Laser speckle contrast imaging in biomedical optics

Boas, David A.; Dunn, Andrew K.

doi:10.1117/1.3285504

Cited by 909 publications

(779 citation statements)

References 73 publications

(130 reference statements)

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“…These are the camera exposure durations most commonly used for in vivo studies 30 and have been shown to have optimal flow sensitivity in rodents. 31 Laser Speckle Contrast Imaging correlation times were calculated from the speckle contrast values using the expression 32 :…”

Section: Multi-exposure Speckle Imaging Of Blood Flowmentioning

confidence: 99%

Chronic Imaging of Cortical Blood Flow using Multi-Exposure Speckle Imaging

Kazmi

Parthasarthy

Song³

et al. 2013

J Cereb Blood Flow Metab

102

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Chronic imaging of cerebral blood flow (CBF) is an important tool for investigating vascular remodeling after injury such as stroke. Although techniques such as Laser Speckle Contrast Imaging (LSCI) have emerged as valuable tools for imaging CBF in acute experiments, their utility for chronic measurements or cross-animal comparisons has been limited. Recently, an extension to LSCI called Multi-Exposure Speckle Imaging (MESI) was introduced that increases the quantitative accuracy of CBF images. In this paper, we show that estimates of chronic blood flow are better with MESI than with traditional LSCI. We evaluate the accuracy of the MESI flow estimates using red blood cell (RBC) photographic tracking as an absolute flow calibration in mice over several days. The flow measures computed using the MESI and LSCI techniques were found to be on average 10% and 24% deviant (n ¼ 9 mice), respectively, compared with RBC velocity changes. We also map CBF dynamics after photo-thrombosis of selected cortical microvasculature. Correlations of flow dynamics with RBC tracking were closer with MESI (r ¼ 0.88) than with LSCI (r ¼ 0.65) up to 2 weeks from baseline. With the increased quantitative accuracy, MESI can provide a platform for studying the efficacy of stroke therapies aimed at flow restoration.

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Section: Multi-exposure Speckle Imaging Of Blood Flowmentioning

confidence: 99%

Chronic Imaging of Cortical Blood Flow using Multi-Exposure Speckle Imaging

Kazmi

Parthasarthy

Song³

et al. 2013

J Cereb Blood Flow Metab

102

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“…The technique in theory combines the advantages of single-point LDF and scanning LDPI techniques, as it provides instantaneous recording of the perfusion in an area of tissue. Laser Speckle Contrast Imaging is based on the analysis of speckle contrast and, like LDF and LDPI, provides a perfusion measure that is proportional to the concentration and the average velocity of red blood cells (Boas and Dunn, 2010;Briers, 2001;O'Doherty et al, 2009). …”

Section: Figure 6 Typical Sequence Of Laser Doppler Perfusion Imagesmentioning

confidence: 99%

Transdermal iontophoresis as an in-vivo technique for studying microvascular physiology

Tesselaar

Sjöberg

2011

Microvascular Research

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“…The amount of decorrelation depends on the speed and volume of the scatterers in the tissue. To quantify the blurring of the speckles, the speckle contrast is computed as the ratio [110,111]:…”

Section: Laser Speckle Imagingmentioning

confidence: 99%

“…The time-varying component of speckle may be quantified by comparisons of like pixel intensities recorded in successive scans of the subject, thus forming 2D maps of flow across the region of interest. A successful approach was developed using laser speckle contrast analysis (LASCA), which assumes that (considering a Lorenztian flow profile) the speckle contrast could be related to correlation time t C (and hence RBC V ) [110,112]:…”

Section: Laser Speckle Imagingmentioning

confidence: 99%

“…Although accurate absolute measurements RBC V cannot be calculated, perfusion changes can be successively monitored and tracked. Laser speckle imaging has been demonstrated on the rodent skin fold model [119,120], assessed the vasodilation responses of intestinal tissues [121], analysed retinal blood flow and cerebral perfusion [122][123][124][125], and stroke [110].…”

Section: Laser Speckle Imagingmentioning

confidence: 99%

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‘Go with the flow ’: A review of methods and advancements in blood flow imaging

Daly

Leahy

2012

Journal of Biophotonics

102

101

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Physics has delivered extraordinary developments in almost every facet of modern life. From the humble thermometer and stethoscope to X‐Ray, CT, MRI, ultrasound, PET and radiotherapy, our health has been transformed by these advances yielding both morphological and functional metrics. Recently high resolution label‐free imaging of the microcirculation at clinically relevant depths has become available in the research domain. In this paper, we present a comprehensive review on current imaging techniques, state‐of‐the‐art advancements and applications, and general perspectives on the prospects for these modalities in the clinical realm. (© 2013 WILEY‐VCH Verlag GmbH & Co. KGaA, Weinheim)

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Laser speckle contrast imaging in biomedical optics

Cited by 909 publications

References 73 publications

Chronic Imaging of Cortical Blood Flow using Multi-Exposure Speckle Imaging

Chronic Imaging of Cortical Blood Flow using Multi-Exposure Speckle Imaging

Transdermal iontophoresis as an in-vivo technique for studying microvascular physiology

‘Go with the flow ’: A review of methods and advancements in blood flow imaging

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