Endodontics

Question 1

Compare the two types of primary dentine:

Answer 1

Mantle dentine- 1st layer formed closest to enamel/ cementum.

Pre-dentine- The layer of dentine that still has to be mineralised.

This is found between the odontoblast layer and mineralised dentine.

Question 2

What type of The vertucci canal classification is shown in this picture?

Answer 2

Vertucci type 1.

1 canal.

Question 3

What type of The vertucci canal classification is shown in this picture?

Answer 3

Vertucci type II

(2-1)

Question 4

What type of The vertucci canal classification is shown in this picture?

Answer 4

Vertucci type III.

1-2-1

Question 5

What type of The vertucci canal classification is shown in this picture?

Answer 5

Vertucci type IV

2

Question 6

What type of The vertucci canal classification is shown in this picture?

Answer 6

Vertucci type V

(1-2)

Question 7

What type of The vertucci canal classification is shown in this picture?

Answer 7

Vertucci type VI

2-1-2

Question 8

What type of The vertucci canal classification is shown in this picture?

Answer 8

Vertucci type VII

(1-2-1-2)

Question 9

What type of The vertucci canal classification is shown in this picture?

Answer 9

Vertucci type VIII

3

Question 10

What is the most common number of roots and canals found in:
Maxillary central incisor

Answer 10

roots: 1

Canals: 1

Question 11

What is the most common number of roots and canals found in:

Maxillary lateral incisor

Answer 11

Roots: 1

Canals: 1

Question 12

What is the most common number of roots and canals found in:

maxillary canine

Answer 12

Roots: 1

Canals 1

Question 13

What is the most common number of roots and canals found in:

Maxillary 1st premolar

Answer 13

Roots: 2

Canals: 2

Question 14

What is the most common number of roots and canals found in:

maxillary 2nd premolar

Answer 14

Roots:1

Canals: 1

Question 15

What is the most common number of roots and canals found in:

Maxillary 1st molar

Answer 15

Roots: 3

Canals: 4

Question 16

What is the most common number of roots and canals found in:

maxillary 2nd molar

Answer 16

Roots:3

Canals:3

Question 17

What is the most common number of roots and canals found in:

Mandibular central incisor

Answer 17

roots: 1

Canals: 1

Question 18

What is the most common number of roots and canals found in:

mandibular lateral incsior

Answer 18

root: 1
canal: 1

Question 19

What is the most common number of roots and canals found in:

mandibular canine

Answer 19

root: 1

Canal: 1

Question 20

What is the most common number of roots and canals found in the mandibular 1st premolar.

Answer 20

root: 1
canal: 1

Question 21

What is the most common number of roots and canals found in:

mandibular 2nd premolar

Answer 21

roots: 1
canals: 1

Question 22

What is the most common number of roots and canals found in:

mandibular 1st molar

Answer 22

Roots: 2

Canals 3

Question 23

What is the most common number of roots and canals found in:

mandibular 2nd molar

Answer 23

Roots; 2

Canals: 3

Question 24

State the law of centrality

Answer 24

That the pulp chamber floor lies at the centre of the tooth at the level of the CEJ

Question 25

State the law of concentricity

Answer 25

The walls of the pulp chamber are always concentric to the external surface of the tooth at the level of the CEJ.

(the undulations of the pulp chamber match the external undulations)

Question 26

State the law of the CEJ?

Answer 26

You use the CEJ to identify the pulp chamber.

Question 27

What is the 1st law of symmetry?

Answer 27

The orifices of the canal are equidistant from a line (PINK) drawn in a mesial distal direction from the pulp chamber floor.

Question 28

What is the law of symmetry II

Answer 28

The orifices of the canals lie on a line perpendicular to the line drawn in the law of SI.

Question 29

What are the exceptions to the laws of symmetry and why?

Answer 29

Maxillary molars as they do not have any planes of symmetry.

Question 30

What is the law of colour change?

Answer 30

That the colour of the pulp chamber is always darker than the walls.

Question 31

What is the 1st law of orifice location?

Answer 31

That the orifices are always located at the junction of the wall and the floor.

