Direct Retainers Part 1

Question 1

RPD Retention
• Resist

Answer 1

dislodging forces

Question 2

Primary Retention

Answer 2

– Mechanical from retaining elements on abutment
teeth

Question 3

Secondary Retention
(2)

Answer 3

– Intimate contact of minor connector with guide planes
– Intimate contact of denture base & maxillary major
connector with underlying tissues

Question 4

Direct Retainer

Answer 4

• RPD component used to retain and prevent
dislodgement

Question 5

Types of Direct Retainers (2)

Answer 5

Intracoronal
Extracoronal

Question 6

Intracoronal
(2)

Answer 6

– Internal precision attachment: key/keyway
– Most esthetic

Question 7

Intracoronal
Disadvantages: (3)

Answer 7

require crown,
complex fabrication, & high maintenance

Question 8

Extracoronal
(2)

Answer 8

– Clasp assembly
– More commonly used

Question 9

Clasp Types (2)

Answer 9

Suprabulge
Infrabulge

Question 10

Suprabulge
(2)

Answer 10

– Retentive arm approaches undercut from above the
survey line
– Circumferential, Akers, Circlet
• Synonyms

Question 11

Infrabulge
(2)

Answer 11

– Retentive arm approaches undercut from below survey
line
– Bar clasps

Question 12

A properly constructed suprabulge or infrabulge clasp assembly must incorporate the following
components:
(4)

Answer 12

a rest (A),
a retentive clasp (B),
a reciprocal element (C),
and one or more minor connectors (D).

Question 13

skipped
Specific design features of the various components include (4)

Answer 13

vertical and horizontal approach arms, clasp
termini, clasp bodies, and clasp shoulders.

Question 14

Rest: lies on (3)
– Prevent

Answer 14

occlusal, lingual, incisal surface

tissueward movement of clasp

Question 15

Reciprocal components
(3)

Answer 15

– Rigid component
– Above height of contour
– Reciprocal clasp,
Lingual plate,
Proximal plate, Guide plate (minor
connectors)

Question 16

Retentive clasp arm
(2)

Answer 16

• Proximal 2/3
• Rigid portion, above height of contour

Question 17

Retentive terminal
(4)

Answer 17

• Distal 1/3
• Flexible
• Below height of contour
• Provides direct retention

Question 18

Minor Connector
(2)

Answer 18

• Joins body of clasp to framework
• Rigid

Question 19

Approach arm
(3)

Answer 19

• Component of bar clasp
• Connects clasp to framework
• Flexible minor connector (Exception to rule)

Question 20

Requirements of Clasp Assembly
1. Support

Answer 20

– Resist vertical movement toward tissue
– Rests

Question 21

Requirements of Clasp Assembly
2. Stability
(3)

Answer 21

– Resist horizontal displacement
– Areas above the survey line
– All rigid components of direct retainer

Question 22

Requirements of Clasp Assembly
3. Encirclement of more than 180 degrees
(3)

Answer 22

– May be continuous or broken
– Minimum of 3 points used
– Prevents tooth from moving away from the
clasp

Question 23

Requirements of Clasp Assembly
4. Reciprocation
(4)

Answer 23

– Reciprocal component contact tooth at same
time or sooner than retentive clasp
– Remain in contact while
retentive tip passes over
height of contour
– Resist retentive tip
lateral forces
– Requires parallel surface
to path of insertion

Question 24

Requirements of Clasp Assembly
5. Passivity
(1)

Answer 24

– Components of direct retainer exert no force
when fully seated

Question 25

Requirements of Clasp Assembly
6. Retention
(1)

Answer 25

– Resists displacement of RPD away from
supporting tissues
– Area below survey line: ideally in gingival 1/3

Question 26

retention
• Clasp arm tip:

Answer 26

Terminal 1/3 below survey line

Question 27

• Retention portion of tooth must be — in relation
to path of prosthesis insertion

Answer 27

undercut

Question 28

Retention amount minimum necessary to

Answer 28

resist
reasonable dislodging forces

Question 29

Retention Factors
(3)

Answer 29

• Angle of convergence of the undercut
• Depth of undercut
• Flexibility of the retentive clasp

Question 30

• Depth of undercut
(3)

Answer 30

– 0.010”, 0.020”, 0.030”

Question 31

Retentive clasps should become active ONLY
when

Answer 31

disclosing forces are applied to them.

Question 32

Retentive Clasp
Their ability to provide retention is based on
the

Answer 32

resistance of the metal to deformation.

