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NCT06398223 Clinical Trial

Ocular Perfusion in Patients With Unilateral Carotid Artery Stenosis

Carotid Artery Stenosis Clinical Trial

Official title:
Ocular Perfusion in Patients With Unilateral Carotid Artery Stenosis

Clinical Trial Details — Status: Recruiting

Administrative data
NCT number NCT06398223
Other study ID # OPHT-101023
Secondary ID
Status Recruiting
Phase
First received
Last updated
Start date April 9, 2024
Est. completion date May 2, 2026

Study information
Verified date May 2024
Source Medical University of Vienna
Contact Gerhard Garhöfer, Assoc. Prof. Priv. Doz. MD
Phone +43 1 40400 29880
Email klin-pharmakologie@meduniwien.ac.at
Is FDA regulated No
Health authority
Study type Observational

Clinical Trial Summary

The aim of the presented study is to evaluate ocular blood flow, respectively optic nerve head blood flow in patients with carotid artery stenosis before and after carotid endarterectomy or carotid artery stenting. Additionally, the investigators aim to compare optic nerve head blood flow in patients with CAS and healthy age- and sex-matched control subjects. Furthermore, the investigators intend to evaluate brain tissue oxygenation in patients with carotid artery stenosis before, during and after CEA and carotid artery stenting. Finally, the investigators will assess potential correlations between LSFG and NIRS results in patients with unilateral carotid artery stenosis.

Description:

Carotid artery stenosis is a condition that can lead to severe consequences such as ocular ischemia or stroke. As the ophthalmic artery branches off the carotid artery, ocular ischemic complications include amaurosis fugax, ocular ischemic syndrome or central retinal artery occlusion. Hence, early diagnosis of carotid artery stenosis and ocular perfusion impairment is of considerable importance to prevent ocular and systemic ischemic complications. As the retina offers a unique window for examining the microcirculation in a non-invasive manner, several imaging techniques have already been used in recent years to assess ocular alterations associated with carotid artery stenosis. However, these examination techniques have their limitations and are therefore not suitable methods for determining ocular perfusion. On the contrary, Laser Speckle Flowgraphy (LSFG) is a non-invasive, in-vivo imaging method which quantitatively estimates blood flow in the optic nerve head, the choroid, the retina and the iris. LSFG offers a promising alternative from conventional methods, as it eliminates the need for contrast agents, has a low procedural complexity and obtains precise and reproducible measurements. As the eye and brain share a close vascular relationship, both receiving blood supply from branches of the internal carotid artery, there is potential to establish a correlation between cerebral and ocular hemodynamics. Near-infrared spectroscopy (NIRS) is a simple and non-invasive method which enables continuous assessment of cerebral oxygenation. However, data on the course of oxygenation of the brain tissue using NIRS before, during and after carotid interventions are scarce. Additionally, there is a lack of comparative NIRS data between carotid endarterectomy (CEA) and carotid artery stenting. Furthermore, correlation studies between oxygenation of the brain tissue and ocular perfusion are largely missing. Hence, the aim of this study is to evaluate optic nerve head blood flow in patients with carotid artery stenosis before and after CEA or carotid artery stenting. Additionally, the investigators will compare optic nerve head blood flow in patients with carotid artery stenosis to healthy sex- and age-matched control subjects. Furthermore, the investigators intend to evaluate brain tissue oxygenation in patients with carotid artery stenosis before, during and after CEA and carotid artery stenting. Finally, the investigators will assess potential correlations between LSFG and NIRS results in patients with unilateral carotid artery stenosis.

