Microsoft Word - 36-Sau_42232-report


1796 
Case Report 

Biosci. J., Uberlândia, v. 34, n. 6, p. 1796-1804, Nov./Dec. 2018 

IMPLANT-RETAINED OVERDENTURE AND O-RING ATTACHMENTS – 

CASE REPORT 

 

 

OVERDENTURE RETIDA POR IMPLANTES E ENCAIXES DO TIPO O’RING: A 

CASE REPORT 

 

Andressa BULEGON
1
; Isadora RINALDI

2
; Daniela Cristina MIYAGAKI

3
;  

Maria Salete Sandini LINDEN
4
; João Paulo de CARLI

5 

1. Undergraduate student at the School of Dentistry of the University of Passo Fundo, RS, Brazil; 2. Postgraduate student at the School 
of Dentistry of the University of Passo Fundo, RS, Brazil; 3. Professor at the School of Dentistry of the University of Passo Fundo, RS, 

Brazil. PhD in Endodontics by the Campinas State University, Piracicaba, SP, Brazil; 4. Professor at the School of Dentistry of the 
University of Passo Fundo, RS, Brazil. PhD in Implantology by Center for Dental Studies São Leopoldo Mandic, Campinas, SP, Brazil. 

5. Professor at the School of Dentistry of the University of Passo Fundo, RS, Brazil. PhD in Stomatology by the Pontifical Catholic 
University, Curitiba, PR, Brazil. joaodecarli@upf.br. 

 

ABSTRACT: The increase in life expectancy occurred along an increase in the demand of edentulous patients 
for a type of rehabilitation that provides higher masticatory efficiency. Thus, implant overdentures using the ball/o-ring 
and bar-clip attachment systems represent a muco-supported and implant-retained prosthetic type that allows greater 
security, stability, and aesthetics, besides presenting a lower cost and easier hygiene. The present study aims to report a 
clinical case of overdenture with the o-ring retention system. In this case, the patient complained of difficulties during 
mastication due to instability of the mandibular complete denture, sensitivity from the superficialization of the mental 
foramina, dissatisfaction with aesthetics, and successive dislocations of the mandibular condyle. After clinical and 
radiographic evaluation, the treatment proposed was the installation of two osseointegrated implants between the mental 
foramina and the o-ring attachment overdenture. This prosthetic rehabilitation presents a successful clinical follow-up of 
24 months, confirming the effectiveness of the treatment applied. The patient was satisfied because the implant-retained 
prosthesis provided benefits related to aesthetics, comfort, phonation, and mastication. It is noted that the rehabilitation 
performed has solved the patient's initial complaints. After the clinical case and literature review, it is concluded that 
overdentures using the o-ring retention system are viable alternatives and provide adequate function and aesthetics, 
presenting integration with the stomatognathic system. 
 

KEYWORDS: Dental prosthesis. Complete denture. Dental implants. Condylar dislocation. Superficialisation 
of the mental foramen. 
 
INTRODUCTION 
 

Over the last decades, implant-supported 
prostheses have improved the quality of life of 
completely edentulous patients (CHUN et al., 2005), 
due to the comfort provided, as well as better 
aesthetics and masticatory function (NOGUEIRA et 
al., 2018). 

Overdentures have become significantly 
popular as an alternative treatment to conventional 
complete dentures. An excellent method for 
increasing the retention and stability of such 
dentures is using the o-ring attachment system, 
which has several advantages, including ease of use, 
hygiene, and maintenance, and low cost. 
Disadvantages include attachment wear with 
gradual retention loss and the need for periodic 
replacement (MACHADO et al., 2011). 

Early reports and techniques tended to direct 
the prosthetic treatment to the availability of 
remaining teeth and root shapes that could support 

and retain a prosthesis. In the mandibular arch, 
canines and premolars were reported as the teeth 
most resistant and indicated to receive intraradicular 
o-rings (MORROW et al., 1969). 

