Future University In Egypt (FUE)
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Mohamed Farouk

Basic information

Name : Mohamed Farouk
Title: Associate Professors , Prosthodontics and Implantology
Personal Info: Mohamed Farouk Abdalla Mohamed works as an Associate Professors at the Faculty of Dentistry at Future University in Egypt

Education

Certificate Major University Year
PhD Removable Prosthodontics and Implantology Cairo University-Faculty of Oral and Dental Medicine 2009
Masters Fixed Prosthodontics and Dental Biomaterials Cairo University, Faculty of Oral and Dental Medicine 2004
Bachelor Oral and Dental Surgery Cairo University, Faculty of Oral and Dental sciences 1999

Teaching Experience

Name of Organization Position From Date To Date
Cairo University, Faculty of Oral and Dental Medicine Lecturer, Removable Prosthodontics Department 27/01/2010 01/01/2014
Batergee Medical College, Saudi Arabia Course Director and Lecturer 01/01/2010 01/01/2014
Cairo University, Faculty of Oral and Dental Medicine Assistant Lecturer, Removable Prosthodontics Department 02/11/2004 26/01/2010
Cairo University, Faculty of Oral and Dental Medicine Instructor, Removable Prosthodontics Department 26/07/2004 01/11/2004
Cairo University, Faculty of Oral and Dental Medicine Resident, Removable Prosthodontics Department 07/05/2001 25/07/2004

Researches /Publications

Bacterial leakage of different internal implant/abutment connection - 01/1

Mohamed Farouk Abdalla Mohamed

01/12/2015

Objectives This research was carried out to evaluate the bacterial leakage of two different internal implant abutment connections in vitro. Materials and Methods Twenty dental implants divided into two equal groups were compared; Group 1 fixtures with an internal hexagonal geometry; Group 2 fixtures with a tri-lobe internal connection. A bacterial suspension of Staphylococcus aureus was prepared to obtain a density of 0.5 McFarland standards. All implant abutment assemblies were submerged in sterile tubes containing 4 mL of S. aureus broth culture and were incubated at 37 °C for 14 days. The specimens were disassembled and the inner surfaces of the implants were sampled by sterile paper points. Then the paper points were immersed in test tubes containing sterile BHI broth. From the broth, culture was done on blood agar plates and incubated at 37 °C for 24 h. The resulting colonies were identified by Gram's stain and biochemical reactions. Results Internal hexagon implants showed statistically significant higher mean Log10 CFU than Tri-lobe implants. Conclusion Bacterial leakage seems to be inevitable but fixture abutment interface geometry plays an important role in the amount of leakage.

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