Ovarian cancer is the type of cancer with the highest mortality rate among gynaecologic malignancies. Due to lack of screening tools, this disease is mainly diagnosed at a progressed stage, when it is too late to adequate therapy. Despite many attempts, enough sensitive and specific biomarker was not still uncovered. Fluorescence spectroscopy has proven to be a useful diagnostic tool with high efficiency. Fluorescence detection has three major advantages over other light-based investigation methods: high sensitivity, high speed, and reliability. Biological materials consist of a number of intrinsic fluorescent compounds -autofluorophores, which are associated with cardinal metabolic pathways. It is well known, that cancerous tissue metabolism is altered compared to healthy one, what influence also intrinsic fluorophores composition of bodily fluids. Urine is one of the biological fluids that could be obtained most easily and displays a blue - green fluorescence that can change in case of pathological process. Analysis of urine autofluorescence is non invasive and simple technique. Using fluorescent spectroscopy, ovarian cancer patients and healthy control group were discerned with high significance, so we predict that fluorescence analysis of urine could be a potential means of ovarian cancer screening.
Cancer is one of the most highlighted topics of current research. Early detection of this disease allows more effective therapy, hence higher chance of cure. Application of fluorescence spectral techniques into oncological diagnostic is one of the potential alternatives. Chemically induced carcinogenesis in rats is widely used model for exploration of various aspects of colorectal cancer. This study shows value of discriminate analysis of urine fluorescent fingerprint between healthy control group of rats and those with dimethylhydrazine induced early lesions of colorectal cancer. Using fluorescence spectroscopy, significant difference (P < 0.05) between both of group was achieved.
Urine contains a variety of compounds including a number of natural fluorophores. Fluorescence spectroscopy has proven to be a useful tool in analytical science. Fluorescence detection has three major advantages over other light-based investigation methods: high sensitivity, speed, and safety. Our work presents the newest approach to analysis of dog urine. Fluorescent fingerprint can very quickly reveal differences between complicated mixtures without adding any reagents. We describe autofluorescence characteristics of the urine of healthy dogs and of those with various disorders using fluorescent fingerprint. Fluorescent analysis has given good results to distinguish between pathological urine and the healthy standard in dogs. Our results suggest that this method can be used to characterize fluorescent properties of canine urine and to reveal some pathological changes in dogs.
The pH monitoring of the tumor microenvironment in vivo seems to be in fact complicated and technically quite challenging nowadays. Also the strategy of measuring urine pH of a little amount is not fully solved. Thus, the aim of our study was to monitor pH of urine samples (< 0.1 ml) and of tumor microenvironment of anesthetized rats in a minimal invasive way. The small urine volumes of rats or mice make pH measurements difficult, as standard pH electrodes usually need a minimal volume of several milliliters to function. The manual micromanipulator together with a needle-type housed pH microsensor offers a simple and effective way to do so. Our results show that pH of urine and tumor microenvironment was lower in tumor bearing rats compared to healthy subjects. The unique technology of pH microsensors could be a promising way to monitor the pH in many experimental designs and clinical praxis.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.