Management of Temporomandibular Joint Ankylosis PDF
Document Details
Uploaded by AuthoritativeCosecant
Utkal University
Reza Movahed, Louis G. Mercuri
Tags
Related
Summary
This document provides an overview of the management of temporomandibular joint (TMJ) ankylosis. It highlights keywords such as temporomandibular joint, ankylosis, and total joint replacement. The article discusses various treatment approaches and associated complications.
Full Transcript
Management of Tem p o ro m a n d i b u l a r J o i n t Ankylosis Reza Movahed, DMDa,*, Louis G. Mercuri, DDS, MSb KEYWORDS Temporomandibular joint Ankylosis Total joint replacement Autologous fat grafting KEY POINTS Trauma is the most common cause of TMJ ankylosis, followed by infect...
Management of Tem p o ro m a n d i b u l a r J o i n t Ankylosis Reza Movahed, DMDa,*, Louis G. Mercuri, DDS, MSb KEYWORDS Temporomandibular joint Ankylosis Total joint replacement Autologous fat grafting KEY POINTS Trauma is the most common cause of TMJ ankylosis, followed by infection. TJR should be considered as the initial treatment modality for management of TMJ ankylosis. The use of patient-fitted or stock prostheses reduces operative time, there is no potential donor site morbidity, and the patient can immediately return to function. Consider TJR in children with failed, overgrown, or ankylosed CCG grafts. Autologous fat grafting is a very useful adjunct to alloplastic TMJ TJR, which can reduce the chance of heterotopic bone formation around the fossa. INTRODUCTION and colleagues8 proposed classification systems for TMJ ankylosis (Fig. 1). Temporomandibular joint (TMJ) ankylosis is a The management goal in TMJ ankylosis is to pathologic condition where the mandible is fused increase the patient’s mandibular function, correct to the fossa by bony or fibrotic tissues. This inter- associated facial deformity, decrease pain, and feres with mastication, speech, oral hygiene, and prevent reankylosis. Multiple surgical modalities normal life activities, and can be potentially life have been proposed to manage TMJ ankylosis threatening when struggling to acquire an airway including gap arthroplasty, interpositional arthro- in an emergency. Attempting to open the mouth, plasty, and total joint reconstruction (TJR). Autog- stretching the periosteum, can also result in enous tissues, such as ear cartilage, temporalis pain.1 muscle flap, dermis, fat, and bone, have been There are multiple factors that can result in TMJ used or after gap arthroplasty (Fig. 2).(refs?) Allo- ankylosis, such as trauma, arthritis, infection, pre- plastic materials, such as Proplast Teflon (Vitek, vious TMJ surgery, congenital deformities, idio- Houston, TX) and Silastic (Dow, Corning, Midland, pathic factors,2 and iatrogenic causes. Trauma is MO), have also been used, but with high failure the most common cause of TMJ ankylosis, fol- rates.9–12 lowed by infection.3,4 TMJ ankylosis in growing TJR can be divided into autogenous replace- patients can result in dentofacial deformity.5 ment, such as costochondral (CCG) and sternocla- Diagnosis of TMJ ankylosis is usually made vicular grafts (SCG); microvascular reconstruction; by clinical examination and imaging studies, or alloplastic replacement (Fig. 3).13–17 CCG has such as plain films, orthopantomograms, com- oralmaxsurgery.theclinics.com been reported to have unpredictable results in puted tomography (CT) scans, MRI, and three- TMJ reconstruction.18–21 The common postopera- dimensional reconstruction.6 Sawhney7 and He tive complications include reankylosis, resorption, a Private practice, Orthodontics, Saint Louis University, St Louis, Missouri, USA; b Department of Orthopedic Surgery, Rush University Medical Center, West Harrison Street, Chicago, IL 60612, USA * Corresponding author. E-mail address: [email protected] Oral Maxillofacial Surg Clin N Am 27 (2015) 27–35 http://dx.doi.org/10.1016/j.coms.2014.09.003 1042-3699/15/$ – see front matter Ó 2015 Elsevier Inc. All rights reserved. 