174

Dental Journal
(Majalah Kedokteran Gigi)
2021 December; 54(4): 174–180

Case report

Management of a complete 180° rotation of bilateral maxillary 
canines

Putri Intan Sitasari1, Niken Merrystia2 and Ida Bagus Narmada2
1Department of Orthodontics, Faculty of Dental Medicine, Universitas Mahasaraswati, Denpasar, Bali, Indonesia 
2Department of Orthodontics, Faculty of Dental Medicine, Universitas Airlangga, Surabaya, Indonesia

ABSTRACT
Background: Dental anomalies usually lead to complicated decisions having to be made in terms of the orthodontic treatment of 
permanent dentition; tooth rotation is the most common of these irregularities. The prevalence rate of this phenomenon is 2.1–5.1% 
in patients who have not received orthodontic treatment. Purpose: This case report aimed to manage the complete bilateral rotation 
of maxillary canines with couple force by using a Nance appliance modification. Case: A 17-year-old male patient came in wanting 
to straighten his teeth. He complained about his bilateral canines, which were not in a normal position. There was an impacted left 
maxillary second premolar and an ectopically erupted right maxillary first premolar. He also had protrusions in the upper and lower 
anterior teeth and crowding in the lower anterior teeth as well as upper and lower midline deviations. Case Management: A clinical 
examination showed a class I relationship between the dental and cephalometry measurements and highlighted a class I skeletal 
pattern. The upper right first premolar was extracted and the left second premolar had undergone an odontectomy to allay protrusion 
and correct crowding. Bilaterally rotated upper canines were derotated using a modified Nance appliance and an elastomeric chain 
with couple force. Conclusion: The success of the orthodontic treatment was influenced by the specific nature of the patient’s dental 
and medical history, extraoral and intraoral examination, diagnosis and treatment planning, which was followed by a systematic 
approach to treatment. The Nance appliance modification reduced the total treatment time by achieving controlled anchorage and 
derotation of the canines.

Keywords: canine rotation; couple force; derotation; Nance appliance

Correspondence: Ida Bagus Narmada, Department of Orthodontics, Faculty of Dental Medicine, Universitas Airlangga, Jl. Mayjen 
Prof. Dr. Moestopo 47, Surabaya 60132, Indonesia. Email: ida-b-n@fkg.unair.ac.id

INTRODUCTION

Dental anomalies usually mean complicated decisions 
with regard to the orthodontic treatment of permanent 
dentition have to be made.1 The aetiology of these 
dental anomalies is caused by genetic and environmental 
factors,2 and developmental versions of these irregularities 
are an essential part of dental morphologic variations. 
Abnormalities in the tooth shape, tooth number and tooth 
structure result from disruption during the developmental 
stage of morphological differentiation, while abnormalities 
in the tooth position stem from developmental disruption 
in the eruption pattern of the permanent teeth. Rotation, 
impaction and ectopic eruption are all related to irregularities 
in the tooth position.3

Tooth rotation is intra-alveolar displacement in the 
mesiolingual or distobuccal direction of the tooth around 
a longitudinal axis of at least 20°, and the prevalence 
of tooth rotation is 2.1–5.1% in patients who have not 
received orthodontic treatment.3 Rotation of permanent 
dentition can be caused by pre-eruptive and post-eruptive 
disturbances. Furthermore, several factors relate to pre-
eruptive disturbance, such as displaced and misaligned 
development of tooth buds due to pre-maxillary region 
injury in childhood, and pathological conditions that can 
interfere with tooth eruption like a cyst, odontogenic 
tumour or mesiodens (supernumerary tooth). Elements 
that can cause post-eruptive disturbances are usually 
local/environmental, habitual or mechanical. Although 
the aetiology of dental malpositioning is multifactorial, 

Dental Journal (Majalah Kedokteran Gigi) p-ISSN: 1978-3728; e-ISSN: 2442-9740. Accredited No. 32a/E/KPT/2017.
Open access under CC-BY-SA license. Available at https://e-journal.unair.ac.id/MKG/index
DOI: 10.20473/j.djmkg.v54.i4.p174–180

mailto:ida-b-n@fkg.unair.ac.id
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175Sitasari et al./Dent. J. (Majalah Kedokteran Gigi) 2021 December; 54(4): 174–180

environmental reasons that must be considered as a cause 
of tooth rotation include the presence of space, the tooth 
eruption pathway and functional effects that are influenced 
by the tongue and lips. Rotations often occurs in relation 
to crowded teeth, but an excess number of rotations might 
also occur in instances that relate to the degree of space.4 

Gupta et al.3 categorised rotation into three groups: <45°, 
45° to 90° and >90°. In their research, the majority of tooth 
rotation was between 45° and 90° (58%), followed by <45° 
rotations (31%) and then >90° rotation (11%). Out of all 
of the instances of rotation, there were only two cases that 
presented with a complete 180° rotation (the buccal side 
is on the palatal side, and vice versa).4 It can therefore be 
interpreted that this case was rare.

