Photoacoustic imaging for non‐invasive examination of the healthy temporal artery – systematic evaluation of visual function in healthy subjects

Purpose Photoacoustic (PA) imaging has the potential to become a non‐invasive diagnostic tool for giant cell arteritis, as shown in pilot experiments on seven patients undergoing surgery. Here, we present a detailed evaluation of the safety regarding visual function and patient tolerability in healt...

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Published inActa ophthalmologica (Oxford, England) Vol. 99; no. 2; pp. 227 - 231
Main Authors Sheikh, Rafi, Hammar, Björn, Naumovska, Magdalena, Dahlstrand, Ulf, Gesslein, Bodil, Erlöv, Tobias, Cinthio, Magnus, Malmsjö, Malin
Format Journal Article
LanguageEnglish
Published England Wiley Subscription Services, Inc 01.03.2021
Subjects
Acuity
Arteritis
Autoimmune diseases
Chromophores
Clinical Medicine
Color vision
Engineering and Technology
giant cell arteritis
human
Klinisk medicin
Medical and Health Sciences
Medical Engineering
Medicin och hälsovetenskap
Medicinteknik
Oftalmologi
Ophthalmology
Optic nerve
photoacoustic imaging
Retina
Surgery
Teknik
temporal arteritis
ultrasound
Vein & artery diseases
Visual field
Visual perception
giant cell arteritis
temporal arteritis
photoacoustic imaging
human
ultrasound
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Summary:Purpose Photoacoustic (PA) imaging has the potential to become a non‐invasive diagnostic tool for giant cell arteritis, as shown in pilot experiments on seven patients undergoing surgery. Here, we present a detailed evaluation of the safety regarding visual function and patient tolerability in healthy subjects, and define the spectral signature in the healthy temporal artery. Methods Photoacoustic scanning of the temporal artery was performed in 12 healthy subjects using 59 wavelengths (from 680 nm to 970 nm). Visual function was tested before and after the examination. The subjects’ experience of the examination was rated on a 0–100 VAS scale. Two‐ and three‐dimensional PA images were generated from the spectra obtained from the artery. Results Photoacoustic imaging did not affect the best corrected visual acuity, colour vision (tested with Sahlgren’s Saturation Test or the Ishihara colour vision test) or the visual field. The level of discomfort was low, and only little heat and light sensation were reported. The spectral signature of the artery wall could be clearly differentiated from those of the subcutaneous tissue and skin. Spectral unmixing provided visualization of the chromophore distribution and overall architecture of the artery. Conclusions Photoacoustic imaging of the temporal artery is well tolerated and can be performed without any risk to visual function, including the function of the retina and the optic nerve. The spectral signature of the temporal artery is specific, which is promising for future method development.
Bibliography:Acknowledgements: This study was supported by Inga‐Britt and Arne Lundberg’s Research Foundation, the Swedish Government Grant for Clinical Research (ALF), the EU Horizon 2020 Programme for Research and Innovation, Skåne University Hospital (SUS) Research Grants, Skåne County Research Grants, Crown Princess Margaret’s Foundation (KMA), the Foundation for the Visually Impaired in the County of Malmöhus, The Nordmark Foundation for Eye Diseases at Skåne University Hospital, the Lund Laser Centre at Lund University, Lund University grant for Research Infrastructure, and the Swedish Eye Foundation. We thank Bo Baldetorp, Head of Department of Clinical Sciences Lund, for valuable advice and Helen Sheppard linguistic help.
The corresponding author is a member of the Nordic Ophthalmological Societies only
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ISSN:1755-375X
1755-3768
1755-3768
DOI:10.1111/aos.14566