Phytochemical constituents,antioxidant and antibacterial activities of methanolic extract of Ardisia elliptica

Objective:To investigate the antioxidant,antibacterial,and chemical ingredients of Ardisia elliptica(A.elliptica) methanolic extracts.Methods:The plant was extracted using methanol.Antibacterial and antioxidant activities were evaluated.Results:The results showed that both fruit and leaf extract of A.elliptica have significant antibacterial activities against Gram-positive and Gram-negative bacteria.Fruit extracts showed higher content of phenolic(71 ± 0.03 GAE/mg extract dry weight),in comparison to the leaf extracts(37 ± 0.05 GAE/mg extract dry weight).Flavonoid content,and Fe2+chelating activity of fruit extracts were higher than leaf extract.The percentage radical inhibition of fruit extract is found to be higher(70%) than that of leaf extract(60%).LCMS results indicated that the major compounds in the fruit extract were Gingerol,Aspidin,Kampherol,and Stercuresin,while the leaf extract contained Gingerol,Aspidin,Triangularin,and Salicyl acyl glucuronide.Furthermore,the results of GCMS indicated that fruit extract contained these major compounds:Vitamin E Tocopherol,5-hepylresornicol,2-Nonylmalonic acid,5-pentadecylresornicol,and Stigmasta-7-22-dien-3-ol.However,leaf extract of A.elliptica contained these major compounds:Alpha Amyrenol,4,4,6,6a,6b,8,8a,9,10,11,12,12 a,14,14 a,14 b octadehydro-2H-picen-3-one,and Lonasterol,4-t-Butyl-2-[4-nitrophenyl] phenol.Conclusions:The results provide evidence that fruit and leaf of A.elliptica extracts might indeed be used as a potential source of effective natural antimicrobial and antioxidant agents in pharmaceutical and food industries.

Prevalence of filarial parasites in domestic and stray cats in Selangor State, Malaysia

Objective: To determine the prevalence of the filarial parasites, ie., Brugia malayi, Brugia pahangi(B. pahangi), Dirofilaria immitis and Dirofilaria repens(D. repens)in domestic and stray cats. Methods: A total of 170 blood sample were collected from domestic and stray cats and examined for i larial worm parasites in two localities, Pulau Carey and Bukit Gasing, Selangor State, Malaysia. Results: The overall prevalence of infection was 23.5%(40/170; 95% CI=17.4–30.6). Of this, 35%(14/40; 95% CI=22.1–50.5) and 50%(20/40; 95% CI=35.2–64.8) were positive for single B. pahangi and D. repens, respectively. The remaining of 15%(6/40; 95% CI=7.1–29.1) were positive for mixed B. pahangi and D. repens. In addition, 75% of the infected cats were domestic, and 25% were strays. No Brugia malayi and Dirofilaria immitis was detected. Eighty-four cats were captured at Pulau Carey, of which 35.7%(30/84) were infected. Among the cats determined to be infected, 93%(28/30; 95% CI=78.7–98.2) were domestic, and only 6.7%(2/30; 95% CI=19.0–21.3) were strays. Conversely, the number of infected cats was three times lower in Bukit Gasing than in Pulau Carey, and most of the cats were stray. Conclusions: B. pahangi and D. repens could be the major parasites underlying i lariasis in the study area. Adequate prophylactic plans should be administrated in the cat population in study area.