open access

Vol 29, No 6 (2022)
Technology Note
Submitted: 2022-09-09
Accepted: 2022-10-19
Published online: 2022-10-27
Get Citation

Laser speckle contrast imaging to assess microcirculation

Marcin Hellmann1, Leszek Kalinowski23, Jean-Luc Cracowski4
DOI: 10.5603/CJ.a2022.0097
·
Pubmed: 36342035
·
Cardiol J 2022;29(6):1028-1030.
Affiliations
  1. Department of Cardiac Diagnostics, Medical University of Gdansk, Poland
  2. Department of Medical Laboratory Diagnostics-Fahrenheit Biobank BBMRI.pl, Medical University of Gdansk, Poland
  3. BioTechMed Center, Department of Mechanics of Materials and Structures, Gdansk University of Technology, Gdansk, Poland
  4. Grenoble-Alpes University, Inserm, UMR1300, HP2, Grenoble, France

open access

Vol 29, No 6 (2022)
Technology note — Clinical cardiology
Submitted: 2022-09-09
Accepted: 2022-10-19
Published online: 2022-10-27

Abstract

Not available

Abstract

Not available
Get Citation
About this article
Title

Laser speckle contrast imaging to assess microcirculation

Journal

Cardiology Journal

Issue

Vol 29, No 6 (2022)

Article type

Technology Note

Pages

1028-1030

Published online

2022-10-27

Page views

1466

Article views/downloads

281

DOI

10.5603/CJ.a2022.0097

Pubmed

36342035

Bibliographic record

Cardiol J 2022;29(6):1028-1030.

Authors

Marcin Hellmann
Leszek Kalinowski
Jean-Luc Cracowski

References (10)
  1. Hellmann M, Roustit M, Cracowski JL. Skin microvascular endothelial function as a biomarker in cardiovascular diseases? Pharmacol Rep. 2015; 67(4): 803–810.
  2. Gasecka A, Pruc M, Kukula K, et al. Post-COVID-19 heart syndrome. Cardiol J. 2021; 28(2): 353–354.
  3. Hellmann M, Roustit M, Gaillard-Bigot F, et al. Cutaneous iontophoresis of treprostinil, a prostacyclin analog, increases microvascular blood flux in diabetic malleolus area. Eur J Pharmacol. 2015; 758: 123–128.
  4. Souza EG, De Lorenzo A, Huguenin G, et al. Impairment of systemic microvascular endothelial and smooth muscle function in individuals with early-onset coronary artery disease: studies with laser speckle contrast imaging. Coron Artery Dis. 2014; 25(1): 23–28.
  5. Cracowski JL, Roustit M. Current methods to assess human cutaneous blood flow: an updated focus on laser-based-techniques. Microcirculation. 2016; 23(5): 337–344.
  6. Mannoh EA, Thomas G, Solórzano CC, et al. Intraoperative assessment of parathyroid viability using laser speckle contrast imaging. Sci Rep. 2017; 7(1): 14798.
  7. Łoś A, Hellmann M. Real-time microcirculation imaging during beating-heart coronary artery bypass grafting. Kardiol Pol. 2020; 78(7-8): 780–781.
  8. Briers D, Duncan D, Hirst E, et al. Laser speckle contrast imaging: theoretical and practical limitations. J Biomed Opt. 2013; 18(6): 066018.
  9. Roustit M, Millet C, Blaise S, et al. Excellent reproducibility of laser speckle contrast imaging to assess skin microvascular reactivity. Microvasc Res. 2010; 80(3): 505–511.
  10. Kuri PM, Pion E, Mahl L, et al. Deep learning-based image analysis for the quantification of tumor-induced angiogenesis in the 3D in vivo tumor model-establishment and addition to laser speckle contrast imaging (LSCI). Cells. 2022; 11(15).

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