Inhibiting the activity of human serious pathogenic bacteria using crude saps of plants growing in Palestine
6th International Conference on Advanced Clinical Research and Clinical Trials
September 10-11, 2018 | Zurich, Switzerland

Hazem Sawalha and Saed Khaseeb

Arab American University, Palestine

Scientific Tracks Abstracts: J Clin Res Bioeth

Abstract:

Antibacterial activity of some Palestinian plants against seven human pathogenic bacteria using the agar disk-diffusion method was studied. Evaluation of the antibacterial activities of plant saps based on the width of the bacterial inhibition revealed that Eucalyptus camaldulensis (0.3 cm), Allium sativum (0.2 cm), Ceratonia siliqua (0.15 cm) and Amygdalus communis (0.15 cm) have the best antimicrobial activities against the bacterial mixture compared with the other fourteen tested plants. Furthermore, E. camaldulensis showed the strongest antimicrobial activity among the four plants. Also, A. sativum have the maximum anti-microbial action against all types of the tested bacteria. In addition, saps of E. camaldulensis and the mixture of E. camaldulensis and A. sativum have a strong ability to kill all types of the tested bacteria followed by the mixture of C. siliqua and A. sativum, the mixture of C. siliqua, A. sativum and E. camaldulensis and the mixture of A. communis, A. sativum and E. camaldulensis that have significant results as anti-microbial agents against most types of the tested bacteria. The results showed that A. sativum and the mixture of A. sativum and C. siliqua have the maximum antimicrobial affectivity against Staphylococcus aureus, whereas, Micrococcus luteus was strongly inhibited by E. camaldulensis, A. sativum, the mixture of E. camaldulensis and C. siliqua, the mixture of E. camaldulensis and A. sativum, and the mixture of E. camaldulensis, A. sativum and C. siliqua. Escherichia coli were efficiently inhibited by A. communis, A. sativum, and E. camaldulensis and also by the mixture of A. sativum and E. camaldulensis. Pseudomonas aeruginosa was inhibited in a significant amount by E. camaldulensis and A. sativum, whereas, Proteus vulgaris was strongly inhibited by the A. sativum. Bacillus subtilis was strongly inhibited by A. sativum, while, for the Klebsiella pneumoniae, most saps revealed an intermediate inhibition except the A. communis, which showed the lowest inhibition value. Therefore, the current study elucidated that E. camaldulensis, A. sativum, C. siliqua and A. communis are the best tested Palestinian plants containing the antibacterial agents against the tested bacterial types.

Biography :

E-mail: hazem.sawalha@aauj.edu