28 Movahed & Mercuri Fig. 1. (Type I) The head was flattened or deformed by lying closely approximated to the upper articular surface. There were dense fibrous adhesions all around the joint, making movement impossible. This probably followed a comminuted fracture of the head of the mandible. (Type II) The head was misshaped or flattened, but it was still distinguishable and lay in close approximation to the articular surface. There was, however, bony fusion of the head to the outer edge of articular surface either anteriorly or posteriorly, but this was limited to a small area. Deeper to it, the upper articular surface and the articular disk were undamaged. This probably followed a severe comminuted fracture of the head with associated partial damage to the upper articular surface. (Type III) A bony block was seen to bridge across the ramus of the mandible and the zygomatic arch. The upper articular surface and the articular disk on deeper aspect were intact. The displaced head was seen to be atrophic and lying either free or fused with the medial side of the upper end of the ramus. This probably followed a severe injury producing fracture dislocation of the head and neck of the mandible and laceration of capsular ligaments. (Type IV) The bony block was wide and deep and extended between the ramus and the upper articular surface, completely replacing the architecture of the joint. This perhaps followed fracture of the neck of the mandible with dislocation of the head and associated injury to the capsular ligaments, articular disk, and even the upper articular surface. This was the most common presentation. (From Sawhney CP. Bony ankylosis of the temporo- mandibular joint: follow-up of 70 patients treated with arthroplasty and acrylic spacer interposition. Plast Reconstr Surg 1986;77(1):32; with permission.) overgrowth,22,23 fracture, and pain. SCGs have more costly than autogenous tissue for TMJ growth potential similar to the mandibular condyle reconstruction, but the extra operating room and a section of the SCG articular disk can be har- time, personnel, and resources must be consid- vested with the SCG providing the potential for ered in the latter scenarios. Also, in view of the po- improved function.16 Distraction osteogenesis tential for increased autogenous tissue donor site has also been used to manage TMJ ankylosis morbidity resulting in an increased length of hospi- with release of ankylosis before and after the tal stay and the unpredictable nature of the results distraction process.24 However, harvesting com- of autogenous tissue grafting, the economic plications and questionable long-term outcomes impact of TMJ TJR is likely less overall. Further- must be taken into consideration. more, because patient-fitted TMJ TJR compo- The use of patient-fitted or stock prosthe- nents are designed “made to fit,” manipulation ses11,25,26 reduces operative time, there is no po- and implantation time are reduced. tential donor site morbidity, and the patient can In contrast, with stock TMJ TJR components, immediately return to function.27 The disadvan- the surgeon must “make them fit,” requiring tages include cost, difficulty in correction of signif- increased time and incurring added expense. icant dentofacial deformities, potential material Wolford and colleagues29 performed a 5-year wear, and failure.28 TMJ TJR is thought to be follow-up of the TMJ Concepts/Techmedica Management of TMJ Ankylosis 29 Fig. 2. Images of abdominal fat harvest technique. (A) Marked periumbilical incision for harvest of abdominal fat graft. (B) Undermining of skin and fat before harvest. (C) Composite harvest of abdominal fat. (D) Exposure of graft site for circumferential augmentation of fat graft. (E) Adaptation of fat graft before closure. (Courtesy of Larry Wolford, DMD, Dallas, TX.) patient-fitted total joint prosthesis (TMJ Concepts operation.32–38 Wolford first used this specific sur- Inc., Ventura, CA) with good results. Mercuri and gical protocol for treatment of TMJ ankylosis in colleagues30,31 presented a 9- and 14-year 1992.35 The basic protocol can also be performed follow-up of the same prostheses with good in two or more surgical stages depending on the outcomes. surgeon’s skills, experience, and preference. A basic surgical protocol to address TMJ ankylosis is as follows: release the ankylosed joint; TREATMENT OF TEMPOROMANDIBULAR remove the heterotopic and reactive bone with JOINT ANKYLOSIS WITH COSTOCHONDRAL thorough debridement (gap arthroplasty of at