The treatment of edentulous jaws with two-
implant-retained overdenture is well accepted, with 
successful long-term results for prostheses and 
implants (NAERT et al., 2004). The o-ring 
attachment system is considered rather resilient for 
overdentures (BARÃO et al., 2013). 

In the light of current knowledge, it is noted 
that besides replacing lost teeth in an edentulous 
dental arch and providing retention and stability to 
the prosthetic restoration, an implant-retained 
overdenture allows relieving the pressure on 
superficialized mental foramina (HYDE et al., 
2010), restoring a stable occlusal pattern, and 
returning the vertical dimension of occlusion, which 
prevents occasional dislocations of the mandibular 
condyle (LING et al., 2011). 

Received: 12/05/18 
Accepted: 15/10/18 



1797 
Implant-retained…  BULEGON, A. et al. 

Biosci. J., Uberlândia, v. 34, n. 6, p. 1796-1804, Nov./Dec. 2018 

For the scientific community, cases of 
implant-retained overdenture highlight the 
importance of both restorative and surgical 
considerations when planning the rehabilitation of 
the mandible with dental implants. For Patel and 
Walmsley (2014), restoring the edentulous mandible 
with a removable prosthesis can be a challenging 
prospect for dentists and patients during and after 
treatment. Poor retention and support are the major 
problems reported with a mandibular complete 
denture and they may be improved significantly 
with the use of implants and retentive attachments. 
Using implants requires careful planning from both 
surgical and restorative aspects to ensure that the 
intended treatment objective and outcome are 
achieved. 

This study aimed to report a clinical case of 
lower prosthetic rehabilitation with overdenture 
retained by an o-ring system in an edentulous 
patient with bilateral superficialization of the mental 
nerve, reporting exacerbated sensitivity and 
discomfort in using the conventional complete 
denture, as well as consecutive dislocations of the 
mandibular condyle. 
 

Case Report  

 
A 60-year-old female patient wearing 

complete upper and lower conventional prosthesis 
sought the School of Dentistry of the University of 
Passo Fundo (UPF) – RS, Brazil, for oral 
rehabilitation through the installation of 
osseointegrated implants. She complained of 
difficulties during mastication, due to the instability 
of the mandibular complete denture, and pain "in 
shock" in the region of lower premolars when using 
the old prosthesis. In addition, the patient reported 
multiple episodes of "displacement of the mandible 
in the left side" when speaking or yawning, which 
was understood as the occurrence of dislocations of 
the mandibular condyle. 

Panoramic X-ray (Figure 1) and intraoral 
physical examinations revealed a rather reabsorbed 
lower alveolar ridge, which may be the reason for 
the lack of stability of the prosthesis. The panoramic 
radiograph also showed an evident superficialization 
of the mental foramen, bilaterally. In view of the 
above, the treatment proposed was the installation of 
two osseointegrated implants in the interforaminal 
region and overdenture with o-ring attachments. 

 

 
Figure 1. Initial panoramic radiograph 

 
A surgical guide was produced with 

colorless self-curing acrylic resin from the 
duplication of the mandibular complete denture that 
the patient already used. In this guide, holes were 
made in the canine region to conduct the desired 
position for the implants during surgery (Figure 2). 
The implants installed have dimensions of 3.75 x 10 
mm in the region of element 43 and 3.75 x 11.5 mm 
in the region of element 33 (Master Double™, 
Connecting Systems of Prosthesis, Arujá, São 
Paulo, Brazil). After implant installation, the old 
prosthesis used by the patient was repacked with 

soft resin (Dentusoft™, Industria Argentina, Buenos 
Aires, Argentina) and changed periodically during 
osseointegration. 

Four months after the installation of 
implants, a new panoramic radiograph was 
performed (Figure 3), in which a uniform 
radiopacity was observed around the two implants 
installed, indicating satisfactory osseointegration. 
Then, the second surgical time was performed, with 
implants being accessed again for removing the 
cover screw and installing the healing agents. 

