Your search keyword '"Abdallah MN"' showing total 2 results

1. Strategies for Optimizing the Soft Tissue Seal around Osseointegrated Implants.

Author

Abdallah MN, Badran Z, Ciobanu O, Hamdan N, and Tamimi F

Subjects

Ceramics chemistry, Ceramics therapeutic use, Dental Implants, Humans, Laminin chemistry, Laminin therapeutic use, Osseointegration, Soft Tissue Injuries pathology, Surface Properties, Titanium chemistry, Titanium therapeutic use, Prostheses and Implants, Soft Tissue Injuries therapy

Abstract

Percutaneous and permucosal devices such as catheters, infusion pumps, orthopedic, and dental implants are commonly used in medical treatments. However, these useful devices breach the soft tissue barrier that protects the body from the outer environment, and thus increase bacterial infections resulting in morbidity and mortality. Such associated infections can be prevented if these devices are effectively integrated with the surrounding soft tissue, and thus creating a strong seal from the surrounding environment. However, so far, there are no percutaneous/permucosal medical devices able to prevent infection by achieving strong integration at the soft tissue-device interface. This review gives an insight into the current status of research into soft tissue-implant interface and the challenges associated with these interfaces. Biological soft/hard tissue interfaces may provide insights toward engineering better soft tissue interfaces around percutaneous devices. In this review, focus is put on the history and current findings as well as recent progress of the strategies aiming to develop a strong soft tissue seal around osseointegrated implants, such as orthopedic and dental implants., (© 2017 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2017

2. Controlling Bone Graft Substitute Microstructure to Improve Bone Augmentation.

Author

Sheikh Z, Drager J, Zhang YL, Abdallah MN, Tamimi F, and Barralet J

Subjects

Animals, Male, Rabbits, Bone Regeneration drug effects, Bone Substitutes chemistry, Bone Substitutes pharmacology, Calcium Phosphates chemistry, Calcium Phosphates pharmacology, Skull injuries, Skull metabolism, Skull pathology

Abstract

Vertical bone augmentation procedures are frequently carried out to allow successful placement of dental implants in otherwise atrophic ridges and represent one of the most common bone grafting procedures currently performed. Onlay autografting is one of the most prevalent and predictable techniques to achieve this; however, there are several well documented complications and drawbacks associated with it and synthetic alternatives are being sought. Monetite is a bioresorbable dicalcium phosphate with osteoconductive and osteoinductive potential that has been previously investigated for onlay bone grafting and it is routinely made by autoclaving brushite to simultaneously sterilize and phase convert. In this study, monetite disc-shaped grafts are produced by both wet and dry heating methods which alter their physical properties such as porosity, surface area, and mechanical strength. Histological observations after 12 weeks of onlay grafting on rabbit calvaria reveal higher bone volume (38%) in autoclaved monetite grafts in comparison with the dry heated monetite grafts (26%). The vertical bone height gained is similar for both the types of monetite grafts (up to 3.2 mm). However, it is observed that the augmented bone height is greater in the lateral than the medial areas of both types of monetite grafts. It is also noted that the higher porosity of autoclaved monetite grafts increases the bioresorbability, whereas the dry heated monetite grafts having lower porosity but higher surface area resorb to a significantly lesser extent. This study provides information regarding two types of monetite onlay grafts prepared with different physical properties that can be further investigated for clinical vertical bone augmentation applications., (© 2016 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2016