Rafat R. Ansari scite author profile

The noninvasive optical technique of dynamic light scattering (DLS) is routinely used to characterize dilute and transparent submicrometer particle dispersions in laboratory environments. A variety of industrial and biological applications would, however, greatly benefit from on-line monitoring of dispersions under flowing conditions. We present a model experiment to study flowing dispersions of polystyrene latex particles of varying sizes under varying flow conditions by using a newly developed fiber-optic DLS probe. A modified correlation function proposed in an earlier study is applied to the analysis of extracting the size and velocity of laminar flowing particulate dispersions. The complementary technique of laser Doppler velocimetry is also used to measure the speed of moving particles to confirm the DLS findings.

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Clinical Detection of Precataractous Lens Protein Changes Using Dynamic Light Scattering

Datiles

Ansari

Suh

et al. 2008

Arch Ophthalmol

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Pharmacologic vitreolysis with microplasmin increases vitreous diffusion coefficients

Sebag

Ansari²,

Suh³

2006

Graefe's Arch Clin Exp Ophthalmol

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Pharmacologic vitreolysis with human recombinant microplasmin increases vitreous diffusion coefficients in vitro. The results of these studies have implications for the dosing, route of administration, duration of action and methods of determining efficacy in future studies of pharmacologic vitreolysis to enhance vitreo-retinal surgery, as well as the design of clinical trials to induce prophylactic posterior vitreous detachment.

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The Mode of Chaperoning of Dithiothreitol-Denatured α-Lactalbumin by α-Crystallin

Bettelheim

Ansari

Cheng

et al. 1999

Biochemical and Biophysical Research Communications

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A Clinical Study of the Human Lens with a Dynamic Light Scattering Device

Datiles

Ansari

Reed

2002

Experimental Eye Research

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New optical scheme for a polarimetric-based glucose sensor

Ansari

Böckle²,

Rovati

2004

J. Biomed. Opt.

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A new optical scheme to detect glucose concentration in the aqueous humor of the eye is presented. The ultimate aim is to apply this technique in designing a new instrument for, routinely and frequently, noninvasively monitoring blood glucose levels in diabetic patients without contact (no index matching) between the eye and the instrument. The optical scheme exploits the Brewster reflection of circularly polarized light off of the lens of the eye. Theoretically, this reflected linearly polarized light on its way to the detector is expected to rotate its state of polarization, owing to the presence of glucose molecules in the aqueous humor of a patient's eye. An experimental laboratory setup based on this scheme was designed and tested by measuring a range of known concentrations of glucose solutions dissolved in water. (c) 2004 Society of Photo-Optical Instrumentation Engineers.

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Dynamic Light Scattering of Diabetic Vitreopathy

Sebag

Ansari

Dunker³

et al. 1999

Diabetes Technology & Therapeutics

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DLS can detect and quantify the early molecular effects that cause vitreous collagen fibrils to cross-link and aggregate. This could provide valuable insight into ocular and systemic effects of hyperglycemia, because the molecular changes in diabetic vitreopathy could serve as an index of such effects throughout the body. In addition to the diagnostic implications, this methodology could provide a rapid, reproducible way to monitor the response to therapy with novel agents intended to prevent the complications of diabetes on a molecular level.

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Rafat R. Ansari

Aggregation of Lens Crystallins in an In Vivo Hyperbaric Oxygen Guinea Pig Model of Nuclear Cataract: Dynamic Light-Scattering and HPLC Analysis

Particle-size and velocity measurements in flowing conditions using dynamic light scattering

Clinical Detection of Precataractous Lens Protein Changes Using Dynamic Light Scattering

Pharmacologic vitreolysis with microplasmin increases vitreous diffusion coefficients

The Mode of Chaperoning of Dithiothreitol-Denatured α-Lactalbumin by α-Crystallin

A Clinical Study of the Human Lens with a Dynamic Light Scattering Device

New optical scheme for a polarimetric-based glucose sensor

Dynamic Light Scattering of Diabetic Vitreopathy

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