Manuscript accepted on :
Published online on: 23-12-2015
Muthulingam Vivek, Vijay Ebenezer and R. Balakrishnan
Department of Oral and Maxillofacial Surgery, Sree Balaji Dental College and Hospital, Bharath University, Chennai, 600100, India.
DOI : https://dx.doi.org/10.13005/bpj/488
Abstract
Surgical removal of impacted third molar is one of the common surgical procedures carried out in Oral and Maxillofacial Surgery set up. This study aimed at clinically assessing the three different surgical techniques (lingual split, using chisel and mallet, buccal approach techniques, using rotary instruments used in the removal of impacted mandibular third molars
Keywords
Lingual split; paresthesia; trismus; swelling
Download this article as:Copy the following to cite this article: Vivek M, Ebenezer V, Balakrishnan R. Bur Technique and Chisel Mallet Technique in Impacted 3rd Molar. Biomed Pharmacol J 2014;7(1) |
Copy the following to cite this URL: Vivek M, Ebenezer V, Balakrishnan R. Bur Technique and Chisel Mallet Technique in Impacted 3rd Molar. Biomed Pharmacol J 2014;7(1). Available from: http://biomedpharmajournal.org/?p=2959 |
Introduction
Surgical removal of impacted third molar is one of the common surgical procedures carried out in the oral and maxillofacial surgery set up.
Surgical management of impacted third molar is difficult because of its anatomical position, poor accessibility, and potential injuries to the surrounding vital structures, nerves, vessels soft tissues, and adjacent teeth during surgeries.
The factors contributing to the post‑operative morbidity are many, but the most important one is the trauma from bone cutting as the procedure involve significant bone cutting, which is carried out either by chisel and mallet or by rotary cutting instruments (like surgical bur).
This study aimed at clinically assessing the three different surgical techniques (lingual split, using chisel and mallet, buccal approach techniques, using rotary instruments used in the removal of impacted mandibular third molars as regards their convenience, time taken, post‑operative sequel/complications
Techniques involved
Chisel and mallet technique
Lingual split technique using chisel and mallet (groupA)
Buccal approach technique using chisel and mallet (group B)
Bur technique (group C)
Lingual Split technique using Chisel and Mallet. Given by Sir William Kelseyfry, published by T.G. Ward (1956)
First, a vertical stop cut was made distal to second molar using 3 mm chisel bevel end facing towards the second molar, which will prevent splitting of the bone along the buccal aspect of second molar, greater the depth of the wisdom tooth, longer the stop cut was made. After establishing the point of elevation, the distal bone was removed to allow the delivery of the tooth. To remove this piece of bone, a 5 mm chisel was placed distal to the third molar with the beveled side upward and cutting edge parallel to the external oblique ridge. The chisel was driven to the depth required, which varies with the depth of the wisdom teeth and when desired level is reached, the chisel is removed and replaced with the beveled side down wards. Thus, the direction of the cut is altered from downwards to inwards towards the lingual plate without alteration in the direction of the chisel. When the bone is split, the chisel is twisted further and lingual plates breaks anteriorly at its thinnest point, this is where the crown of the third molar is nearest to the lingual surface. Then, the lingual splitted bone is removed, and the entire distolingual aspect of the impacted tooth is exposed.When the bone is split, the chisel is twisted further and lingual plates breaks anteriorly at its thinnest point, this is where the crown of the third molar is nearest to the lingual surface. A wedge shape piece of bone is is removed. With an elevator, the tooth is elevated and delivered in the lingual direction.
Buccal approach technique using chisel and mallet
First, a vertical stop cut was made distal to second molar using 3 mm chisel bevel end facing towards the second molar, which will prevent splitting of the bone along the buccal aspect of second molar, greater the depth of the wisdom tooth, longer the stop cut was made. After establishing the point of elevation, the distal bone was removed to allow the delivery of the tooth. To remove this piece of bone, a 5 mm chisel was placed distal to the third molar with the beveled side upward and cutting edge parallel to the external oblique ridge.
In this case, lingual plate was not removed, but the point of application of elevator and direction of force of elevation is same as lingual split technique.
Buccal approach technique using rotary instruments
Rose head round bur/straight fissure bur were mounted on a low speed micrometer straight hand piece is used to make a gutter around the distal and buccal aspect of the impacted tooth.when the bone is removed in the distolingual region, lingual flap should be properly protected with a howartz elevator. Failure to do so is likely to damage the lingual flap or the lingual nerve.more amount of bone is removed around the point of application to engage the elevator. Throughout the procedure,cupious amount of normal saline is irrigated to avoid thermal necrosis of bone.to keep the operative field clear, an efficient suction is used constantly after the removal of tooth, a large vulcanite bur or a bone file is used to burnish the sharp bony edges. the wound is irrigated well before wound closure.
Retroseptive analysis
Criteria | Chisel and Mallet | Bur |
Technique | Difficult | Easy |
Patient’s acceptance | Not tolerated well when performed under LA | Tolerated well under LA |
Chance of # of the bone | Relatively high | Less possibly |
Healing of bone | Good | Delayed due to thermal necrosis and inefficient cooling |
Postoperative edema | Less | More |
Dry socket | Incidence is less | Very high |
Postoperative infection | Less | More |
Advantage and Disadvantage |
Discussion
Many problems associated with the removal of mandibular third molar impaction have led us to compare the prevalent technique for their efficacy. The present study was undertaken to assess clinically the level of effectiveness of three different bone cutting techniques and approaches to remove investing bone in the removal of impacted mandibular wisdom teeth.
