Principles of endodontic shaping

Question 1

Why do we instrument root canals?

Answer 1

• Remove infected soft and hard tissue
• Provide access for disinfecting irrigants access to the
  apical canal space
• Create space for the delivery of medicaments and
  subsequent obturation
• Retain the integrity of radicular structures

Question 2

What are 5 mechanical objectives of canal shaping?

Answer 2

• Continuously tapering funnel from the apex to the access cavity.
• Cross-sectional diameter should be narrower at every point apically.
• The root canal preparation should flow with the shape of the original canal.
• The apical foramen should remain in its original position.
• The apical opening should be kept as small as practical.

Question 3

What are 4 biological objectives of canal shaping?

Answer 3

• Confinement of instrumentation to the roots themselves.
• No forcing of necrotic debris beyond the foramen.
• Removal of all necrotic or inflamed tissue from the root canal space.
• Creation of sufficient space for intra-canal medicaments.

Question 4

Goals for shaping canals?

Answer 4

• Provide access to the pulp cavity and the radicular space.
• Remove infected vital or necrotic tissues from the main and lateral
  extensions of the root canal system.
• Creation of adequate space for effective disinfection and medication.
• Preserve the original anatomy, avoiding iatrogenic alterations.
• Respect to the periapical tissues.
• Create a shape that allows the obturation with current filling methods.
• Preserve tooth structure by removing the least possible amount of
  dentine structure necessary to achieve effective disinfection.

Question 5

Estimated working length?

Answer 5

Length from coronal reference point to radiographic apex minus 1mm
Length at which instrumentation should be instrumented. Determined by
measuring pre-operative radiograph.

Question 6

Master apical file?

Answer 6

Largest diameter file taken to working length

Indicates size of apical preparation

2-3 ISO file sizes greater than first file to bind

Question 7

Master apical cone?

Answer 7

Must have exact fit to apical preparation to enable apical control during obturation and avoid extrusion of material beyond the apex

Question 8

Barbed broach?

Answer 8

Used for extirpating not enlarging

Take out the pulp

Question 9

Why instrument root canals?

Answer 9

1. Remove infected soft and hard dentine.
2. Provide access for disinfecting irrigants.
3. Access to the apical canal space.
4. Create space for the delivery of medicaments and subsequent obturation.
5. Retain the integrity of radicular structures.

Question 10

What are the 5 mechanical objectives of canal shaping?

Answer 10

1. Continuously tapering funnel from the apex to access cavity.
2. Cross sectional diameter should be narrower at every point apically.
3. Root canal prep should flow with the shape of the original canal.
4. Apical foramen should remain in its original position.
5. Apical opening should be kept as small as practical.

Question 11

What are the 4 biologic objectives of canal shaping?

Answer 11

1. Confinement of the instrumentation to the roots themselves.
2. No forcing of necrotic debris beyond foramen.
3. Removal of all necrotic or inflamed tissue from the root canal space.
4. Creation of sufficient space for intra-canal medicaments.

Question 12

What are the goals of shaping?

Answer 12

1. Provide access to the pulp cavity and the radicular space.
2. Remove infected vital or necrotic tissues from the main and lateral extensions of the root canal system.
3. Creation of adequate space for effective disinfection and medication.
4. Preserve original anatomy avoiding iatrogenic alterations.
5. Respect to the PA tissues.
6. Create a shape that allows the obturation with current filling methods.
7. Preserve tooth structure by removing the least possible amount of dentine necessary to achieve effective disinfection.

Question 13

What is the estimated working length?

Answer 13

Length from coronal reference point to radiographic apex minus 1mm.

Question 14

What is the correct working length?

Answer 14

Length at which instrumentation and subsequent obturation should be limited.

Question 15

How to obtain the correct working length?

Answer 15

Electronic apex locator and/or working length radiograph.

Question 16

What is the master apical file?

Answer 16

Largest diameter file taken to working length; indicates size of apical preparation.

Question 17

What is the master apical cone?

Answer 17

Must have exact fit to apical prep to enable apical control during obturation and avoid extrusion of material beyond the apex.

Question 18

What instruments can be used to debride and shape the root canal?

Answer 18

1. Barbed broach.
2. Gates Glidden.
3. Stainless steel instruments.
4. Hand instruments/files.

Question 19

What are barbed broaches used for?

Answer 19

Extirpating, not enlarging; should select the largest size broach which will fit freely in canal.

Question 20

What are Gates Glidden instruments?

Answer 20

Traditional instruments used to shape orifice canal; used in slow speed handpiece; use passively on withdrawal from canal using brush-like circumferential movement.