least GRAFT 2.0–2.5 cm), replace the TMJ with a patient-fitted total joint prosthesis, place a fat graft around The traditional management of complete bony the articulation area of the prosthesis, and per- TMJ ankylosis has been gap arthroplasty and form indicated orthognathic surgery in a single autogenous tissue grafting (Fig. 4). Although this 30 Movahed & Mercuri Fig. 3. (A, B) A 20-year-old woman, bilateral TMJ ankylosis status post prepubertal bilateral mandibular condyle fractures. Has had five prior unsuccessful bilateral procedures including costochondral grafts twice, temporalis muscle flaps twice, and coronoidectomies. (Courtesy of Dr Michael Bowler, Newcastle, New South Wales, Australia.) restores form, function is delayed, and therefore This may account for the clinical observation that potentially compromised. This is the case when autogenous tissue grafts, such as CCG and autogenous bone grafts are used because of the SCG, fail in the patient who has undergone multi- fear that allowing function of the mandible during ple operations. Autogenous grafts require a rich the graft incorporation period will cause the graft vascular host site to survive. The scar tissue that to fail to vascularize properly. In the patient with re- is found in the patient who has undergone multiple ankylosis, placing autogenous tissue, such as operations does not provide an environment bone, into an area where reactive or heterotopic conducive to the predictable success of an autog- bone is forming intuitively makes no sense. Ortho- enous tissue graft. pedic surgeons always opt for alloplastic joint replacement in similar situations.36 TEMPOROMANDIBULAR JOINT ANKYLOSIS It has been reported that capillaries can pene- IN GROWING SUBJECTS trate a maximum thickness of 180 to 220/mm of tis- sue, whereas scar tissue surrounding a previously Classically, pathologic, developmental, and func- operated joint averages 440/mm in thickness.27 tional disorders affecting the TMJ in growing Fig. 4. (A, B) Three-dimensional CT scans of patient in Fig. 2 demonstrating bilateral complete bony TMJ anky- losis. (Courtesy of Dr Michael Bowler, Newcastle, New South Wales, Australia.) Management of TMJ Ankylosis 31 patients have been reconstructed with auto- TREATMENT OF TEMPOROMANDIBULAR genous tissues. Autogenous CCGs are re- JOINT ANKYLOSIS WITH TOTAL JOINT ported as the gold standard for these TMJ RECONSTRUCTION reconstructions.37–41 In theory, in growing patients, autogenous (eg, For the patient with reankylosis, placing autoge- costochondral) allografts “grow with the patient.” nous tissue, such as bone, into an area where However, often this so-called growth potential reactive or heterotopic bone is forming intuitively has been reported to be unpredictable or to result makes no sense. None of the textbooks of ortho- in ankylosis. These complications can occur either pedic surgery or any journal articles published as the result of the allograft and/or fixation failure recently discuss the use of autogenous bone in or because of the uncooperative nature of the the reconstruction of any joint of a nongrowing young patient with physical therapy after patient affected by ankylotic disease. Alloplastic reconstruction.15,37,38,42,43 joint replacement is the recommended manage- Recent studies have even questioned the ment modality in orthopedics when total joint necessity for using a cartilaginous graft to restore replacement is required in such cases.56,57 and maintain mandibular growth.44,45 Long-term In light of the biologic considerations and the reports of mandibular growth in children whose orthopedic experience, total alloplastic replace- TMJs were reconstructed with CCG show that ment should be considered in the management excessive growth on the treated side occurred of recurrent fibrosis and bony ankylosis involving in 54% of the 72 cases examined and growth the TMJ. equal to that on the opposite side occurred in The protocol CT scan used to generate the only 38% of the cases.46–51 Furthermore, Pelto- stereolithic model from which patient-fitted TMJ mäki and colleagues,52–55 in an investigation of TJR components are designed and manufactured mandibular growth after CCG, supported previous has been reported to have a mean