Postpalatal seal area is defined as ‘the soft tissues area at or beyond the
junction of the hard and soft palates on which pressure, within physiological
limits, can be applied by a complete denture to aid in its retention’.
It lies in the area of the soft palate and provides the peripheral seal
to the denture. The seal prevents air between the denture and the
tissues and helps in resisting the horizontal and torquing forces.
The histological content of this area consists of a thick submucosa,
containing glandular tissues, which allows displacement of the tissues
• Reduces food accumulation between the posterior aspects of the
• Compensates for polymerization shrinkage
PPS can be divided into two separate areas on the basis of
anatomical boundaries, which are as follows:
(i) Postpalatal seal: This extends medially from one tuberosity to
(ii) Pterygomaxillary seal: This extends laterally from one hamular
notch to another and 3–4 mm anterolaterally approximating the
The PPS lies between the anterior and posterior vibrating lines (Fig.
FIGURE 4-9 Posterior palatal seal.
It is an imaginary line located at the junction of the attached tissues
overlying the hard palate and the movable tissues of the immediately
adjacent soft palate. The anterior vibrating line is cupid bow shaped
due to the projection of the posterior nasal spine.
Methods to locate anterior vibrating line
The Valsalva manoeuvre: In this method, both the nostrils of the patient
are held firmly and the patient is asked to gently blow through the
nose. This positions the soft palate inferiorly at its junction with the
Visualization method: This can also be located by asking the patient to
say ‘ah’ in a short vigorous burst and visualizing the area.
This is an imaginary line at the junction of the aponeurosis of the
tensor veli palatine muscle and the muscular portion of the soft palate.
Posterior vibration line is visualized by asking the patient to say ‘ah’
in a short burst in normal, unexaggerated fashion. It marks the distal
most extension of the denture base.
(iii) Arbitrary scraping of master cast
• ‘T’ burnisher is used to locate the hamular notch.
• An indelible pencil is used to extend a line from hamular notch on
• The patient is instructed to say ‘ah’ in short burst.
• The mark is placed at the junction of movable and nonmovable soft
• This mark is transferred to master cast.
• The cast is scraped to a depth of 1–1.5 mm in resilient areas and 0.5–
• The scraping should taper progressively.
• The procedure followed is similar as described above, except that
special waxes, such as Iowa wax or Korecta wax, are used.
• After secondary impression, these fluid waxes are applied in the
• Various head and tongue movements are made to record posterior
Arbitrary scraping of master cast
• It is the least accurate method and should not be followed.
• Cast is arbitrarily scraped by the dentist.
The available denture-bearing area for the edentulous mandible is
, whereas that of the maxilla is around 24 cm2
The basal seat of the mandible is different from the maxilla in terms
The anatomical landmarks in mandible can be studied as follows
FIGURE 4-10 Anatomic landmarks of the mandibular arch.
(i) Primary stress-bearing area
(ii) Secondary stress-bearing area
• It extends between the mandibular buccal frenum and the anterior
border of the masseter muscle (Figs 4-10 and 4-11).
• Its boundaries are as follows:
• Medially by the crest of residual ridge
• Anteriorly by the buccal frenum
• Laterally by the external oblique ridge
• Distally by the retromolar pad
• It is covered by a layer of cortical bone and lies at right angles to the
• It is covered by mucosa with submucosal layer containing
buccinator fibres and glandular fibres.
• Buccinator fibres run along the buccal shelf in anteroposterior
direction and portion of the denture base lies directly on the muscle
• Width of the buccal shelf area:
• 2–3 mm (in case of narrow mandible)
• As it lies at right angles to the occlusal forces, it serves as primary
FIGURE 4-11 Location of buccal shelf region.
• It is the distal most extent of keratinized masticatory mucosa of the
• It is formed by scarring pattern after third molar extraction.
• The term was coined by F.W. Craddock.
• The retromolar pad lies distally to the pear-shaped pad.
• Distal border of the mandibular impression should extend to the
junction of retromolar pad and pear-shaped pad.
• Buccinator, superior constrictor and temporal muscles are attached
• Muscle attachment and overlying keratinized mucosa provide
stress-bearing region that is relatively resistant to resorption.
• It is considered as the primary stress-bearing area (T.R. Jacobson
• The crest of the ridge is covered by fibrous connective tissue.
• The underlying bone is mostly cancellous without any muscle
• The submucosa, if loosely attached, makes the soft tissue movable,
thereby making the denture construction difficult; however, if
firmly attached it provides good support.
• Ridge crests are considered as secondary support areas (Fig. 4-10).
• It contains a band of fibrous connective tissue which attaches the
orbicularis oris muscle (Fig. 4-12).
• Frenum is active and quite sensitive.
• It should be carefully relieved to avoid soreness and provide
FIGURE 4-12 Location of labial and buccal vestibule.
