The present study deals with the detection of elements responsible for glycemic potential of ripe and unripe fruit peel aqueous extracts of Psidium guajava (P. guajava). Treatment with the aqueous extract of unripe fruit peel showed a significant fall of 17.5% (p , 0.001) in blood glucose levels (BGLs) of normal rats during fasting blood glucose (FBG) test with a dose of 400 mg/kg bw. In sub-diabetic rats, a fall of 19.8% (p , 0.001) was observed with the same dose during a glucose tolerance test (GTT). The significant fall observed in FBG, post prandial glucose (PPG) and urine sugar levels of severely diabetic rats was 20.7%, 17.5% (p , 0.05), and 66.6% (p , 0.01), respectively. On the contrary, the effect of ripe fruit peel aqueous extract showed a regular rise of 24.4% (p , 0.01) in BGL of normal rats and of 90.0% (p , 0.001) in sub-diabetic rats. Laser Induced Breakdown Spectroscopy (LIBS) has been used for the identification of elements responsible for the glycemic potential of fruit peel aqueous extracts of P. guajava.
The study defined the scientific evaluation of glycemic elements of extracts of Cynodon dactylon and Musa paradisiaca. A dose of 500 mg/kg body weight (bw) of C. dactylon produced maximum falls of 23.2% and 22.8% in blood glucose levels of normoglycemic rats during studies of fasting blood glucose and glucose tolerance, respectively, whereas the same dose of M. paradisiaca produced a rise of 34.9% and 18.4%. In diabetic rats during glucose tolerance tests, a fall of 27.8% and a rise of 17.5% were observed with the same dose of C. dactylon and M. paradisiaca, respectively. Laser-induced breakdown spectroscopy used for detection of glycemic elements present in both the extracts indicated that C. dactylon was rich in magnesium (Mg), whereas M. paradisiaca was rich in potassium (K) and sodium (Na), comparatively, suggesting thereby the defined roles of these elements in diabetes management.
The performance of laser-induced breakdown spectroscopy (LIBS) has been evaluated for detection of toxic metals such as Cr in water. Pure aqueous solutions (unitary matrix) with variable Cr concentration were used to construct calibration curves and to estimate the LIBS limit of detection (LOD). The calibration curves for Cr in a binary matrix (Cr plus Cd) and a tertiary matrix (Cr plus Cd and Co) were used to evaluate the matrix effect on the LOD. The LOD for Cr was found to be 1.1, 1.5, and 2.0 ppm (parts in 10(6)) in a unitary, binary, and tertiary matrix, respectively. Once calibrated, the system was utilized for the detection and quantification of the Cr in tannery wastewater collected from different locations in the industrial area of Kanpur, India, where Cr concentrations were determined to be far higher than the U.S. Environmental Protection Agency safe drinking water limit of 0.05 ppm.
The present study exploits the information based on concentration of trace elements and minerals in understanding the role/mechanism of action of freezedried fruit powder suspended in distilled water of Momordica charantia (family: Cucurbitaceae) in diabetes treatment. Laser-induced break down spectroscopy (LIBS) spectra of plant product was recorded under optimized experimental conditions and analyzed. Several atomic lines such as Na, K, Mg, Ca, Fe, Al, etc. have been observed in the LIBS spectra of the above plant product. The concentrations of these minerals are determined by using calibration-free LIBS method. Correlation between the concentration of these elements/minerals and their defined role in diabetes management was studied in normal as well as diabetic animal models.
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