Journal of Indian Society of Periodontology
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CASE SERIES
Year : 2009  |  Volume : 13  |  Issue : 1  |  Page : 32-40 Table of Contents   

Rehabilitation using single stage implants


Department of Periodontics and Implant Dentistry, Ragas Dental College and Hospital, Uthandi, Chennai, India

Date of Submission16-Jan-2009
Date of Acceptance11-Apr-2009
Date of Web Publication5-Jun-2009

Correspondence Address:
Jumshad B Mohamed
H2/4 Kaveri Apartments, Indira Nagar, Adyar, Chennai - 600 020
India
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Source of Support: None, Conflict of Interest: None


DOI: 10.4103/0972-124X.51893

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   Abstract 

Implant related prosthesis has become an integral part of rehabilitation of edentulous areas. Single stage implant placement has become popular because of its ease of use and fairly predictable results. In this paper, we present a series of cases of single stage implants being used to rehabilitate different clinical situations. All the implants placed have been successfully restored and followed up for up to one year.

Keywords: Compromised ridge, implant, single stage


How to cite this article:
Mohamed JB, Sudarsan S, Arun K V, Shivakumar B. Rehabilitation using single stage implants. J Indian Soc Periodontol 2009;13:32-40

How to cite this URL:
Mohamed JB, Sudarsan S, Arun K V, Shivakumar B. Rehabilitation using single stage implants. J Indian Soc Periodontol [serial online] 2009 [cited 2019 Dec 14];13:32-40. Available from: http://www.jisponline.com/text.asp?2009/13/1/32/51893


   Introduction Top


Osseo-integrated implants provide predictable restorative support for crowns, restoration, prosthesis abutment, and removable dentures. Their widespread use in recent years has resulted in an increasing percentage of the adult population with implant supported prosthesis. With the two-stage devices, the prosthetic loading procedures are usually instituted four to six months after initial insertion of the implant. Although time tested and predictable, two-stage implants suffer from limitations of: protracted time of procedure b)inevitable loss of tissue that occurs during second stage procedure. To overcome these difficulties, single stage implants were introduced with the advantage of increased patient acceptance and shortened procedure time. [1],[2] Rapid loading protocol for aesthetic single-tooth replacement can increase patient acceptance by limiting multi-step process of dental implant therapy. [3],[4] Mauro Donati et al . [5] reported that immediate functional loading of implants placed with a conventional installation technique and with sufficient primary stability may be considered a valid treatment alternative in a single-tooth replacement. Fritz et a1 . [6] evaluated the success of implants in regenerated bone from a histological perspective and reported no significant difference between native bone and regenerated bone sites after loading with a fixed prosthesis for one year. In a meta-analysis of 13 prospective trials done, Effie Ioannidou et al . [7] concluded that early implant loading was not associated with worse outcomes compared to conventional loading. This paper presents a series of reports of rehabilitation using single stage implants.


   Case Reports Top


Case I: A 41-year-old male patient presented with a history of trauma and subsequent avulsion of tooth number 11 and crown fracture at the neck of tooth number 21, previously extracted two weeks prior, at another dental facility. The patient requested an immediate fixed solution to the lost anterior teeth from our department. Clinical and radiological evaluation revealed adequate apico-occlusal alveolar bone, but extensive loss of the labial plate [Figure 1a] and [Figure 1b]. The soft tissue dimensions were, however, adequate for functional and aesthetic acceptability. It was decided to perform a single stage immediate loading implant placement with simultaneous augmentation of the lost facial plate using calcium phosphate bone substitute* and collagen barrier # .

