Quantifying the vascular response to ischemia with speckle variance optical coherence tomography

Poole, Kristin M.; McCormack, Devin; Patil, Chetan A.; Duvall, Craig L.; Skala, Melissa C.

doi:10.1364/boe.5.004118

Cited by 22 publications

(24 citation statements)

References 67 publications

(110 reference statements)

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“…Also, the outcome of Schlemm II containing all vessels is still available. Based on these segmented regions, speckle variance regions generated by blood cells or other reflectors in vessels (Hendargo et al, 2013; Huang et al, 2009; Li et al, 2014a; Mariampillai et al, 2008; Poole et al, 2014) were automatically segmented by the third version of the software, Schlemm III, that includes several statistical analysis tests to measure the shape, size, location and variation of speckling in different vessels as well as the SC.…”

Section: Methodsmentioning

confidence: 99%

Visualization of conventional outflow tissue responses to netarsudil in living mouse eyes

Mukherjee

Navarro

et al. 2016

European Journal of Pharmacology

109

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Visual impairment due to glaucoma currently impacts 70 million people worldwide. While disease progression can be slowed or stopped with effective lowering of intraocular pressure, current medical treatments are often inadequate. Fortunately, three new classes of therapeutics that target the diseased conventional outflow tissue responsible for ocular hypertension are in the final stages of human testing. The rho kinase inhibitors have proven particularly efficacious and additive to current therapies. Unfortunately, non-contact technology that monitors the health of outflow tissue and its response to conventional outflow therapy is not available clinically. Using optical coherence tomographic (OCT) imaging and novel segmentation software, we present the first demonstration of drug effects on conventional outflow tissues in living eyes. Topical netarsudil (formerly AR-13324), a rho kinase/ norepinephrine transporter inhibitor, affected both proximal (trabecular meshwork and Schlemm's Canal) and distal portions (intrascleral vessels) of the mouse conventional outflow tract. Hence, increased perfusion of outflow tissues was reliably resolved by OCT as widening of the trabecular meshwork and significant increases in cross-sectional area of Schlemm's canal following netarsudil treatment. These changes occurred in conjunction with increased outflow facility, increased speckle variance intensity of outflow vessels, increased tracer deposition in conventional outflow tissues and decreased intraocular pressure. This is the first report using live imaging to show real-time drug effects on conventional outflow tissues and specifically the mechanism of action of netarsudil in mouse eyes. Advancements here pave the way for development of a clinic-friendly OCT platform for monitoring glaucoma therapy.

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Section: Methodsmentioning

confidence: 99%

Visualization of conventional outflow tissue responses to netarsudil in living mouse eyes

Mukherjee

Navarro

et al. 2016

European Journal of Pharmacology

109

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“…At day 7 post-surgery, images of the hind limb vasculature were collected through the skin non-invasively using a swept-source optical coherence tomography (OCT) system with a 1060 nm, 100 kHz source (Axsun Technologies, Inc.) [50, 55]. Speckle variance OCT volumes [56] were collected in a 4 mm × 4 mm area covering the gastrocnemius muscle region to monitor remodeling of vessels in response to hind limb ischemia [39].…”

Section: Methodsmentioning

confidence: 99%

“…Speckle variance OCT volumes [56] were collected in a 4 mm × 4 mm area covering the gastrocnemius muscle region to monitor remodeling of vessels in response to hind limb ischemia [39]. The speckle variance B-scans were processed as described previously [50, 55], and an average intensity projection over ~1.5 mm in depth was computed to visualize all vessels within the volume in a 2D image. The projection images of the vasculature were filtered to enhance contrast and connectivity [50, 55, 57], and the distribution of vessel diameters in each image was quantified.…”

Section: Methodsmentioning

confidence: 99%

ROS-responsive microspheres for on demand antioxidant therapy in a model of diabetic peripheral arterial disease

et al. 2015

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A new microparticle-based delivery system was synthesized from reactive oxygen species (ROS)-responsive poly(propylene sulfide) (PPS) and tested for “on demand” antioxidant therapy. PPS is hydrophobic but undergoes a phase change to become hydrophilic upon oxidation and thus provides a useful platform for ROS-demanded drug release. This platform was tested for delivery of the promising anti-inflammatory and antioxidant therapeutic molecule curcumin, which is currently limited in use in its free form due to poor pharmacokinetic properties. PPS microspheres efficiently encapsulated curcumin through oil-in-water emulsion and provided sustained, on demand release that was modulated in vitro by hydrogen peroxide concentration. The cytocompatible, curcumin-loaded microspheres preferentially targeted and scavenged intracellular ROS in activated macrophages, reduced in vitro cell death in the presence of cytotoxic levels of ROS, and decreased tissue-level ROS in vivo in the diabetic mouse hind limb ischemia model of peripheral arterial disease. Interestingly, due to the ROS scavenging behavior of PPS, the blank microparticles also showed inherent therapeutic properties that were synergistic with the effects of curcumin in these assays. Functionally, local delivery of curcumin-PPS microspheres accelerated recovery from hind limb ischemia in diabetic mice, as demonstrated using non-invasive imaging techniques. This work demonstrates the potential for PPS microspheres as a generalizable vehicle for ROS-demanded drug release and establishes the utility of this platform for improving local curcumin bioavailability for treatment of chronic inflammatory diseases.

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“…Speckle variance optical coherence tomography (OCT) was used for in vivo imaging [17] . To visualize projection images of the vasculature within the implanted scaffolds, volume data sets were processed with a speckle variance technique that computes the variance in each pixel over seven repeated A-lines at each lateral position.…”

Section: Methodsmentioning

confidence: 99%

Copolymer‐Mediated Cell Aggregation Promotes a Proangiogenic Stem Cell Phenotype In Vitro and In Vivo

Crowder

Balikov

Boire

et al. 2016

Adv Healthcare Materials

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Quantifying the vascular response to ischemia with speckle variance optical coherence tomography

Cited by 22 publications

References 67 publications

Visualization of conventional outflow tissue responses to netarsudil in living mouse eyes

Visualization of conventional outflow tissue responses to netarsudil in living mouse eyes

ROS-responsive microspheres for on demand antioxidant therapy in a model of diabetic peripheral arterial disease

Copolymer‐Mediated Cell Aggregation Promotes a Proangiogenic Stem Cell Phenotype In Vitro and In Vivo

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