
Case Report
Aesthetic Rehabilitation of a Complicated
Crown-Root Fracture of the Maxillary Incisor: Combination of
Orthodontic and Implant Treatment

Érica Dorigatti de Avila,1 Rafael Scaf de Molon,2 Mauricio de Almeida Cardoso,3

Leopoldino Capelozza Filho,3 Marilia Mattar de Amoêdo Campos Velo,4

Francisco de Assis Mollo Jr.,1 and Luiz Antonio Borelli Barros5

1 Department of Dental Materials and Prosthodontics, Araraquara School of Dentistry, São Paulo State University (UNESP),
1680 Humaita Street, 14801-903 Araraquara, SP, Brazil

2 Department of Diagnostic and Surgery, Araraquara School of Dentistry, São Paulo State University (UNESP),
1680 Humaita Street, 14801-903 Araraquara, SP, Brazil

3 Department of Orthodontics, University of Sagrado Coracao, 10-50 Irma Arminda Street,
17011-160 Bauru, SP, Brazil

4Department of Physiological Sciences, Piracicaba Dental School, Campinas State University, 901 Limeira Avenue,
13414-903 Piracicaba, SP, Brazil

5 Department of Social Dentistry, Araraquara School of Dentistry, São Paulo State University (UNESP), 1680 Humaita Street,
14801-903 Araraquara, SP, Brazil

Correspondence should be addressed to Érica Dorigatti de Avila; erica.fobusp@yahoo.com.br

Received 5 March 2014; Accepted 10 April 2014; Published 29 April 2014

Academic Editor: Yuk-Kwan Chen

Copyright © 2014 Érica Dorigatti de Avila et al.This is an open access article distributed under the Creative Commons Attribution
License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly
cited.

The aim of this paper is to present a complex rehabilitation, of fractured tooth, with implants in anterior region considering the
orthodontics extrusion to clinical success. At 7 years old, the patient fractured the maxillary left central incisor and the dentist
did a crown with the fragment. Twenty years later, the patient was referred to a dental clinic for orthodontic treatment, with the
chief complaint related to an accentuated deep bite, and a professional started an orthodontic treatment. After sixteen months of
orthodontic treatment, tooth 21 fractured.The treatment plan included an orthodontic extrusion of tooth 21 and implant placement.
This case has been followed up and the clinical and radiographic examinations show excellence esthetic results and satisfaction of
patient. The forced extrusion can be a viable treatment option in the management of crown root fracture of an anterior tooth to
gain bone in a vertical direction. This case emphasizes that to achieve the esthetic result a multidisciplinary approach is necessary.

1. Introduction

Dental trauma occurs most commonly in the maxillary
incisors, and most of the time, the dental crowns are dam-
aged. In the presence of fractures, the treatment of teeth
depends on the level of the fracture line, the type of occlusion
[1, 2], and the prognosis [1]. Oblique fractures are more
problematic to treat compared to horizontal fractures. At the
same time, root fractures are also more likely to occur in

fully erupted permanent teeth with closed apices, in which
the totally formed root is firmly supported by bone and peri-
odontal tissue [3]. When the fracture line is positioned below
the alveolar bone crest, and if the apical root fragment is
evaluated as being sufficient to support a coronal restoration,
the coronal fragment can be removed and the root treated
endodontically [4]. However, there are cases in which it is
impossible to maintain the tooth, and the treatment requires
a multidisciplinary approach to improve the functional and

Hindawi Publishing Corporation
Case Reports in Dentistry
Volume 2014, Article ID 925363, 8 pages
http://dx.doi.org/10.1155/2014/925363

http://dx.doi.org/10.1155/2014/925363


2 Case Reports in Dentistry

Figure 1: Radiographic view of the fractured tooth.

aesthetic outcomes [5].The protocol indicated for these cases
is extraction of the tooth, followed by implant rehabilitation.
The possibility of rehabilitating the patient does not mean
success of treatment.

