IRVINE, CA--(Marketwire - Feb 6, 2013) - BIOLASE, Inc. (
"We are very pleased to receive clearance for such a broad number of indications and procedures for the Diolase 10 diode soft tissue laser. Obtaining clearance for so many procedures across such a wide range of medical markets clearly demonstrates that our diode laser products are well suited for a vast array of surgical procedures," said Federico Pignatelli, Chairman and Chief Executive Officer.
"Clearance for our Diolase 10 is the first step in enabling us to leverage our recently released, next-generation 940nm EPIC 10™ modular diode soft tissue dental laser platform and consumable business across a wide range of multi-billion dollar medical markets with appropriate strategic partners," continued Pignatelli.
BIOLASE's diode lasers are used in dentistry for surgical soft tissue procedures as an alternative to invasive and traumatic conventional devices, such as the high-speed drill, scalpel or electrosurge. The 940nm wavelength is better absorbed by hemoglobin (Hb) and oxyhemoglobin (HbO2) than other diode laser wavelengths(1), so it cuts efficiently at low power and with considerably less heat and discomfort, making it an excellent alternative to conventional surgical devices. BIOLASE's 940nm wavelength is also FDA cleared for tooth whitening and temporary pain relief in a number of BIOLASE products.
"This is an exciting time at BIOLASE as we continue to expand the capabilities, applications, and indications for our core technologies so that they can be leveraged within our core dental market as well as into a number of other promising medical and veterinary markets," said Fred Furry, Chief Operating Officer and Chief Financial Officer. "We will use the clearances received for the Diolase 10, now established as a 940nm diode laser predicate device, to obtain the same clearances for our EPIC 10 platform, which uses the same wavelength."
"In conjunction with the Oculase MD, the 940nm diode laser is a surgical tool that every ophthalmology and oculoplastic practice should consider adding. It will allow the practitioner to offer more in-office surgery procedures to patients, rather than taking the time and expense incurred with the use of a surgery center," said Daniel Durrie, M.D., internationally-recognized refractive surgeon and founder of Durrie Vision, a world-class refractive surgery center and research department located in the Kansas City area.
BIOLASE will be exhibiting its 940nm EPIC 10 diode soft-tissue laser for dental procedures, tooth whitening, and pain therapy, as well as its many other dental products, at several upcoming conferences including: the Western Veterinary Medical Conference from February 17-21 in Las Vegas, NV; the 148th Mid-Winter Meeting from February 21-23 in Chicago, Illinois; and the International Dental Show from March 12-16 in Cologne, Germany.
About BIOLASE, Inc.
BIOLASE, Inc. is a biomedical company that develops, manufactures and markets dental lasers and also distributes and markets dental imaging equipment; products that are focused on technologies that advance the practice of dentistry and medicine. The Company's laser products incorporate approximately 290 patented and patent-pending technologies designed to provide biological treatment and clinically superior performance with less pain and faster recovery times. Its imaging products provide cutting-edge technology at competitive prices to deliver the best results for dentists and patients. BIOLASE's principal products are dental laser systems that perform a broad range of dental procedures, including cosmetic and complex surgical applications, and a full line of dental imaging equipment and CAD/CAM systems. BIOLASE has sold more than 21,000 lasers.
Other products under development address ophthalmology and other medical and consumer markets.
For updates and information on WaterLase and laser dentistry, find BIOLASE online at www.biolase.com, Facebook at www.facebook.com/biolaseinc, Twitter at twitter.com/biolaseinc, and YouTube at www.youtube.com/biolasevideos.
(1) Tunér, Jan & Hode, Lars. The New Laser Therapy Handbook. Fig 1.14, 41-42. Grängesberg, Sweden: Prima-Books, 2010. See graphical illustration in Attachment A.