• This extends from the labial frenum to the buccal frenum on each
• Related muscles are orbicularis oris and mentalis.
• The depth of the flange is determined by the mucolabial fold.
• The extent of the flange in this area is limited because the muscles
are inserted close to the ridge crest.
• If the flange is thick and the mouth is wide opened, the orbicularis
oris narrows the sulcus which in turn displaces the denture.
• It is a fold or folds of mucous membrane extending from the buccal
mucosa to the slope or the crest of the residual ridge (Fig. 4-12).
• It may be single or double, broad U-shaped or sharp V-shaped.
• It overlies the depressor anguli oris.
• Relief must be provided in the denture base to avoid dislodgement
• It extends from the buccal frenum to the retromolar pad area (Fig. 4-
• It is bounded by the residual alveolar ridge on one side and the
buccinator muscle on the other.
• The extent of the vestibule is influenced by the buccinator muscle
and the distobuccal border at the end of the buccal vestibule is
influenced by the action of masseter on the buccinator.
• Buccinator muscle extends from the modiolus to the
pterygomandibular raphe and attaches to the buccal shelf region.
• Because its fibres run horizontally, it has seating effect on the
• Contraction of the masseter alters the shape and size of the
distobuccal end of the lower buccal vestibule.
• Masseter pull is recorded by asking the patient to exert the closing
force, in which the operator applies the force in opposite direction.
• It is a fibrous band of tissue that overlies the centre of the
genioglossus muscle (Fig. 4-12).
• It is an extremely resistant and active frenum.
• It is usually a narrow single band of tissue but may be broad.
• Relief is needed in this area of the impression as well as in the
finished denture because inadequate clearance may result in pain or
• A high lingual frenum is called a tongue-tie and should be
corrected, as it affects the stability of the denture.
• It is the space between the residual ridge and the tongue and
extends from the lingual frenum to the retromylohyoid curtain (Fig.
FIGURE 4-13 Alveololingual sulcus.
• It is divided into the following three areas:
(i) Anterior vestibule referred to as the sublingual
crescent area or the anterior lingual fold
(ii) Middle vestibule referred to as the mylohyoid area
(iii) Posterior vestibule or the distolingual sulcus
• It extends from the lingual frenum to the premylohyoid fossa, where the
mylohyoid ridge curves below the sulcus.
• Length and width of the border are important in maintaining the
• Position of the tongue is important in maintaining this seal.
• It is influenced indirectly by the mylohyoid muscle.
• The lingual border of the impression in the anterior region should
extend down to make contact with the mucosa of the floor of the
mouth when the tip of tongue touches the upper anteriors.
• The anterior lingual flange will be shorter than the posterior lingual
• It extends from the premylohyoid fossa to the distal end of mylohyoid
ridge, curving medially from the body of the mandible.
• This curvature is caused by the prominence of the mylohyoid ridge
and the action of the mylohyoid muscle.
• The length and width of the flange are determined by the
membranous attachment of the tongue to the mylohyoid ridge.
• The lingual borders are formed when the mylohyoid muscle is
• The middle of lingual flange should slope medially towards the
tongue, which helps in three ways as follows:
• The tongue rests over the flange, thereby stabilizing
• This provides space for raising the floor of the
mouth without displacing the denture.
• The peripheral seal is maintained during the
• This is the distolingual vestibule, also referred to as lateral throat form
• Posterior lingual flange usually extends more inferiorly than the
• The border of the lingual flange in this region assumes the typical ‘S’
shape because of the projection of mylohyoid ridge towards the
tongue and the existence of retromylohyoid fossa at the distal end
• The distal end of the lingual flange is called the retromylohyoid
eminence and its contour lies below the level of retromolar pad.
• It is an important structure which forms the posterior seal of the
mandibular denture (Fig. 4-10).
• The denture should include the retromolar region.
• It aids in stability by adding another plane to resist the movement of
• It is a triangular soft pad of tissue at the distal end of lower ridge.
• It consists of pterygomandibular raphe, fibres of superior constrictor
and buccinator muscle, fibres of temporalis tendon and some
• It extends along the lingual surface of the mandible.
• Anteriorly, the ridge lies close to the inferior border of the mandible,
whereas posteriorly it flushes with the superior surface of the
• Thin mucosa over the ridge should be relieved to avoid trauma.
• The lingual flange should be properly shaped and extended during
the impression making to ensure proper border seal.
• It lies between the first and second premolar region.
• Severe resorption of the bone may result in mental foramen lying at
• Relief should be provided to avoid paraesthesia of the lip.
• It is a bony prominence usually found at the first and second
• It is covered by a thin mucosa and should be relieved to avoid
• It is surgically removed if large and interferes with the denture
Primary or preliminary impression is defined as ‘a negative likeness
made for the purpose of diagnosis, treatment planning or the fabrication of a
This is the first step in fabricating complete denture prosthesis for a
For this purpose, an impression tray is used.