To obtain the success of implant restoration in anterior
aesthetic areas is necessary harmonious relationship between
the implant and peri-implant tissue and the remaining
natural teeth [5]. Although the techniques and materials that
have been developed are capable of high success rates to
achieve excellent aesthetic results, it is important that the
bone and gingival level be in accordance with the adjacent
bone [6]. Hence, bone grafting could be a prerequisite for
successful implant dentistry in select cases. Another impor-
tant alternative to bone grafting is orthodontic extrusion [7,
8]. Several authors have indicated orthodontic extrusion for
vertical bone gain [7–11].Themain objective of this procedure
is both to provide a tissue margin for the final restoration
and to create a periodontal environment (biologic width)
that is easy to maintain [7, 9, 11]. According to H. Salama
and M. Salama [10], orthodontic eruption should be used
to create at least 2mm of additional vertical gingival tissue
relative to adjacent teeth, to produce a harmonious gingival
arrangement. Once peri-implant harmony is restored, the
results with an aesthetic and functional prosthesis will have
greater predictability. This paper presents a complex case
of rehabilitation, where it was a considerate orthodontics
extrusion and a combined surgical technique to obtain the
clinical success.

2. Case Report

In 1990, a 7-year-old white female suffered a trauma in a
swimming pool and fractured the crown of her maxillary
left central incisor. Her parents found the fragment, and a

pediatric dentist placed a crown with the autogenous frag-
ment. The fractured line of the left maxillary central incisor
was below the buccal gingival margins, restricted to the
crown. Radiographic examinations showed no abnormality;
the tooth was followed up for a few months (clinical and
radiographic controls) and showedno signs or symptoms that
could lead to suspicion of pulp necrosis.

At eleven years old, while on a school trip, the patient
developed swelling and drainage in her anterior maxilla,
and she was immediately referred to an endodontist for
root canal treatment of the maxillary left central incisor.
The treatment was limited regarding pulp calcification; the
obturator material did not fill in to complete the canal in the
apical region (Figure 1). At sixteen years old, themaxillary left
central incisor darkened, and the patient underwent intra-
canal whitening. Eleven years later, at 27 years old, the patient
was referred to a dental clinic for orthodontic treatment, with
the chief complaint related to an accentuated deep bite, and
a professional started orthodontic treatment. At this time,
the patient presented a Class I occlusal relationship in the
right side, a Class II full occlusion on the left side (Figures
2(a) to 2(c)), an overbite and opened interincisor angle, a
history of clenching, and TMD signs (click at both ATMs).
At this stage, a periapical radiograph showed no significant
changes in comparison to X-rays taken immediately after the
root canal of the maxillary left central incisor (Figures 2(d) to
2(f)).

After sixteen months of orthodontic treatment, the
maxillary left central incisor fractured. The fracture was
confirmed by means of Cone Beam Computed Tomography
(Figures 3(a) and 3(b)). The patient did not agree with
the treatment plan of this professional, which involved
immediate extraction of maxillary left central incisor with
implant placement, and she sought another professional
opinion. At this time, our team evaluated the patient, and
the prognosis at this stage was good for compensatory treat-
ment (interincisor angle closure) and questionable for the
maxillary left central incisor, requiring mechanical extrusion
to expose the fracture line and reassessment to maintain
the root or removal for implant placement. It is important
to emphasize that the patient is a dentist, and she wanted
to participate in the elaboration of treatment plan. She did
not agree to have the tooth extracted—despite of the tooth
presenting periapical lesions—without an attempt to keep
the tooth and to undergo endodontic surgery at a later time
for lesion removal. Thus, the conservative treatment plan
included orthodontic treatment, including forced orthodon-
tic extrusion of the maxillary left central incisor until expo-
sure of the fracture line to allow for the fabrication of a
crown.

At this time, endodontic retreatmentwas performed,with
installation of an intracanal pin (Figures 4(a) and 4(b)). The
purpose of the pin was only to strengthen the tooth to allow
for orthodontic extrusion and consequently to gain bone.
Subsequently, forced orthodontic extrusion of the central
incisor was undertaken (Figures 5(a) and 5(b)) to restore
the physiological periodontal attachment, according to de H.
Salama and M. Salama [10]. The maxillary and mandibular
arch were leveled using a stainless steel .018” arch wire,


Case Reports in Dentistry 3

(a) (b) (c)

(d) (e) (f)

Figure 2: (a, b, c) Preoperative views; (d) panoramic radiography; (e) cephalometric radiography; (f) periapical radiography showing no
significant changes to the maxillary left central incisor.

