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Belinfante LS 《The Journal of the Tennessee Dental Association》1999,79(1):13-15
The dental specialty of oral and maxillofacial surgery over the last fifteen years has been intimately involved in not only altering the bony facial skeleton, but also the esthetic defects of the facial soft tissue drape. These procedures are currently being taught, in many of our residency programs, along side the art and science of dentoalveolar surgery. When one combines the modification of both the skeletal and soft tissues, the resultant effect can be greater than the sum of its parts. Should one take this a step further and add to the list, proper arch form as prepared by the orthodontist along with cosmetic shape and appearance of the dentition by the restorative dentist using the latest in cosmetic dental techniques, what transforms is a result that has never been seen heretofore in the annals of dentofacial care. To follow are a number of case reports illustrating some salient points. 相似文献
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Piezosurgery in oral and maxillofacial surgery 总被引:1,自引:0,他引:1
Pavlíková G Foltán R Horká M Hanzelka T Borunská H Sedý J 《International journal of oral and maxillofacial surgery》2011,40(5):451-457
This review summarizes current knowledge and experience with piezosurgery, a promising, meticulous and soft tissue-sparing system for bone cutting, based on ultrasonic microvibrations. The main advantages of piezosurgery include soft tissue protection, optimal visibility in the surgical field, decreased blood loss, less vibration and noise, increased comfort for the patient and protection of tooth structure. To date it has been indicationed for use in oral and maxillofacial surgery, otorhinolaryngology, neurosurgery, ophthalmology, traumatology and orthopaedics. The main indications in oral surgery are sinus lift, bone graft harvesting, osteogenic distraction, ridge expansion, endodontic surgery, periodontal surgery, inferior alveolar nerve decompression, cyst removal, dental extraction and impacted tooth removal. In conclusion, piezosurgery is a promising technical modality for different aspects of bone surgery with a rapidly increasing number of indications throughout the whole field of surgery. 相似文献
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Strauss RA 《Dental clinics of North America》2000,44(4):851-873
Because of their many advantages, lasers have become indispensable in OMS as a modality for soft tissue surgery. Based on manufacturer estimates, approximately 10% to 20% of all oral and maxillofacial surgeons have one or more lasers in their offices, and most surgeons have access to lasers in the hospital. Lasers not only enhance the current surgical options for treatment, but also have expanded the scope of practice. There are many uses for lasers in OMS, and the advent of new wavelengths will undoubtedly lead to new procedures that can be performed with them. One [figure: see text] elusive use is hard tissue surgery. Although the Er:YAG has been approved for hard tissue use in the United States and currently is being used in general dentistry, it is still not yet practical or proven for large-volume osseous or extraction surgery, in which the greatest opportunity for innovation and clinical use exists. With future research, it is possible that the right wavelength laser will be developed for this purpose, allowing an increased base of procedures performed with lasers in OMS. 相似文献
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Navigation is an adjunct to existing surgical procedures. It is potentially useful in any procedure where it is possible to make a three-dimensional surgical plan from computed tomography (CT) or magnetic resonance imaging (MRI) data, but is not easy to translate this plan into surgical reality because of absolute limitations of access or lack of anatomical landmarks. 相似文献
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Marco Rainer Kesting Klaus-Dietrich Wolff Christopher Philipp Nobis Nils Hagen Rohleder 《Oral and maxillofacial surgery》2014,18(2):153-164
