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Thursday, October 13, 2022

 • Microanalyser is a type of surveyor which electronically measures

the amount of undercut.

• Cast should not be tilted more than 10° at the time of surveying.

• One of the most important functions of the clasp is to distribute the

stresses.

• The main purpose of tilting the cast in surveying is to determine the

most desirable path of placement.

• The scriber on the surveyor marks the greatest convexity of the

tooth.

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CHAPTER

18

Mouth preparation in RPD

CHAPTER OUTLINE

Introduction, 289

Objectives of Mouth Preparation and Preprosthetic Phase of Mouth

Preparation in Partially Edentulous Patients, 289

Objectives, 290

Relief of Pain and Any Infection, 290

Oral Surgical Procedures, 290

Conditioning of Abused or Irritated Tissues, 290

Prosthetic Phase of Mouth Preparation in Partially Edentulous

Patients, 292

Preparation of the Rest Seat, 293

Rest Seat Preparation on Tooth Enamel, 293

Rest Seat Preparation on New Gold

Restorations, 293

Rest Seat Preparation in Amalgam

Restorations, 293

Rest Seat Preparation for Embrasure

Clasp, 293

Rest Seat Preparation on Anterior Teeth, 294

Incisal Rest Seat Preparation, 294

Creation of Retentive Undercuts, 294

Modification of Height of Contour, 294

Inlay, Onlay and Crowns, 294

Preparation of the Guiding Planes, 295

Definition, 295

Purpose of Guiding Plane, 295

Preparation of the Guiding Planes, 295

Introduction

Mouth preparation is one of the most critical steps in successful

removable partial dentures (RPDs). It helps not only in replacing what

is missing but also in preserving the remaining tissues. It aims to

bring oral tissues to optimum health and removes any cause which

may interfere in success of RPD.

Objectives of mouth preparation and

preprosthetic phase of mouth

preparation in partially edentulous

patients

Mouth preparation is a procedure which changes or modifies the

existing oral conditions in order to facilitate the placement and

removal of the prosthesis and to ensure its long-term functioning.

Objectives

• To eliminate any condition which may interfere in the placement or

removal of the prosthesis

• To establish abutment teeth and supporting structures in optimum

health

• To establish an acceptable occlusion plane

• To alter or shape the contour of the abutment tooth so that it can

best accommodate the removable prosthesis

Mouth preparation is often accomplished by two phases:

• Preprosthetic phase: This involves the elimination of any condition

which can hinder the placement or removal of the prosthesis and

long-term success of the prosthesis.

• Prosthetic phase: This involves shaping or altering the contour and

form of the teeth or supporting structures to receive the removable

prosthesis.

Preprosthetic phase of mouth preparation includes the following

stages:

(i) Relief of pain and any infection

(ii) Oral surgical procedures

(iii) Conditioning of abused tissues

(iv) Periodontal therapy

(v) Occlusal plane correction

(vi) Orthodontic correction for misalignment

(vii) Splinting of weakened teeth for better support

Relief of pain and any infection

• Any aetiology which causes pain to the teeth should be treated first

and immediately.

• The most common cause of pain is caries or defective restoration.

• Acute pain or abscess should be treated first in this phase of

treatment.

• Deep carious lesions need to be treated with intermediate

restoration until definite treatment plan is formulated.

Oral surgical procedures

After the relief of pain, oral surgical procedures should be done so

that enough time is given between the surgery and the impression

procedures.

• These procedures include extraction of teeth with hopeless

prognosis

• Extraction of residual root, impacted teeth or unerupted teeth

• Surgical removal of cysts, palatal or mandibular tori, exostosis

• Preprosthetic surgical procedures such as ridge augmentation or

vestibular extensions

• Removal of abnormal soft tissue lesions such as polyps and

papillomas

• Removal of sharp bony spicules and rounding of sharp knife-edge

ridges

• Surgical correction of jaw deformity

Note: In any surgical procedure, the main objective should be

preservation of as much bone as possible.

Conditioning of abused or irritated tissues

All the abused or irritated tissues should be treated before

impressions are made of the edentulous ridges.

Clinical features

• Inflammation of the mucosa covering the denture-bearing area.

• Burning sensation in residual ridge, the tongue, the lips and the

cheeks.

• Distortion of normal anatomical structures such as retromolar pads,

incisive papilla or the rugae region.

• Causes: Ill-fitting dentures, unstable removable prosthesis with

deflective occlusion, nutritional deficiencies and endocrine

imbalance are the probable causes.

• Treatment: It depends on the condition of the tissues. If the tissues

are slightly inflamed, then symptomatic treatment such as massage,

saline rinses and rest to the tissues are advised. If tissues are

abused, wearing of the prosthesis is discontinued for some time.

Tissue conditioners are advised, which give a cushioning effect on

the tissues.

Periodontal therapy

This therapy is done to restore the mouth to a healthy state. The

objective is to establish and maintain the periodontium in a healthy

condition.

The criteria to satisfy the objective are as follows:

• To eliminate aetiological factors causing periodontal disease

• To eliminate periodontal pockets

• To establish harmonious occlusal relationship

• To develop a proper plaque control programme

Caution: It is important to ensure that the periodontium is in a

healthy state before other phases of the treatment are initiated.

Occlusal plane correction

It is often observed that in partially edentulous patients the occlusal

plane is uneven. This may be due to supraeruption of the opposing

teeth or due to mesial migration of the adjacent teeth or tipping of the

teeth adjacent to the edentulous area.

There are many methods to correct the uneven occlusal plane;

however, selection of a particular method depends on the severity of

the occlusal plane.

Methods to correct uneven occlusal planes

1. Enameloplasty: It is a procedure involving intentional removal of a

portion of tooth structure in order to correct the occlusal plane.

However, the amount of correction possible by this method is very

limited. Often the reduction is confined to tooth enamel, except in

older patients where the reduction can be in dentine. The cut surface

should always be polished (Fig. 18-1).

2. Onlay: Occlusal surface of teeth to be restored with onlay should be

free of pits and fissures. Cast gold onlays are most effective in

establishing the occlusal plane through this method.

Advantages:

• Natural contours of tooth can be maintained.

• It requires lesser tooth reduction.

Disadvantages:

• It has less retention.