 



1798 
Implant-retained…  BULEGON, A. et al. 

Biosci. J., Uberlândia, v. 34, n. 6, p. 1796-1804, Nov./Dec. 2018 

 
Figure 2. Surgical guide placed in the mouth (A) and position indicators of the implants showing the 

parallelism of bone perforations (B) 
 

 
Figure 3. Panoramic radiograph obtained four months after implant installation 
 

The study model of the lower arch was 
produced with condensation silicone (Zetaplus™, 
Labordental Ltda, São Paulo, São Paulo, Brazil), in 
which retentions and corrective casting were 
performed with irreversible hydrocolloid (Jeltrate™, 
Dentsply Indústria e Comércio Ltda., Petrópolis, 
Rio de Janeiro, Brazil) in perforated stock trays. The 
superior prosthesis was duplicated to obtain the 
antagonist model, considering the patient would use 
it. After producing the plaster casts, a smaller 

individual tray was made in a colorless self-curing 
acrylic resin (Clássico™, Artigos Odontológicos 
Clássico Ltda., Campo Limpo Paulista, São Paulo, 
Brazil) for later peripheral sealing using Godiva in 
stick form (Exata™, DFL Indústria e Comércio S. 
A., Rio de Janeiro, Rio de Janeiro, Brasil), and 
functional casting using Polyether (Impregum™, 
3M Dental Products, Sumaré, São Paulo, Brazil) 
(Figure 4). 

 

 
Figure 4. Model obtained from functional casting with polyether 



1799 
Implant-retained…  BULEGON, A. et al. 

Biosci. J., Uberlândia, v. 34, n. 6, p. 1796-1804, Nov./Dec. 2018 

The gypsum model was produced and a 
lower test base was made with wax and acrylic resin 
surfaces, and it was later adjusted in the patient to 
provide an adequate maxillomandibular relationship 
(Figure 5). Therefore, the Willis metric method 
(Figure 6) was used to obtain the vertical dimension, 
perform the midline marking, and for the assembly 
in the semi-adjustable articulator. Then, the work 
was sent to a dental prosthesis laboratory, where 
artificial teeth (Trilux™, VIPI Industria, Comércio, 
Export e Importação de Produtos Odontológicos 

Ltda., Pirassununga, São Paulo, Brazil) of shade 4A 
were assembled. Next, an aesthetic and functional 
test of the prosthesis was performed and after 
polymerization, the o-ring abutments were installed 
on the implants (32N of torque) and the capsules 
were captured at the base of the complete denture 
(Figure 7). This prosthetic rehabilitation presents a 
successful clinical follow-up of 24 months, 
confirming the efficacy of the treatment applied 
(Figures 8 and 9). 

 

 
Figure 5. Establishment of the maxillomandibular relationship with a lower test base  
 

 
Figure 6. Determination of the vertical dimension of occlusion by the metric method (A and B) 
 

 
Figure 7. Capsules positioned on the ball abutments (A) and abutments after capsule capture (B) 

 



1800 
Implant-retained…  BULEGON, A. et al. 

Biosci. J., Uberlândia, v. 34, n. 6, p. 1796-1804, Nov./Dec. 2018 

 
Figure 8. Internal part of the prosthesis with the capsules captured (A) and  contact points obtained during the 

final occlusal adjustment of the prosthesis (B) 
 

 
Figure 9. Final aesthetic result of the overdenture 
 
DISCUSSION 
 

The mandibular overdenture system 
supported by two implants consists of the 
installation of two implants in the region between 
the mental foramina with a complete denture 
supported on them. This system has become widely 
used for the rehabilitation of edentulous patients and 
it is recommended as a good treatment choice 
because of its clinical efficacy in improving 
masticatory performance and patient satisfaction 
(THOMASON et al., 2012). 

Tokuhisa et al. (2003) state that the criteria 
used to select an optimum retention system for the 
denture should promote good retentivity, providing 
stability to the prosthesis so there is no major loss of 
retention capacity over time. This system should 
also be easy to maintain and inexpensive, as well as 
present low height so that it may be used in reduced 
intermaxillary spaces, thus favoring aesthetics. It 
should also have biomechanical capacity for the 
distribution of functional loads. 

