinson T, Gorg C

IEEE Workshop Vis Anal Healthc . 2024 Jul; 2023:7-13. PMID: 38989292

Artificial Intelligence (AI) is well-suited to help support complex decision-making tasks within clinical medicine, including clinical imaging applications like radiographic differential diagnosis of central nervous system (CNS) tumors. So far,...

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EASL: A Framework for Designing, Implementing, and Evaluating ML Solutions in Clinical Healthcare Settings

Prince E, Hankinson T, Gorg C

Proc Mach Learn Res . 2024 Jul; 219:612-630. PMID: 38988337

We introduce the Explainable Analytical Systems Lab (EASL) framework, an end-to-end solution designed to facilitate the development, implementation, and evaluation of clinical machine learning (ML) tools. EASL is highly versatile...