• Chrome alloy onlays can rapidly wear the enamel of

the opposing tooth.

3. Crown: A full veneer crown is normally indicated, if crown height

of the tooth is desired to be changed or if the facial, lingual or

proximal surfaces are to be altered. The mounted diagnostic casts are

an important diagnostic aid to decide the desired amount of tooth

reduction.

4. Endodontically treated tooth with a coping: Teeth which are

supraerupted or with compromised bone support can be

endodontically treated and covered with a coping or a crown and can

be used as an abutment tooth (Fig. 18-2).

5. Extraction: It is indicated when tooth is severely malposed and

those that cannot be orthodontically corrected should be removed. It

is also advised in the following situations:

• When certain teeth can complicate and compromise

the success of the treatment.

• Teeth interfering with the placement of the major

connector wherein it cannot be corrected by crown

or other method.

6. Surgical repositioning: This involves repositioning of the jaws (by

surgical methods) to correct severe malocclusion.

FIGURE 18-1 Enameloplasty done to correct the occlusal

plane.

FIGURE 18-2 Endodontically treated tooth with coping can

be effectively used as abutment tooth.

Correction of misalignment

Following are the methods used to correct misalignment:

• Orthodontic repositioning

• Enameloplasty

• Crowns

Provision of support to weakened teeth

Teeth with compromised periodontal support require additional

support which can be provided by the following methods:

• Removable splinting

• Fixed splinting

• Overdenture abutments

Prosthetic phase of mouth preparation

in partially edentulous patients

The prosthetic phase of mouth preparation includes the alteration of

the tooth contour usually in the enamel or on the surface of existing

restoration or on new restoration in the form of crown, onlay, etc. It is

always better to do the desired reduction on the mounted diagnostic

cast before doing the reduction into the mouth. Clinicians should

employ conservative approach during mouth preparation.

Prosthetic phase of mouth preparation includes the following stages:

(i) Preparation of the guiding planes

(ii) Preparation of the rest seat

(iii) Creation of retentive undercuts

(iv) Modification of height of contour

(v) Inlays, onlays and crowns

Preparation of the rest seat

Rest seat is always prepared after guiding planes are prepared on the

abutment tooth. Rest seat preparation is done differently for tooth

enamel, existing restorations or new restorations.

Rest seat preparation on tooth enamel

A small round diamond stone bur is used for the preparation of the

rest seat on the tooth enamel.

• The outline form of reduction is triangular with the base of triangle

at the marginal ridge and the apex towards the centre of the tooth.

• It is 1 mm thick at the thinnest portion, if chrome alloy is used and

1.5 mm thick, if gold is used.

• Properly prepared rest seat is round, smooth and spoon-shaped.

• The rest in the rest seat should act as a ball and socket joint

(especially in the distal extension cases).

• Beading wax is used to check the amount of available space for the

occlusal rest by asking the patient to bite on the wax in the centric

relation.

• Thickness of the wax is then measured by using Boley gauge.

• After preparation, the altered tooth surface should be highly

polished.

Rest seat preparation on new gold restorations

The proposed rest seat preparation is carved in the wax pattern after

the guiding planes are carved.

• A small depression is made on the wax pattern to accommodate the

thickness of the rest and the crown casting.

• Once the restoration is cast with gold, the rest seat is highly

polished.

• In cases of existing gold restorations, the rest seat is directly

prepared on the restoration.

• If the existing restoration is not adequately thick, a new restoration

should be advised to the patient.

Rest seat preparation in amalgam restorations

This procedure is less desirable than tooth enamel or gold

restorations.

• The rest seat is prepared with a small round bur.

Note: Amalgam alloys tend to warp when placed under constant

load.

• If care is not taken during the preparation of proximal portion, it

may result in fracture of the amalgam restoration.

• Polishing of the prepared rest seat on the amalgam restoration is a

must.

Rest seat preparation for embrasure clasp

Embrasure clasps are two simple circlet clasps joined together at the

body.

• The rest seats are prepared on two adjacent posterior teeth

extending from the mesial fossa of one tooth to the distal fossa of

the other tooth.

• The preparation is continued on the buccal and lingual surfaces.

• A small round diamond stone is used to accomplish the reduction.

• Marginal ridges on both the teeth are simultaneously reduced.

• Contact point between the teeth should be left intact to prevent

wedging action between the teeth.

• Alternatively, preparation can also be done by cylindrical diamond

stone.

• The preparation for this clasp should be 1.5–2 mm wide and 1–1.5

mm deep (Fig. 18-3).

• The occlusal clearance is checked by utility wax.

FIGURE 18-3 Embrasure clasp.

Rest seat preparation on anterior teeth

Cingulum or lingual rest seat preparation is more preferred than the

incisal rest.

• In cast restorations, the lingual rest seat is carved in the wax pattern.

• Safe-sided disk or inverted cone diamond stone is used to prepare

rest seat in the enamel.

• The preparation should be polished with carborundumimpregnated rubber wheel.

Incisal rest seat preparation

These rest seats are usually placed on the incisal angles of the canines.

• The seat should be avoided on the incisors because of poor

aesthetics and poor mechanical advantage.

• It is prepared by small safe-sided diamond disk.

Creation of retentive undercuts

• If the proposed abutment does not have sufficient retentive

undercut, it should be created.

• It is created in the form of gentle depression by a small round-ended

tapered diamond.

• The procedure for creating a retentive undercut is called dimpling.

• It is prepared parallel and as close as possible to the gingival

margin.

• The preparation is created approximately 0.010-inch deep with

slight concavity when measured from the perpendicular line which

parallels the path of insertion.

• The dimension of the depression is approximately 2 mm of

occlusogingival height and 4 mm of the mesiodistal length.

• The prepared depression should be highly polished with the

carborundum-impregnated rubber (Fig. 18-4).

FIGURE 18-4 Dimpling done with round-ended tapered

diamond bur to create retentive undercut.

Modification of height of contour

This procedure is performed to ideally locate the clasp arm and

lingual plating.

• It is done by reshaping the abutment tooth in tooth enamel.

• Minor reshaping of the tooth surface can drastically improve the

mechanical and aesthetic properties.

Inlay, onlay and crowns

When the cast restoration is indicated on the abutment tooth, the

retentive undercut, height of contour and the guiding planes can be

incorporated in the wax pattern itself.