In this study, the patient had a complete 180° rotation 
of the bilateral maxillary canine and other anomalous 
conditions, such as an impacted maxillary second premolar 
on the left side and an ectopically erupted maxillary first 
premolar on the right side. The routine treatment of rotated 
teeth is to use fixed orthodontic and modified Nance 
appliances; however, this case report aimed to manage the 
complete bilateral rotation of maxillary canines with couple 
force using a Nance appliance modification.

CASE

A 17-year-old man came to the Dental and Oral Hospital/
Rumah Sakit Gigi dan Mulut Pendidikan (RSGM-P) at 

the Orthodontics Department, Faculty of Dental Medicine, 
Universitas Airlangga, wanting to straighten his teeth 
because his canines were not in a normal position. 
The patient said that the posterior upper left tooth was 
never replaced after the primary tooth was extracted.                               
The general condition of the patient was good and he had 
never had orthodontic treatment before. Moreover, the 
patient wanted to be treated to improve the appearance 
of his smile, particularly with regard to the aesthetic of 
his teeth. 

An extraoral examination showed that he had a straight 
face profile, a medium face type, a mesocephalic head shape, 
competent lips, normal speech function and no bad habits 
(Figure 1). Meanwhile, an intraoral examination revealed 
normal oral mucosa, tongue and palate, with a mild caries 
frequency and good oral hygiene. The maxillary arch was 
a normal shape, but the mandibular arch was not typically 
formed. There was a protrusion in the anterior upper and 
lower teeth, crowding among the lower anterior teeth, an 
ectopically erupted #14, a large space between #24 and #26, 
bilateral rotations in #13 and #23 and a midline deviation 
of one mm to the right in the upper and one mm to the left 
in the lower. Sagittally, the relation of the right canine was 
mesioclusional, the left canine was neutroclusional and the 
right and left molar were also neutroclusional. The overbite 
and overjet were found to measure one mm. At the same 
time, dental cast analysis indicated a discrepancy in the 
upper and lower arch of -8mm and the curve of Spee was 
one mm (Figure 2). 

 

 

 

 

 

 

 

 
  Figure 1. Patient’s pre-treatment extraoral photographs.

 

 

 

 

 

 

 

 

 

 

   Figure 2.  Patient’s pre-treatment intraoral photographs.

Dental Journal (Majalah Kedokteran Gigi) p-ISSN: 1978-3728; e-ISSN: 2442-9740. Accredited No. 32a/E/KPT/2017.
Open access under CC-BY-SA license. Available at https://e-journal.unair.ac.id/MKG/index
DOI: 10.20473/j.djmkg.v54.i4.p174–180

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176 Sitasari et al./Dent. J. (Majalah Kedokteran Gigi) 2021 December; 54(4): 174–180

No pathological conditions were detected on the 
panoramic radiograph, yet there were several impacted teeth 
at #18, #25, #28, #38 and #48 (Figure 3). Cephalometric 
analysis indicated the patient had a straight profile with                                                       
∠ N a s i o n - P o i n t  A - P o g o n i o n  ( N A - A P o g )  3 º  a n d                                                                                                  
∠ Frankfort Horizontal-Nasion-Pogonion (FH-NPog) 
85º. The maxilla and mandible relation to the cranium 
base highlighted a skeletal class I relationship with                                             
∠ Sella-Nasion-Point A (SNA) 84º, ∠ Sella-Nasion-Point 
B (SNB) 81º and ∠ Point A-Nasion-Point B (ANB) 3º; also, 
there was a Wits appraisal of two mm (Figure 4). The dental 
inclinations of the maxillary and mandibular incisors were 
protrusive, having the respective values of ∠ Upper incisor-
Nasion-Point A (I-NA) 27º, ∠ Lower incisor-Nasion-Point 
B (I-NB) 32º, ∠ Inter Incisal 125º, ∠ Incisor Mandibular 
Plane Angle (IMPA) 98º and ∠ Frankfort Mandibular 
Incisive Angle (FMIA) 57º. Meanwhile, use of Rickett’s 
and Steiner’s soft tissue and lip analyses showed that the 
lower lips were in front of the e-line and the s-line, which 
meant the patient had protrusive lower lips (Table 1).

