Conference poster
Functional Near Infrared Spectroscopy Identifies Changes in Cognitive Workload Following Pediatric Concussion
Medicine and science in sports and exercise, v 50(5S), pp 108-109
May 2018
Abstract
PURPOSE: To determine if functional near infrared spectroscopy (fNIRS), a noninvasive imaging modality detecting oxygenation changes reflective of cognitive workload, distinguishes physiologic differences between concussion subjects and healthy controls during King-Devick (KD) testing, a rapid number naming task
METHODS: We recruited 57 cases, ages 7 to 21 years, 51% female, and 17 controls, ages 10-21 years, 47% female from a subspecialty referral concussion program for this prospective case control study where the subjects performed the KD test while wearing a fNIRS device consisting of a headband which records anterior prefrontal cortex oxygenation changes with 4 optodes at a 4Hz sampling rate. The main outcome measures were KD times, symptom provocation and oxygenation change during KD testing. RESULTS: Concussion subjects demonstrated longer times and greater oxygenation change on fNIRS compared to healthy controls. However, within the group of concussion subjects, KD times did not distinguish between those with and without symptom provocation upon testing. In contrast, fNIRS was able to detect oxygenation change differences between these two subgroups, with the symptomatic group exhibiting greater oxygenation change with testing.
CONCLUSIONS: Based on our data, the prolongation of KD times observed following concussion has physiologic correlates with increased cognitive workload. Among subjects with concussion, KD times did not distinguish between those with and those without symptom provocation upon testing. In contrast, fNIRS was able to differentiate between these two subgroups of concussion, with symptomatic subjects exhibiting a pattern of greater cognitive workload compared to asymptomatic. fNIRS has utility in detecting subclinical differences in cognitive workload in concussion. In addition, our data supports the concept that the physiologic basis for symptom provocation in concussion may be related to cognitive overload.
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Details
- Title
- Functional Near Infrared Spectroscopy Identifies Changes in Cognitive Workload Following Pediatric Concussion
- Creators
- Christina Lin Master - Children's Hospital of PhiladelphiaEileen Storey - Children's Hospital of PhiladelphiaLei Wang - Drexel UniversityOlivia Podolak - Children's Hospital of PhiladelphiaMatthew Grady - Children's Hospital of PhiladelphiaAndrew Mayer - Mind Research NetworkHasan Ayaz - Drexel University
- Publication Details
- Medicine and science in sports and exercise, v 50(5S), pp 108-109
- Conference
- ACSM 2018 - American College of Sports Medicine Annual Meeting (Minneapolis, Minnesota, United States, 29 May 2018–02 Jun 2018)
- Number of pages
- 2
- Resource Type
- Conference poster
- Language
- English
- Academic Unit
- Information Science; School of Biomedical Engineering, Science, and Health Systems
- Other Identifier
- 991019170369604721