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conferenceseries

.com

May 01-02, 2017 Toronto, Canada

2

nd

International Conference on

Restorative Dentistry and Prosthodontics

Volume 5, Issue 1 (Suppl)

J Oral Hyg Health

ISSN: 2332-0702 JOHH, an open access journal

Restorative Dentistry & Prosthodontics 2017

May 01-02, 2017

Achieving improved and more predictable vertical bone augmentation for dental implant placement by

controlling bone graft substitute microstructure

Zeeshan Sheikh

1,2

1

University of Toronto, Canada

2

Lunenfeld-Tanenbaum Research Institute – Mt. Sinai Hospital, Canada

T

he long-term success of implants depends upon the degree of osseointegration that can be achieved, which is largely determined

by the volume and quality of bone available at the time of surgery. Bone height and volume is often diminished in patients due

to the extended time after tooth loss and this is a major limitation impacting long term dental implant treatment success. Some

of the commonly used surgical techniques for ridge augmentation are (i) Osteoperiosteal flap (OPF); (ii) Distraction osteogenesis

(DO); (iii) Block grafting; (iv) Guided bone regeneration (GBR) using membranes; and (v) Subperiosteal tunneling for minimally

invasive approach to GBR. This talk discusses the development of bioceramic graft materials with controlled microstructure and

superior biological properties to those currently available. Dicalcium phosphate cements, brushite and monetite, resorb faster than

hydroxyapatite (HA). Monetite (unlike brushite) does not re-precipitate as HA

in vivo

, and demonstrates superior osteoconductive

properties. We have produced monetite disc grafts by varying processing conditions 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 heat prepared monetite grafts (26%). The vertical

bone height gained is similar for both the types of monetite grafts (up to 3.2 mm). This talk discusses and provides information

regarding two types of monetite onlay grafts prepared with different physical properties that could be used for achieving more

predictable vertical bone augmentation.

Biography

Zeeshan Sheikh is trained as a Dental Clinician and a Biomaterial Scientist with clinical and research degrees of BDS, MSc and PhD in Dentistry. After graduating

as a Dentist, he worked as a Dental Surgeon for 2 years before proceeding to obtain an MSc degree in Dental and Biomaterials field from Queen Mary, University of

London (QMUL) with distinction. During his MSc, he worked upon synthesizing and characterizing novel polymeric guided tissue regeneration (GTR) membranes for

periodontal regeneration applications. He then joined Altamash Institute of Dental Medicine (AIDM) as Head of the Department of Dental Materials and Preclinical

Dentistry (2007). He also continued to work as an Assistant Professor in the Department of Oral Anatomy. He then proceeded to obtain a PhD from McGill

University, Faculty of Dentistry (2014). During his PhD his work was related to bone grafting and augmentation for maxillofacial and orthopaedic applications using

alloplastic bone replacement graft materials. He currently works at Faculty of Dentistry (Matrix Dynamics Group), University of Toronto and the Mt. Sinai Hospital

(Lunenfeld-Tanenbaum Research Institute) in Toronto, Canada as a Post Doctoral Research Fellow. In addition to several conference talks and presentations both

locally in Canada and internationally, he has more than 35 publications in peer-reviewed journals. He has also co-edited two text books on Oral Biology and Dental

Biomaterials. He currently holds two research grants from the American Academy of Implant Dentistry Foundation and the Alpha Omega Foundation of Canada.

Being trained extensively as a Clinician Scientist in world renowned insititutions like the Queen Mary University of London, McGill Univeristy and University of

Toronto, his expertise lie in developing novel biomaterial options for bone grafting and alveolar ridge augmentation applications.

zeeshan.sheikh@utoronto.ca

Zeeshan Sheikh, J Oral Hyg Health 2017, 5:1 (Suppl)

http://dx.doi.org/10.4172/2332-0702-C1-005