April 30, 2021
UNLV School of Dental Medicine
CE Credit: 16 hours upon seminar completion by Big Sky Seminars. All paid registrations will be refunded fully before March 30, 2021. After that date, registrants will be refunded half of the tuition. If course the is cancelled for any reason, registrants will receive a full refund.Why TakeThiS CouRSe?This course will be a combination of lecture and demonstration.location: UNLV SchooLof DeNtaL MeDiciNe1700 W Charleston Blvd A | Las Vegas, NV 89102This continuing education activity has been planned and implemented in accordance with the standards of the ADA CERP through sponsorship by Big Sky Seminars. Big Sky Seminars designates this activity for 16 hours continuing education credit.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. Concerns or complaints about a CE provider may be directed to ADA CERP at www.ada.org/goto/cerpprice: If Signed Up by March 30, 2021: $1,599Regular Price: $2,199 *Space is limited!
Disclusion Time Reduction (DTR) is a Specialized Splintless TMD Therapy using fundamental concepts of occlusion. Periodontology, orthodontics, cosmetic dentistry, implants, and fixed and removable prosthodontics from a single crown to full mouth reconstruction ALL are impacted by occlusion. The occlusion also greatly impacts tooth sensitivity.DTR Therapy requires the use of T-Scan™ digital occlusal analysis technology in tandem with an EMG link to evaluate occlusal forces in relation to muscle activity. This combination of technologies allows the clinician to: • Identify contacts that may be overly engaged during excursive movements, a problem that can lead to hyperactive muscles, breakage, and TMD symptoms. • Assess the time it takes for posterior teeth to disengage during excursive movements and correlate the occlusal data to muscle activity in real-time.