After induction of local anaesthesia, full thickness flap was reflected in relation to number 11 and number 21. The sockets were debrided with curettes and two single piece implants $ (3.7 x 13 mm) were placed into the sockets. After checking for primary stability, which was achieved by wrenching the implant into the bone beyond the apex of the socket, calcium phosphate cement* was mixed in sterile saline and injected into the spaces between the implant and the socket walls. Collagen membrane # was trimmed to the appropriate size and shaped to cover the graft material. The flap was approximated and sutured with interrupted 3-0 Mersilk [Figure 1c],[Figure 1d],[Figure 1e],[Figure 1f],[Figure 1g],[Figure 1h],[Figure 1i]. The patient was instructed to discontinue tooth brushing and avoid trauma or pressure at the surgical site. A 0.2% chlorhexidine mouth rinse was prescribed two/three times daily for two-three weeks following surgery, and antibiotics and anti-inflammatory drugs were prescribed for five days. The sutures were removed after 10 days and the patient received temporary acrylic crowns on the same day. The patient was recalled for prophylaxis after two and four weeks and every three months. The clinical and radiographic appearances at six months and after one year show good aesthetic result and acceptable osseo-integration of the implants [Figure 1j],[Figure 1k],[Figure 1l],[Figure 1m].

Discussion The presence of adequate palatal bone and the mesial and distal labial plates meant that we could achieve not only good primary stability following placement of implant, but also that the anatomical characteristics of defect would favour regeneration following placement of bone substitutes. [8] Existing literature suggests that long term prognosis of implant-related prosthesis would be directly affected by the primary stability achieved during placement. [5] Simultaneous bone augmentation procedure may be attempted only when native bone is sound enough for primary stability to be obtained. [9],[10] If such were not the case, it would be prudent to augment the ridge conventionally using GBR procedure and subsequently place implant after four to six months.

Case II: A 25-year-old female patient presented with a root stump in relation to 44 and missing tooth number 45 and 46. Various treatment options were given to the patient following which she decided to undergo implant supported prosthesis. Clinical and radiological evaluation of tooth number 44 revealed infected root stump with evidence of periapical pathology [Figure 2a] and [Figure 2b]. The keratinised mucosa around number 44 was inadequate and deemed incompatible with long term prosthetic health. It was decided to initially debride the socket and augment the bone prior to implant placement in all three missing teeth. Surgical technique involved a traumatic extraction of root stump in relation to number 44 with periotomes. The socket was thoroughly debrided with curettes and excavators. Calcium phosphate bone substitute was injected into the socket up to the brim and no sutures were placed. A foil was trimmed to size and shape and placed over it and periodontal dressing was placed over it [Figure 2c],[Figure 2d],[Figure 2e],[Figure 2f]. Post-operative instructions were similar to the one described in case I. The healing occurred by creeping of the keratinised mucosa along the open wound margins and was closed at 14 days' time when the dressing and foil were removed.

After 10 weeks, clinical evaluation showed adequate keratinised mucosa and radiograph revealed good bone formation [Figure 2g] and [Figure 2h]. Three months after socket grafting, the site relation to numbers 44 and 45 received single piece implant $ (3.7 x 10 mm) and number 46 received a two-piece implant (3.75 x 8 mm). The bone appeared quite similar to the adjacent bone during the osteotomy as bone adjacent to the site were also prepared to receive implants at the same time [Figure 2i],[Figure 2j],[Figure 2k]. The clinical appearance after six months reveals good aesthetics and adequate amount of keratinised mucosa, and radiographs revealed good osseo-integration of the implant [Figure 2l],[Figure 2m],[Figure 2n].

Discussion

The calcium phosphate bone substitute * used in this procedure obviates the necessity for primary closure when used in socket preservation cases. [8] The Hydrase (wetting agent) used to mix with calcium phosphate cement supports epithelial proliferation and subsequent keratinisation. Hence, using this procedure, we managed to preserve what little keratinised gingiva was left and also obtain keratinised mucosa in the crestal area. The presence of persistent periapical pathology may lead to retrograde periimplantitis [11],[12] and is thought to be an important cause of failure in immediate placement implants. Pathology observed in the radiograph and its proximity to adjacent edentulous sites was the reason for delayed placement of the implant in this case. This way, we achieved good soft and hard tissue dimensions at the site of implant placement and also considerably reduced the potential for future retrograde periimplantitis.