• First the diagnostic cast is surveyed and carefully analysed.

• If the tooth planned for cast restoration is lingually tilted, more

reduction should be accomplished lingually.

• Wax patterns of the crowns to be placed on the abutment are carved

to receive the clasps.

• In a casted restoration, the contour created in the wax patterns is

verified on the surveyor table.

Preparation of the guiding planes

Guiding planes are parallel surfaces on the proximal or the lingual

surface which are made parallel to the planned path of insertion of the

removable prosthesis. The intentional conservative tooth reduction to

prepare guiding planes is called enameloplasty. It is defined as ‘the

intentional alteration of the occlusal surface of the teeth to change their form’.

(GPT 8th Ed)

Definition

Guiding plane is defined as ‘vertically parallel surfaces on the abutment

teeth or/and dental implant abutments oriented so as to contribute to the

direction of the path of placement and removal of the removable dental

prosthesis’. (GPT 8th Ed)

Guiding planes are necessary for smooth placement and removal of

the dentures. These are prepared during the prosthetic phase of

mouth preparation of the abutment teeth (Fig. 18-5).

FIGURE 18-5 Guide plane with 2–4 mm occlusogingival

height is considered ideal.

Purpose of guiding plane

• Guiding plane helps in smooth placement and removal of the

prosthesis.

• It helps in stabilization of the prosthesis against horizontal forces.

• It ensures predictable clasp assembly function.

• It helps in reducing wedging forces between the teeth.

• It improves retention by frictional resistance.

• It decreases undesirable space between the tooth and the prosthesis,

thus aiding in oral hygiene maintenance.

• It can provide indirect retention to the prosthesis.

• It helps in restoring original width of the edentulous space.

Types of guiding planes on the basis of their

location

(i) Guiding planes on the abutment in tooth-supported cases

(ii) Guiding planes on the abutment next to the distal extension

edentulous space

(iii) Guiding planes on the lingual surfaces of the abutment teeth

(iv) Guiding planes on the anterior abutment teeth

Preparation of the guiding planes

• After the diagnostic cast is surveyed and the tilt of the particular

design of partial dentures is planned.

• Similar relationship is duplicated in the patient’s mouth during

mouth preparation.

• A cylindrical diamond point is used to make the preparation. A

light sweeping stroke from the buccal to the lingual line angle is

usually used.

• Approximately, 2–4 mm of flat surface is created on the

occlusogingival surface parallel to the planned path of insertion.

• Usually, five to six light sweeping strokes are sufficient to produce

desired reduction.

• Reduction should always follow the contour of the tooth.

• All the prepared tooth surfaces should be polished with

carborundum-impregnated rubber wheel after preparation.

• Fluoride gel application can be advantageous on the prepared

surface.

• In distal extension cases, the occlusogingival height of the plane is

reduced to 1.5–2 mm in order to facilitate the rotation of the partial

denture around the distal occlusal rest.

• Guiding planes on the lingual surface ensure maximum resistance

to the lateral stresses, thereby, providing additional stabilization.

Key Facts

• Shape of the rest seat in natural posterior teeth should be saucershaped.

• A rest helps to transmit the occlusal stresses parallel to the long axis

of the tooth.

CHAPTER

19

Impression making in removable

partial denture

CHAPTER OULINE

Introduction, 297

Impression Making in Tooth-Supported Partial Denture Cases, 297

Factors Influencing the Support of the Distal

Extension Denture Base, 297

Factors Influencing the Support of the Distal

Extension Partial Dentures, 298

Introduction

Impression making is done after the mouth preparation is completed.

This is one of the most fundamental areas for the success of removable

partial denture (RPD). The impression of the teeth is made using

impression material in anatomic form, whereas impression of residual

ridge is recorded in functional form. Therefore, dual impression is

required to obtain the master cast. It is essential to study various

impression techniques and impression materials used in fabrication of

RPDs.

Impression making in tooth-supported

partial denture cases

The impression making in tooth-supported partial denture cases is

simpler when compared with tooth tissue-supported denture cases. In

tooth-supported partial denture cases (Kennedy class III and most of

Kennedy class IV), the functional forces are transmitted directly along

the long axis of the teeth through the rests. In this case, the edentulous

ridge will not contribute to the support of partial denture, as the

abutment teeth bear the forces before they reach the edentulous ridge.

Therefore, in tooth-supported partial denture cases, functional

impression is not required and the impression can be made in

anatomic form. The denture can be fabricated on the cast made by

impression of the tissues in anatomic form. Irreversible hydrocolloids are

the most widely used material for making impression in anatomic

form. The alginate impression should be poured within 12 min after

being removed from the mouth. The alginate impression material is

easy to handle, relatively inexpensive, dimensionally accurate and

does not require expensive armamentarium.

Factors influencing the support of the distal

extension denture base

In distal extension cases, the support is derived from both the

edentulous ridge and the abutment tooth. Therefore, a dual

impression technique is advocated to equalize the support derived

from both the edentulous ridge and the abutment teeth. The

impression of the teeth is recorded in the anatomic form and the

impression of the soft tissues is recorded in the functional form.

Factors influencing the support of the distal

extension partial dentures

Type of soft tissue covering the edentulous ridge: A firmly bound

adequately thick attached mucosa provides the maximum support

to the denture.

Type of alveolar bone constituting the denture-bearing area: Cortical

bone with adequate thickness provides best support for the denture.

Design of the partial denture: It is important to reduce the amount of

stress on the edentulous ridge in distal extension cases. This is made

possible by the following ways:

• Placing indirect retainers anterior to the fulcrum

line in order to resist the rotational movement of

the denture.

• Additional components such as minor connectors

are used to contact the proximal guide plane to

resist the rotation of the denture around the

fulcrum line.

Magnitude of occlusal force: Amount of force per unit of the denture

base is reduced to enhance the longevity of the prosthesis. It is done

by:

• Broad coverage of the edentulous ridge.

• Narrowing of the occlusal table.

• Increasing efficiency of the occlusal table by

providing sluiceways to improve the mastication.

Amount of tissue covering the denture base: Broader the coverage of

the edentulous ridge, greater will be the distribution of the stresses.