Question 32

What is the 2nd law of orifice location

Answer 32

The orifices are located at the angles in the floor wall junction (i.e. the corners)

Question 33

What is the third law of orifice location.

Answer 33

That the orifices are located at the terminus of the root developmental fusion lines.

(there are dark lines on the cavity floor that lead us to the orifice)

Question 34

What is the most commonly isolated bacteria for endodontic disease?

Answer 34

Candida albicans.

Question 35

Describe the main ways that bacteria infect the pulp:

Answer 35

By exposing dentinal tubules- This allows bacteria to reach the pulp.

By direct pulp exposure

Loss of periodontal attachment- allowing alternative routes via pockets in the pulp (ONLY affects non-vital pulp).

Anachoresis- when blood borne bacteria is attracted to inflamed or necrotic tissue during bacteraemia (causing the infection)

Question 36

What is the clinical objective of root canal treatment?

Answer 36

The removal of canal contents to eliminate infection and allow the patient to retain their tooth.

Question 37

Define the AEE definition of a normal pulp?

Answer 37

The pulp is symptom free and normally responds to testing

Question 38

Define the AEE definition of reversible pulpitis

Answer 38

Findings indicate that the inflammation should resolve and the pulp return to normal after managment of the cause:

Characterised:

• Discomfort when stimulus (cold/sweet) is applied- This goes away after removal.

Question 39

Define the AEE definition of symptomatic irreversible pulpitis

Answer 39

Findings indicate that the inflamed pulp is incapable of healing.

Features include:

Sharp pain upon thermal stimulus

Lingering thermal pain (>30s after removal of stimulus)

Spontaneous pain

Referred pain.

Increased pain at night (lying down increases pressure in the pulp chamber)

Ineffective over the counter analgesics.

Question 40

Define the AEE definition of Asympotomatic irrreversible pulpitis

Answer 40

Findings indicate that the vital inflamed pulp is incapable of healing.

There has been pulpal exposure (Caries/ caries extraction/ trauma) so inflammation is present but there are no clinical symptoms.

Question 41

Define the AEE definition of pulp necrosis

Answer 41

Death of the dental pulp.

The pulp is normally non-responsive to pulp testing.

Question 42

Define the AEE definition of previously treated

Answer 42

The tooth has been endodontically treated and the canals are filled with filling materials.

Question 43

Define the AEE definition of previously initiated therapy

Answer 43

The tooth has been previously treated by partial endodontic therapy e.g. pulpotomy or pulpectomy.

Question 44

Define the AEE definition of normal apical tissues

Answer 44

This is teeth with normal peri-radicular tissues that are not sensitive to percussion or palpitation testing.

The lamina dura surrounding the tooth is intact.

The periodontal ligament space is uniform.

Question 45

comapre the AEE definitions of

Symptomatic apical periodontitis and

Asymptomatic Apical periodontitis

Answer 45

Inflammation of the apical periodontium.

symptomatic- painful response to biting, percussion and palpitation.

Asymptomatic- No clinical but appears as an apical radiolucent area.

Question 46

Compare the AEE definitions of

Acute Apical abscess and

Chronic apical abscess

Answer 46

They are inflammatory reactions to pulpal infection and necrosis

Acute- characterised by rapid onset, spontaneous pain, tenderness of the tooth to pressure, pus formation and swelling of the associated tissues.

Chronic- characterised by gradual onset, little or no discomfort and intermittent discharge of pus through an associated sinus tract.

Question 47

Describe the AEE definition of:
Condensing osteitis?

Answer 47

A diffuse radiopaque lesion representing a localised bony reaction to a low grade inflammatory stimulus. (usually seen at the apex of the tooth)

Question 48

Compare the pain from A-delta fibres to C fibres.

Answer 48

A fibre pain- sharp prickling sensation.

C fibre pain- dull aChing or burning pain.

Question 49

Define an endodontic emergency?

Answer 49

Pain or swelling caused by various stages of inflammation or infection of the pulp or peri-apical tissues.

Question 50

How can you get post treatment disease after the nerve is removed from a tooth?

Answer 50

The tooth still sits on the PDL or alveolar bone which could cause inflammation or infection of the peri-apical tissue.

Question 51

What is characteristic of referred pain in dentistry?