Authors[4] using lingual split and Thoma[5] and Archer[6] using buccal bone cutting mentioned that swelling was a known complication of third molar surgery. The presence of swelling or infection causes spasm of muscle leading to trismus. Bleeding can be attributed to two factors primarily due to dislodgment of clot and secondary due to infection.[5-7]
Post‑operative hemorrhage was similar in all three groups. Within 10 minutes, there was no significant change in groups. At 30 minutes, percentage was slightly higher in group C than in group A and was maximum in group B, but non‑significant.[1]
Post‑operative swelling assessment by Breytenbach[2] method measurement from tragus to progonion (ear to chin) there is significant reduction in post‑operative swelling at day 3 and day 5 among the group A, B, and C.[1]
Swelling was maximum in group C than in group B and was minimum in group A; reason for more swelling in group C may be that electric‑driven instruments generates a certain amount of onwards transmission force enough to drive the bone particles deeper to bony canaliculi[1]; another reason may be inability to achieve complete sterilization of bur and hand piece assembly, which lead to cross‑infection and brushing of surrounding tissues.[7]
Trismus score was found significantly higher in group A and C than in group B[1]. The finding is similar to Rud[8] finding where trismus was higher in lingual split technique. The reason might be due to overstressing of lingual retractor to lingual oral mucosa bruising of surrounding muscles, mylohyoid muscles, medial pterygoid muscle, part of thick tendon of temporalis muscle by retractor, chisel, and lingual cortical bone piece are the added factors for the trismus.
Kruger[4] and Thoma[5] have mentioned pain to be post‑operative complication in third molar surgery while using buccal approach.
Post‑operative nerve injury impairment of sensation was found maximum in group A followed by group B and was minimum in group C[1]. Von Arc[9] reported high incidence of lingual nerve injury (22%).
In group B, the finding corroborates with the finding of Rood[1-10] inferior alveolar nerve injury to be 12.07% temporary. Von Arc[9] reported inferior alveolar nerve injury (5%), which is slightly in group C[1].
Post‑operative dry socket was maximum in group C[1]
Birn,[11] MacGragor[12] reported 5‑10% incidence of dry socket, which is similar to our findings, and overall incidence of dry socket was 12% in our study. Simpson stated that if bur or chisel were used correctly, post‑operative recovery was almost similar.
Lilly[13] and Horton[14] showed that results were better while using bur.
Szmyd et al.[7] evaluated the high speed bur technique verses chisel mallet clinically and found no significant difference in post‑operative swelling, trismus, and pain and other symptoms
Conclusion
The assessment of effectiveness of three surgical techniques in the removal of impacted mandibular teeth was made on the basis of ease of surgical technique and different post‑operative findings. Clinical impression made in each technique were as follows: There was no significant difference in post‑operative hemorrhage, there was difference in total surgical time taken, it was found that surgical time was significantly minimum in lingual technique using chisel and mallet.
Post‑operative swelling and pain were more in buccal approach using rotary instrument followed by buccal approach using chisel and mallet and minimum in lingual split technique. Lingual split technique using chisel and mallet is found to be better than other two groups
Reference
- Vibha Singh, Khonsao Alex, R. Pradhan, Shadab Mohammad, Nimisha Singh | European Journal of General Dentistry | Vol 2 | Issue 1 | January-April 2013 |.
- Breytenbach HS. Objective measurement of post operative swelling. Int J Oral Surg 1978;7:386‑92.
- Wood GD, Branco JA. A comparison of three methods of measuring maximal opening of the mouth. J Oral Surg 1979;37:175‑7.
- Textbook of Oral and Maxillofacial Surgery. Kurger GO, editor. 6th ed. Mosby: New Delhi: Jaypee Brothers; 1990.
- Thoma KH. Oral Surg. In: Bioanatomy. 4th ed, Vol. 1. St Louis: C. V. Mosby Co.; 1963. p. 29.
- Archer WH. Oral and Maxillofacial Surgery. 5th ed, Vol. 1. USA: W.B. Saunders Company; 1976.
- Szmyd L, Hester WR. Crevicular depth of the second molar in impacted third molar surgery. J Oral Surg 1963;21:185‑9.
- Rud J. The split‑bone technique for removal of impacted mandibular third molars. J Oral Surg 1970;28:416‑21.
- Von Arx DP, Simpson MT. The effect of dexamethasone on neuropaxia following third molar surgery. Br J Oral Maxillofac Surg 1989;27:477‑80.
- Rood JP. Degree of injury to the inferior alveolar nerve sustained during the removal of impacted mandibular third molars by lingual split technique. Br J Oral Surg 1983;21:103‑16.
- Brin H. Etiology and pathogenesis of fibrinolytic alveolitis (dry socket). Int J Oral Surg 1973;2:211‑63.
- MacGregor AJ, Addy A. Value of penicillin in the prevention of pain, swelling and trismus following the removal of ectopic third molars. Int J Oral Surg 1980;9:166‑72.
- Lilly GE, Osborn DB, Rael EM, Samuel HS, Jones JC. Alveolar Osteotis associated with mandibular third molar extraction. J Am Dent Assoc 1974;88:802‑6.
- Horton JE, Tarpley TM Jr, Jacoway JR. Clinical applications of ultrasonic instrumentation in the surgery removal of bone. Oral Surg Oral Med Oral Pathol 1981;51:236‑42.