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Journal of Gastrointestinal & Digestive System | ISSN: 2161-069X | Volume: 8

&

&

October 29-30, 2018 | San Francisco, USA

International Conference on

Gastrointestinal Cancer and Therapeutics

4

th

World Congress on

Digestive & Metabolic Diseases

26

th

Annual Congress on

Cancer Science and Targeted Therapies

Comparison of aspirin and ibuprofen bulk and nanoforms in peripheral lymphocytes from breast cancer

patients and healthy individuals

E

pidemiological studies have suggested that regular intake of some non-steroidal anti-inflammatory drugs (NSAIDs) have a

preventative effect against several types of tumors including breast cancer in humans. This present study aims to investigate

the effect of both ibuprofen and aspirin on DNA damage using lymphocytes obtained frombreast cancer patients and comparing

the result with lymphocytes from healthy females as a control. Lymphocytes are useful surrogates for cancer cells. Nanoparticles

(NPs) and bulk sizes were used in the Comet and micronucleus assays. 250ng/ml of ibuprofen (NPs and bulk) and 500ng/

ml of aspirin were used as non-toxic doses to treat the lymphocytes. Aspirin, both bulk and nano sizes, showed a significant

reduction in DNA damage in the Comet and micronucleus assays. However, the effect of aspirin nano (P≤0.01) was more

significant compared to aspirin bulk (P≤0.05). Ibuprofen, in contrast, showed a significant reduction in micronucleus (MNi)

frequency in the micronucleus assay with the nano form (P≤0.001) being more significant than the bulk form (P≤0.01), whilst

its preventative effect with the Comet assay was insignificant. These observations suggest that NPs have better penetration

through the nuclear membrane due to their smaller sizes compared to their bulk size. Aspirin was more effective than ibuprofen

in the reduction of DNA damage and MNi formation in the Comet and micronucleus assays. NPs were more effective than bulk

sizes. The results are consistent with the view that NSAIDs, particularly aspirin and ibuprofen, could have a promising role in

cancer treatment including breast cancer.

Biography

Diana Anderson holds the Established Chair in Biomedical Sciences at the University of Bradford. She obtained her first degree in the University of Wales and

second degrees in the Faculty of Medicine, University of Manchester. She has 460+ peer-reviewed papers, 9 books, has successfully supervised 30 PhDs, and

been a member of editorial boards of 10 international journals. She has been or is Editor in Chief of a book Series on toxicology for J Wiley and sons and the Royal

Society of Chemistry respectively. She gives key note addresses at various international meetings. She is a consultant for many international organisations, such as

the WHO, NATO, TWAS, UNIDO and the OECD. Her h index = 59.

d.anderson1@bradford.ac.uk

Diana Anderson

University of Bradford, UK

Diana Anderson, J Gastrointest Dig Syst 2018, Volume 8

DOI: 10.4172/2161-069X-C8-084