CASE MANAGEMENT

The treatment objectives were to correct the maxillary 
bilateral rotation of the canines, deal with mandibular 
crowding, reduce upper and lower incisor protrusion and 
lower lip protrusion, correct midline deviation and maintain 
a class I relationship with regard to the canines and molars 
with an ideal arch form and attain a normal overjet and 
overbite. From the results of clinical examinations and 
diagnostic records, including a dental and orthodontic 
history, dental cast, intraoral and extraoral photographs 
and radiograph photos, the clinician planned to use fixed 
orthodontic appliances, which would be accompanied by 
the extraction of #14, #35 and #45 and an odontectomy on 
#25. There would also be a retention phase using removable 
retainers.

The first step of the treatment was the utilisation of 
bonding brackets using 0.022 slots of MBT, a pre-adjusted 
edgewise appliance, after the extraction of #14, #35 and #45, 
and an odontectomy was completed on #25. The molar bands 

 

 

 

 

 

 

 

 
  Figure 3. Patient’s pre-treatment panoramic and occlusal radiography.

 

 

 

 

 

 

 

 

 

 

 

 

 

 

  

Figure 4. Patient’s pre-treatment cephalogram.

Table 1. Pre and post-treatment cephalogram measurements

Measurement
Surabaya 

Mean
Subject

Pre Post
∠ NA-Apog 84.5 º 85º 85º
∠ FH-Npog 6.1 º 3º 2º
∠ SNA 84.3º 84º 83º
∠ SNB 81.4º 81º 82º
∠ ANB 3º 3º 2º
∠ OP - SN 15–32º 18º 17º
∠ MP - SN 20–40º 32º 32º
∠ I-NA 26º 27º 20º
I-NA (mm) 6.3mm 10mm 5mm

∠ I-NB 29º 32º 25º
I-NB (mm) 7.9mm 8mm 5mm
Nasolabial angle 110–120º 92º 100º
Upper lips: e line -2–3mm +1mm -1mm
Lower lips: e line -1–2mm +2 mm 0mm
Upper lips: s line 0mm +2mm +1mm
Lower lips: s line 0mm +3mm 0mm

Dental Journal (Majalah Kedokteran Gigi) p-ISSN: 1978-3728; e-ISSN: 2442-9740. Accredited No. 32a/E/KPT/2017.
Open access under CC-BY-SA license. Available at https://e-journal.unair.ac.id/MKG/index
DOI: 10.20473/j.djmkg.v54.i4.p174–180

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177Sitasari et al./Dent. J. (Majalah Kedokteran Gigi) 2021 December; 54(4): 174–180

were cemented to the upper and lower first molar; those in 
the upper jaw have a slot for inserting the Nance appliance. 
Levelling and aligning begins with 0.012 nickel-titanium 
(NiTi), followed by 0.014, 0.016, 0.016 x 0.016 and 0.016 
x 0.022 NiTi for the upper and lower arches. Retraction of 
#24, #34 and #44 was also undertaken using a 0.016 x 0.022 
stainless steel (SS) wire with an omega stopper in the mesial 
of #26, #36 and #46 along with an elastomeric chain. 

The next step was the derotation of #13 and #23. Apart 
from being a conventional anchorage system, the Nance 
appliance has been modified by adding a hook for the 
derotation of the canines. The hooks were soldered on the 
Nance appliance around the palatal area of the canines 
(Figure 5), and derotation took place using elastomeric 
chains with couple force as well as the joining together 
of the premolar and both molars using a ligature wire to 
reinforce the posterior anchorage. These anchor units would 
be used to hold the posterior teeth during derotation to 
prevent loss of anchorage. The derotation of t he canine was 
done via the employment of elastic chains from the palatal 
surface, which were then attached to the hook on the molar 
band and from the buccal surface to the hook of the Nance 

appliance (using lingual buttons). The derotation had to be 
achieved on both the left and right sides (Figure 6).

The retraction of the anterior segment began with 
canine retraction, which first used 0.016 x 0.022 SS wire 
with an omega stopper in the mesial of #16, #26, #36 and 
#46; subsequently, a power chain was utilised. After the 
canine retraction was done, the upper and lower anterior 
retraction was started using a t-loop in 0.017 x 0.025 SS. 
Then, the mesialization of #16, #26, #36 and #46 took place 
using a power chain. After the overbite and overjet were 
corrected, a class I canine and molar relationship had been 
attained. Almost two years and two months later, all the 
fixed appliances were removed, and a wraparound retainer 
was chosen for both arches.

