Your search keyword '"Badugu, Ramachandram"' showing total 8 results

1. Glucose-sensitive silicone hydrogel contact lens toward tear glucose monitoring.

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Author

Badugu R, Reece EA, and Lakowicz JR

Subjects

Equipment Design, Humans, Models, Theoretical, Spectrometry, Fluorescence instrumentation, Contact Lenses, Glucose analysis, Hydrogels chemistry, Spectrometry, Fluorescence methods, Tears chemistry

Abstract

Accurate and reliable monitoring of blood glucose is needed for the treatment of diabetes, which has many challenges, including lack of patient compliance. Measuring tear glucose is an alternative to traditional finger-stick tests used to track blood sugar levels, but glucose sensing using tears has yet to be achieved. We report a methodology for possible tear glucose monitoring using glucose-sensitive silicone hydrogel (SiHG) contact lenses, the primary type of lenses available in today's market. Initially, we assessed the interpenetrating polymer network, with nearly pure silicone and water regions, existing in the SiHGs using a polarity-sensitive probe Prodan. We then synthesized a glucose-sensitive fluorophore Quin-C18 with a hydrophobic side chain for localization of probe at the interfacial region. Using our glucose-sensing contact lens, we were able to measure varying concentrations of glucose in an in-vitro system. The Quin-C18 strongly bound to the lenses with insignificant leaching even after multiple rinses. The lenses displayed a similar response to glucose after three months of storage in water. This study demonstrates that it may be possible to develop a contact lens for continuous glucose monitoring in the near term, using our concept of fluorophore binding at the silicone-water interface., ((2018) COPYRIGHT Society of Photo-Optical Instrumentation Engineers (SPIE).) more...

Published

2018

2. Boronic acid fluorescent sensors for monosaccharide signaling based on the 6-methoxyquinolinium heterocyclic nucleus: progress toward noninvasive and continuous glucose monitoring.

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Author

Badugu R, Lakowicz JR, and Geddes CD

Subjects

Boronic Acids chemistry, Fluorescent Dyes chemistry, Glucose analysis, Monosaccharides metabolism, Quinolines chemistry, Signal Transduction

Abstract

The synthesis, characterization, and spectral properties of strategically designed boronic acid containing fluorescent sensors, o-, m-, p-BMOQBA, for the potential detection of tear glucose concentrations when immobilized in plastic disposable contact lenses is described. The new probes, BMOQBAs, consist of the 6-methoxyquinolinium nucleus as a fluorescent indicator, and the boronic acid moiety as a glucose chelating group. A control compound BMOQ, which has no boronic acid group and therefore does not bind monosaccharides has also been prepared. In this paper, we show that structural design considerations of the new probes have afforded for their compatibility within the lenses, with reduced probe sugar-bound pK(a) favorable with the mildly acidic lens environment. In addition, the new probes are readily water soluble, have high quantum yields, and can be prepared by a simple one-step synthetic procedure. more...

Published

2005

3. Ophthalmic glucose monitoring using disposable contact lenses--a review.

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Author

Badugu R, Lakowicz JR, and Geddes CD

Subjects

Algorithms, Anions chemistry, Boronic Acids chemical synthesis, Boronic Acids chemistry, Fluorescent Dyes chemistry, Fluorometry, Fructose analysis, Fructose chemistry, Glucose chemistry, Halogens chemistry, Humans, Hydrogen-Ion Concentration, Monitoring, Physiologic trends, Quinolinium Compounds chemical synthesis, Quinolinium Compounds chemistry, Spectrometry, Fluorescence, Spectrophotometry, Contact Lenses, Glucose analysis, Monitoring, Physiologic methods, Tears chemistry

Abstract

We have developed a range of disposable and colorless tear glucose sensing contact lenses, using off-the-shelf lenses embedded with new water soluble, highly fluorescent and glucose sensitive boronic acid containing fluorophores. The new lenses are readily able to track tear glucose levels and therefore blood glucose levels, which are ideally suited for potential use by diabetics. The fluorescence responses from the lenses can be monitored using simple excitation and emission detection devices. The novelty of our approach is two fold. Firstly, the notion of sensing extremely low glucose concentrations in tears, which track blood levels, by our contact lens approach, and secondly, the unique compatibility of our new glucose signaling probes with the internal mildly acidic contact lens environment. The new lenses are therefore ideal for the non-invasive and continuous monitoring of tear glucose, with about 15-min response time, and a measured shelf life in excess of 3 months. In this review article, we show that fluorescence based signaling using plastic disposable lenses, which have already been industrially optimized with regard to vision correction and oxygen/analyte permeability etc, may a notable alternative to invasive and random finger pricking, the most widely used glucose monitoring technology by diabetics. more...