Nature of the denture-bearing area: The primary support or the stressbearing area should be identified in the maxillary and mandibular

ridges to provide maximum support.

• In the maxillary arch, buccal slopes of the ridge are

capable of resisting the lateral forces and the bony

palate is capable of resisting the vertical forces.

• In the mandibular arch, buccal shelf region is an

excellent primary stress-bearing area.

Fit of the denture base: Accurate fit of the denture is important in

transmitting forces to the primary stress-bearing area.

Impression methods used for distal extension

removable partial denture

The dual impression technique is often indicated for distal extension

RPD. There are basically two types of dual impression techniques:

(i) The physiological or functional impression techniques

• McLean and Hindel’s method

• Functional relining method

• Fluid wax method

(ii) The selected pressure impression technique

Functional impression techniques used in distal

extension RPD

The functional impression technique records the edentulous ridge by

placing occlusal load on the impression tray during impression

making. By doing this, the underlying tissues are displaced under

function.

Types of functional impression techniques:

(i) McLean and Hindel’s physiological method

(ii) The functional relining method

(iii) The fluid wax method

Mclean–Hindel’s physiological method

• The physiological impression technique was first advocated by

D.W. McLean.

• According to the proponents of this technique, the tissues of the

residual ridge of distal extension cases are recorded in functional

form and then a second impression is made over it.

• A custom impression tray is fabricated over the primary cast of the

arch without spacer.

• Occlusal rim is made on the custom tray.

• The custom tray is loaded with the impression paste and the tray is

seated over the ridge area.

• The patient is asked to bite over the occlusal rim as the impression

paste sets (Fig. 19-1).

• With the biting, the underlying tissues are compressed and the

tissues are recorded in functional state.

• Without removing the custom tray, a second impression is made

with alginate using a stock tray.

• While making the second impression, the finger pressure is applied

until the alginate impression material sets.

FIGURE 19-1 The patient is instructed to bite on a loaded

custom tray.

Disadvantages

• Finger pressure is not equal to the biting pressure applied during

functional impression.

• The small amount of alginate material present between the occlusal

rim and the stock tray acts as buffer and restricts transfer of entire

load (finger pressure) to the custom tray.

Hindel’s modification

• According to G.W. Hindel, the first impression which is made of the

edentulous ridge should be an anatomic impression, i.e. the

impression is made with impression paste without applying any

pressure.

• Hindel developed a stock tray for the second impression which was

provided with holes so that the finger pressure could be applied

through it.

• While making the second impression, a finger pressure is applied

through the holes provided in the stock tray (Fig. 19-2).

• The finger pressure is maintained until the alginate sets.

• This pressure simulates the condition as if the masticatory force was

taking place.

• The primary aim of this technique was to record the edentulous

ridge in the form of functional loading.

FIGURE 19-2 Impression making with Hindel’s modified

stock tray.

Disadvantages

• In a denture made with this technique, if the clasp assembly is

effective, it will allow the denture base to displace the soft tissue in

functional form. This will lead to adverse tissue reaction and

resorption of the bone.

• If the clasp assembly is not effective, it will maintain the denture

base slightly occlusal in rest position. When the patient occludes,

the artificial teeth come in contact before the natural teeth which is

uncomfortable to the patient.

Functional relining technique

• Here, a physiological impression is obtained to support a distal

extension denture base (after the completion of partial denture).

• It consists of adding a new surface to the tissue surface before the

insertion of the denture or at a later stage.

Steps in functional relining technique

• First an anatomic impression is obtained using irreversible

hydrocolloid.

• The impression is poured to get the master cast.

• The master cast is duplicated to obtain a duplicating cast.

• Over the duplicating cast, a soft metal spacer is provided to ensure

uniform space for the impression material between the denture base

and the ridge.

• The cast framework is then fabricated.

• After processing, the metal spacer is removed and an even space is

created between the denture base and the ridge.

• A low-fusing modelling plastic is flown over the tissue surface of the

denture base, tempered in water bath and seated in the patient’s

mouth.

• This procedure is repeated until an accurate impression of the ridge

is made.

• Border moulding is accomplished by proper manipulation of the

border tissues.

• After completion of this procedure, a final impression is made by

uniform scrapping of modelling plastic to a depth of 1 mm to

provide adequate space for the impression material.

• The final impression is made with free flowing zinc oxide eugenol

paste. In case of undercuts, light-bodied polysulphide or addition

silicone is used.

• During this technique, the patient is instructed to maintain the

mouth in partially open position.

• This is done in order to best control the movement of cheeks and the

tongue and observe the relationship between the framework and

the teeth.

Advantages

• Fit of the denture base on the edentulous ridge is superior.

• The amount of soft tissue displacement can be controlled by the

amount of relief given. Greater the relief provided to the modelling

plastic before the final impression, lesser will be the tissue

displacement.

Disadvantages

• As this is an open mouth impression technique, it is difficult to

maintain a correct relationship between the framework and the

abutment teeth during impression making.

• It is difficult to maintain correct occlusal contact following relining.

Fluid wax technique

Purpose

• This technique is used to reline the existing partial denture

framework.

• This technique is used to correct the distal extension edentulous

ridge portion of the original master cast.

Objectives

• To obtain the maximum possible extension of the peripheral borders

of the denture base without interfering with the function of the

border tissues

• To record the stress-bearing areas in the functional form

• To record the non-stress-bearing areas in the anatomic form

Procedure

• This is an open mouth technique.

• Fluid wax consists of special waxes which are rigid at room

temperature and it has the ability to flow at mouth temperature

(e.g. Iowa wax developed by Dr Smith and the Korrecta wax

developed by Dr O.C. Applegate and Dr S.G. Applegate).

• Approximately, 1–2 mm relief space is desired between the

impression tray and the edentulous ridge.

• Once the loaded tray is seated in the patient’s mouth, it should be

left undisturbed for 5–7 min in order to allow the wax to flow

sufficiently without pressure build up.

• For the clinical technique, a water bath is maintained at a

temperature of 51–54°C into which the wax container is placed.

• The fluid wax is painted on the tissue surface of the impression tray.

• Borders of the impression tray should be short by 2 mm of all

movable border tissues.

• It is important to note that the fluid wax lacks sufficient strength to

support itself, if the border is made short by more than 2 mm.