Answer 51

Pain always radiates to the ipsilateral side.

Anterior teeth seldomly refer pain to other teeth or the opposite arch.

Posterior teeth refer pain to the opposite arch or periauricular area(ear)

Seldomly to anterior teeth.

Mandibular posterior teeth refer pain to the periauricular area more than maxillary teeth.

Question 52

Describe thermal pulp testing

Answer 52

Cold test- Apply ethyl chloride to the tooth near the pulp horn.

Heat- use hot gutta percha.

Question 53

Why are sensibility tests unreliable with multirooted teeth?

Answer 53

If one canal was necrotic and the other canal was vital.

The vital nerve would provide a response, so we would not know there was necrosis of the other canal.

Question 54

What is selective anaesthesia?

Answer 54

When you anaesthetise a particular tooth to see if the pain or symptoms diminish. This tells us the pain is coming from that tooth.

Question 55

How can you use sinus tract tracing to find the source of the infection.

Answer 55

By putting a gutta percha cone in the sinus and seeing if it leads to a particular root.

Question 56

What would be a complexity 1 root canal treatment?

Answer 56

• Single or multiple RC with curvature <15* to the root axis. (with Negotiable root canals for their entire length -From radiograph or clinical evidence) (No root canal obstruction or damaged access)
• incision or drainage required.

Question 57

What would be a complexity 2 root canal treatments?

Answer 57

• Single or multiple root canals with curvature >15° or <40° to the root axis. (with Negotiable root canals for their entire length-from radiograph or clinical evidence)
• Teeth with incomplete dental development.

Question 58

What would be a complexity 3 root canal treatment

Answer 58

• single or multiple root canals with curvature >40°
• NOT negotiable (from radiographic or clinical evidence)
• peri-radicular surgery
• Teeth with iatrogenic damage or pathological resorption.
• Teeth with difficult root morphology.

Question 59

List the 3 main aims of cavity design in endodontics

Answer 59

• Continuously tapered funnel shape.
• Maintain the apical foramen
• Keep the apical foramen as small as possible.

Question 60

Why do we taper our cavities?

Answer 60

To create space for the introduction of irirgants while maintaning sufficient tooth structure (to prevent the weakening of the tooth)

Question 61

List the stages of the Root canal process?

Answer 61

1. Coronal access to the root canal system.
2. Root canal instrumentation and preparation.
3. Obturation of the root canal system.
4. Coronal seal.
5. Final restoration.

Question 62

Whydo we remove all the caries in a defective restoration?

Answer 62

The caries would be a source of re-infection after you have disinfected it.

You need to assess to see if the tooth can be restored after RCT. If the tooth cannot be restored there is no point of the RCT.

Question 63

Discuss the ideal cavity.

Answer 63

It has:

• The entire roof removed
• A smooth walled preparation with no overhangs.
• Straight line access

Question 64

Why do you remove the entire roof of the cavity?

Answer 64

To allow

• Complete removal of the pulpal tissue.
• Visualisation of the root canal entrance.

Question 65

What is straight line access?

Answer 65

Where there is straight access to the first point of curvature or apex of the tooth.

Question 66

Why do we require straight line access?

Answer 66

Without it the instruments will curve, which causes fatigue and eventually breakage.

Question 67

What is recapitulation, why do we do it & what do we use?

Answer 67

what? Filing to remove debris from the canal.

Why? To ensure you are not packing debris apically.

With what? a #10 K file.

Question 68

What is watchwinding?

Answer 68

When you rotate clockwise and then anti-clockwise.

This cuts by engaging then breaking dentine each time.

Question 69

What is balanced force motion?

Answer 69

This file motion is used when we move onto larger diameter instruments.

Turn file 90º clockwise and then 180º anti-clockwise

Question 70

Why do we irrigate?

Answer 70

• To impact the areas we cannot reach with filing.
• Root canal disinfection
• Dissolving organic debris.
• Flushing out debris (to prevent blockage of the root canal)
• Lubricate root canal instruments.
• Remove the endodontic smear layer.

Question 71

What do we use to administer root canal irrigant and why?

Answer 71

A luer lock syringe with a 27 gauge endodontic tipped needle.

