Oral Sciences n3


190

Original Article Braz J Oral Sci.
January/March 2010 - Volume 9, Number 1

Selection of mandibular major connector based
on a conventional impression technique

Adriana da Fonte Porto Carreiro1, Arcelino Farias Neto2,
Brunna Moreira de Farias Pereira3, Luana Maria Martins de Aquino2

Correspondence to:
 Adriana da Fonte Porto Carreiro

Av. Alexandrino de Alencar, 1384/14 Tirol.
CEP 52015-350 - Natal-RN, Brazil

E-mail: adrianadafonte@hotmail.com

Received for publication: October 22, 2009
Accepted: March 29, 2010

Abstract
The selection of the mandibular major connector of a removable partial prosthesis depends on the
distance between the floor of the mouth and free gingival margin, height of the lingual frenum,
presence of mandibular tuberosity, mobility of anterior teeth, major connector used in a previous
denture and patient’s opinion, slope and retentivity of alveolar bone. However, the dental technician
rather than the dentist often selects the major connector in the cast model. Aim: To determine
whether there is a difference between selecting the mandibular major connector clinically or in the
cast model as determined by a conventional impression technique using alginate and a universal
metallic tray. Methods: The sample was composed of 64 patients under treatment at the Department
of Dentistry of the Federal University of Rio Grande do Norte. The distance between the floor of
the mouth and the free gingival margin of the remaining elements was measured with a millimeter
periodontal probe in the oral cavity and in the cast models. Results: The mean clinical distance
between the free gingival margin and the floor of the mouth was 7.39 ± 2.13 mm, in contrast to the
mean distance found in the models (9.03 ± 1.36). The Mann-Whitney test showed a significant
difference (p < 0.001) between the two measures. Conclusions: For the adequate selection of
the mandibular major connector, the distance between the gingival margin and the floor of the
mouth must be measured clinically when using the conventional impression technique.

Keywords: removable partial prosthesis, mandible, planning.

Introduction
The fabrication of removable partial dentures (RPDs) is one of the most

affected areas of dentistry with the absence of sound scientific criteria, given that
innumerable framework designs can be correctly performed for a same case.
According to Owall et al.1, current planning principles are not based on clinical
studies and, consequently lack scientific evidence, although this does not mean
that they are incorrect.

One of the few components where there seems to be universal consensus in
terms of its selection is the major bar lingual connector, which should be used
whenever possible, owing to its advantages in hygiene and comfort2-5. It requires
a minimum space of 8 mm between the free gingival margin of the anterior teeth
and the mobile floor of the mouth (myohyoid and genioglossus muscles). Four
millimeters of this distance is needed for the occlusal-gingival diameter of the
bar, a space that ensures rigidity and avoids flexion and fibromucosa trauma. The
other 4 mm refer to the distance that the upper bar must remain from the gingival
margin5. However, some authors reported that this distance can be even shorter,
that is, only 3 mm2 or even 2 mm4,6 from the free gingival margin.

Braz J Oral Sci. 9(1):30-32

1DDS, MS, PhD, Professor, Department of Dentistry, Federal University of Rio Grande do Norte, Natal (RN), Brazil
2DDS, MS, Graduate student, Department of Dentistry, Federal University of Rio Grande do Norte, Natal (RN), Brazil

3DDS, Graduate student, Department of Dentistry, Federal University of Rio Grande do Norte, Natal (RN), Brazil



31

Measurement N
Clinical 64 7.39 2.13
Cast Model 64 9.03 1.36

Table 1 - Distance (mm) between the floor of the mouth
and the free gingival margin (Mean and Standard deviation).

The distance between the gingival margin and the floor
of the mouth can be measured clinically using a periodontal
probe and instructing the patients to raise and protrude their
tongue until the tip reaches the red part of the upper lip.
Thus, the floor of the mouth becomes active and raises the
tissues to the maximum height that they attain during
mastication. Once the measure is obtained, it is transferred
to the diagnostic cast model7.