The prognosis of an overdenture depends on 
two important factors: retention and stress 
distribution. The success of implanted overdentures 
depends primarily on the prosthetic retention 

capacity to maintain long-term functionality 
(RUTKUNAS et al., 2011). The choice of the 
prosthetic component depends on the retention 
required, morphology, anatomy, mucosa, oral 
function, and patient acceptance (EVTIMOVSKA et 
al., 2009). In the case hereby reported, considering 
that a satisfactory parallelism and positioning of 
implants was obtained in the arch and that the 
patient was already used to the mandibular complete 
denture, the ball o-ring system was chosen for 
retaining the future overdenture. 

The ball system is composed of male/female 
fittings, with the male component normally attached 
to the abutment and in the form of a narrower neck 
projection to which the rubber ring (o'ring) of the 
female component fits. The female component 
usually has a rubber ring surrounded by a metal 
capsule, which may have different dimensions and 
shapes (MERICKE-STERN, 1997). The ball system 
transfers less stress to the implant and produces less 
force-momentum than the bar/clip system, 
suggesting that its use may benefit implant-retained 
overdentures, despite requiring more frequent 
maintenance. This system aims to reduce the 
transmission of stress to the peri-implant bone tissue 



1801 
Implant-retained…  BULEGON, A. et al. 

Biosci. J., Uberlândia, v. 34, n. 6, p. 1796-1804, Nov./Dec. 2018 

and to minimize prosthesis movement (TOKUHISA 
et al., 2003; FAJARDO et al., 2014). 

The dimensions, the number of implants 
used, and especially their disposition in the alveolar 
ridge of the patient should be considered when 
selecting the type of overdenture retention system. If 
the implants appear to be divergent, their splinting is 
recommended, as well as using the bar/clip system 
or associating the bar with another system, if the 
patient's intermaxillary space allows. For the ball 
retention system to be used in non-splinted implants, 
there must be parallelism with no divergence greater 
than 5o between implants (MANJU; SREELAL, 
2013). 

Ideally, the implants should be parallel to 
each other and to the insertion path of the prosthesis 
perpendicular to the occlusal plane, at a similar 
distance from the midline and at the same height. 
The absence of these conditions results in increased 
wear of the prosthetic component, with the friction 
between the base and the ball abutment resulting in 
decreased retention values (MACHADO et al., 
2011). In the case reported, two implants were 
placed between the foramina in an attempt to 
support the prosthesis and decrease the sensitivity 
the patient felt with the conventional prosthesis. 
Figure 2 shows the parallelism of the implants 
installed in the present case, providing a more 
favorable prognosis. 

The height and shape of the ridge should 
also be observed for the correct selection of the 
overdenture retention system. In a mandibular 
overdenture, a more resilient retention system is 
desired to reduce the effect of the power arm formed 
by the distal extension of the prosthesis, due to the 
placement of implants in the anterior mandibular 
region. A thin triangular arch does not allow the use 
of a bar with adequate extension, so that it is well 
positioned over the ridge to allow the clip having 
sufficient retentivity (BARÃO et al., 2013; 
NOGUEIRA et al., 2018). In the case of the present 
study, although the arch was not triangular, the use 
of the o'ring system was chosen, as the cost of 
rehabilitation was also considered 

Patient age and motor coordination are 
related to the hygiene of the prosthetic device. It 
should be considered that older patients present a 
physiological loss of motor coordination, which 
suggests the use of isolated implants so that cleaning 
may be performed more easily by the patient 
(WATSON et al., 2001; NOGUEIRA et al., 2018). 

Moreover, considering the advantages of 
retention of o-ring components, especially hygiene, 
cost-effectiveness, and ease of use, the selection of 
this system in geriatric patients is justified 

(WICHMANN & KUNTZE, 1999). This 
information supports the clinical decision made in 
the planning of the present study, whereas the 
patient of the case was 60 years old at the time of 
prosthesis production. 