dimensional experiments with regard to the inability of the graft accuracy of 97.9%. Therefore, in the case of anky- to adapt to the growth velocity of the new losis/reankylosis a two-staged protocol is required environment. when using a patient-fitted TMJ TJR system.58 Based on the problems that have been reported At stage 1 surgery, the surgeon must remove with CCG TMJ TJR in children, such as graft fail- the ankylotic bone, create an adequate gap ure, unpredictable growth, ankylosis, and potential (2–2.5 cm), and place a material spacer to prevent for donor-site morbidity, and the orthopedic expe- the reformation of tissue and/or bone (Fig. 5).59 rience and success reported with alloplastic TJR in The patient must be placed into maxillomandibular improving the quality of life of growing patients fixation to prevent movement of the spacer or with severe anatomic and functional joint disor- change in bony architecture and/or occlusion. ders, it seems reasonable to consider examining A postoperative protocol CT scan is then made the feasibility of alloplastic TMJ TJR for the and the stereolithic model developed. Patient- following conditions in children: (1) high inflamma- fitted TMJ TJR components are designed and tory TMJ arthritis unresponsive to other modalities manufactured from that model to the specific of treatment; (2) recurrent fibrosis and/or bony anatomic circumstances of that case. ankylosis unresponsive to other modalities of At stage 2 surgery, the spacer is removed and treatment; (3) failed tissue grafts (bone and soft tis- the patient-fitted TMJ TJR components are sue); and (4) loss of vertical mandibular height and/ fixated. An autogenous abdominal fat graft is or occlusal relationship because of bony resorp- placed around the articulation to inhibit formation tion, trauma, developmental abnormalities, or of heterotopic bone and development of reankylo- pathologic lesions. sis.60 The patient can then begin immediate, active To continue to reoperate in children with failed, postoperative physical therapy. If necessary overgrown, or ankylosed CCG with either bony concomitant orthognathic surgery can be done or soft tissue replacements (or both), using the during this stage to correct any associated dento- same modalities that failed when there may be facial deformities. an appropriate solution available, seems myopic. Pearce and colleagues61 described the use of These patients are better off undergoing allo- preoperatively created templates to obviate the plastic TMJ TJR knowing that, depending on two-stage protocol described previously. Many growth, revision and/or replacement surgery surgeons agree that to realize all of the benefits may likely be required in the future, rather than afforded by a patient-fitted TMJ TJR device, incurring continued failures of CCG that will also the best fit for the components is achieved and likely require further surgical intervention in the ensured by using the two-stage protocol. The future.53 concern often raised about maintaining 32 Movahed & Mercuri Fig. 5. (A, B) Stereolaser design models (ProtoMED, Westminster, CO) following stage 1 bilateral gap arthroplas- ties, insertion of spacer, and advancement genioplasty of patient in Fig. 2. (Courtesy of Dr Michael Bowler, New- castle, New South Wales, Australia.) maxillomandibular fixation between stages is moot until the 1990s. In 1992, Wolford developed the because patients with ankylosis cannot open their technique of placing autogenous fat grafts around mouths before the first-stage procedure. the TMJ Concepts to prevent postsurgical hetero- One-stage surgeries could also be considered topic bone and fibrosis development (Fig. 3). The but require a more experienced surgeon that can rationale for placing autologous fat grafts around reproduce the stereolithic surgery in the patient the TMJ TJR was to obliterate the dead space to make the prosthesis fit. The benefit includes around the joint prosthesis, thus preventing the for- one surgery for the patient and immediate function mation and subsequent organization of a blood with easier and faster rehabilitation (see Fig. 3). clot. Creating this physical barrier serves to mini- mize the presence of pluripotential cells, and pre- IMPORTANCE OF FAT GRAFT