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  2. MECHANISM OF ANTIBACTERIAL ACTIVITY OF HESPINDIN INCORPORATED HALLOSITE NANOTUBES AGAINST STREPTOCOCCUS HALLOSITE

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MECHANISM OF ANTIBACTERIAL ACTIVITY OF HESPINDIN INCORPORATED HALLOSITE NANOTUBES AGAINST STREPTOCOCCUS HALLOSITE

    Authors

    • DHARAHAAS CHINTHAGUMPALA 1
    • Dr. Dhanraj Ganapathy 2
    • Dr. S. Rajeshkumar 3

    1 Graduate student, Saveetha Dental College and Hospitals Saveetha Institute of Medical and Technical Sciences Saveetha University,Chennai, India

    2 Professor and Head, Department of Prosthodontics Saveetha Dental College and Hospitals Saveetha Institute of Medical and Technical Sciences Saveetha University,Chennai, India

    3 Professor Department of Pharmacology Saveetha Dental College and Hospitals Saveetha Institute of Medical and Technical Sciences Saveetha University,Chennai, India

,

Document Type : Research Article

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Abstract

Biomedical science has long been on the lookout for new diagnostic and therapeutic mediums. The most recent development is the use of nanomaterials in such applications, which has given rise to the field of nanomedicine. Halloysite nanotubes (HNTs) are tubular clay nanomaterials that are formed by rolling aluminosilicate kaolin sheets many times. The aluminol and siloxane groups on the surface of HNT help to generate hydrogen bonds with the biomaterials that adhere to it. These qualities make HNT useful in a wide range of fields, including environmental sciences, waste-water treatment, dye removal, nanoelectronics and nanocomposites fabrication, catalytic research, glass coatings or anticorrosive coatings, cosmetics, stimuli response, and forensic sciences. Drug delivery, gene delivery, tissue engineering, cancer and stem cell separation, and bioimaging are just some of the few applications of HNT's unique features in biomedicine and nanomedicine.Hesperidin is a plant chemical that is classified as a “bioflavonoid.” It is found primarily in citrus fruits.Hesperidin is most often used for blood vessel conditions such as hemorrhoids, varicose veins, and poor circulation (venous stasis).The efficacy of hesperidin-halloysite nanotubes for wound healing was studied in this study in-vitro.

Keywords

  • Halloysite
  • Halloysite nanotube
  • Halloysite nanocomposite
  • hesperidin
  • wound pathogens
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European Journal of Molecular & Clinical Medicine
Volume 9, Issue 8 - Issue Serial Number 8
December 2022
Page 1771-1785
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APA

CHINTHAGUMPALA, D., Ganapathy, D. D., & Rajeshkumar, D. S. (2022). MECHANISM OF ANTIBACTERIAL ACTIVITY OF HESPINDIN INCORPORATED HALLOSITE NANOTUBES AGAINST STREPTOCOCCUS HALLOSITE. European Journal of Molecular & Clinical Medicine, 9(8), 1771-1785.

MLA

DHARAHAAS CHINTHAGUMPALA; Dr. Dhanraj Ganapathy; Dr. S. Rajeshkumar. "MECHANISM OF ANTIBACTERIAL ACTIVITY OF HESPINDIN INCORPORATED HALLOSITE NANOTUBES AGAINST STREPTOCOCCUS HALLOSITE". European Journal of Molecular & Clinical Medicine, 9, 8, 2022, 1771-1785.

HARVARD

CHINTHAGUMPALA, D., Ganapathy, D. D., Rajeshkumar, D. S. (2022). 'MECHANISM OF ANTIBACTERIAL ACTIVITY OF HESPINDIN INCORPORATED HALLOSITE NANOTUBES AGAINST STREPTOCOCCUS HALLOSITE', European Journal of Molecular & Clinical Medicine, 9(8), pp. 1771-1785.

VANCOUVER

CHINTHAGUMPALA, D., Ganapathy, D. D., Rajeshkumar, D. S. MECHANISM OF ANTIBACTERIAL ACTIVITY OF HESPINDIN INCORPORATED HALLOSITE NANOTUBES AGAINST STREPTOCOCCUS HALLOSITE. European Journal of Molecular & Clinical Medicine, 2022; 9(8): 1771-1785.

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