When planning this clinical case, attention 
was given to the superficialization of the mental 
foramen, which caused considerable discomfort to 
the patient (HYDE et al., 2010). The effectiveness 
of the treatment applied in reducing such discomfort 
was confirmed by the patient with the report of 
painful symptomatology resolution from prosthesis 
installation. 

It should also be mentioned that after the 
installation of the overdenture, the patient reported 
that the episodes of dislocation of the left 
mandibular condyle had ceased, considering such 
episodes would constantly upset her and directly 
affect her quality of life. This finding is in line with 
an earlier study that reports a direct relationship 
between adequate oral rehabilitation and condylar 
dislocations in completely edentulous individuals 
(LING et al., 2011). 

Usually, the combination of prosthetic 
component materials in overdentures includes 
metal-metal or metal-plastic/nylon/rubber 
juxtaposition. The contact between these 
components may show differences in surface wear 
and, therefore, resistance to repetitive removal and 
insertion (SHASTRY et al., 2016). In addition, a 
change in the retention capacity of fixation systems 
is expected when the overdenture is subjected to a 
period of use in the oral cavity under the influence 
of inherently present fluids, foods and liquids 
ingested during mastication, and insertion and 
removal of the prosthesis. Micro and macro 
movements between the retention surface and the 
prosthetic components will lead to wear and 
reduction of retention forces over time 
(SADOWSKY, 2001). 

In the present case, there was a metal-rubber 
juxtaposition, which is typical of the o-ring system, 
favoring the absorption of masticatory loads and 
avoiding an early wear of the prosthetic structures, 
considering the rubber rings are replaceable. 
Additionally, the case had 24 months of clinical 
follow-up and it was found that changing the rubber 
rings every semester was sufficient for the patient. 

Considering that implant failure may result 
from overloading, the practical goal for the clinician 
is to avoid excessive stress by properly planning the 
prosthesis. It is suggested that the o-ring 
components may provide an adequate system for 
reducing implant stress and promoting prosthesis 
stability (MANJU; SREELAL, 2013). It may be 



1802 
Implant-retained…  BULEGON, A. et al. 

Biosci. J., Uberlândia, v. 34, n. 6, p. 1796-1804, Nov./Dec. 2018 

noted in this study that the prosthesis was planned 
correctly, as the patient had no complains of 
sensitivity, showing adequate retention and stability 
of the prosthesis in the immediate and mediate 
postoperative periods. 

In addition to the need for periodic 
maintenance of overdentures (exchange of retention 
elements, implant control radiographs, and 
professional hygiene), the patient should also be 
advised on the correct daily hygiene of the 
prosthesis and oral cavity, as well as on the 
importance of such hygiene to prevent potential 
failures associated with peri-implant problems. In 
this sense, Manju and Sreelal (2013) affirm that the 
daily maintenance of overdentures retained by the 
o'ring system is easier than that of overdentures 
retained by the bar-clip system. 

CONCLUSION 

 
It was observed that the rehabilitation 

performed responded to the patient's initial 
complaints, mainly regarding instability of the 
complete lower conventional prosthesis, 
symptomatology from the superficialization of the 
mental foramen, and episodes of dislocation of the 
mandibular condyle. After the clinical case and 
literature review, it is concluded that overdentures 
using the o-ring retention system are viable 
alternatives and provide adequate function and 
aesthetics, presenting integration with the 
stomatognathic system. 
 
 

 
 

