Presented virtually via BlueJeans
Time: 5:00-6:30 pm; this virtual lecture will begin promptly at 5:00 pm via BlueJeans.
Registration: FREE to view (does not include continuing education credits); Registration is still required.
Register here»
CE Credits: 1.5 lecture credits
To receive continuing education credits:
Dentist, $37.50
Penn Dental Medicine Alumni, $28.00
Military, $28.00
Course Description
In todays clinical world, there are many surfaces that are used in restorative dentistry. Each one of these surfaces require a very specific bonding protocol that will ensure the clinician the ability to restore efficiently and with predictability.
This lecture will cover all of the existing bonding protocols to each surface as well how to avoid post operative sensitivity and achieve pulp protection.
Learning Objectives
Speaker
Dr. Rolando Nunez received this dental degree from Central University of Venezuela in 1997.
He enrolled a Biomaterials Graduate Program at the University of Alabama at Birmingham, obtaining a MSc. degree in 2004. He joined BISCO as a private clinical consultant from 2005 until 2013, where he worked closely with the Research and Development Department in the development of new and innovative products. In 2014 he became Manager of Clinical Affairs for BISCO Inc.
Dr. Nunez is a member of the following groups.
– International Association of Dental Research
– American Association of International Research
– Latin American Society of Operative Dentistry and Biomaterials
– Dental Materials Group of the IADR
– Venezuelan Society of Operative Dentistry Biomaterials and Esthetics.
University of Pennsylvania School of Dental Medicine is an ADA CERP Recognized Provider. ADA CERP is a service of the American Dental Association to assist dental professionals in identifying quality providers of continuing dental education. ADA CERP does not approve or endorse individual courses or instructors, nor does it imply acceptance of credit hours by boards of dentistry.
University of Pennsylvania School of Dental Medicine designates this activity for 1.5 continuing education credits.