Photobiomodulation Promotes Motor Recovery Following Decompressive Craniectomy for Traumatic Brain Injury

Daniel C Bartelt; Steffen G Osborn; Levi P Sowers; Alexander Bassuk; Matthew A Howard; Brian T Andrews; Terry C Yin

doi:10.1089/photob.2025.0021

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Photobiomodulation Promotes Motor Recovery Following Decompressive Craniectomy for Traumatic Brain Injury

Journal article

Peer reviewed

Photobiomodulation Promotes Motor Recovery Following Decompressive Craniectomy for Traumatic Brain Injury

Daniel C Bartelt, Steffen G Osborn, Levi P Sowers, Alexander Bassuk, Matthew A Howard, Brian T Andrews and Terry C Yin

Photobiomodulation, photomedicine, and laser surgery, Vol.43(9), pp.394-399

09/01/2025

DOI: 10.1089/photob.2025.0021

PMID: 40628498

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Abstract

Photobiomodulation (PBM), a noninvasive therapy using red and near-infrared light, has shown promising benefits in neuropathology. However, the transmission of PBM to the central nervous system through the scalp's soft tissues and skull is unknown. We hypothesize that decompressive craniectomy (DC) for moderate-to-severe traumatic brain injury (TBI) improves PBM penetrance and enhances neurorehabilitation. Adult male and female Long-Evans rats were utilized to evaluate PBM tissue penetrance and its efficacy on motor deficit recovery following TBI and DC. TBI was induced using a hit-and-run closed-head model, which replicates clinical closed-head trauma. PBM transmittance was measured ex vivo using rat scalp soft tissue and hemicranium samples, with optical power and energy meter readings to quantify penetrance. Functional motor recovery was assessed using a beam walk test to quantify limb deficits defined by forelimb and hindlimb slips. Analysis demonstrated attenuation of 660 nm and 850 nm PBM intensity during transcranial transmission, with scalp skin and cranial bone reducing irradiance from 70.5 mW/cm to 3.96 mW/cm for 660 nm PBM and from 82 mW/cm to 4.96 mW/cm for 850 nm PBM. Beam walk testing revealed significantly fewer hindlimb slips in PBM-treated rats (660 nm: 1.54, 850 nm: 1.86) compared with untreated TBI controls (4.3 slips), suggesting improved motor recovery. Our study indicates that both PBM are attenuated by both scalp soft tissues and the hemicranium, yet both penetrate sufficiently following DC for moderate-to-severe TBI. Our findings suggest that PBM enhances neurorehabilitation outcomes with improved motor recovery in rats with TBI.

Traumatic Brain Injury

red light therapy

near-infrared light therapy

Photobiomodulation

hemicraniectomy

TBI

decompressive craniectomy

Details

Title: Subtitle: Photobiomodulation Promotes Motor Recovery Following Decompressive Craniectomy for Traumatic Brain Injury
Creators: Daniel C Bartelt - University of Iowa
Steffen G Osborn - University of Iowa
Levi P Sowers - University of Iowa
Alexander Bassuk - University of Iowa, Neurology (Pediatrics)
Matthew A Howard - University of Iowa
Brian T Andrews - University of Iowa
Terry C Yin - University of Iowa
Resource Type: Journal article
Publication Details: Photobiomodulation, photomedicine, and laser surgery, Vol.43(9), pp.394-399
DOI: 10.1089/photob.2025.0021
PMID: 40628498
NLM abbreviation: Photobiomodul Photomed Laser Surg
ISSN: 2578-5478
eISSN: 2578-5478
Publisher: Mary Ann Liebert; NEW ROCHELLE
Language: English
Electronic publication date: 07/08/2025
Date published: 09/01/2025
Academic Unit: Neurology; Stead Family Department of Pediatrics; Iowa Neuroscience Institute; Craniofacial Anomalies Research Center; Neurology (Pediatrics); Neurosurgery; Otolaryngology
Record Identifier: 9984845655702771

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