Biological consideration in maxillary
The foundation for dentures is made up of bones covered by the
mucous membranes (mucosa and submucosa).
• Mucosa can be of three types, namely, masticatory, lining and
specialized mucosa depending on the location in the oral cavity.
• The submucosa varies in thickness and consistency and is
responsible for supporting the denture. When thin, it gets easily
traumatized and when loosely attached, it gets inflamed or
• Ultimate support for the maxillary denture is the bone of two
maxillae and the palatine bone.
• The anatomical landmarks in maxilla are as follows (Fig. 4-7):
FIGURE 4-7 Anatomic landmarks of maxillary arch.
(i) Primary stress-bearing areas:
• Posterolateral slopes of residual alveolar ridge
(ii) Secondary stress-bearing areas:
• Maxillary tuberosity, alveolar tubercle
The cortical bone in the hard palate, composed of the palatine processes
of the maxillae and the horizontal processes of the palatine bones, has been
shown to resist resorptive changes.
• A cross-section of the hard palate shows that it is covered by tissues
• Therefore, it is important to employ an impression technique that
equalizes the pressure distribution.
• The submucosa in the mid-palatine suture is extremely thin and,
therefore, relief should be provided in the part of the denture
• The horizontal portion of the hard palate lateral to the midline acts
as the primary stress-bearing area, as it resists resorption and is
covered by keratinized mucosa. The trabecular pattern in the bone
is perpendicular to the direction of force, making it capable of
withstanding any amount of force without marked resorption.
• It is defined as ‘the portion of the alveolar ridge and its soft tissue
covering which remains following the removal of teeth’. (GPT 8th Ed)
• It resorbs rapidly following extractions and continues at reduced
• The submucosa over the ridge has adequate resiliency to support the
• The crest of the ridge may act as a secondary stress-bearing area.
• The posterolateral portion of the residual ridge is a primary stressbearing area.
• The remaining facial slopes of the maxillary residual ridge are not
• These are the thick fibrous bands of tissues located in the anterior
• The rugae area acts as the secondary stress-bearing area because it is
set at an angle to the occlusion plane of the residual ridges and is
rather thinly covered by the soft tissues.
• Also, the rugae resist anterior displacement of the denture.
• Folds of the mucosa play an important role in speech.
It is the bulbous extension of the residual ridge in the second and
• It terminates at the hamular notch.
• The rough prominence behind the position of the last tooth is the
• It is considered as the secondary supporting structure.
• The posterior part of the ridge and the tuberosity are considered as
one of the most important areas of support, as these are least likely
The medial and lateral wall resists horizontal and torquing forces,
whereas the lateral wall resists the anterior movement of the denture.
Labial frenum: It is a fold of mucous membrane at the median line. It is a
passive frenum, as it contains no muscle. This frenum is fan-shaped
and it converges as it inserts onto the labial aspect of the ridge. The
labial notch in the denture should not only be narrow but also be
wide enough to accommodate the labial frenum without
Labial vestibule: It extends from the buccal frenum on one side to the
other and is divided into two compartments by the labial frenum. It
is covered by the lining mucosa. This space is easily distorted
because of the presence of submucosa and, therefore, should be
completely filled to provide retention.
Orbicularis oris: It is the main muscle lying in this region. Its tone
depends on the support received from the thickness of the labial
flange and positioning of the artificial teeth. Because its fibres run
horizontally and anastomoses with fibres of buccinator, it has an
indirect ef ect on the extent of the denture base.
Buccal frenum: It lies between the labial and the buccal vestibule. It
requires more clearance than the labial frenum and the buccal notch
should be broad enough to allow its movement. Three muscles are
associated with it, namely, orbicularis oris (pulls the frenum
forward), caninus or levator anguli oris (attaches beneath the frenum
and affects its position) and buccinator (pulls it backward).
The borders of the denture should be moulded in
such a way that the depth and width of the frenum
are exactly recorded (Fig. 4-8).
Buccal vestibule: It extends from the buccal frenum anteriorly to
hamular notch or pterygomaxillary notch posteriorly. The size of
the vestibule is controlled by the following:
• The contraction of the buccinator muscle
• The malar process of zygomatic arch
• Amount of bone lost from the maxilla
The ramus and coronoid process of the mandible and
the masseter determine the width of the buccal
vestibule. The lateral movement of the mandible alters
the shape and size of the posterior part of the
vestibule. The distal end of the flange of the
denture should be adjusted so as to avoid
interference to the coronoid process during
The distobuccal border is influenced by the masseter
muscle which acts outside the buccinator muscle
during contraction and by the coronoid process
Hamular notch: It is situated distally to the tuberosity of the maxilla
and mesially to the hamulus of the medial pterygoid plate. It serves
as an anatomic guide for the distal extension of the impression in
The denture border should extend to the hamular
notch beyond tuberosity. The posterior palatal seal
(PPS) should extend through the centre of the deep
part of the hamular notch as it does not contain any
muscle attachments (Fig. 4-8). They are always
located in the soft plate and guide the location of
the posterior border of the denture.
Relief areas are divided into three categories which are as follows:
(i) Tissues susceptible to resorption should not be loaded (e.g. some
maxillary and most mandibular ridge crests)
(iii) Areas of mucosa overlying neurovascular bundles (e.g. incisive
papilla, in some cases mental foramen)
• It is a pad of fibrous connective tissues overlying the orifice of the
• It is located on the line immediately behind and between the central
• It covers incisive foramen carrying the nasopalatine nerves and
• It may lie on the crest of the alveolar ridge and its position can vary.
• It should be relieved in every denture.
• Position of the papilla indicates the amount of bone loss (Fig. 4-7).
• It extends from the incisive papilla to the distal end of the hard
• The mucosa is thin and unyielding.
• The underlying bony union is very dense.
• It is here that the palatal torus, if present, is located.
• It should be relieved to avoid tissue impingement between the
denture base and bone (Fig. 4-7).
• These are formed by coalescence of mucous glands and are located near
• These are usually two in number and are present one on each side of
the midline, slightly posterior to the junction of the hard palate and
• These are always located in the soft palate and guide the location of
the posterior border of the denture (Fig. 4-7).
It is defined as ‘the seal area at the posterior border of a maxillary removable
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