To reduce the pressure of the syringe in the root canal to prevent a hypochlorite accident.

Question 72

Why do we coronal flare early in our root canal treatment?

Answer 72

To avoid hydrostatic pressure in the canal.

For early disinfection of the root canal space.

To improve straight line access to the apical 1/3

Question 73

Why do we want to avoid hydrostatic pressure in the RC?

Answer 73

To allow a reservoir of irrigant to form and allow space for the irrigant to move while we instrument.

Question 74

Why is it beneficial to disinfect the root canal space early?

Answer 74

As this portion contains most of the contaminated contents.

Question 75

How do we achieve the Flare shape?

Answer 75

By sequentially reducing the Gates-glidden burr size as we penetrate deeper into the canal.

Question 76

What do we want for our working length preparation?

Answer 76

The preparation should:

• End at the junction of the pulpal and peri-apical tissues.
• Be as close as possible to the CDJ .(cementodentinal junction)

Question 77

What is the apical constriction?

Answer 77

The narrowest part of the root canal, where the root canal becomes the PDL.

Question 78

What is the master apical file?

Answer 78

The largest diameter file taken to working length.

This represents the final prepared size of the apical portion of the canal at working length.

Question 79

Describe the basis of the stepback technique?

Answer 79

K files are used that are sequentially 1 size greater in diameter but 1mm shorter in working length to create steps in the root canal.

You then use the master apical file to smooth out the steps.

Question 80

How do you know when the stepback technique is complete?

Answer 80

When the file goes straight to the canal depth (so you don’t need to file anymore)

Question 81

Why do we use safe ended burrs when cutting our cavity?

Answer 81

To ensure that you do not perforate the floor of the canal.

Question 82

What happens if you use a gate’s glidden burr too deep when aiming for straight line access?

Answer 82

You will get a coke bottle appearance (when there is an overexpanded coronal preparation)

Question 83

Why do we not need the water on, when using a handpeice during Root canal treatment?

Answer 83

As the irrigation fluid cools the file and the tooth.

Question 84

What causes the formation of the smear layer?

Answer 84

When a metallic endodontic instruments touches the mineralised dentinal wall in the root canal.

Question 85

What is the smear layer?

Answer 85

a layer of organic pulpal material and inorganic dentinal debris.

Question 86

Why do we not want the smear layer?

Answer 86

It weakens the effects of the disinfecting agents in dentine.

It hides the opening of the dentinal canals (preventing sealer penetration and causing a weaker bond to the canal wall)

Question 87

Why do we use NaOCl?

Answer 87

It:

• has potent anti-microbial activity.
• dissolves pulp remnants and collagen.
• dissolves necrotic and vital tissues.
• disrupts the smear layer.

Question 88

What is a hypochlorite accident

Answer 88

When the high pressure in a needle squirts hypochlorite through the end of the canal. (Causing tissue damage)

Question 89

Why do we agitate the root canal?

Answer 89

To ensure that fluid gets in all the nooks and crannies of the root canal.

Question 90

Compare the types of agitation?

Answer 90

Endoactivator is a vibrating polymer tip that causes debris removal and biofilm disruption.

Manual dynamic irrigation- when a GP point is clasped with tweezers, placed in the root canal and manually pumped in and out.

Question 91

Discuss the problems with using NaOCl?

Answer 91

• Effect on dentine- Too high a concentration could cause damage (rather than just cleaning the cavity)
• It cannot remove the smear layer on its own- You also have to use EDTA.

Question 92

How do you remove the smear layer?

Answer 92

By using NaOCl and EDTA.

Question 93

Why do you need to use both NaOCl and EDTA to remove the smear layer?

Answer 93

Because EDTA exposes the collagen to make dentine more susceptible to NaOCl.

Question 94

Why do we not often use chlorohexidine digluconate as a final rinse?

Answer 94

Because it interacts with NaOCL to form Para-Chloroanaline which is:

• Cytotoxic
• Carcinogenic
• Brown and sticky - stains teeth.

Question 95

What are the symptoms of sodium hypochlorite extrusion?

Answer 95

• Pain
• Swelling
• Ecchymosis
• haemorrhage.
• Neurological Complications
• Airway obstructions.