Impression tray: It is defined as ‘a device that is used to carry, confine
and control impression material while making an impression’ or ‘a receptacle
into which suitable impression material is placed to make a negative likeness’.
Classification (Lavere and Treda [1976])
Impression trays are of two types: (i) stock trays and (ii) custom trays
(i) Stock trays are further classified as follows:
Type A: Disposable and nondisposable
Type B: Metallic and nonmetallic
Type C: Perforated and nonperforated
• Rim lock trays: Thickened flange edges for
Rim lock trays can be of two types on the basis of type
(ii) Custom trays are also called special trays or final impression trays or
Ideal requirement of impression trays
• It should be dimensionally stable.
• It should be smooth to avoid injury to mucosa.
• It should provide uniform space for impression material.
• It should not distort the vestibular area.
Points to consider during tray selection
• Stock tray should have 5–6 mm of space between the ridge and the
• Tray is placed in mouth by centring the labial notch of the tray over
• Once the tray is anteriorly positioned, it is observed posteriorly for
• A slightly oversized tray is always selected.
• The tray should not be too large or too small.
• To support the impression material in planned contact with oral
• To allow the placement of additional stress in selected regions of the
residual ridge while recording other regions in an undisplaced state
• To support the impression material when removed from the mouth
Principles of Impression Making
• Impression should extend to cover all the basal seat area.
• Borders should be in harmony with the anatomical and
physiological limitations of oral tissues.
• Border moulding should be performed.
• Selective pressure should be applied on the basal seat during
• Proper space should be provided for the impression material.
• Guiding mechanism should be provided for correct positioning of
• Tray and final impression should be made of dimensionally stable
• External shape of the final impression should match the external
• Oral tissues should be in healthy state.
• Impression when removed from the mouth should not damage the
• Sufficient space should be available for the impression material in
Primary cast is defined as ‘a positive likeness of a part or parts of the oral
cavity for the purpose of diagnosis and treatment planning’.
Requirements of a primary cast
• The surface should be smooth, dense and free of voids.
• It should cover all the area which provides denture support.
• Wall of the cast should be parallel or diverging outwards but should
• Tongue space should be smooth.
• Occlusal table should be parallel to the floor.
• To measure the depth and extent of undercut
• To evaluate the size and contour of the arch
• To determine the path of insertion of the denture
• To determine the requirements for preprosthetic surgery
A custom tray or special tray is defined as ‘an individualized
impression tray made from a cast recovered from a preliminary
impression. It is used in making a final impression’.
Ideal requirements of a custom tray
• It should be dimensionally stable on the cast and in the mouth.
• It should have an excellent fit.
• The tissue surface should be free of voids or projections.
• It should be rigid in thin sections, especially in the palatal or lingual
• It should be easy to remove and should not react with the
• It should be 2 mm short from the sulcus to provide space for the
Materials used for fabrication
• Vacuum-formed thermoplastic resin
• Relief wax is adapted over relief areas in the maxillary and
• Relief is provided to prevent any excessive pressure on the
• It is 2 mm in thickness and can vary depending on the quality of the
• A wax spacer is then placed within the outlined border to provide
space for the impression material in the tray.
• It also ensures that the loaded tray is not too bulky and allows the
ease of placement in the mouth.
• A planned relief is designed to carry out the impression procedure
• This depends on the tissue tonicity and on the difference in the
displaceability of tissues in every patient and in different buccal
• In addition, the special circumstances that sometimes occur in a
given clinical situation may indicate the use of different shaped
• The technique by A.R. Halperin suggests that peripheral relief
provided by the spacer so that a uniform space for border moulding
material and correct positioning of tray are achieved.
• Some areas that are routinely relieved in selective pressure
technique are incisive papilla, mid-palatine raphe in the maxilla and
the crest of the ridge in the mandible.
• Baseplate wax, approximately 1 mm thick, is placed on the cast
within the outlines to provide space in the tray for the final
• The PPS area is not covered with the wax spacer and in the lower
area the buccal shelf area is left uncovered.
• In addition to this, tissue stops can also be placed in the wax spacer.
• Eliminate undercuts with a thin coat of wax and paint the cast with
tin foil substitute and allow it to dry.
• The acrylic resin can be adapted on the cast by sprinkle-on method
• In this method, the powdered polymer is shifted on the cast and is
saturated with the liquid monomer until a uniformly thick tray is
• The tray might be too thick or too flexible.
• It might be too thin over the ridges and too thick over the palates.
• It is important that the tray is 2–3 mm thick.
• Remove the tray only after complete polymerization has taken
• Afterwards, the handle is placed on the tray, which could be a
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