Case III: A 42-year-old male patient presented with a history of exfoliation of tooth number 31 and 41 and desirous of immediate replacement. After careful clinical and radiological evaluation, the patient was diagnosed with severe chronic periodontitis. Surgical periodontal therapy was performed and the patient placed on maintenance regime. After satisfactory maintenance of periodontal health was achieved and good oral hygiene practices were instituted by the patient, the patient was taken up for implant placement in relation to numbers 31 and 41. On examination of the edentulous site, there was a vertical and horizontal deficient ridge (Seibert's Class III) for which the patient was offered the option of initial augmentation followed by subsequent implant placement [Figure 3a] and [Figure 3b]. The patient decided not to undergo the graft procedure and it was decided to arrive at a compromise by placing a smaller diameter single stage implant $ (2.8 x 13 mm). Postoperative protocols were similar to the previous case. The clinical and radiographic appearances at six months and one year show good aesthetic result and acceptable osseo-integration of the implants [Figure 3c],[Figure 3d],[Figure 3e].

Discussion

Strategic extraction [13] has become an important part of treatment planning for both periodontal and prosthetic purposes. The patient described in this case would have benefited from an earlier strategic extraction whereby adequate alveolar bone both in horizontal and vertical dimension would have been present to make room for a more aesthetic result. [14],[15] It is also important to realize that the patient's wishes are paramount during the treatment planning stages for any procedure, especially for the more expensive procedures such as implant supported prosthesis.

Case IV: A 25-year-old female patient presented with a history of complete loss of teeth and wearing complete dentures since six months. The patient requested a fixed option for the lower denture. Clinical and radiological evaluation was performed [Figure 4a]. It was decided to perform a single stage over denture implant placement. After induction of local anaesthesia, full thickness flap was reflected in relation to numbers 33 and 43. Two single piece over-denture implants $$ (2.4 x 13 mm) were placed. After checking for primary stability, the flap was approximated and sutured with interrupted 3-0 Mersilk. The patient was instructed to discontinue wearing the lower denture and avoid trauma or pressure at the surgical site. Post-operative instructions were similar to the ones described in the first case. The sutures were removed after 10 days and the patient's existing lower denture was modified to receive the female part of the ball and socket over-denture prosthesis. The patient was recalled for review after two and four weeks and every three months. The clinical and radiographic appearances at six months and at one year show good aesthetic result and acceptable osseo-integration of the implants [Figure 4b],[Figure 4c],[Figure 4d],[Figure 4e].

Discussion

The economic reality of implant-related prosthesis means that we may not be able to offer the required number of implants for perfect prosthetic rehabilitation especially if expensive bone regeneration procedures are required initially. In such instances, an implant supported over-denture may be an acceptable solution [16] providing greater patient relief in terms of denture support. [17]

Case V: A 35-year-old female patient presented with a history of loss of tooth number 26 and 27 due to periapical infection. The patient presented to our department requesting for a fixed solution for her lost teeth without disturbing the adjacent teeth. Clinical and radiological evaluation [Figure 5a] revealed available native bone height of 7-8 mm at both the sites. It was decided to perform a single stage implant placement with sinus lift (lateral approach). After induction of local anaesthesia, full thickness flap was reflected in relation to numbers 26 and 27. Two single piece implants $ (4.5 x 10 mm) were placed [Figure 5b],[Figure 5c],[Figure 5d],[Figure 5e]. After checking for primary stability, the flap was approximated and sutured with interrupted 3-0 Mersilk. Post-operative protocols were similar to the one described in Case I. The sutures were removed after 10 days and the patient received temporary acrylic crowns on the same day. The patient was recalled after two and four weeks and every three months. The clinical and radiographic appearances at six months and one year show good aesthetic result and acceptable osseo-integration of the implants [Figure 5f] and [Figure 5g].