IN PREVENTION vents the formation of extensive fibrosis and OF HETEROTOPIC BONE FORMATION heterotopic calcification. The fat grafts may be inhibitory to heterotopic bone formation. It may The first reported use of autologous fat graft place- also isolate any residual reactive tissue from previ- ment into the TMJ for the treatment of ankylosis ous alloplastic failure or disease to the periphery of was by Blair62 in 1913 followed by Murphy63 in the region, minimizing its formation around the joint 1914. No other references appear in the literature components (Fig. 3). Fig. 6. (A, B) Lateral cephalometric and coronal CT post stage 2 implantation of TMJ Concepts (Ventura, CA) patient-fitted prostheses in patient in Fig. 2. The articulating aspect of the fossa component is ultra-high molec- ular weight polyethylene, therefore it is radiolucent. (Courtesy of Dr Michael Bowler, Newcastle, New South Wales, Australia.) Management of TMJ Ankylosis 33 Fig. 7. (A, C) The patient in Fig. 2 after dental rehabilitation, 5 years post bilateral TMJ Concepts patient-fitted replacements. (A) Post-surgery frontal view. (B) Post-surgery profile view. (C) Post-surgery maximum incisal open- ing of 42 mm with out pain. (Courtesy of Dr Michael Bowler, Newcastle, New South Wales, Australia.) Wolford and Karras35 published the first study provides a highly predictable treatment method evaluating fat grafts placed around TMJ total joint for patients with nonsalvageable TMJ pathology. prostheses. Fifteen patients with 22 joints under- went TMJ reconstruction with TMJ Concepts/ Techmedica patient-fitted TMJ TJR devices with REFERENCES autologous fat harvested from the abdomen packed around the articulating portion of the pros- 1. Roychoudhury A, Parkash H, Trikha A. Functional theses. There was no radiographic or clinical evi- restoration by gap arthroplasty in temporomandib- dence of heterotopic calcifications in any of the ular joint ankylosis: a report of 50 cases. Oral Surg fat grafted group, whereas seven control patients Oral Med Oral Pathol 1999;87:166–9. without fat grafts (35%) developed heterotopic 2. Erol B, Tanrikulu R, GoÅNrgün B. A clinical study bone and required reoperation. This initial study on ankylosis of the temporomandibular joint. proved that autologous fat transplantation was a J Craniomaxillofac Surg 2006;34:100. useful adjunct to alloplastic TMJ TJR by mini- 3. Lello GE. Surgical correction of temporomandibular mizing the occurrence of joint fibrosis and hetero- joint ankylosis. J Craniomaxillofac Surg 1990;18:19. topic calcification (see Fig. 2). 4. Topazian RG. Etiology of ankylosis of temporoman- Mercuri and colleagues60 evaluated 20 patients dibular joint: analysis of 44 cases. J Oral Surg with 33 reankylosed TMJs managed with patient- Anesth Hosp Dent Serv 1964;22:227. fitted TMJ TJR devices and placement of periartic- 5. Miyamoto H, Kurita K, Ogi N, et al. The role of the ular autogenous abdominal fat grafts. Mean disk in sheep temporomandibular joint ankylosis. follow-up was 50.4 months. Results showed Oral Surg Oral Med Oral Pathol 1999;88:151–8. 52% reduction in pain, and improvement in jaw 6. Spijkervet FK, de Bont LG, Boering G. Management of function (76%), diet (72%), and maximum incisal pseudoankylosis of the temporomandibular joint: opening (MIO) (140%) from 11.75 mm to report of cases. J Oral Maxillofac Surg 1994;52:1211–7. 32.9 mm, whereas 17 of 20 patients (85%) re- 7. Sawhney CP. Bony ankylosis of the temporomandib- ported improvement in quality-of-life scores. ular joint: follow-up of 70 patients treated with arthro- Autologous fat grafting is a useful adjunct to plasty and acrylic spacer interposition. Plast alloplastic TMJ TJR and may prove to be similarly Reconstr Surg 1986;77(1):29–40. beneficial in autologous TMJ TJR. Graft procure- 8. He D, Yang C, Chen M, et al. Traunatic temporo- ment is relatively quick and easy, with minimal mandibular joint ankylosis: our classification and morbidity.35,36 The most common complication treatment experience. J Oral Maxillofac Surg found in the donor area was seroma or hematoma, 2011;69:1600–7. which was treated with aspiration and pressure 9. Wolford LM, Henry CH, Nikaein A, et al. The tempo- dressing. TMJ reconstruction with TMJ Concepts romandibular joint alloplastic implant problem. In: total joint prostheses and autogenous fat grafts Sessle BJ, Bryant PS, Dionne RA, editors. 