DISCUSSION

During the diagnosis of malocclusion, dental anomalies 
comprise 10% to 20% of cases in orthodontic patients and 
usually involve complicated decisions having to be made in 
terms of the orthodontic treatment of permanent dentition.1 

The orthodontist is perhaps the first individual who will 
detect dental anomalies and diagnose malocclusion in the 
patient. Furthermore, they will carry out an examination 
to detect any additional defects in these patients to provide 
the best treatment.2

Dental anomalies can relate to shape, number, structure 
and position.3 Irregularities in dental position occur when 
the tooth moves from its development area lead-up to the 
functional position,5 and such issues in relation to tooth 
position could be down to tooth rotation, impaction and 
ectopic eruption. In their study, Gupta et al.3 concluded that 
anomalies in the dental position were the most common 
occurrence among this group. Nevertheless, the aetiology 
of rotation in permanent dentition is multifactorial and can 
be caused by pre-eruptive and post-eruptive disruptions. 
In addition, several elements can cause further changes 

 

 Figure 5. Nance appliance modification with hook around the 
palatal area of the canine. 

 

 

 

 

 

 

 

 

 

 

 

 

   Figure 6.  Patient’s cast during treatment.

Dental Journal (Majalah Kedokteran Gigi) p-ISSN: 1978-3728; e-ISSN: 2442-9740. Accredited No. 32a/E/KPT/2017.
Open access under CC-BY-SA license. Available at https://e-journal.unair.ac.id/MKG/index
DOI: 10.20473/j.djmkg.v54.i4.p174–180

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178 Sitasari et al./Dent. J. (Majalah Kedokteran Gigi) 2021 December; 54(4): 174–180 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

  
Figure 7. Patient’s extraoral and intraoral photographs post treatment.

 

 

 

 

 

 

 

 

 
 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

Figure 8. Patient’s post-treatment panoramic cephalogram, which was superimposed pre and post-treatment.

Dental Journal (Majalah Kedokteran Gigi) p-ISSN: 1978-3728; e-ISSN: 2442-9740. Accredited No. 32a/E/KPT/2017.
Open access under CC-BY-SA license. Available at https://e-journal.unair.ac.id/MKG/index
DOI: 10.20473/j.djmkg.v54.i4.p174–180

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179Sitasari et al./Dent. J. (Majalah Kedokteran Gigi) 2021 December; 54(4): 174–180

in post-eruptive tooth angulation, such as trauma, 
extraction, hypodontia, ectopic eruption and periodontitis 
in neighbouring teeth. The prevalence of tooth rotation 
is quite high in the population, and orthodontists should 
be aware of indications of dental anomalies, so they can 
determine the appropriate treatment.6 

Tooth rotation is an intra-alveolar displacement in a 
mesiolingual or distobuccal direction of the tooth around 
a longitudinal axis.4 Gupta et al.3 categorised the rotation 
into three groups: <45°, 45° to 90° and >90°. In this case, 
a patient with complete (180°) rotations of the bilateral 
maxillary canines was treated with a modified Nance 
appliance. The modification involved adding a hook around 
the palatal area of the canine, which served the purpose of 
simultaneously controlling the posterior anchorage and 
derotation of the severely rotated teeth. Since the derotation 
that needed to be achieved was bilateral, the hook was 
soldered on both the right and left side. In relation to this, the 
preferred method when derotating teeth is generally to use 
couple force on the adjacent teeth. Iatrogenic effects may 
occur if there was poor control of the adjacent teeth; thus, 
they may delay further treatment. Consequently, in some 
cases where proper anchoring was required, controlling the 
anchorage can help to avoid unwanted tooth movement.7 In 
this case, in addition to using a molar band that is connected 
to the Nance appliance, a clinician joined the premolar and 
both molars using a ligature wire to strengthen the posterior 
anchorage.

A couple is a form of moment that is created by two forces 
in oppositional directions, which moves on an axis with 
equal magnitudes. This force system has the net potential to 
translate the teeth on which the action is nil, meaning only 
pure rotation occurs; this is due to the forces having the 
same magnitude but oppositional directions. The sum of the 
moments created by the two forces is called a moment couple, 
and the magnitude of the force and the distance between the 
two forces can affect its magnitude. The moment created was 
additive if there were two forces acting on the couple system 
in oppositional directions from a centre of resistance (CRes), 
whereas the moment created was subtractive if two forces 
were on the same side as the CRes.8