Question 33

Retentive Clasp
Flexibility Factors
1. Length
(2)

Answer 33

– Flexibility = length^3
• Double length, 8x more flexible
– Increase length, curve clasp

Question 34

Retentive Clasp
Flexibility Factors
Diameter
(1)

Answer 34

– Flexibility =1/diameter^3
• Double diameter,
8x less flexible

Question 35

Retentive Clasp
Flexibility Factors
Taper (In 2 dimensions)
(2)

Answer 35

– Clasp terminal ½ as thick as origin
• 1mm to 0.5 mm
– Clasp terminal ½ as wide as origin
• ~2mm to 1mm

Question 36

Retentive Clasp
Flexibility Factors
Cross-sectional form

Answer 36

– Round clasp more flexible than half-
round
• Round flexes in all spatial planes
• Half-round flexes in one plane

Question 37

Cross-sectional Shapes
Half round: (2)

Answer 37

Almost always as in
circumferential clasps
‣Flexes in only one direction

Question 38

Cross-sectional Shapes
Round: (3)

Answer 38

As in wrought wire clasps
‣Flexes omnidirectionally
‣Provides maximum flexibility

Question 39

Retentive Clasp
Flexibility Factors
5. Material
(4)

Answer 39

– Cast chromium alloys less flexible than cast gold
alloys
– Wrought alloys more flexible than cast alloy
– Cast Chromium

Question 40

Material
– With increasing clasp flexibility, must use deeper
undercut to obtain equal retention
• 0.010”:
• 0.015”:
• 0.020”:

Answer 40

Cast Chrome alloy
Cast Gold alloy
Wrought wire

Question 41

Clasp Material
‣Alloy used in casting the
framework:
(2)

Answer 41

‣ Usually Ticonium (NiCr) or
Vitallium (CoCr)
‣ Easy to fabricate

Question 42

Clasp Material‣ Wrought wire
(2)

Answer 42

‣ Produce by drawing metal through dies of smaller diameter
‣ Most flexible of all clasps

Question 43

Clasp Material
‣ Other
(2)

Answer 43

‣ Stainless steel, type IV gold

Question 44

The design of a retentive clasp arm should incorporate

Answer 44

maximum clasp length for optimal flexibility.

Question 45

Circumferential clasp
(2)

Answer 45

– Approaches undercut from above the survey line
– “Pulls” toward occlusal
to resist displacement

Question 46

Bar clasp
(3)

Answer 46

– Approaches undercut from below survey line
– “Pushes” toward occlusal to resist displacement
– Easier to seat, more difficult to remove than
circumferential clasp

Question 47

Reciprocal Clasp
• Must be —
• Shaped different than —
• Taper..

Answer 47

rigid
flexible retentive clasp
Not tapered

Question 48

Reciprocation is the means by which

Answer 48

one part of the
framework opposes the action of the retainer in
function.

Question 49

skipped
Reciprocation may be achieved by:
(5)

Answer 49

• Rigid plating (LINGUAL PLATE)
• Minor connectors
• Guide planes extended around the vertical line of
abutments
• Reciprocal clasp arms
• Contact areas of proximal teeth

Question 50

Most logical clasp for tooth-supported RPD
(Class III)

Answer 50

Circumferential Clasps

Question 51

Circumferential Clasps
Advantages

Answer 51

– Excellent stabilization, support, bracing
– Easiest to design & construct
– Easier to repair

Question 52

Circumferential Clasps
• Disadvantages
(3)

Answer 52

– Covers more tooth surface: more conducive to
caries by more plaque retention
– Increases tooth circumference
• May cause greater occlusal force exerted on tooth
– More difficult to adjust

Question 53

skipped
Circumferential Clasp Configuration
• Clasp kept as low on crown as survey line permits
(4)

Answer 53

– Less torquing action on tooth
– Less interference with occlusion
– If survey line is too high, enamel surface must be
recontoured to lower the survey line
– Survey line too low, Surveyed crown required

Question 54

Circumferential Clasp Configuration
• — clasp

Answer 54

Retentive

Question 55

Circumferential Clasp Configuration
• Retentive clasp (4)

Answer 55

– Cast ½ Round
– Proximal 2/3
– Terminal retentive 1/3
– Tapers from origin (2.0mm)
to tip (1.0 mm)

Question 56

Circumferential Clasp Configuration
– Proximal 2/3
(2)

Answer 56

• In middle 1/3 of tooth
• Above the survey line

Question 57

Circumferential Clasp Configuration
– Terminal retentive 1/3
(3)