34 Movahed & Mercuri Temporomandibular disorders and related pain con- 26. Mercuri LG, Wolford LM, Sanders B, et al. Custom CAD/ ditions. Seattle (WA): IASP Press; 1995. p. 443–7. CAM total temporomandibular joint reconstruction sys- 10. Wolford LM. Temporomandibular joint devices: treat- tem: preliminary multicenter report. J Oral Maxillofac ment factors and outcomes. Oral Surg Oral Med Surg 1995;53:106–15. Oral Pathol Oral Radiol Endod 1997;83:143–9. 27. Mercuri LG. Alloplastic temporomandibular joint 11. Wolford LM, Cottrell DA, Henry CH. Temporoman- reconstruction. Oral Surg Oral Med Oral Pathol dibular joint reconstruction of the complex patient 1998;85:631. with the Techmedica custom-made total joint pros- 28. Loveless TP, Bjornland T, Dodson TB, et al. Efficacy thesis. J Oral Maxillofac Surg 1994;52:2–10. of temporomandibular joint ankylosis surgical treat- 12. Henry CH, Wolford LM. Treatment outcomes for TMJ ment. J Oral Maxillofac Surg 2010;68:1276–82. reconstruction after Proplast-Teflon implant failure. 29. Wolford LM, Pitta MC, Reiche-Fischel O, et al. TMJ J Oral Maxillofac Surg 1993;51:352–8. concepts/techmedica custom-made TMJ total joint 13. Matukas VJ, Szvmela VF, Schmidt JF. Surgical prosthesis: 5-year follow-up study. Int J Oral Maxillo- treatment of bony ankylosis in a child using a fac Surg 2003;32:268. composite cartilage-bone iliac crest graft. J Oral 30. Mercuri LG, Wolford LM, Sanders B, et al. Long-term Surg 1980;38:903. follow-up of the CAD/CAM patient fitted total tempo- 14. Dingman RO, Grabb WG. Reconstruction of both romandibular joint reconstruction system. J Oral mandibular condyles with metatarsal bone grafts. Maxillofac Surg 2002;60:1440–8. Plast Reconstr Surg 1964;34:441. 31. Mercuri LG, Edibam NR, Giobbie-Hurder A. Four- 15. MacIntosh RB, Henny FA. A spectrum of application teen-year follow-up of a patient-fitted total temporo- of autogenous costochondral grafts. J Maxillofac mandibular joint reconstruction system. J Oral Surg 1977;5:257–67. Maxillofac Surg 2007;65:1140–8. 16. Wolford LM, Cottrell DA, Henry CH. Sternoclavicular 32. Wolford LM. Concomitant temporomandibular joint grafts for temporomandibular joint reconstruction. and orthognathic surgery. J Oral Maxillofac Surg J Oral Maxillofac Surg 1994;52:119–28. 2003;61:1198–204. 17. Potter JK, Dierks EJ. Vascularized options for recon- 33. Wolford LM, Pinto LP, Cardenas LE, et al. Outcomes struction of the mandibular condyle. Semin Plast of treatment with custom-made temporomandibular Surg 2008;22(3):156–60. joint total joint prostheses and maxillomandibular 18. Posnick JC, Goldstein JA. Surgical management of counter-clockwise rotation. Proc (Bayl Univ Med temporomandibular joint ankylosis in the pediatric Cent) 2008;21:18–24. population. Plast Reconstr Surg 1993;91:791. 34. Wolford LM. Clinical indications for simultaneous 19. Pensler JM, Christopher RD, Bewyer DC. Correction TMJ and orthognathic surgery. Cranio 2007;25: of micrognathia with ankylosis of the temporoman- 273–82. dibular joint in childhood. Plast Reconstr Surg 35. Wolford LM, Karras SC. Autologous fat transplanta- 1933;91:799. tion around temporomandibular joint total joint pros- 20. Lindquist C, Pihakari A, Tasanen A, et al. Autoge- theses: preliminary treatment outcomes. J Oral nous costochondral grafts in temporomandibular Maxillofac Surg 1997;55:245–51. joint arthroplasty: a surgery of 66 arthroplasties in 36. Petty W, editor. Total joint replacement. Philadelphia: 60 patients. J Maxillofac Surg 1986;14:143. Saunders; 1991. 21. Munro IR, Chen YR, Park BY. Simultaneous total 37. Ware WH, Taylor RC. Cartilaginous growth centers correction of temporomandibular ankylosis and transplanted to replace mandibular condyles in facial asymmetry. Plast Reconstr Surg 1986;77:517. monkeys. J Oral Surg 1966;24:33. 22. Perrot DH, Kaban LB. Temporomandibular joint 38. Ware WH, Brown SL. Growth center transplantation ankylosis in children. Oral Maxillofac Surg Clin North to replace mandibular condyles. J Maxillofac Surg Am 1994;6:187. 1981;9:50. 