In different types of malocclusions, extraction of certain 
teeth may be required. Oral hygiene, a high caries rate, tooth 
quality, attitude to treatment and the general health of the 
patient will influence the decision to have a tooth extracted. 
There are several conditions that cause teeth to be extracted 
during orthodontic treatment, such as crowding (increased 
tooth size associated with the arch size), hypodontia (need 
for extraction if set to close the space), supernumeraries, 
malformed teeth, caries teeth, open bite cases, increased 
overjet, tooth impaction, correction of the buccal segment, 
camouflage orthodontic treatment, periodontal disease 
involving the teeth, cleft lip and palate and orthognathic 
surgery.9 One of the main reasons for choosing extraction 
or non-extraction is an arch discrepancy.10 In this case, 
the patient had a significant discrepancy of eight mm 
in relation to the upper and lower arch. Meanwhile, in 

instances of crowding teeth with a discrepancy of five to 
nine mm, arch expansion can be performed after carrying 
out a comprehensive diagnosis and treatment planning takes 
place. Permanent tooth extraction is frequently performed 
in most of these cases to maintain facial aesthetics and the 
integrity of the soft tissue profile.11 Since this patient had 
several problems, extracting the four premolars was chosen 
as the most suitable treatment.

If there is moderate to severe crowding in the anterior 
segment, it is usually necessary to extract all of the first 
premolars to create space. However, in this case, a clinician 
decided to extract the upper first premolar on the right side 
and perform an odontectomy on the second premolar on the 
left side. The extraction and odontectomy were undertaken 
because of the poor prognosis of the premolar on each side, 
which would have prolonged the treatment period if the 
teeth were retained. The mandibular second premolars on 
the right and left side were the teeth selected for extraction, 
because their removal adjusted the upper jaw and would 
help correct the relation to a class I standard. There are two 
main retraction techniques to close extraction spaces: en 
masse retraction (ER) and two-step retraction (TSR). With 
regard to the former, the incisors and canines are retracted 
together in just one step; meanwhile, during the latter, the 
first step is to retract the canines until they are in contact 
with the premolar. The canines will then be joined to the 
premolar and first and second molars as posterior anchorage 
units. In the second step, these units are used to hold the 
posterior region while retracting the incisors.12 In this case, 
we used the Nance appliance and two-step retraction to 
lower the risk of anchorage loss.

After the aforementioned orthodontic treatment, class I 
canine and molar relationships had been achieved in both 
sides (Figure 7). The inter-incisal angles were normalised 
after the midline deviation and inclination of the upper 
and lower anterior teeth were corrected; the soft tissue 
profile has also been corrected in the patient. The severe 
rotations of the canines and crowding were corrected; thus, 
one of the treatment goals was satisfied (Figure 8). In this 
instance, the clinician had suggested an odontectomy for 
the third molars, but the patient refused to go through this 
again because they had previously had an extraction and an 
odontectomy. The total amount of time taken to complete 
this orthodontic treatment was 26 months.

From this case, we can conclude that successful 
orthodontic treatment can be influenced by specific dental 
and medical histories, extraoral and intraoral examinations, 
diagnoses and treatment planning, which are followed by 
a systematic approach to being treated. The selection of an 
appropriate appliance and an assessment are needed for each 
case; for example, a bracket prescription and the type of 
wire as well as techniques for levelling-aligning, derotation, 
space closure and anchorage all need to be chosen, and they 
must be prepared to obtain optimal orthodontic treatment 
results. Here, the Nance appliance modification helped to 
reduce the total treatment time by achieving controlled 
anchorage and derotation of the canines. 

Dental Journal (Majalah Kedokteran Gigi) p-ISSN: 1978-3728; e-ISSN: 2442-9740. Accredited No. 32a/E/KPT/2017.
Open access under CC-BY-SA license. Available at https://e-journal.unair.ac.id/MKG/index
DOI: 10.20473/j.djmkg.v54.i4.p174–180

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180 Sitasari et al./Dent. J. (Majalah Kedokteran Gigi) 2021 December; 54(4): 174–180

ACKNOWLEDGEMENTS

Our gratitude goes primarily to the patient and to RSGM-P, 
Faculty of Dental Medicine, Universitas Airlangga for 
their willingness to present us with photos of the patient 
and their treatment.

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Dental Journal (Majalah Kedokteran Gigi) p-ISSN: 1978-3728; e-ISSN: 2442-9740. Accredited No. 32a/E/KPT/2017.
Open access under CC-BY-SA license. Available at https://e-journal.unair.ac.id/MKG/index
DOI: 10.20473/j.djmkg.v54.i4.p174–180

https://e-journal.unair.ac.id/MKG/index
http://dx.doi.org/10.20473/j.djmkg.v54.i4.p174-180