(a) (b)

Figure 3: Computerized tomography showing the fracture line.

(a) (b)

Figure 4: Radiographic and clinical images showing the endodontic retreatment, with the installation of an intracanal pin and temporary
crown placement.


4 Case Reports in Dentistry

(a) (b)

Figure 5: (a, b) Radiographic and clinical images illustrating orthodontic extrusion.

(a) (b) (c)

(d) (e)

Figure 6: (a, b) Clinical images illustrating orthodontic extrusion after eight months; (c) panoramic radiography; (d) cephalometric
radiography; (e) periapical radiography.

Figure 7: Computed tomography after orthodontic extrusion.
Perforation was observed in the root.

combined with bending for the extrusion of tooth 21, and
each return was pronounced to achieve tooth extrusion.

Concomitant to the tooth traction, Class II asymmetric
mechanics were performed with elastics for the correction
of the sagittal relationship, corroborating interincisor angle
closure and lower midline and overbite correction. The
orthodontic extrusion was completed after 8 months, and the
maxillary left central incisor was repositioned and fixed with
an orthodontic appliance in the cervix, with the intention
of stabilizing the carried motion. At this stage, with the
goal of orthodontic treatment achieving an end, orthodontic
documentation was requested, and the lower braces were
removed (Figures 6(a) to 6(e)).

Computed tomography (CT) was obtained to reevaluate
the response of tooth 21 after orthodontic extrusion, and a
perforation in the root was observed, likely a consequence of
successive attempts at endodontic retreatment (Figure 7). At
this time, the team decided on implant placement with bone
grafting, connective tissue grafting, and prosthesis.

The implant procedure was planned considering the bone
gain obtained with mechanical extrusion and the level of


Case Reports in Dentistry 5

(a) (b) (c)

(d) (e)

(f) (g) (h)

Figure 8: (a) Extrusion of the tooth; (b) implant placement; (c) position of the implant. (d) Bone graft with Bio-Oss; (e) subepithelial
connective tissue graft inserted to improve the periodontal tissue biotype. (f) Radiographic examination showing the implant; (g), (h)
provisional crown performed in infraocclusion.

(a) (b)

Figure 9: Images showing the provisional crown, restoring the maxillary right central incisor and gingival tissue after four months.

(a) (b)

Figure 10: The gingival color, texture, and contour appeared similar to the adjacent soft tissues of the teeth.


6 Case Reports in Dentistry

(a) (b)

Figure 11: Buccal and occlusal views, showing the custom abutment in zirconia with a CAD/CAM system.

(a) (b) (c)

(d)

Figure 12: (a, b, c, d) Postoperative clinical and radiographic views, immediately after the conclusion of the prosthetically restored maxillary
right central incisor.

exposure during smiling.The surgical procedurewas initiated
by incision of the buccal and lingual soft tissues around the
tooth to be extracted, as well as on the contralateral aspect
of each adjacent tooth (Figure 8(a)). Full-thickness flaps were
elevated, and a minimally invasive surgery was performed
to preserve the alveolar bone, using a periotome (Hu-Friedy,
Chicago, IL, USA), associated with curettage of the peri-
apical lesion. The treatment succeeded with implant place-
ment (Figure 8(b)). Figure 8(c) shows the implant position
(Figure 8(c)). After implant placement, an exact universal
abutment (Morse Taper) was installed (Neodent, Curitiba,
PR, Brazil). The provisional abutment was realigned and
was adapted on the sleeve prior to cementing, and the gap
between the bone and the implant labial plate was filled with
Bio-Oss (Geistlich, Wolhusen, Switzerland) (Figure 8(d)).
A subepithelial connective tissue graft (Figure 8(e)) was
inserted to improve the periodontal tissue biotype [12], thus
increasing the range of keratinized gingiva, favoring the red
aesthetics, and avoiding recession. After implant installation,
a provisional crownwas performed in infraocclusion (Figures
8(f) to 8(h)).