Question 21

What speed should Gates Glidden not exceed?

Answer 21

800 rpm.

Question 22

What are some different hand instruments?

Answer 22

1. K-reamers.
2. K-files.
3. H-files.

Question 23

What are H-files?

Answer 23

Hedstrom files.

Question 24

What are H-files used for?

Answer 24

Removing GP or fractured instruments in cases of re-treatment; should not be used for canal preparation anymore.

Question 25

What are hand files used for (except H-files)?

Answer 25

1. Exploration.
2. Canal patency.
3. Establishing glide path.
4. Cleaning.
5. Shaping.
6. Apical gauging.

Must never be used with filling motion due to increased risk of iatrogenic damage.

Question 26

What shape indicates a K-reamer?

Answer 26

Triangle.

Question 27

What shape indicates a K-file?

Answer 27

Square.

Question 28

What shape indicates an H-file?

Answer 28

Circle.

Question 29

Where is the cutting edge of K-reamers?

Answer 29

Nearly parallel to long axis.

Question 30

How to use a K-reamer to be effective?

Answer 30

Must be in contact with the walls of the canal.

Question 31

Where is the cutting edge of the K-file?

Answer 31

Almost perpendicular to long axis.

Question 32

How to use a K-file?

Answer 32

Use with balancing force technique; do not use larger instruments too quickly or it may ledge within canal.

Question 33

What are K flexofiles?

Answer 33

Greater flexibility than standard K-files and older file types.

Question 34

What shape are K flexofiles in cross section?

Answer 34

Sizes 6, 8, and 10 are square; larger sizes are triangular.

Question 35

When are K flexofiles indicated?

Answer 35

Curved and narrow root canals.

Question 36

What are C+ files?

Answer 36

Have additional carbon added to the alloy to make the files harder.

Question 37

What shape are C+ files in cross section?

Answer 37

Square.

Question 38

When are C+ files useful?

Answer 38

Canal location; instrumentation where there is calcification.

Question 39

What sizes are C+ files available in?

Answer 39

8 to 15 only.

Question 40

Which technique is used for canal instrumentation using hand files?

Answer 40

Balanced force technique.

Question 41

How to do the balanced force technique?

Answer 41

Insert file into canal, rotate a quarter turn (90°) clockwise into dentine with gentle downward pressure; with continued gentle pressure, rotate counter clockwise (180°) to strip dentine away; repeat 1-3x, then remove from canal, remove debris and check shape; remove, clean, irrigate, reintroduce, work way towards working length.

Question 42

What are some complications of hand instrumentation?

Answer 42

1. Mishaps e.g. ledges, blockages, perforation, transportation of apical foramen.
2. Debris extrusion especially when used with filing motion.
3. Time consuming.
4. Less predictable shapes in curved canals.
5. Instrument fracture (more common with smaller file sizes).

Question 43

What is a blockage?

Answer 43

Dentine debris gets packed in apical portion of canal; when packed tightly it can be as hard as surrounding dentine; attempts to remove blockage can result in a false canal being cut and possible perforation.

Question 44

What are ledges?

Answer 44

Internal transportation of canal; occurs when short of working length; can be bypassed but this is difficult.

Question 45

How to bypass a ledge?

Answer 45

Placing a curve at the tip of a small file.

Question 46

How do perforations occur?

Answer 46

Extension of incorrect working length.

Question 47

How can perforations be diagnosed?

Answer 47

1. Persistent bleeding into canal.
2. Multiple radiographs.
3. Electronic apex locator reading within canal rather than at apex.
4. Microscope.

Question 48

What affects the prognosis of a perforation?

Answer 48

Location, time elapsed, size, periodontal irritation, material used for repair.

Question 49

What causes zipping/apical transportation?

Answer 49

Occurs as a result of the tendency of the instrument to straighten inside a curved canal.

Question 50

What can zipping/apical transportation result in?

Answer 50

Over enlargement along outer side of curvature; under preparation of inner aspect at apical endpoint; teardrop/hourglass shape in canal cross section.

Question 51

What material do we use for treatment of perforations?

Answer 51

Hydraulic calcium silicate cements.

Question 52

How to minimize/avoid zipping/apical transportation?

Answer 52

Precarving with small hand files; ensuring you do not skip any files in the sequence.

Question 53

What is NiTi?

Answer 53

Nickel titanium alloy.

Question 54

What are the benefits of nickel titanium files?