Answer 57

• In gingival 1/3
• Below survey line
• Tip curves to occlusal

Question 58

Circumferential Clasp Configuration
• Reciprocal clasp
(4)

Answer 58

– Cast ½ round
– Entire clasp in middle 1/3
– Above the survey line
– No taper: Uniform width 1.5 –2.0 mm

Question 59

Circumferential Clasp Configuration
– Above the survey line
(2)

Answer 59

• If survey line too high, must recontour
• Prepare surface parallel to path of insertion

Question 60

skipped
Types of Circumferential Clasps
(7)

Answer 60

1. Circlet
2. Embrasure clasp
3. Reverse Circlet (hairpin) clasp
4. Ring clasp
5. Reverse Circlet clasp
6. Combination Clasp
7. RPC clasp

Question 61

Circumferential Clasps:
Circlet
(2)

Answer 61

• Circumferential clasp of choice Class III RPD
• Engage undercut remote from edentulous
area

Question 62

Circumferential Clasps:
Embrasure Clasp
(3)

Answer 62

• 2 circlet clasps joined at body
• Used when retainer is necessary in a dentate area
• Requires heavy reduction of abutment teeth for
adequate clasp bulk

Question 63

Circumferential Clasps:
Embrasure Clasp
• Used when retainer is necessary in a dentate area
(3)

Answer 63

– Class III with no modification space
– Class II with no modification space
– Class IV

Question 64

Circumferential Clasps:
Embrasure Clasp
• Requires heavy reduction of abutment teeth for
adequate clasp bulk

Answer 64

– Inadequate preparation, clasp fracture common

Question 65

Circumferential Clasps:
Reverse Circlet (Hairpin Clasp)
(5)

Answer 65

• Engage undercut adjacent to edentulous area Class
III RPD
• Covers extensive tooth surface, increased caries risk
• Difficult to fabricate
• Indication: Mesially-tipped mandibular molar with
mesiofacial undercut
• “Last choice” for mesially-tipped molars

Question 66

Circumferential Clasps:
Reverse Circlet (Hairpin Clasp)
• Indication: Mesially-tipped mandibular molar with
mesiofacial undercut

Answer 66

– ½ T preferred for this situation, if no tissue undercut at
approach arm

Question 67

Circumferential Clasps:
Ring Clasp
(6)

Answer 67

• Indication: Mesiolingually-tipped mandibular
molars Class III RPD
• Engage mesiolingual undercut
• Auxillary bracing arm for reciprocity
• Additional occlusal rest:
• Avoid if possible
• Incorrect Ring clasp: No reciprocation, No support

Question 68

Circumferential Clasps:
Ring Clasp
• Additional occlusal rest:
– for

Answer 68

support, prevent further mesial movement

Question 69

Circumferential Clasps:
Reverse Circlet Clasp
• Indication:

Answer 69

Retentive undercut adjacent to
edentulous space

Question 70

Circumferential Clasps:
Reverse Circlet Clasp
• Indication: Retentive undercut adjacent to
edentulous space
(3)

Answer 70

– Class III RPD
– Tooth-tissue supported RPD (Class I or II distal
extension)
– ½ T bar clasp preferred, if no tissue undercut at
approach arm

Question 71

Circumferential Clasps:
Reverse Circlet Clasp
• Difficult to

Answer 71

obtain adequate occlusal clearance
• Avoid, if possible

Question 72

Circumferential Clasps:
Combination Clasp
(3)

Answer 72

• Wrought round wire retentive clasp
• Cast ½ round reciprocal clasp
Wrought wire soldered to framework

Question 73

Circumferential Clasps:
Combination Clasp
• Indication:

Answer 73

Distal extension RPD (Class I & II)

Question 74

Circumferential Clasps:
Combination Clasp
• Indication: Distal extension RPD (Class I & II)
(2)

Answer 74

– Mesial rest not possible, distal rest must be used
– Mesiofacial undercut

Question 75

RPC Clasp (RPA)

Answer 75

• Rest (mesial), Proximal Plate, Circumferential
(Akers) clasp

Question 76

RPC Clasp (RPA)
• Indication:
(2)

Answer 76

– Class I, II RPDs
– Mesiofacial retentive undercut

Question 77

RPC Clasp (RPA)
Circumferential retentive clasp
(1)

Answer 77

– Cast ½ round (ALWAYS) except in periodontally
compromised teeth, cast round.

Question 78

RPC Clasp (RPA)
• Reciprocation:
(2)

Answer 78

– Distal proximal plate
– ML minor connector