23. Kaban LB, Perrot DH, Fisher K. A protocol for man- 39. Poswillo DE. Biological reconstruction of the agement of temporomandibular joint ankylosis. mandibular condyle. Br J Oral Maxillofac Surg J Oral Maxillofac Surg 1990;48:11. 1987;25:100. 24. Li J, Zhu S, Wang T, et al. Staged treatment of 40. MacIntosh RB. Current spectrum of costochondral temporomandibular joint ankylosis with micrognathia grafting. In: Bell WH, editor. Surgical correction of using mandibular osteodistraction and advance- dentofacial deformities: new concepts, vol. III. ment genioplasty. J Oral Maxillofac Surg 2012; Philadelphia: Saunders; 1985. p. 355–410. 70(12):2884–92. 41. MacIntosh RB. The use of autogenous tissue in 25. Granquist EJ, Quinn PD. Total reconstruction of the temporomandibular joint reconstruction. J Oral Max- temporomandibular joint with a stock prosthesis. illofac Surg 2000;58:63. Atlas Oral Maxillofac Surg Clin North Am 2011;19: 42. Obeid G, Gutterman SA, Connole PW. Costochon- 221–32. dral grafting in condylar replacement and Management of TMJ Ankylosis 35 mandibular reconstruction. J Oral Maxillofac Surg 53. Peltomäki T, Rönning O. Interrelationship between 1988;48:177. size and tissue-separating potential of costochon- 43. Samman N, Cheung LK, Tideman H. Overgrowth of dral transplants. Eur J Orthod 1991;13:459. a costochondral graft in an adult male. Int J Oral 54. Peltomäki T. Growth of a costochondral graft in the Maxillofac Surg 1995;24:333. rat temporomandibular joint. J Oral Maxillofac Surg 44. Ellis E, Schneiderman ED, Carlson DS. Growth of the 1992;50:851. mandible after replacement of the mandibular 55. Mercuri LG, Swift JQ. Considerations for the use of condyle: an experimental investigation in Macaca alloplastic temporomandibular joint replacement in mulatta. J Oral Maxillofac Surg 2002;60:1461. the growing patient. J Oral Maxillofac Surg 2009; 45. Guyot L, Richard O, Layoun W, et al. Long-term 67:1979–90. radiological findings following reconstruction of the 56. Skinner HB. Current diagnosis and treatment in condyle with fibular free flaps. J Craniomaxillofac orthopedics. 2nd edition. New York: Lang Medical Surg 2004;32:98. Books; McGraw-Hill; 2000. 46. Guyuron B, Lasa CI. Unpredictable growth pattern 57. Chapman MW. Chapman’s orthopaedic surgery. 3rd of costochondral graft. Plast Reconstr Surg 1992; edition. Philadelphia: Lippincott Williams & Wilkins; 90:880. 2001. 47. Marx RE. The science and art of reconstructing the jaws 58. Mercuri LG. Alloplastic TMJ replacement. Rationale and temporomandibular joints. In: Bell WH, editor. Mod- for custom devices. Int J Oral Maxillofac Surg ern practice in orthognathic and reconstructive sur- 2012;41:1033–40. gery, vol. 2. Philadelphia: Saunders; 1992. p. 1448. 59. Pitta MC, Wolford LM. Use of acrylic spheres as 48. Perrot DH, Umeda H, Kaban LB. Costochondral spacers in staged temporomandibular joint surgery. graft/reconstruction of the condyle/ramus unit: J Oral Maxillofac Surg 2001;59:704–6. long-term follow-up. Int J Oral Maxillofac Surg 60. Mercuri LG, Alcheikh Ali F, Woolson R. Outcomes of 1994;23:321. total alloplastic replacement with peri-articular autog- 49. Svensson A, Adell R. Costochondral grafts to enous fat grafting for management of re-ankylosis of replace mandibular condyles in juvenile chronic the temporomandibular joint. J Oral Maxillofac Surg arthritis patients: long-term effects on facial growth. 2008;66:1794–803. J Craniomaxillofac Surg 1998;26:275. 61. Pearce CS, Cooper C, Speculand B. One stage 50. Ross RB. Costochondral grafts replacing the mandib- management of ankylosis of the temporomandib- ular condyle. Cleft Palate Craniofac J 1999;36:334. ular joint with a custom-made total joint replace- 51. Wen-Ching K, Huang CS, Chen YR. Temporoman- ment system. Br J Oral Maxillofac Surg 2009;47: dibular joint reconstruction in children using costo- 530–4. chondral grafts. J Oral Maxillofac Surg 1999;57:789. 62. Blair VP. Operative treatment of ankylosis of the 52. Peltomäki T, Vähätalo K, Rönning O. The effect of a mandible. Trans South Surg Assoc 1913;28:435. unilateral costochondral graft on the growth of the 63. Murphy JB. Arthroplasty for intra-articular bony and marmoset mandible. J Oral Maxillofac Surg 2002; fibrous ankylosis of the temporomandibular articula- 60:1307. tion. J Am Med Assoc 1914;62:1783.