• The loaded tray is positioned in the patient’s mouth for at least 5

min before making another addition.

• Before every addition, the impression tray is inspected for proper

tissue contact.

• If tissue contact is there, the wax will appear glossy; it will be dull, if

there is no contact.

• The peripheral extensions are recorded by proper tissue movements

of the patient.

• These movements are repeated a number of times until a positive

tissue contact is observed.

• Once complete tissue contact with anatomy of the limiting border

tissue is evident, the impression tray is again placed in the mouth

for the final time for about 12 min to ensure complete flow of the

wax.

• The finished final impression is poured as soon as possible, as the

fluid wax is subjected to distortion, if not handled carefully.

Advantage

• This technique can produce an accurate impression, if the steps are

properly followed.

Disadvantages

• The procedure is time consuming and technique sensitive.

• Proper time period during impression procedure should be

followed; otherwise, an impression with excessive tissue

displacement will result.

Selective pressure technique

• This technique is based on the concept of loading the stress-bearing areas

and adequately relieving the non-stress-bearing areas.

• By doing this, greater functional stress is directed to the stressbearing areas and lesser stress is directed to the non-stress-bearing

areas.

• The custom tray is selectively relieved by trimming with acrylic bur.

• The primary stress-bearing areas are minimally relieved and the

non-stress-bearing areas are sufficiently relieved.

• Greater the relief, lesser will be the tissue displacement and vice

versa.

• In the lower arch, the buccal shelf area is the primary stress-bearing

area and should be slightly relieved.

• The lingual slope of the residual ridge that resists the horizontal or

the rotational forces should also be relieved minimally.

• In patients with easily displaceable tissues covering the ridge, more

relief can be obtained by making holes in the impression tray so as

to avoid excessive pressure of the impression material.

Advantages

• This technique provides a closely fitting denture base.

• The tissues are selectively loaded depending on the stress-bearing

capacity.

Disadvantage

• It is difficult to accurately demarcate and relieve the stress-bearing

and non-stress-bearing areas.

Altered cast technique or corrected cast

technique

• In both the fluid wax impression technique and the selective

pressure impression technique, an impression of the edentulous

ridge is made by the impression tray attached to the metal

framework.

• The master cast is then altered to accommodate new ridge

impression.

• This technique is called the altered cast or the corrected cast technique.

Altered cast partial denture impression is defined as ‘a negative

likeness of a portion or portions of the edentulous denture bearing areas made

independent of and after the initial impression of the natural teeth. This

technique employs an impression tray(s) attached to the removable dental

prosthesis framework or its likeness’. (GPT 8th Ed)

Altered cast is defined as ‘a final cast that is revised in part before

processing a denture base also called corrected cast or modified cast’. (GPT

8th Ed)

The altered cast method is composed of the following three main

steps:

Step 1: Individual acrylic resin impression base is added to the lattice

framework.

• Holes are placed along the alveolar groove for the

excess impression material to escape.

• Framework with the attached trays is adjusted in

the patient’s mouth.

• Borders of the tray are trimmed 2–3 mm short of all

the reflections but should cover the retromolar pad.

• Low-fusing modelling plastic is used for border

moulding.

• Completed border moulded tray is inspected for fit

and extension.

Step 2: Final impression is made with zinc oxide eugenol paste, fluid

wax or rubber base impression materials.

• Framework should be completely seated and

maintained in position during the setting of the

impression material.

Step 3: Altering the master cast.

• The master cast is altered to accommodate the

newly corrected impression.

Procedure

• The edentulous ridge area of the master cast, originally recorded in

anatomic form, is removed with the help of saw in two planes (Fig.

19-3).

• One cut is made perpendicular to the longitudinal axis of the ridge,

1 mm distal to the abutment tooth.

• The second cut is made just lingual and parallel to the lingual

sulcus, as recorded in original impression.

• The cut surface of the cast is grooved for additional retention of the

stone poured to get the altered cast.

• Completed final impression is seated on this cut cast and secured in

position with the help of sticky wax (Fig. 19-4).

• The assembly with new impression and cast is reversed.

• The peripheral borders of the impression are protected with the

utility wax and the entire assembly is wrapped with boxing wax.

• Before pouring stone, the original cast is saturated with 12 mm of

water for 5 min.

• The ridge areas are then poured with stones of different colours to

differentiate the new impression from the rest of the cast.

• After final set of stone, the boxing wax is removed and the cast is

trimmed.

• This corrected cast or the altered cast is used to complete the partial

denture (Fig. 19-5).

FIGURE 19-3 Sectioned master cast.

FIGURE 19-4 Framework with final impression seated on a

sectioned master cast.

FIGURE 19-5 An altered master cast.

Key Facts

• Dual impression technique is usually indicated in distal extension

cases.

• Fluid waxes have ability to flow at mouth temperature and be firm

on room temperature.

• Iowa wax was developed by Dr E.S. Smith.

• Zinc oxide eugenol paste is the material of choice for recording

edentulous ridge, which is without gross undercut.

CHAPTER

20

Laboratory procedures, occlusal

relationship and postinsertion of

removable partial denture

CHAPTER OUTLINE

Introduction, 304

Steps Involved in the Fabrication of Cast Partial Denture, 304

Block Out of Master Cast, 305

Relief in Relation to Fabrication of Cast Partial

Framework, 306

Waxing of the Cast Partial Framework, 306

Refractory Cast, 307

Spruing in Relation to Cast Partial Denture

Fabrication, 307

Procedure of Burnout, Casting and Finishing

and Polishing of the Cast Framework, 308

Methods of Establishing Occlusal Relationship for Partial

Dentures, 309

Articulator or Static Technique, 309

Aesthetic Try-In in Removable Partial Dentures, 310

Purpose, 310

Procedure, 310

Introduction

This chapter includes various laboratory steps involved in the

fabrication of cast partial dentures. It is essential to have the

knowledge of principles and techniques involved in the fabrication of

removable partial denture (RPD) for better understanding and success

of partial dentures.