Answer 54

1. Superelasticity -> can undergo greater strain before permanent deformation.
2. Better corrosion resistance and biocompatibility.
3. Shape memory after heat treatment.
4. Greater tapers and variable tapers possible.

Question 55

What are the advantages of NiTi over SS instruments?

Answer 55

1. Increased flexibility in larger sizes and tapers.
2. Increased cutting efficiency.
3. Safer if used appropriately.
4. User friendly - less instruments and simple sequences.
5. Less ledging, zipping, apical transportation.

Question 56

What are the disadvantages of NiTi over SS instruments?

Answer 56

1. Fracture if used incorrectly.
2. More expensive.
3. Access in posterior teeth may be difficult.
4. Use with extreme caution where complex canal anatomy.

Question 57

What are the 2 modes of file fracture?

Answer 57

1. Cyclic fatigue.
2. Torsional fatigue.

Question 58

What is cyclic fatigue?

Answer 58

When an instrument is rotated in a curved canal due to repeated compressive and tensile stresses.

Question 59

What is torsional fatigue?

Answer 59

Occurs when the tip of the file binds in the canal and the motor continues to rotate.

Question 60

How to minimize the risk of file fracture?

Answer 60

1. Ensure straight line access.
2. Avoid overuse of files.
3. Ensure speed and torque settings are correct.
4. Inspect files for unwinding during use.
5. Continually move files within canal in no more than 3 strokes.
6. Continual irrigation and flushing of debris.
7. Advance files gradually by 2mm at a time.

Question 61

Which size instruments are more likely to succumb to cyclic fatigue?

Answer 61

Larger instruments.

Question 62

What are the different phases of NiTi?

Answer 62

1. Martensite.
2. Austenite.
3. R phase.

Question 63

How can NiTi shift from the austenitic phase to the martensitic phase?

Answer 63

Temperature stresses, mechanical stresses, or both.

Question 64

What are the components of rotary endodontic instruments?

Answer 64

1. Taper.
2. Flute.
3. Cutting edge.
4. Land.
5. Relief.
6. Helix angle.

Question 65

What is the taper of rotary endo instruments?

Answer 65

The change in diameter along the working surfaces.

Question 66

What is the flute of rotary endo instruments?

Answer 66

The groove to collect dentine and soft tissues.

Question 67

What is the cutting edge of rotary endo instruments?

Answer 67

Forms and deflects dentine chips line.

Question 68

What is the land of the rotary endo instruments?

Answer 68

The surface extending beyond the flutes.

Question 69

What is the relief of rotary endo instruments?

Answer 69

The reduction in surface of the land.

Question 70

What is the helix angle of rotary endo instruments?

Answer 70

The angle the cutting surface forms with the long axis of the file.

Question 71

What are the benefits of shaping with Protaper Ultimate?

Answer 71

1. Produces safer mechanical apical preparations.
2. Optimizes fluid exchange to promote 3D disinfection.
3. Controls apical obturation and appropriate sealing.

Question 72

How to shape with Protaper Ultimate files?

Answer 72

Use slider file first, use shaper files next, finish with finisher files.

Question 73

What are the two types of taper you can have with Protaper Ultimate files?

Answer 73

Progressive and regressive.

Question 74

What affects the colour of the wire?

Answer 74

Thickness of titanium oxide.

Question 75

Which Protaper Ultimate file can be used instead of a hand file?

Answer 75

Slider.

Question 76

When would you use FX and FXL Protaper Ultimate files?

Answer 76

Wide root canals.

Question 77

Which heat treatment is most flexible?

Answer 77

Gold.

Question 78

What is blue heat treatment?

Answer 78

Martensitic at room temperature; transitions to austenitic during use; increased resistance to cyclic fatigue than M wire.

Question 79

What are the two different shapes of tip on Protaper Ultimate files?

Answer 79

2 blade design and 3 blade design; there is a move towards a 2 blade design (2 cutting edges).

Question 80

Which Protaper Ultimate file to use for shaping the coronal two thirds?

Answer 80

One shaper.

Question 81

Which Protaper Ultimate file to use for sliding the glide path?

Answer 81

Slider purple gold file.

Question 82

What sequence to follow when using the Protaper Ultimate rotary files?

Answer 82

Hand files, white Protaper, yellow Protaper, red finisher F2, purple finisher F3.

Question 83

When to use auxiliary files?

Answer 83

If needed; allows you to treat more cases.

Question 84

What are the 4 interrelated traits of an ideal file?

Answer 84

1. Flexibility.
2. Cyclic fatigue resistance.
3. Cutting efficiency.
4. Torque strength.