Discussion

Implant placement in the posterior maxilla is often compromised by lack of adequate bone. [18] Sinus augmentation procedures are a viable option in such instances. Existing literature suggests that sinus augmentation with simultaneous implant placement may be successful provided the available bone is more than 3-5 mm. [19] The case presented in this article showed native bone of 7-8 mm [20] at both the sites, as a result of which implant placement could be satisfactorily done even without placement of bone graft. [19]

Case VI: An 18-year-old female patient was referred from the Department of Orthodontics for restoration with implant in relation the tooth number 22, the space for which was gained orthodontically [Figure 6a] and [Figure 6b]. Clinical and radiological evaluation was performed and it was decided to perform a single stage implant placement $ (2.4 x 10 mm) [Figure 6c]

and [Figure 6d]. The patient received temporary acrylic crowns on the same day. The patient was recalled for prophylaxis after two and four weeks and at third month. The clinical and radiographic appearances at three months show good aesthetic result and acceptable osseo-integration of the implants [Figure 6e].


   Discussion Top


Orthodontic tooth movement is a physiological method of regenerating bone in inadequate sites without the use of any bone replacement grafts. [21] With an ever increasing number of patients seeking both adult orthodontics and implant rehabilitation, the role of an orthodontist in treatment planning for implant placement has become important.


   Conclusion Top


With the ever increasing popularity of implant supported prosthesis and increasing patient demand for good esthetics, the need for greater use of the single stage implants has become tremendous. It is, therefore, necessary for the clinician to be able to clearly distinguish areas were these implants may be successfully restored without any undesirable post-operative sequelae. The cases presented in this paper were all restored successfully with good patient acceptance.

*Regen Biocement and Hydrase

#Periocol GTR Membrane

$TRX-OP Single-Piece Implant (LifeCare)

$$TRX-BA Single-Piece Overdenture Implant (LifeCare)

