<![CDATA[The subsequent bone loss that occurs after extraction is inevitable.The morphologic changes seen followingtooth extraction is due to the body deactivating the system caused by disuse atrophy.1Extraction usingconventional elevators and forceps involves the separation of the periodontal ligament attachments,expansion of the alveolus and lifting of the tooth out of the socket with the forcep beaks which invitesunnecessary trauma including broken roots and bone, inflammation and post operative pain, loss of tissue,and stress for the patient and dental team.2Nevertheless, These can be easily reduced through current sitepreservation techniques such as using the ‘Physics ForcepsTM’ that can reduce the degree of damage andextent of resorption that physiologically occurs following tooth extraction by utilising just two opposingforces. These two forces eliminates the need for the third force (the clinician’s arm) and thereby the risk offracturing the dental structures would be dramatically reduced.In addition to this the extraction procedurecan be much more comfortable to the patient.3The following study aimed at assessing the amount of extraction defect caused by the conventional extractiontechnique and the physics forceps design which employs a new extraction technique.In this study ,100patients indicated for extraction were categorised in two equal groups using the two techniques.Both the extraction defects in these groups was assessed with the use of an Atraumatic Safe ExtractionScore, Extraction Defect Sounding Classification System, Visual Analog Scale and the Amount Of Strainexperienced by the operator.The results showed that there was significant success with tooth extraction using the Physics forceps TMas compared with the conventional technique. Moreover the results indicated that the Physics ForcepsTMcauses less bone defect , reduced operator strain and minimal discomfort to the patient than the conventionaltechnique.]]>
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