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Volume 8

Journal of Biotechnology & Biomaterials

ISSN: 2155-952X

Pharma Biotech 2018

December 10-11, 2018

December 10-11, 2018 | Rome, Italy

23

rd

International Conference on

Pharmaceutical Biotechnology

The activity of dental membranes on the reduction of bacterial growth in the course of peri-implantitis

Gabriela Oledzka, Bartlomiej Iwanczyk, Kamila Strom, Anna Minkiewicz

and

Sylwia Jarzynka

Medical University of Warsaw, Poland

Statement of the Problem:

Peri-implantitis treatment is an important clinical challenge with a significant estimation for

getting a local infection under control, preserving soft and bone tissue in the area around the implant and in result maintaining

the aesthetics and stability of the implants. Microorganisms, including drug resistant

Staphylococcus aureus

, play a crucial part

in the etiology of peri-implantitis. Depending on the treatment strategy, only 34 to 79% cases are treatable. Important methods

of treatments are nonsurgical and surgical procedures, which are often unsatisfying for the physician, as well as the patient,

therefore the constant search for alternative, effective methods matters. The important treatment process in peri-implantitis

poses a use of membrane for oral soft tissue and bone regeneration guided regeneration.

Aim:

The aim of this study was to establish the usefulness in laboratory conditions of a bioactive collagen membranes and

titanium-reinforced membranes for reduction of microorganism growth in the active stages of peri-implantitis. The proposed

solution is cost effective and painless in application and in addition could be a promising alternative as a vehicle for transferring

antibiotics and other antibacterial substances directly to the tissues.

Methodology & Theoretical Orientation:

Antibacterial activity of five different membranes was observed for the chosen

bacterial strain

S. aureus

. In a spectrophotometric assay the incubation of bacteria with membranes in Luria broth on micro

titrated plates on 24 hours at 37

o

C was being monitored.

Results:

The results show that the growth of

S. aureus

was lower for: T-Gen®0-collagen membrane, Dyna®-extracellular

membrane with glycoproteins and glycosaminoglycans, Cytoplast®-titanium reinforced membrane, and Mucograft®-collagen

membrane.

Conclusion & Significance:

This work supports that the bioactive membranes can be an effective antibacterial

in vitro

. The

new challenge is the use of these membranes as precise drug carriers, in the treatment strategy used for peri-implantitis.

gabriela.oledzka@wum.edu.pl

J Biotechnol Biomater 2018, Volume 8

DOI: 10.4172/2155-952X-C8-110