Steps involved in the fabrication of cast

partial denture

The steps involved in the fabrication of cast partial framework are as

follows:

(i) Fabrication of the master cast

(ii) Surveying of the master cast

(iii) Block out and relief of master cast

(iv) Master cast duplication

(v) Refractory cast fabrication

(vi) Beeswax dip

(vii) Waxing of the partial denture framework

(viii) Spruing of the waxed framework

(ix) Investing of the waxed framework

(x) Burnout

(xi) Casting

(xii) Finishing and polishing

Fabrication and surveying of the master cast have already been

described in Chapters 17 and 19.

Block out of master cast

Definition

Block out is defined as ‘the process of applying wax or another similar

temporary substance to undercut portions of a cast so as to leave only those

undercuts essential to the planned construction of the prosthesis’. (GPT 8th

Ed)

Objective of block out

Objective of block out is to eliminate undercut areas on the master cast

that will be crossed by the rigid parts of the partial denture.

Procedure prior to block out

• Before the block out procedure, maxillary cast will require beading.

• Beading is not done on the mandibular cast because the major

connector lies on thin, attached mucosa, which will not tolerate the

positive contact.

• Mater cast should be sprayed with a sealer to protect the design

through the block out and duplication procedures.

Block out procedure

• Block out wax should always be placed below the height of contour

on the cast.

• Any wax placed above the height of contour and not removed will

result in cast framework which will not contact the tooth on the

cast.

• Cast scrapping during wax removal will result in oversized casting

which will require adjustment during framework fitting.

• The shaping of the wax should take place when excess of block out

wax is placed in all the undercut areas.

Types of block out

(i) Parallel block out

(ii) Shaped block out

(iii) Arbitrary block out

Parallel block out

• In this type of block out, all the undercuts below the height of

contour are blocked.

• It is done once the master cast is surveyed and the desired path of

insertion is determined.

• Block out wax is used to fill all the undercuts below the survey line

and parallel to the determined path of insertion.

• Excess wax is trimmed by the parallel wax carving blade-like device

mounted on the surveyor.

• Parallel block out is usually accomplished in all tooth-borne partial

dentures.

Shaped block out

• This is indicated just below the retentive tip of the clasp arm on the

primary abutment.

• Block out wax is shaped to provide a slight ledge just apical to the

clasp tip.

• This ledge helps in guiding the placement of the wax or plastic

pattern for the clasp arm so that it lies at the desired position in the

undercut area.

Arbitrary block out

• This is indicated in all the areas not involved in the framework

design in order to minimize distortion during duplication.

This block out is also indicated in the following areas:

• All areas of gross soft tissue undercuts

• Tissue undercuts distal to the cast framework

• Labial and buccal tooth and tissue undercuts not involved in

denture design

Relief in relation to fabrication of cast partial

framework

During the fabrication of the partial denture, certain areas require

relief. The common areas which require relief are:

• Below the lingual bar connectors or bar portion of the linguo-plates

• Maxillary or the mandibular tori

• Below the framework, over the edentulous ridge for attachment of

the acrylic resin

The purpose of relief is to create a space between the framework and

the cast. To provide relief, a sheet of wax is adapted over the ridge

area of the cast. The amount of space provided for the acrylic resin is

determined by the thickness of the relief wax. It is important to have

at least 1 mm of thickness of the acrylic resin. Thinner resin is often

porous and weak.

Relief is also required to obtain sharp and definite internal finish line.

This ensures the metal resin junction to be at right angles. A small

square of wax of dimension 2 mm is cut in the relief wax to form the

tissue stop (Fig. 20-1).

FIGURE 20-1 Diagram showing relief wax and tissue stops.

Waxing of the cast partial framework

The waxing procedure of the cast partial denture framework is started

after the design is transferred from the master cast to the refractory

cast. Boley gauze is used for the accurate transfer of the design to the

refractory cast. A sharp lead pencil is useful in copying the outline of

the framework on the refractory cast. The position of the clasp tip is

the most critical part during design transfer.

Commercially available plastic patterns are commonly used during

wax-up procedure.

Procedure

• The plastic patterns are adhered to the refractory cast using an

adhesive.

• The shape of the clasp greatly affects its flexibility.

• The clasp pattern is cut greater than that required.

• Once the plastic patterns are placed on the cast they are adapted to

contours without distortion.

• Care is taken so that the pattern is not stretched.

• Plastic pattern once contoured is joined together with wax similar in

composition to the blue inlay wax.

• This wax is used to seal the margin of the major connectors. This is

also used in freehand waxing of minor connectors and rests.

• Soft blue casting wax is used to reinforce the wax joints, occlusal rest

seat and for build-up of the periphery of the pattern.

• Waxed-up framework is then finished and polished with precise

flame (Fig. 20-2).

FIGURE 20-2 Complete wax-up maxillary framework.

Refractory cast

Refractory cast is defined as ‘a cast made of a material that will withstand

high temperatures without disintegrating also called investment cast’. (GPT

8th Ed)

Duplication of the master cast is important in fabrication of the cast

partial denture. The duplication of the master cast results in the

formation of the refractory cast. Duplication begins after the block out

and relief of the master cast are completed. The material and the type

of technique used for duplication depend on the type of alloy used for

fabrication of cast partial denture.

The investment material or the refractory is chosen depending on

the alloy selected for fabrication. Low heat investment such as the

gypsum-bonded investment material is used for casting type IV gold

alloy and ticonium. This refractory material can be burned out at 704°C

without causing breakdown of the investment. High heat investment

material such as the phosphate-bonded investment material is used

for casting cobalt–chrome alloy. The burnout temperature of this

material is 1037°C.

The investment material is mixed following the manufacturer’s

instructions and is poured over the colloid mould. Once the

investment material is completely set, the refractory cast is carefully

removed and placed in the drying oven at 93°C. The dry refractory

cast is soaked in hot beeswax dip to ensure smooth and dense surface.

The heated cast is dipped in beeswax at 138–149°C for 15 s.

Spruing in relation to cast partial denture

fabrication

Spruing of the framework

Sprue is defined as ‘the channel or hole through which plastic or metal is

poured or cast into a gate or reservoir and then into a mold’. (GPT 8th Ed)

Purpose of spruing

• It acts as a reservoir of the molten metal.

• It leads the molten metal from the crucible into the mould cavity.

Principle of spruing

• Sprues should be large enough to feed the molten metal into the

empty mould.

• It should consist of 8–12 gauze round wax.

