L3 Obturation CLC-GP and Hydraulic

Question 1

what are the goals of obturation

Answer 1

eliminate all avenues of leakage from the oral cavity into the root canal system or out of the root canal system into the periodontal or oral tissues

Question 2

you want to seal within the RC system:

Answer 2

any irritants that cannot be fully removed during canal cleaning and shaping and prevent their leakage out to the peri-radicular tissues or leakage of saliva or other contaminants into pulp system

Question 3

RCT success depends upon thoroughness of:

Answer 3

removal of irritants and quality of seal of the canal system including coronal restoration

Question 4

what are the qualities of gutta percha

Answer 4

• can be softened by heat and solvents
• if heated sufficiently will change phases
• following softening it shrinks
• GP by itself does not seal
• must consider sealers

Question 5

what are the different isometric forms in which gutta percha exists

Answer 5

• alpha phase
• beta phase - CLC-GP
• amorphous melt

Question 6

what temperature is GP at the beta phase

Answer 6

98.6 F or 37 C

Question 7

what are the requirements for an ideal root filling cement

Answer 7

• should be easily introduced into the canal
• should seal the canal laterally and apically
• should not shrink after being inserted
• should be impervious to moisture
• should be bacteriostatic or at least not encourage bacterial growth
• should be radiopaque
• should not stain tooth structure
• should not irritate periapical tissue
• should be sterile, or quickly and easily sterilized before insertion
• should be easily removed from canal if necessary

Question 8

what are the types of sealers

Answer 8

-Zn-O eugenol
- resin
- glass ionomer
- silicone
- calcium hydroxide

Question 9

until bio-ceramic, bio-active sealers came into play:

Answer 9

no sealer was ideal and all sealers shrank upon setting and/or dissolved in body fluids over time

Question 10

bio-ceramic sealers:

Answer 10

-do not shrink
- do not dissolve
- are bio active

Question 11

BC sealer provides:

Answer 11

viability to the hydraulic technique

Question 12

when is GP necessary with bio ceramic sealers

Answer 12

as a source of hydraulic sealer compression/flow and a route to retreatment or post

Question 13

what is the standard of care for RC obturation

Answer 13

• GP positioned 1mm short of the canal exit
• totally filled with GP and sealer- no voids
• radiographic appearance of a dense filling
• avoidance of gross overextension into PA tissues
• minimal sealer beyond apical constriction
• no under fillings in the presence of a patent canal

Question 14

when are we ready to obturate

Answer 14

• asymptomatic
• free of signs and symptoms of infection and inflammation
• tooth is cleaned and shaped to facilitate obturation
• tooth isolated to prevent contamination during obturation
• comfortable and master cone fitted and XR
• root canal is dry
• DST is healed

Question 15

what are the acceptable obturation techniquea

Answer 15

• cold lateral compaction of GP
• hydraulic obt technique
• warm vertical compaction

Question 16

which obturation techniqeus do we not use

Answer 16

carrier based techniques with thermafil
- chemoplasticized (chloropercha)
- custom cones/solvents

Question 17

what is the secret to CLC-GP obturation success

Answer 17

compaction

Question 18

what does compaction in obturation mean

Answer 18

fill must be dense and free of voids and have a thin sealer layer

Question 19

describe cold lateral compaction

Answer 19

finger spreaders are used to compact the MC gutta percha in the canal to create space for more gutta percha accessory cones to accomplish a dense fill and thin film of sealer on the canal
- use .25 GP cone (red)

Question 20

what are the steps to lateral compaction

Answer 20

• master cone is fitted
• a finger spreader or plugger is inserted ideally to 6-2mm of the prepared length
• the spreader is rotated and removed and an accessory cone is placed in the space created
• repeat

Question 21

what is used with hydraulic obturation

Answer 21

BC sealer and .04 GP cones

Question 22

what is the size of the gutta percha cone the same as

Answer 22

the size of MAF

Question 23

how do you test the fit of the gutta percha master cone

Answer 23

gently insert in WET canal until resistance is felt near apex
- mark on the GP cone exactly to your reference point

Question 24

what happens in the radiograph if the GP master cone is too small

Answer 24

• distorts/crinkles near apex
• will have spaces

Question 25

what does it look like if the master cone is too big

Answer 25

will not seat at WL

Question 26

what is the last chance to correct a problem easily without re treatment

Answer 26

the master cone radiograph

Question 27

where should the. master cone stop when inserted

Answer 27

at WL

Question 28

if the MC is not tight at WL:

Answer 28

get a bigger master cone

Question 29

describe the hydraulic technique

Answer 29

• use a double coat technique on the master cone
• place GP gently in the root canal
• may dart additional GP cones in irregular canals
• sear off as per CLC-GP technique
• beware of possible sealer getting into mandibular canal on mandibular premolars and molars

Question 30

describe the cementation of the master cone

Answer 30

coat with sealer and place slowly and carefully to WL in canal then the master cone is removed from the root canal, coated again with sealer and gently repositioned to working length without any pumping motion

Question 31

what do you do with a type II canal

Answer 31

pick the easiest canal to fill to WL the second canal will merge into the first at some point short of WL

Question 32

what do you do with a wide canal

Answer 32

darting in additional 25/02 cones as necessary without the need of spreading

Question 33

how do you control the apical constriction

Answer 33

• do not take any instrument larger than your patency file beyond WL
• take care to never go beyond WL with any shaping instruments

Question 34

what should you do with an open apex

Answer 34

use CLC-GP instead of single cone

Question 35

what restoration do premolars and molars require and why

Answer 35

crowns to prevent VRF

Question 36

what restoration do anterior teeth require

Answer 36

may only need a composite restoration to restore RCT access with minimal loss of tooth structure

Question 37

what are the take home messages

Answer 37

• use GP with a bioceramic sealer
• obturate when the canal is dry and patient has remained asymptomatic
• lateral compaction needs blue finger spreaders
• hydraulic obturation technique uses an .04 GP cone and BC sealer
• sear GP below CEJ, clean the pulp chamber and seal the canal with GI

Question 38

what is gutta percha

Answer 38

trans-polyisoprene - an isomer of latex

Question 39

what GP is used in lateral compaction of GP

Answer 39

.02 taper GP
- sizes #20-#50

Question 40

what is the composition of gutta percha

Answer 40

• gutta percha: 18-22% (plasticity)
• zinc oxide: 59-76% (filler and mildly antimicrobial)
• waxes/resins/coloring agents: 1-4%
• metal sulfates: 1.5-1.8% (radiopacity)

Question 41

silver points are:

Answer 41

beneath the standard of care

Question 42

why are silver points unacceptable

Answer 42

• round peg in irregular hole
• corrodes when sealer washes out (silver oxide)
• may stain both tooth and gingiva

Question 43

why is paraformaldehyde containing pastes beneath the standard of care

Answer 43

• N-2 sargenti paste
• potential for great damage
• proven carcinogen

Question 44

why is any conventional paste only obturation doomed

Answer 44

paste will shrink and dissolve

Question 45

film pressure is required for dense fill but excessive force of compaction can cause:

Answer 45

iatrogenic fracture of root

Question 46

what is the ideal GP sealer

Answer 46

• compatibility
• inertness
• tissue tolerance
• inexpensive
• malleable
• relatively easy to work
• useful in many techniques
• dimensional stability
• resistance to dissolving

Question 47

what are bad characteristics of sealer

Answer 47

• notoriously poor seal
• expands and contracts with solvent and temperature