Recruitment information / eligibility
Status Recruiting
Enrollment 45
Est. completion date May 2, 2026
Est. primary completion date May 2, 2026
Accepts healthy volunteers
Gender All
Age group 18 Years and older
Eligibility Inclusion Criteria for patients with unilateral carotid artery stenosis: - Men and Women aged = 18 years - Signed informed consent - Normal ophthalmic findings, unless the investigator considers an abnormality to be clinically irrelevant - Diagnosis of unilateral carotid artery stenosis and scheduled carotid endarterectomy or carotid artery stenting Inclusion criteria for healthy age- and sex-matched control subjects: - Men and Women aged = 18 years - Signed informed consent - Normal ophthalmic findings, unless the investigator considers an abnormality to be clinically irrelevant - Normal findings in the medical history, unless the investigator considers an abnormality to be clinically irrelevant - Non-Smokers Exclusion criteria for patients with carotid artery stenosis and healthy age- and sex-matched control subjects: - Blood donation in the three weeks preceding the study - Symptoms of a clinically relevant illness in the three weeks preceding the study - Ocular inflammation or infection within the last 3 months - History of family history of epilepsy - Diabetes mellitus type 1 or type 2 - Pregnant or breast-feeding women - Women of childbearing potential (neither menopausal, nor hysterectomized, nor sterilized) not using effective contraception

Study Design

Related Conditions & MeSH terms

Intervention

Procedure:
Carotid endarterectomy (CEA)
Carotid endarterectomy (CEA): Surgical procedure to remove the plaque buildup in the carotid artery.
Carotid artery stenting
Carotid artery stenting: Treatment of the stenosis with a stent. The plaque in the artery wall is not removed but the narrowing is dilated.

Locations
Country Name City State
Austria Department of Clincal Pharmacology, Medical University of Vienna Vienna

Sponsors (1)
Lead Sponsor Collaborator
Medical University of Vienna

Country where clinical trial is conducted

Austria, 

References & Publications (14)

Arthur A, Alexander A, Bal S, Sivadasan A, Aaron S. Ophthalmic masquerades of the atherosclerotic carotids. Indian J Ophthalmol. 2014 Apr;62(4):472-6. doi: 10.4103/0301-4738.121183. — View Citation

Batu Oto B, Kilicarslan O, Kayadibi Y, Yilmaz Cebi A, Adaletli I, Yildirim SR. Retinal Microvascular Changes in Internal Carotid Artery Stenosis. J Clin Med. 2023 Sep 16;12(18):6014. doi: 10.3390/jcm12186014. — View Citation

Bissacco D, Attisani L, Settembrini AM, Fossati A, Carmo M, Dallatana R, Settembrini PG. Modifications in Near Infrared Spectroscopy for Cerebral Monitoring During Carotid Endarterectomy in Asymptomatic and Symptomatic Patients. Ann Vasc Surg. 2022 Feb;79:239-246. doi: 10.1016/j.avsg.2021.06.047. Epub 2021 Oct 10. — View Citation

Cohen R, Padilla J, Light D, Diller R. Carotid artery occlusive disease and ocular manifestations: Importance of identifying patients at risk. Optometry. 2010 Jul;81(7):359-63. doi: 10.1016/j.optm.2009.10.013. — View Citation

Hackam DG. Optimal Medical Management of Asymptomatic Carotid Stenosis. Stroke. 2021 Jun;52(6):2191-2198. doi: 10.1161/STROKEAHA.120.033994. Epub 2021 May 5. — View Citation

Ismail A, Chen HC, Faye I, Tang TB. Longitudinal effects of common carotid artery stenosis on ocular hemodynamics assessed using laser speckle flowgraphy in a rabbit model. Sci Rep. 2020 Sep 28;10(1):15829. doi: 10.1038/s41598-020-72556-9. — View Citation

Ismail A, Ravipati S, Gonzalez-Hernandez D, Mahmood H, Imran A, Munoz EJ, Naeem S, Abdin ZU, Siddiqui HF. Carotid Artery Stenosis: A Look Into the Diagnostic and Management Strategies, and Related Complications. Cureus. 2023 May 9;15(5):e38794. doi: 10.7759/cureus.38794. eCollection 2023 May. — View Citation

Kwapong WR, Liu J, Wan J, Tao W, Ye C, Wu B. Retinal Thickness Correlates with Cerebral Hemodynamic Changes in Patients with Carotid Artery Stenosis. Brain Sci. 2022 Jul 25;12(8):979. doi: 10.3390/brainsci12080979. — View Citation