• Channel should lead into the cavity as directly as possible for

minimum turbulence for flow.

• The primary sprue should be attached to the most bulky portion of

the wax framework.

• Secondary or accessory sprues should be attached to the thinner

section to complete the casting.

• All the sprue channels should originate from a common point in the

crucible.

• The point of attachment of the sprue to the wax pattern should be

flared rather than at right angle.

Types of spruing

Based on the number of sprues

Single: It consists of using a single sprue such as with casting ticonium

alloy.

Multiple: It consists of using multiple sprues such as with casting gold

alloys and high heat chrome–cobalt alloy.

Based on the location of the main sprue

Direct or top spruing: This is done for mostly spruing the maxillary wax

framework. It consists of sprue originating from the top of the wax

pattern from the crucible former.

Indirect or bottom spruing: This is usually done for the mandibular

partial dentures. The spruing is done from the centre of the

refractory cast. It consists of a 7-mm wide and 10-mm long central

sprue coming out from the central hole. The auxiliary sprues are

attached to the central sprue about 7 mm below the tip of the central

sprue.

Rear spruing: This consists of a single large sprue attached to the rear

of the maxillary complete palatal major connector.

Procedure of burnout, casting and finishing and

polishing of the cast framework

Burnout

Purpose of burnout

• To drive off moisture in the mould

• To completely eliminate the plastic and wax pattern

• To expand the mould in order to compensate for the shrinkage of

the metal

• To completely remove the carbon residue from the investment

material

Burnout cycle

The investment ring is placed in the burnout furnace. At the start of

the burnout cycle, the investment should be moist.

1st hour: Temperature is maintained at 100°C; water is driven out

during this phase.

2nd hour: Temperature is increased to 238°C.

• Temperature equalization between the mould and

furnace phase takes place.

• Wax vaporization takes place and there is complete

removal of water during this phase.

3rd hour: Temperature is raised to 675–710°C for 1.5–2 h.

• This is called the soaking period.

• There is complete removal of carbon residues, wax

pattern and moisture from the interstices of the

investment during this phase.

Casting

Purpose of casting.

Purpose of casting is to quickly inject the molten metal into the

empty mould using force.

Types of force used

• Centrifugal force

• Air pressure under vacuum

Casting methods

• Gas oxygen blowtorch

• Oxyacetylene mixture

• Induction casting: It is the most common method used for modern

casting. It is based on the alternating electric current by the

induction of the magnetic field.

Temperature measurement.

It is done by the optical sensor which is located above the crucible.

Some of the sensors may be activated by the infrared wavelengths

emitted by the metal and are called optical pyrometers.

Procedure

• Casting machine is set according to the manufacturer’s instruction.

• Metal of required quantity is placed in the uncontaminated crucible.

• Metal is melted by activating the alternating current.

• Meanwhile, the mould is removed from the furnace and placed in

the holding mechanism.

• Once the desired temperature is achieved, the lever is released.

• Molten metal is released from the crucible and enters the empty

mould.

• Casting is completed.

Finishing of the casting

• The casted framework is retrieved after removing the investment

material.

• First the sprues are cut using high abrasive discs.

• Coarse finishing of the framework is done using abrasive stones or

sintered diamonds.

• Fine stones are used to finish the critical areas such as the retentive

clasp and rests.

Fitting of the framework

• Fitting of the framework is checked on the master cast using sprays,

disclosing media.

• Seating and grinding continues until the framework completely fits

the master cast.

Final finishing of the framework

• The framework is finally given a satin finish using the rubber

wheels, rag and felt wheels.

• The framework is placed in ultrasonic cleanser to remove debris

collected during the polishing procedure.

Methods of establishing occlusal

relationship for partial dentures

There are two methods of establishing occlusal relationship:

(i) Functionally generated path technique (refer Chapter 28)

(ii) Articulator or static technique

Articulator or static technique

This technique includes the following.

Direct apposition of the casts or hand articulation: This technique is

used when only a few teeth are missing and need to be replaced, as

sufficient number of opposing teeth are present to establish a

satisfactory relationship.

• Occluded casts are secured together with a sticky

wax and mounted arbitrarily on the hinge

articulator.

Using interocclusal record: It is used when adequate number of teeth

is present but the relation of the opposing natural occlusion does

not permit hand articulation.

• Metal-reinforced wax such as the Aluwax is used

for interocclusal record in centric occlusion or

centric relation position.

• If wax record is used, it should be corrected by

flowing rigid zinc oxide eugenol paste.

Jaw relation record entirely made on occlusion rims: This method is

used when there are no posterior natural teeth. For example, when

maxillary complete denture opposes the mandibular class I

situation or when both the maxillary and mandibular arches are

having class I situations.

• Vertical dimension is established in such cases as in

conventional complete dentures.

Occlusal relation using bite rims on the denture bases: This method

can be used with distal extension cases or in totally tooth-supported

cases with large edentulous spaces.

• Accurately fitting record bases are fabricated on the

edentulous ridge.

• Bite rims are fabricated over the record bases to

establish the jaw relationship.

• Bite registration paste or the impression plaster is

used to make interocclusal record at the established

vertical dimension.

Aesthetic try-in in removable partial

dentures

Aesthetic try-in of the denture is an essential step before the insertion

of the final prosthesis. This step is indicated when all the posterior

teeth are missing in both the arches or distal extension RPD is

opposed with complete denture.

Purpose

• Any correction in tooth size, shape, position or shade can be easily

accomplished during this stage.

• Jaw relation can be verified.

• To give the psychological satisfaction to the patient.

Procedure

• The patient is seated comfortably on the chair and is instructed not

to bite with too much force.

• The waxed partial dentures are completely seated in the patient’s

mouth and he/she closes the mouth lightly.

• First the gross error, if any, is corrected.

• The anteroposterior positioning of the anterior teeth is examined.

• The anterior teeth should provide adequate support to the lip and

should aid in natural appearance of the profile.

• Tooth length in relation to the lip length and length of the remaining

teeth are carefully evaluated.

• In patients with average lip length, the incisal edge of the anterior

teeth is slightly visible when the lips are relaxed.

• In the smiling position, gingival portion of the denture base is just

visible.

• Proper overjet and overbite are evaluated.

• The midline of the denture should be in harmony with the midline

of the face.