When there is not enough space for the lingual bar,
because the mobile tissues of the floor of the mouth are very
high or the ridge height is reduced due to advanced
periodontal problems, the choice will be the lingual plate6.
The lingual plate allows a higher placement of the lower
border without compromising rigidity, in addition to not
damaging the gum, owing to the greater relief permitted.
However, its upper limit is established at the cingulum level
of the anterior teeth, covering the entire area corresponding
to the marginal gingival. Thus, it is believed that this
covering hinders the flow of saliva, oral self-cleaning and
the physiological stimulus of gingival tissues promoted by
the tongue in this area. Studies have shown that patients
with a lingual plate exhibited greater plaque accumulation
on the lingual surface of the anterior teeth than those with a
lingual bar, even with professional supervision8-9. Thus, when
the lingual plate is used, the patient no longer enjoys the
benefits of the lingual bar.

On the other hand, an improperly chosen lingual bar may
cause a series of problems, such as trauma to the floor of the
mouth tissues, displacement during mastication, undue covering
of the free marginal gingival, difficult hygienization, greater
plaque accumulation and periodontal problems. Therefore, the
correct measurement of the available space is crucial in selecting
the mandibular major connector. However, given the large
number of cast models that are sent to the prosthetic laboratory
without any type of planning10-14, it is often observed that this
measure is not obtained clinically, but rather in the cast model
by the dental prosthetic technician, sometimes resulting in
an incorrect selection.

The aim of the present study was to determine whether
there is a difference between the clinical selection of a major
mandibular selector and the selection made in the cast model.

Material and methods
The present study was conducted at the Department of

Dentistry of the Federal University of Rio Grande do Norte,
Brazil after approval by the local Ethics Research Committee
(protocol nº 095/05) and all patients signed a written
informed consent form. The sample consisted of 64 randomly
selected patients who were in the final process of RPD
installation in the Partial Removable and Integrated Clinic
disciplines. All the metallic frameworks were made in cast
models obtained from the alginate mold and type IV plaster
(Durone; Dentsply, Petrópolis, RJ, Brazil). Clinical evaluation
of the distance between the marginal gingival and the floor
of the mouth was performed using a periodontal probe and
instructing the patients to open mouth and to elevate and
protrude their tongues until the tip reached the red part of
the upper lip. The same tongue movement was performed during

impression with metallic stock trays to obtain the cast model.
One measure was carried out for each tooth (from 35 to 45), if
they were present, measuring the free gingival margin at its
most apical point, at the bottom of the floor of mouth. The
smallest measure and its location were recorded, serving as a
reference for taking a single measurement of the cast model
and for comparing the values. Descriptive data analysis was
conducted using the mean and standard deviation and SPSS
16.0 software. The Mann-Whitney test was applied to evaluate
the relationship between the study variables. The significant
level was set at 5%.

Results
The mean distance found clinically between the free

gingival margin and the floor of the mouth was 7.39 mm,
whereas in the models this distance was 9.03 mm. This
difference was statistically significant (p < 0.0001) (table 1).

Discussion
In addition to replacing lost structures, the main goal of

rehabilitation with a RPD is to preserve and protect the
remaining structures4. However, dentists are reluctant to plan
RPD, possibly due to their lack of knowledge, and thus,
many errors occur in the selection of the mandibular major
connector15. On average, 90% of cast models are sent to the
laboratory without any type of dental preparation or
planning. Rather, the responsibility falls on the dental
prosthesis technician, who does not have the required
knowledge to perform this task, a situation that leads to high
failure rates and periodontal complications10-14.