Lahme L, Marchiori E, Panuccio G, Nelis P, Schubert F, Mihailovic N, Torsello G, Eter N, Alnawaiseh M. Changes in retinal flow density measured by optical coherence tomography angiography in patients with carotid artery stenosis after carotid endarterectomy. Sci Rep. 2018 Nov 21;8(1):17161. doi: 10.1038/s41598-018-35556-4. — View Citation

Luft N, Wozniak PA, Aschinger GC, Fondi K, Bata AM, Werkmeister RM, Schmidl D, Witkowska KJ, Bolz M, Garhofer G, Schmetterer L. Ocular Blood Flow Measurements in Healthy White Subjects Using Laser Speckle Flowgraphy. PLoS One. 2016 Dec 13;11(12):e0168190. doi: 10.1371/journal.pone.0168190. eCollection 2016. — View Citation

Mursch-Edlmayr AS, Luft N, Podkowinski D, Ring M, Schmetterer L, Bolz M. Laser speckle flowgraphy derived characteristics of optic nerve head perfusion in normal tension glaucoma and healthy individuals: a Pilot study. Sci Rep. 2018 Mar 28;8(1):5343. doi: 10.1038/s41598-018-23149-0. — View Citation

Pierro L, Arrigo A, De Crescenzo M, Aragona E, Chiesa R, Castellano R, Catenaccio B, Bandello F. Quantitative Optical Coherence Tomography Angiography Detects Retinal Perfusion Changes in Carotid Artery Stenosis. Front Neurosci. 2021 Apr 22;15:640666. doi: 10.3389/fnins.2021.640666. eCollection 2021. — View Citation

Song P, Fang Z, Wang H, Cai Y, Rahimi K, Zhu Y, Fowkes FGR, Fowkes FJI, Rudan I. Global and regional prevalence, burden, and risk factors for carotid atherosclerosis: a systematic review, meta-analysis, and modelling study. Lancet Glob Health. 2020 May;8(5):e721-e729. doi: 10.1016/S2214-109X(20)30117-0. — View Citation

Woo SY, Joh JH, Han SA, Park HC. Prevalence and risk factors for atherosclerotic carotid stenosis and plaque: A population-based screening study. Medicine (Baltimore). 2017 Jan;96(4):e5999. doi: 10.1097/MD.0000000000005999. — View Citation

* Note: There are 14 references in allClick here to view all references

Outcome
Type Measure Description Time frame Safety issue
Other Neurovascular coupling Change in neurovascular coupling (retinal stimulation with flickering-light) Before and 4-6 weeks after CEA or carotid artery stenting
Other Retinal nerve fiber layer thickness Change in retinal nerve fiber layer thickness (OCT) Before and 4-6 weeks after CEA or carotid artery stenting
Other Retinal thickness Change in retinal thickness (OCT) Before and 4-6 weeks after CEA or carotid artery stenting
Other Retinal vessel density Change in retinal vessel density (OCT-A) Before and 4-6 weeks after CEA or carotid artery stenting
Other Choroidal vascularity index Change in choroidal vascularity index (EDI-OCT) Before and 4-6 weeks after CEA or carotid artery stenting
Other Optic nerve head blood flow Change in optic nerve head blood flow (LDF) Before and 4-6 weeks after CEA or carotid artery stenting
Other OPP and arterial BP Change in ocular perfusion pressure and arterial blood pressure Before and 4-6 weeks after CEA or carotid artery stenting
Other Brain tissue oxygenation Change in brain tissue oxygenation (NIRS) before, during and after CEA or carotid artery stenting Before and 4-6 weeks after CEA or carotid artery stenting
Other NIRS and LSFG Correlation between optic nerve head blood flow and brain tissue oxygenation before and after CEA or carotid artery stenting (LSFG and NIRS) Before and 4-6 weeks after CEA or carotid artery stenting
Primary Optic nerve head blood flow Change in optic nerve head blood flow (LSFG) in patients with unilateral carotid artery stenosis before and after carotid endarterectomy or carotid artery stenting Before and 4-6 weeks after CEA or carotid artery stenting
Secondary Retinal oxygen saturation and retinal vessel diameter Change in retinal oxygen saturation and retinal vessel diameter (retinal oximetry) Before and 4-6 weeks after CEA or carotid artery stenting
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