Human Computer Interface for Tracking Eye Movements Improves Assessment and Diagnosis of Patients With Acquired Brain Injuries

Overview

Journal Front Neurol

Specialty Neurology

Date 2019 Feb 8

PMID 30728799

Citations 11

Authors

Michal Lech

Michal T Kucewicz

Andrzej Czyzewski

Affiliations

Soon will be listed here.

Abstract

One of the first clinical signs differentiating the minimally conscious state from the vegetative state is the presence of smooth pursuit eye movements occurring in direct response to moving salient stimuli. Glasgow Coma Scale (GCS) is one of the most commonly used diagnostic tools for acute phase assessment of the level of consciousness, together with a neurological examination. These classic measures are limited to qualitative neurological examination without more quantitative measures provided from e.g., tasks with tracking position of the gaze. Among this and other limitations, it is prone to a relatively high rate of misdiagnosis. Here, we developed an interface for gaze tracking to enhance the assessment of consciousness in 10 patients with acquired brain injuries. According to the acute phase GCS assessment, nine of them were considered unaware and below the minimally conscious state. Chronic neurological examination confirmed six of them below the minimally conscious state. Our new Human Computer Interface (HCI) revealed that six patients were conscious enough to complete at least one of the gaze tracking tasks. Among these six patients, one was originally diagnosed as remaining in a vegetative state and one in coma. The patient diagnosed as remaining in a chronic vegetative state scored six GCS points acutely. Following assessment with our HCI the patient was re-diagnosed with a possible locked-in syndrome. Our HCI method provides a new complementary tool for clinical assessment of patients suffering from disorders of consciousness.

Citing Articles

Eye tracking to support assessment of patients with prolonged disorder of consciousness - a case series.

Johansson J, Moller M, Franzon K, Stenberg J, Godbolt A J Rehabil Med. 2025; 57:jrm41324.

PMID: 39749424 PMC: 11681144. DOI: 10.2340/jrm.v57.41324.

Covert Tracking to Visual Stimuli in Comatose Patients With Traumatic Brain Injury.

Alkhachroum A, Aklepi G, Sarafraz A, Robayo L, Manolovitz B, Blandino C Neurology. 2023; 101(11):489-494.

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Development of a Sensing Platform Based on Hands-Free Interfaces for Controlling Electronic Devices.

Rojas M, Ponce P, Molina A Front Hum Neurosci. 2022; 16:867377.

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Application of High-Tech Solution for Memory Assessment in Patients With Disorders of Consciousness.

Kujawa K, Zurek A, Goraczko A, Zurek G Front Neurol. 2022; 13:841095.

PMID: 35432173 PMC: 9008141. DOI: 10.3389/fneur.2022.841095.

CyberEye: New Eye-Tracking Interfaces for Assessment and Modulation of Cognitive Functions beyond the Brain.

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