RESUMO: Com o aumento da expectativa de vida, houve também o aumento da procura dos pacientes 
edêntulos por uma forma reabilitadora que lhes proporcione maior eficiência mastigatória. Sendo assim, as 
sobredentaduras sobre implantes utilizando sistemas de encaixe bola/o’ring e barra-clip representam modalidade protética 
mucossuportada e implantorretida que possibilita maior segurança, estabilidade e estética, além de apresentarem menor 
custo e facilidade para higienização. O presente trabalho tem por objetivo relatar um caso clínico de overdenture que 
utiliza o sistema de retenção o’ring. Neste caso, a paciente queixava-se de dificuldades durante a mastigação devido à 
instabilidade da prótese total inferior, sensibilidade pela superficialização dos forames mentuais, insatisfação com a 
estética, além de sucessivas luxações do côndilo mandibular. Após avaliação clínica e radiográfica, o tratamento proposto 
foi a instalação de dois implantes osseointegráveis entre os forames mentuais e overdenture com encaixes do tipo o’ring. A 
reabilitação protética em questão apresenta um acompanhamento clínico bem sucedido de 24 meses, comprovando a 
eficácia do tratamento instituído. A paciente demonstrou estar satisfeita, pois a prótese implanto-retida possibilitou 
benefícios relacionados à estética, conforto, fonação e mastigação. Nota-se que a reabilitação realizada atendeu às queixas 
iniciais da paciente. Após a realização do caso clínico e revisão de literatura, conclui-se que overdentures que utilizam o 
sistema de retenção o’ring são alternativas viáveis e que promovem função e estética adequadas, integrando-se ao sistema 
estomatognático.   
 

PALAVRAS-CHAVE: Prótese dentária. Prótese total. Implantes dentários. Luxação condilar. 
Superficialização do forame mentual.  
 
 
REFERENCES 
 
BARÃO, V. A.; DELBEN, J. A.; LIMA, J.; CABRAL, T.; ASSUNÇÃO, W. G. Comparison of different 
designs of implant-retained overdentures and fixed full-arch implant-supported prosthesis on stress distribution 
in edentulous mandible--a computed tomography-based three-dimensional finite element analysis. J. Biomech., 
v. 46, n. 7, p. 1312-1320, 2013. https://doi.org/10.1016/j.jbiomech.2013.02.008 
 
CHUN, H. J.; PARK, D. N.; HAN, C. H.; HEO, S. J.; HEO, M. S.; KOAK, J. Y. Stress distributions in 
maxillary bone surrounding overdenture implants with different overdenture attachments. J. Oral Rehabil., v. 
32, n. 3, p. 193-205, 2005. https://doi.org/10.1111/j.1365-2842.2004.01407.x 
 
EVTIMOVSKA, E.; MASRI, R.; DRISCOLL, C. F.; ROMBERG, E. The change in retentive values of locator 
attachments and hader clips over time. J. Prosthodont., v. 18, n. 6, p. 479-483, 2009. 
https://doi.org/10.1111/j.1532-849X.2009.00474.x 
 



1803 
Implant-retained…  BULEGON, A. et al. 

Biosci. J., Uberlândia, v. 34, n. 6, p. 1796-1804, Nov./Dec. 2018 

FAJARDO, R. S.; ZINGARO, R. L.; MONTI, L. M. System-retained O’ring and bar-clip overdenture designs. 
Arch. Health Invest., v. 3, n. 1, p. 77-86, 2014. 
http://www.archhealthinvestigation.com.br/ArcHI/article/viewFile/664/859 
 
HYDE, T. P.; CRADDOCK, H. L.; BLANCE, A.; BRUNTON, P. A. A cross-over Randomised Controlled 
Trial of selective pressure impressions for lower complete dentures. J. Dent., v. 38, n. 11, p. 853-8, 2010. 
https://doi.org/10.1016/j.jdent.2010.07.003 
 
LING, Y. H.; SHI, H. M.; ZHAO, J. Preliminary analysis of the bilateral disc-condyle relationship of TMJ 
before and after prosthetic rehabilitation in edentulous patients. Shanghai Kou Qiang Yi Xue, v. 20, n. 5, p. 
522-526, 2011. 
 