Four months later, the provisional crown was removed
to evaluate the gingival tissue (Figures 9(a) and 9(b)). The
gingival color, texture, and contour appeared similar to the
adjacent soft tissues of the teeth (Figures 10(a) and 10(b)).
The definitive prosthesis was created eight months after
the implant surgery, with implant and peri-implant tissue
impressions obtained to create a custom abutment in zirconia
with a CAD/CAM system (Figures 11(a) and 11(b)). This
case has been followed up, and the clinical and radiographic
examinations have shown excellent aesthetic results (Figures
12(a) to 12(d)) and satisfaction of the patient. Clinical success
was achieved in this case with multidisciplinary treatment
after 1-year follow-up (Figures 13(a) to 13(e)).

3. Discussion

Dental trauma in young patients, mainly to the perma-
nent central incisor, can cause aesthetic and functional
problems, which in turn can result in severe emotional
problems [13]. In this paper, we reported a rehabilitation
of a complex case of fractured maxillary central incisor


Case Reports in Dentistry 7

(a) (b)

(c) (d)

(e)

Figure 13: Follow-up clinical views (lateral, central, and occlusal) after 1 year.

tooth in which, among the options treatment, we opted
for orthodontic extrusion to bone formation and implant
rehabilitation.

Despite possible contamination by saliva via the fracture
line into the pulp, teeth normally remain free of symptoms,
as in the case in question. However, definitive treatment
should begin within a few days after the trauma, contrary
to what occurred with our patient. In this case, the first
professional did not treat the tooth canal, and the patient
was only examined by a new dentist some years later when
she felt pain, and edema appeared. The following situations
must be considered before choosing the treatment plan: the
localization and degree to which biologic width has been
invaded; the presence or absence of pulpal involvement; the
root development stage; the tooth eruption stage; and the
degree of adaptation of the fragment to the tooth remnant.

Extraction must not be the first treatment choice for
fractured teeth in cases of young patients with permanent
teeth in the anterior region for several reasons [4]. Depending
on the fracture site, some clinical procedures might be
performed to save the tooth; if it is not possible to keep the
tooth in the arcade, the tooth can be used during extrusion
to stimulate bone formation in the vertical direction and
to facilitate the implant installation. Multidisciplinary treat-
ment allows patients with traumatized anterior teeth to be
rehabilitated with success. In the case in question, success
was obtainedwith a combined approach involving immediate
flapless implant placement, connective tissue, and bone graft
followed by immediate provisionalization of the crown as
described previously by de Molon et al. [14].

In the case of aesthetic areas, the challenge of rehabil-
itation is even greater. Dental implants have significantly
favored clinical results when the patient has lost a tooth
[15, 16]. However, to obtain aesthetic results, the presence
of bone in both directions is necessary. New bone forma-
tion in defects, caused by periodontal disease, trauma, or
alveolus postextraction, requires three fundamental factors:
the presence of a blood clot, preserved osteoblasts, and
contact with living tissue [17]. New bone formation can be
obtained throughbone grafting or, in some cases, orthodontic
extrusion. In the case in question, we opted for orthodontic
extrusion. After the decision was made to extract the tooth,
all the procedures were performed in an attempt to maintain
the tooth responsible for eruption.

Forced orthodontic extrusion could be an appropriate
adjunct for aesthetic and functional restorations because
the attachment apparatus of natural teeth maintains and
augments the shape of the alveolar bone, as well as the
gingival and alveolar mucosa [18, 19]. H. Salama and M.
Salama [10] showed that orthodontic extrusion of teeth with
advanced periodontal disease could help to eliminate deep
infrabone defects and might allow for more optimal implant
placement, with a higher level of aesthetic predictability.
Some years later, these authors suggested that improvements
in the height and position of the interproximal bone worked
effectively to achieve normal interdental papillary heights [6].

The clinical and radiographic examinations of our patient
showed bone gain in the vertical direction, allowing for
implant placement in an ideal 3-dimensional position. The
particulate bone graft was inserted in the buccal side due


8 Case Reports in Dentistry

to bone dehiscence, as well as a connective tissue graft to
improve the red aesthetics. This case shows that clinicians
should therefore always consider the appropriate timing of
procedures to prevent added clinical difficulty.

In conclusion, this case report shows that extrusion can
be a viable treatment option in the management of crown-
root fracture of permanent anterior teeth, to gain bone in
the vertical direction before tooth extraction and implant
placement. At the same time, this case emphasizes that,
to achieve aesthetic results, a multidisciplinary approach is
necessary.

Conflict of Interests

The authors declare that they have no conflict of interests.

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