Clinical studies show that the lingual bar is the most
widely used type of connector in RPD16-19. The examination
of 200 patients with RPD showed that this connector was
used in 77% of inferior prostheses18. Another study, with a
sample of 25 patients with lower RPD found 96% with a
lingual bar, and a lingual plate in only one patient, due to
mobility in the pillar teeth. However, the mean distance
between the superior border of the bar and the gingival
margin found by the authors was only 2.82 mm19. According
to Carr et al.5, this distance should be at least 4 mm to
maintain oral hygiene and gingival health. Review of the
literature shows no consensus regarding the ideal distance.
Most authors believe that 3 mm is sufficient, although even
a distance of 2 mm would be acceptable2,4,6. Considering a
mean distance of 3 mm and adding to it the 4 mm
corresponding to the diameter of the occlusal-gingival of
the bar, a space of at least 7 mm would be necessary between
the gingival margin and the floor of the mouth for a lingual
bar to be indicated. In the present study, it was observed
that only 59.3% of the patients met this clinical criterion. A
similar result was found in a study with 80 partially

Braz J Oral Sci. 9(1):30-32

Selection of mandibular major connector based on a conventional impression technique



32

edentulous patients free of periodontal disease, where this
proportion was 60%20. If the 8 mm suggested by Carr et al.5

were considered, this indication would be even more
restricted, to only 48.4% of our sample. On the other hand,
when the measures obtained in the models are used, 95.3%
(7 mm) or 82.8% (8 mm) would be indicated to receive the
lingual bar.

Thus, comparison of the data indicating a lingual bar
obtained in the model and in the mouth between one another
and with those of frequency of use observed in other studies18-
19 suggests that this type of connector is being improperly
indicated, likely resulting from the laboratory selection made
by the dental prosthesis technician. When the measures
obtained clinically were compared to those of the cast models,
a significant difference was observed between the two groups
(p < 0.0001). A review of the literature did not find any
study with a similar methodology. The difference between
the measures of the two groups was 2.36 mm, which is a
value high enough to cause errors in the selection of the
inferior major connector. The highest mean was found for
the measurements performed in the plaster model. Although
the patients were instructed to elevate and protrude their
tongues until the tip reached the red part of the upper lip
during impression, this result may be due to the displacement
of the floor of the mouth caused by the alginate or by
insufficient tongue movement during impression, given that
the gingival margin was relatively adhered to the dental
surface, and did not suffer displacement. Also there is the
possibility that the inner border of the tray touched the floor
of the mouth avoiding its upward shift. Thus, the error will
likely occur in the determination of the lower limit of major
connector positioning. Perhaps, a custom-made tray would
have been useful since it can be adjusted prior to impression.

These findings suggest that those who perform the
measurements in cast models are systematically incurring
the risk of selecting a lingual bar that clinically invades the
functional space of the soft tissues of the floor of the mouth,
a situation that may provoke trauma or displacement of the
RPD. Furthermore, the need to adjust the RPD, due to patient
complaints, may wear and weaken the bar. Zavanelli et al.19

report that in case of incorrect selection, compression from
the major connector on the tissues may result in local
inflammation, gingival retraction, pain, bone loss and dental
mobility, compromising the patient-professional relationship
and discrediting the prosthetic rehabilitation treatment. Thus,
it is evident that for the proper selection of the mandibular
major connector the distance between the marginal gingival
and the floor of the mouth must be obtained clinically. Dentists
must show greater commitment during the fabrication of RPD
in the sense of carefully planning their cases, thereby
avoiding sending cast models to the dental prosthesis
laboratory without any orientation or planning.

The present results show that for the correct selection
of the mandibular major connector it is essential that the
distance between the marginal gingival and the floor of the
mouth be measured in the oral cavity.

The distance from the floor of the mouth to the free
gingival margin of the remaining teeth is essential for the

selection of mandibular major connector. Considering the
results of the present study, the reviewed literature and the
issues discussed above, it seems reasonable to conclude that
the impression technique used in this study to obtain a cast
model does not offer an accurate measurement of space,
leaving to the dentist and not to the dental prosthesis
technician the decision for the type of mandibular major
connector to be chosen.

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Braz J Oral Sci.9(1):30-32

Selection of mandibular major connector based on a conventional impression technique