MACHADO, A. C.; CARDOSO, L.; BRANDT, W. C.; HENRIQUES, G. E.; DE ARRUDA NÓBILO, M. A. 
Photoelastic analysis of the distribution of stress in different systems of overdentures on osseous-integrated 
implants. J. Craniofac. Surg., v. 22, n. 6, p. 2332-2336, 2011. https://doi.org/10.1097/SCS.0b013e318232a791 
 
MANJU, V.; SREELAL, T. Mandibular implant-supported overdenture: an in vitro comparison of ball, bar, and 
magnetic attachments. J. Oral Implantology, v. 39, n. 3, p. 302-307, 2013. https://doi.org/10.1563/AAID-JOI-
D-11-00050 
 
MERICKE-STERN, R. Force distribution on implants supporting overdentures: the effect of distal bar 
extensions. A 3-D study. Clin. Oral Impl. Res., v. 8, n. 2, p. 142-151, 1997. https://doi.org/10.1034/j.1600-
0501.1997.080209.x 
 
MORROW, R. M.; FELDMANN, E. E.; RUDD, K. D.; TROVILLION, H. M. Tooth-supported complete 
dentures: an approach to preventive prosthodontics. J. Prosth. Dentistry, v. 21, n. 5, p. 513-522, 1969. 
https://doi.org/10.1016/0022-3913(69)90073-0 
 
NAERT, I.; ALSAADI, G.; QUIRYNEN, M. Prosthetic aspects and patient satisfaction with two-implant-
retained mandibular overdentures: a 10-year randomized clinical study. Int. J. Prosthodontics, v. 17, n. 4, p. 
401-410, 2004. https://doi.org/10.1016/j.prosdent.2004.09.021 
 
NOGUEIRA, T. E.; AGUIAR, F. M. O.; DE BARCELOS, B. A.; LELES, C. R. A 2-year prospective study of 
single-implant mandibular overdentures: Patient-reported outcomes and prosthodontic events. Clin. Oral 
Implants Res. 2018; Apr 16. https://doi.org/10.1111/clr.13151 
 
PATEL, U.; WALMSLEY, D. Implant-supported mandibular denture: planning to delivery-a case report. Dent 
Update, v. 41, n. 2, p. 137-140, 2014. https://doi.org/10.12968/denu.2014.41.2.137 
 
RUTKUNAS, V.; MIZUTANI, H.; TAKAHASHI, H.; IWASAKI, N. Wear simulation effects on overdenture 
study attachments. Dent. Mater. J., v. 30, n. 6, p. 845-853, 2011. https://doi.org/10.4012/dmj.2011-057 
 
SADOWSKY, S. J. Mandibular implant-retained overdentures: a literature review. J. Prosthet. Dent., v. 86, n. 
5, p. 468-473, 2001. https://doi.org/10.1067/mpr.2001.119921 
 
SHASTRY, T.; ANUPAMA, N. M.; SHETTY, S; NALINAKSHAMMA, M. An in vitro comparative study to 
evaluate the retention of different attachment systems used in implant-retained overdentures. J. Indian 
Prosthodont. Soc., v. 16, n. 2, p. 159–166, 2016. https://doi.org/10.4103/0972-4052.176520 
 
THOMASON, J. M.; KELLY, S. A.; BENDKOWSKI, A.; ELLIS, J. S. Two implant retained overdentures–A 
review of the literature supporting the McGill and York consensus statements. J. Dent., v. 40, n. 1, p. 22-34, 
2012. https://doi.org/10.1016/j.jdent.2011.08.017 
 



1804 
Implant-retained…  BULEGON, A. et al. 

Biosci. J., Uberlândia, v. 34, n. 6, p. 1796-1804, Nov./Dec. 2018 

TOKUHISA, M.; MATSUSHITA, Y.; KOYANO, K. In vitro study of a mandibular implant overdenture 
retained with ball, magnet, or bar attachments: Comparison of load transfer and denture stability. Int. J. 
Prosthodont., v. 16, n. 2, p. 128-134, 2003. https://doi.org/10.1016/S0022-3913(03)00339-1 
 
WATSON, C. J.; TINSLEY, D.; SHARMA, S. Implant complication and failures: the complete overdenture. 
Dent. Update, v. 28, p. 234-240, 2001. https://doi.org/10.12968/denu.2001.28.5.234 
 
 
WICHMANN, M. G.; KUNTZE, W. Wear behavior of precision attachments. Int. J. Prosthodont., v. 12, n. 5, 
p. 409-414, 1999.