Nena Marín scite author profile

We present a mathematical model to calculate the relative concentration of light scatterers, light absorbers, and fluorophores in the epithelium and stroma. This mathematical description is iteratively fit to the fluorescence spectra measured in vivo, yielding relative concentrations of each molecule. The mathematical model is applied to a total of 493 fluorescence measurements of normal and dysplastic cervical tissue acquired in vivo from 292 patients. The estimated parameters are compared with histopathologic diagnosis to evaluate their diagnostic potential. The mathematical model is validated using fluorescence spectra simulated with known sets of optical parameters. Subsequent application of the mathematical model to in vivo fluorescence measurements from cervical tissue yields fits that accurately describe measured data. The optical parameters estimated from 493 fluorescence measurements show an increase in epithelial flavin adenine dinucleotide (FAD) fluorescence, a decrease in epithelial keratin fluorescence, an increase in epithelial light scattering, a decrease in stromal collagen fluorescence, and an increase in stromal hemoglobin light absorption in dysplastic tissue compared to normal tissue. These changes likely reflect an increase in the metabolic activity and loss of differentiation of epithelial dysplastic cells, and stromal angiogenesis associated with dysplasia. The model presented here provides a tool to analyze clinical fluorescence spectra yielding quantitative information about molecular changes related to dysplastic transformation.

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Calibration standards for multicenter clinical trials of fluorescence spectroscopy for in vivo diagnosis

Marín

MacKinnon

MacAulay³

et al. 2006

J. Biomed. Opt.

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In the context of clinical trials, calibration protocols for optical instruments that ensure measurement accuracy and the ability to carry out meaningful comparisons of data acquired from multiple instruments are required. A series of calibration standards and procedures are presented to assess technical feasibility of optical devices for cervical precancer detection. Measurements of positive and negative standards, and tissue are made with two generations of research grade spectrometers. Calibration accuracy, ability of standards to correct and account for changes in experimental conditions, and device components are analyzed. The relative frequency of measured calibration standards is investigated retrospectively using statistical analysis of trends in instrument performance. Fluorescence measurements of standards and tissue made with completely different spectrometers show good agreement in intensity and lineshape. Frequency of wavelength calibration standards is increased to every 2 h to compensate for thermal drifts in grating mount. Variations in illumination energy detected between standards and patient measurements require probe redesign to allow for simultaneous acquisition of illumination power with every patient measurement. The use of frequent and well-characterized standards enables meaningful comparison of data from multiple devices and unambiguous interpretation of experiments among the biomedical optics community.

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Diffuse reflectance patterns in cervical spectroscopy

Marín

Milbourne

Rhodes

et al. 2005

Gynecologic Oncology

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Fluorescence spectroscopy as a diagnostic tool for detecting cervical pre-cancer

Chang

Pavlova

Marín

et al. 2005

Gynecologic Oncology

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Calibration standards for multi-center clinical trials of fluorescence spectroscopy for in vivo diagnosis

Marín

Chang

Richards‐Kortum

et al. 2004

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Nena Marín

Model-based analysis of clinical fluorescence spectroscopy for in vivo detection of cervical intraepithelial dysplasia

Calibration standards for multicenter clinical trials of fluorescence spectroscopy for in vivo diagnosis

Diffuse reflectance patterns in cervical spectroscopy

Fluorescence spectroscopy as a diagnostic tool for detecting cervical pre-cancer

Calibration standards for multi-center clinical trials of fluorescence spectroscopy for in vivo diagnosis

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