 
   References Top

1.Hoffmann O, Beaumont C, Zafiropoulos GG. Immediate Implant Placement: A Case Series. J Oral Implantol 2006;32:182-9.  Back to cited text no. 1  [PUBMED]  
2.Weischer T, Kandt M, Reidick T. Immediate loading of mandibular implants in compromised patients: preliminary results. Int J Periodontics Restorative Dent 2005;25:501-7.  Back to cited text no. 2  [PUBMED]  
3.Schwartz-Arad D, Laviv A, Levin L. Survival of immediately provisionalized dental implants placed immediately into fresh extraction sockets. J Periodontol 2007;78:219-23.  Back to cited text no. 3  [PUBMED]  [FULLTEXT]
4.Juodzbalys G, Wang HL. Soft and hard tissue assessment of immediate implant placement: A case series. Clin Oral Implants Res 2007;18:237-43.  Back to cited text no. 4  [PUBMED]  [FULLTEXT]
5.Donati M, La Scala V, Billi M, Di Dino B, Torrisi P, Berglundh T. Immediate functional loading of implants in single tooth replacement: a prospective clinical multicenter study. Clin Oral Implants Res 2008;19:740-8.  Back to cited text no. 5  [PUBMED]  [FULLTEXT]
6.Fritz ME, Jeffcoat MK, Reddy M, Koth D, Braswell LD, Malmquist J, et al . Implants in regenerated bone in a primate model. J Periodontol 2001;72;703-8.  Back to cited text no. 6    
7.Ioannidou E, Doufexi A. Does Loading Time Affect Implant Survival? A Meta-Analysis of 1,266 Implants. J Periodontol 2005;76:1252-8.  Back to cited text no. 7    
8.Aral A, Yalηin S, Karabuda ZC, Anil A, Jansen JA, Mutlu Z. Injectable calcium phosphate cement as a graft material for maxillary sinus augmentation: An experimental pilot study. Clin Oral Implants Res 2008;19:612-7.  Back to cited text no. 8    
9.Harvey BV. Optimizing the Esthetic Potential of Implant Restorations Through the Use of Immediate Implants With Immediate Provisionals. J Periodontol 2007;78:770-6.  Back to cited text no. 9  [PUBMED]  [FULLTEXT]
10.Zeren KJ. Minimally invasive extraction and immediate implant placement: the preservation of esthetics. Int J Periodontics Restorative Dent 2006;26:171-81.  Back to cited text no. 10  [PUBMED]  
11.Jalbout ZN, Tarnow DP. The implant periapical lesion: four case reports and review of the literature. Pract Proced Aesthet Dent 2001;13:107-12.  Back to cited text no. 11  [PUBMED]  
12.noneTφzüm TF, Senηimen M, Ortakoπlu K, Ozdemir A, Aydin OC, Kele? M. Diagnosis and treatment of a large periapical implant lesion associated with adjacent natural tooth: A case report. Oral Surg Oral Med Oral Pathol Oral Radiol Endod 2006;101:132-8.  Back to cited text no. 12    
13.Covani U, Cornelini R, Barone A. Vertical crestal bone changes around implants placed into fresh extraction sockets. J Periodontol 2007;78:810-5.  Back to cited text no. 13  [PUBMED]  [FULLTEXT]
14.Marcus SE, Drury TF, Brown LJ, Zion GR. Tooth retention and tooth loss in the permanent dentition of adults: United States, 1988-1991. J Dent Res 1996;75:684-95.  Back to cited text no. 14  [PUBMED]  
15.Mecall RA, Rosenfeld AL. Influence of residual ridge resorption pat­terns on implant fixture placement and tooth position. 1. Int J Periodontics Restorative Dent 1991;11:8-23.  Back to cited text no. 15    
16.Eckert SE, Carr AB. Implant-retained maxillary overdentures. Dent Clin North Am 2004;48:585-601.  Back to cited text no. 16  [PUBMED]  [FULLTEXT]
17.MacEntee MI, Walton JN, Glick N. A clinical trial of patient satisfaction and prosthodontic needs with ball and bar attachments for implant-retained complete overdentures: three-year results. J Prosthet Dent 2005;93:28-37.  Back to cited text no. 17  [PUBMED]  [FULLTEXT]
18.Wallace SS, Froum SJ. Effect of maxillary sinus augmentation on the survival of endosseous dental implants. A systematic review. Ann Periodontol 2003;8:328-43.  Back to cited text no. 18    
19.Sohn DS, Lee JS, Ahn MR, Shin HI. New bone formation in the maxillary sinus without bone grafts. Implant Dent 2008;17:321-31.  Back to cited text no. 19  [PUBMED]  [FULLTEXT]
20.Lundgren S, Andersson S, Gualini F, Sennerby L. Bone reformation with sinus membrane elevation: A new surgical technique for maxillary sinus floor augmentation. Clin Implant Dent Relat Res 2004;6:165-73.  Back to cited text no. 20  [PUBMED]  
21.Biggs J, Beagle JR. Pre-implant orthodontics: achieving vertical bone height without osseous grafts. J Indiana Dent Assoc 2004;83:18-9.  Back to cited text no. 21  [PUBMED]  


    Figures

  [Figure 1a], [Figure 1b], [Figure 1c], [Figure 1d], [Figure 1e], [Figure 1f], [Figure 1g], [Figure 1h], [Figure 1i], [Figure 1j], [Figure 1k], [Figure 1l], [Figure 1m], [Figure 2a], [Figure 2b], [Figure 2c], [Figure 2d], [Figure 2e], [Figure 2f], [Figure 2g], [Figure 2h], [Figure 2i], [Figure 2j], [Figure 2k], [Figure 2l], [Figure 2m], [Figure 2n], [Figure 3a], [Figure 3b], [Figure 3c], [Figure 3d], [Figure 3e], [Figure 4a], [Figure 4b], [Figure 4c], [Figure 4d], [Figure 4e], [Figure 5a], [Figure 5b], [Figure 5c], [Figure 5d], [Figure 5e], [Figure 5f], [Figure 5g], [Figure 6a], [Figure 6b], [Figure 6c], [Figure 6d], [Figure 6e]



 

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