Published

2004

4. Ophthalmic glucose sensing: a novel monosaccharide sensing disposable and colorless contact lens.

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Author

Badugu R, Lakowicz JR, and Geddes CD

Subjects

Boronic Acids, Humans, Monitoring, Ambulatory instrumentation, Monitoring, Ambulatory methods, Contact Lenses, Glucose analysis, Tears chemistry

Abstract

We have developed a technology for continuous tear glucose monitoring, and therefore potentially blood glucose monitoring, using a daily use, disposable contact lens embedded with sugar-sensing boronic acid containing fluorophores. The novelty of our approach is two fold. Firstly, the notion of sensing extremely low glucose concentrations in tears by our approach, and secondly, the unique compatibility of our new probes with the internal environment of the disposable, off-the-shelf, contact lenses, chosen because the physiological compatibility of disposable plastic contact lenses has already been assessed and optimized with regard to vision correction, size and oxygen/analyte permeability. Our findings show that our approach is indeed suitable for the continuous monitoring of tear glucose levels in the concentration range (50-500 microM), which track blood glucose levels which are approximately 5-10 fold higher. We believe our approach offers unique opportunities for non-invasive continuous glucose monitoring for diabetics, especially since many have eye disorders and require vision correction by either contact lenses or glasses, which is thought to be due to glycation of protein in blood vessels. more...

Published

2004

5. Wavelength-ratiometric and colorimetric probes for glucose determination

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Author

Badugu, Ramachandram, Lakowicz, Joseph R., and Geddes, Chris D.

Subjects

*GLUCOSE, *MONOSACCHARIDES, *ABSORPTION spectra, *COLORIMETRY

Abstract

Abstract: We characterize two new water-soluble probes, m- and p-NBDPBA, which show notable changes in their absorption spectra in the presence of monosaccharides such as glucose and fructose. Subsequently glucose concentrations can readily be determined in the physiological glucose concentration range in a wavelength-ratiometric and colorimetric manner. m-NBDPBA has a dissociation constant of 204mM for glucose, which is not unlike other mono-phenyl boronic acid derived probes. In addition we have also synthesized a control compound, NBDP, which does not contain the boronic acid moiety and is therefore insensitive to sugars, to help rationale the spectral changes observed. [Copyright &y& Elsevier] more...

Published

2006

6. Fluorescence sensors for monosaccharides based on the 6-methylquinolinium nucleus and boronic acid moiety: potential application to ophthalmic diagnostics

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Author

Badugu, Ramachandram, Lakowicz, Joseph R., and Geddes, Chris D.

Subjects

*GLUCOSE, *LIGHT emitting diodes, *PHYSIOLOGY, *ELECTROLUMINESCENT devices

Abstract

Abstract: Continuous monitoring of glucose levels in human physiology is important for the long-term management of diabetes. New signaling methods/probes may provide an improved technology to monitor glucose and other physiologically important analytes. The glucose sensing probes, BMQBAs, fabricated using the 6-methylquinolinium moiety as a fluorescent indicator, and boronic acid as a chelating group, may have versatile applications in glucose sensing because of their unique properties. In this paper we discuss the design logic, synthesis, characterization and spectral properties of three new isomeric glucose sensors (BMQBAs), and a control compound (BMQ) in the presence and absence of sugars. The sensing ability of the new probes is based on a charge neutralization and stabilization mechanism upon sugar binding. The new probes have attractive fluorescence quantum yields, are highly water-soluble, and have spectral characteristics compatible with cheap and portable LEDs and LDs. One of the probes, o-BMQBA, has a sugar bound pKa of 6.1, and a dissociation constant KD of 100mM glucose. These probes have been designed specifically to respond to tear glucose in a contact lens polymer for ophthalmic glucose monitoring, where the reduced sugar bound pKa affords for sensing, in a lens environment that we have previously shown to be mildly acidic. [Copyright &y& Elsevier] more...

Published

2005

7. A glucose-sensing contact lens: from bench top to patient

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Author

Badugu, Ramachandram, Lakowicz, Joseph R, and Geddes, Chris D

Subjects

*GLUCOSE, *MEDICAL technology, *BLOOD sugar monitoring, *CONTACT lenses, *PEOPLE with diabetes, *FLUORESCENCE

Abstract

In the past few years we have seen the development of several new technologies for the continuous and non-invasive monitoring of physiological glucose, such as the GlucoWatch®, glucose-sensing skin patches and approaches based on a glucose-sensing tattoo. One approach that differs from current thinking is based on the determination and monitoring of tear glucose, which is well known to track blood glucose with an approximate 30min lag time, using disposable and colorless contact lenses. These contact lenses can be worn by diabetics who can colorimetrically see changes in their contact lens color or other fluorescence-based properties, giving an indication of tear and blood glucose levels. [Copyright &y& Elsevier] more...

Published

2005

8. Noninvasive Continuous Monitoring of Physiological Glucose Using a Monosaccharide-Sensing Contact Lens.

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Author

Badugu, Ramachandram, Lakowicz, Joseph R., and Geddes, Chris D.

Subjects

*TEARS (Body fluid), *GLUCOSE, *BLOOD sugar, *CELL polarity, *CONTACT lenses, *MONOSACCHARIDES, *DIABETES

Abstract

We have tested the feasibility of tear glucose sensing using a daily, disposable contact lens embedded with boronic acid-containing fluorophores as a potential alternative to current invasive glucose-monitoring techniques. Our findings show that our approach may, indeed, be suitable for the continuous monitoring of tear glucose levels in the range 50-500 μM, which track blood glucose levels that are ∼5-10-fold higher. We compare the response of the boronic acid probes in the contact lens to solution-based measurements and can conclude that both the pH and polarity within the contact lens need to be considered with respect to choosing/designing and optimizing glucose-sensing probes for contact lenses. [ABSTRACT FROM AUTHOR] more...

Published

2004