Ciprofloxacin is an inexpensive antibacterial, whereas chloroquine is an inexpensive antimalarial. The coadministration of chloroquine and ciprofloxacin is easily encountered because both drugs are commonly prescribed to patients in the tropics. Five healthy male volunteers aged 19 to 31 years who were not taking any of the prescribed medications and who had no sensitivity to either ciprofloxacin or chloroquine each received 500 mg ciprofloxacin orally with 250 mL of water, and after a 2-week washout period, 500 mg ciprofloxacin plus 600 mg chloroquine was administered orally with 250 mL of water after providing informed consent. A urine sample (7 mL) was collected just before taking the drug at 8:00 AM representing 0 hour and continued afterward at 1, 2, 4, 8, 12, and 24 hours the next day. The samples were stored at -20 degrees C until analyzed. The minimum inhibitory concentrations by diffusion through agar technique were used for the assay of urine ciprofloxacin. The rate of ciprofloxacin excretion and cumulative urine ciprofloxacin were significantly increased. The coadministration of chloroquine increased the cumulative urinary concentration and excretion rate of ciprofloxacin.
Study background: Chronic neuroinflammation is a common emerging hallmark of several neurodegenerative diseases. Alzheimer’s Disease (AD) is the most common cause of dementia among the elderly and is characterized by loss of memory and other cognitive functions.
Objectives: To investigate the effect of methanolic extract of Caryota no (CN) seeds in Drosophila melanogaster (DM) survival and life span. Study Design: Experimental design. Place and Duration: African Centre of Excellence for Phytomedicine Research and Development, University of Jos, Jos Plateau State Nigeria between June 2018 and February 2019. Methods: The LC50 was determined by exposing 50 flies to concentrations ranging from 1 mg to 600 mg per 10 g diet and mortality of flies was scored every 24 hours for 14 days and from the results, five doses were chosen for the next assay. Survival assays were carried out by exposing 50 flies in each vial to the following concentrations: 300 mg, 350 mg, 400 mg, 500 mg and 600 mg of methanolic extract in 5 replicates for 28 days with daily recording of mortality while the longevity assay continued from the survival until the last fly dies. All three experiments were done as three independent trials. Results: The LC50 values of the methanolic extract was determined to be 6.533e+017 mg/10g food in D. melanogaster. The result of the survival assay with methanolic extract of CN showed slight significant (P < .05) increase with the lowest two doses but no significant (P > .05) difference with other higher doses compared to the control. The longevity assay revealed that the extract significantly (P < .05) decreased longevity in Drosophila melanogaster. Conclusion: The results obtained from evaluating the methanolic extract of Caryota no indicate that the plant is relatively non-toxic and maybe safe under acute and subacute exposures but may become deleterious during chronic exposure.
Aims: To investigate the anti-oxidant activity of the methanolic extracts of Caryota no seeds in Drosophila melanogaster (DM). Study Design: Experimental design. Place and Duration: Sample: African Centre of Excellence for Phytomedicine Research and Development, University of Jos, Jos Plateau State Nigeria between June 2018 and February 2019. Methodology: These assays were conducted by exposing 50 flies per vial to the selected concentrations (350 mg, 400 mg and 500 mg) of the extract in 5 independent replicates for seven days while control group received distilled water. The total protein content was then determined from the supernatant of the fly homogenate. The antioxidant activity and levels of GST, CAT and total thiol were then measured. The statistical difference among test groups was presumed at P < .05. Results: The methanolic extract of Caryota no caused nonsignificant (P = .33) decrease in total proteins in DM below basal levels in a dose-dependent pattern. The antioxidant activity showed nonsignificant (P = .28) lowering of the GST activity in DM below control levels. The methanolic extract of CN nonsignificantly (P > .05) increased the levels of catalase (P = .36) and total thiol levels (P = .22). Conclusion: It can therefore be concluded that the methanolic extract of Caryota no contains appreciable concentrations of different types of antioxidants. This may provide perspectives for the evaluation and development of effective and safe phytomedicines created from the local biodiversity.
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