• The shade of the selected teeth should be verified in natural light.

• The final satisfaction and appearance of the denture should be left to

the patient.

Key Facts

• Aerosol spray is useful in fitting the framework on the master cast.

• Functionally generated pathway technique eliminates the need for

facebow transfer.

• Gypsum-bonded investment is used for casting type IV gold alloys

and ticonium.

CHAPTER

21

Insertion, relining and rebasing

CHAPTER OUTLINE

Introduction, 311

Troubleshooting during Metal Try-In and Fitting of the Framework in

Patient’s Mouth, 311

Troubleshooting during Metal Try-In of the

Framework, 311

Troubleshooting during Fitting of the Framework

in the Patient’s Mouth, 312

Postinsertion Instructions to the Partial Denture Patient, 312

Insertion and Postinsertion Problems and Their Management in

Relation to RPD, 312

Problems Encountered during Insertion, 312

Problems during Postinsertion, 313

Relining of RPD, 314

Indications, 314

Method of Relining, 314

Special Removable Partial Dentures, 315

Guide Plane Removable Partial Denture, 315

Role of Lingual Plate, 315

Disjunct Denture, 316

Spoon Denture, 316

Computer-Aided RPD Designing, 317

Flexible Dentures, 317

Introduction

The insertion of new removable partial dentures in patient’s mouth is

an important step in denture fabrication, as the patient appreciates the

final outcome of his/her treatment. The clinician ensures that the

dentures have a good fit, retention, aesthetics and comfort. The

removable partial dentures require far greater level of maintenance

than the fixed partial dentures because the edentulous ridges resorb

and the soft tissue support gets loose with time. The procedures of

relining and rebasing are indicated to maintain the fit and accuracy of

the removable partial dentures.

Troubleshooting during metal try-in

and fitting of the framework in patient’s

mouth

Troubleshooting during metal try-in of the

framework

• First, the metal framework should be examined on the master cast

for its fit. The framework should not fit too tightly on the cast.

• Any undercut should be relieved on the cast so as to avoid excessive

flexing of the retentive clasp arm.

• The tissue side of the framework is then carefully examined for any

blebs or metal artefacts which interfere during insertion. Any such

interference is removed with the help of suitable abrasive stone.

Troubleshooting during fitting of the framework in

the patient’s mouth

• The framework is tried in the patient’s mouth for complete seating.

• Any interference during seating of the framework is disclosed using

disclosing white paste or wax.

• Any interference is eliminated by using an appropriate abrasive.

• Framework is aligned along the path of insertion and with light

finger pressure is seated on to the abutment teeth to the final

position.

• Excessive force during seating should be avoided.

• The framework in the areas of occlusal rest and the clasp assembly

is checked thoroughly for any interference in occlusion.

• Any interference is checked by articulating paper and corrected with

equilibration procedure.

• The aim of this procedure is to adjust the occlusion in all functional

positions.

Postinsertion instructions to the partial

denture patient

After the insertion of the cast partial denture, the patient is given

instructions regarding its usage and maintenance. The written

instructions should preferably be given to the patient.

• The patient is advised for possibility of minor discomfort with the

use of artificial prosthesis.

• The patient can have difficulty with speech and during eating.

• The patient is advised to maintain proper hygiene.

• After every meal, the dentures should be cleaned with a small stiff

brush.

• The patient is advised to soak the dentures in cleansing solution for

at least 15 min once daily.

• The patient should always remove the denture at night and place it

in a water-filled container.

• The patient should follow strict follow-up regime.

• There may be a possibility of gagging with the new prosthesis.

• The patient should be taught the insertion and removal of the

prosthesis in determined path of placement.

• The patient should never bite on the prosthesis to seat it.

Insertion and postinsertion problems

and their management in relation to

RPD

The primary objectives of the insertion of the removable partial

denture (RPD) are:

• To accurately fit the denture base to the edentulous ridge

• To adjust the retentive clasps and correct occlusal discrepancies, if

any

• To instruct the patient on the maintenance of the prosthesis

Problems encountered during insertion

Problems regarding correct fit of the denture base

• Cast metal denture base should not be corrected during insertion

because any correction or adjustment is done during framework

try-in.

• If the denture base is made of acrylic resin, it may require correction

due to polymerization shrinkage during processing.

• Pressure-indicating paste is used to identify any overextensions or

pressure on the ridge.

• Denture base is altered or adjusted accordingly.

Occlusal discrepancies

• During insertion, occlusal discrepancy can occur between the

artificial teeth in one arch and the natural teeth or artificial teeth in

another arch.

• Any discrepancy or interference is identified and then corrected

using a suitable abrasive.

• Occlusal correction can also be corrected by laboratory remount

procedure.

• The completed partial denture is remounted on the articulator and

any occlusal discrepancy is identified and corrected. This procedure

saves the chairside time during insertion.

Problems with the retention of the prosthesis

If retention of the prosthesis is poor, the clasp arms are carefully

adjusted by applying a controlled force using pliers.

Caution: Overadjustment of the clasp may lead to breakage of the

clasp.

Problems during postinsertion

The dentures are evaluated 24 h after the insertion. Postinsertion

problems can be due to the following reasons:

• Irritation of the soft tissues

• Irritation of the hard tissues

• Miscellaneous problems

Irritation of the soft tissues

This can be due to some reasons which are as follows:

Overextended denture base: Overextended denture base can result in

soreness or ulceration of the soft tissues.

• Overextensions are checked using pressureindicating paste.

• Any overextension is trimmed using an acrylic

trimmer.

• After correction, the denture base is smoothened

and polished.

• Topical anaesthetic gel is prescribed for local

application.

Tissue side of the denture base is rough: Rough tissue surface of the

denture can cause redness and soreness.

• The rough tissue surface is identified using

pressure-indicating paste.

• Any rough surface is identified and smoothened

using stone burs.

Occlusal prematurities or discrepancies: This can result in pain.

• Occlusal discrepancies are checked using

articulating paper.

• Occlusal prematurities are checked in both the

centric and the eccentric positions.

• Occlusal adjustment is done using appropriate

abrasive.

Irritation of the hard tissues

• Once the causes of soft tissue irritation are identified and treated,

the abutment teeth and the remaining teeth should be carefully

examined.

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