Question 96

What is this?

Answer 96

Ecchymosis which is discolouration classically manifesting along the course of the superficial venous vasculature.

Symptom of Sodium hypochlorite extrusion.

Question 97

How would you manage NaOCl extrusion:

Answer 97

Pain relief- Ibruprofen 400-600 mg QDS

Paracetamol 1000mg QDS

Swelling- Cold compress for 1st few days

Warm compress to resolve soft tissue swelling and eliminate haematoma.

Prevent secondary infection- Antibiotics

Question 98

Why do we use intra-canal medicaments?

Answer 98

To:

• destroy micro-organisms
• Prevent re-infection
• Reduce inflammation and exudate.
• Control root resorption. (Non-setting calcium hydroxide)

Question 99

Compare intra-canal medicaments.

Answer 99

Anti-microbial paste- Contains corticosteroid and tetracycline.

It is used for pain relief with hot pulp and helps reduce pulpal inflammation.

Effective for 5-7 days

Non setting calcium hydroxide- (GOLD STANDARD)

pH of 12.5 makes it antibacterial.

It removes tissue debris .

Reduces inflammation by affecting the hydrolysis of the lipopolysaccharide.

Treatment lasts 7 days.

Question 100

What is hot pulp?

Answer 100

A tooth that has been diagnosed with irreversible pulpitis and Local anaesthetic is not reduce the patient’s pulpal pain.

Question 101

Why do we use an inter appointment temporary dressing?

Answer 101

To seal the root canal from contamination between visits.

Question 102

What do we use for the inter-appointment temporary dressing?

Answer 102

calcium hydroxide in the root canal.

A small cotton wool pledjet.

A layer of coltosol

3mm of self cure glass ionomer (to prevent displacement)

Question 103

discuss the advantages and disadvantages of using coltosol.

Answer 103

Advantage- It can be removed using an ultrasonic so we are less likely to cause extra tooth surface loss when reaccessing the cavity.

Disadvantage- It is not strong enough to sit in the oral cavity.

Question 104

What does the envelope of motion mean?

Answer 104

That we need to debride all of the root canal, not just one wall.

Question 105

Discuss nickel titanium dental instruments:

Answer 105

Advantages- Increased cutting efficency

increased flexibility.

Disadvantages- instrument fracture

More expensive.

Question 106

What is reciprocation?

Answer 106

This means to move back and forth.

Question 107

why do we use reciprocation?

Answer 107

To negotiate the curved canals, as if we only wound the file in one direction it would move in a straight line instead of negotiating the curves. This would create a ledge or perforation.

Question 108

Discuss the movements in a reciproc system?

Answer 108

The first movement is anti-clockwise and the second movement is clockwise.

Question 109

Compare the types of reciproc system?

Answer 109

True reciprocation- equal anti-clockwise and clockwise turning.

Modified reciprocation- e.g. reciproc rotates 150° anti-clockwise and then 30º clockwise

Question 110

Why do we create a glide path?

Answer 110

To :

• Confirm straight line access
• Allow you to safely explore the anatomy.
• Ensure the tips of instruments are not overloaded when we take them to length.

Question 111

How does torsional stress cause instrument separation?

Answer 111

• Using too big an instrument too early which results in the instrument being locked in too narrow an area.
• Extensive instrument surface encounters (cause excessive friction on the canal walls)

Question 112

Discuss the effect of torsional fatigue on instruments?

Answer 112

If the instrument binds, it is subject to stress and torsion. This causes a change in metal structure. The bound part of the instrument does not rotate at the same speed as the ubound bit- causing the file to twist (and eventually fracture)

Question 113

Why does flexural stress cause instrument separation

Answer 113

The repeated cyclic metal fatigue allows deformation due to the cyclic movements. (This leads to work hardening and then cyclic failure)

Causing the file to unwind.

Question 114

What are hand protapers?

Answer 114

A series of Nickel titanium files of greater taper.

These allow us to create shapes in the canal that would be very complex with a stainless steel instrument.

Question 115

What is apical gauging?

Answer 115

Testing that you have control of the file by taking the file to working length.

Question 116

How do we know if we have control?

Answer 116

The file will not go any deeper.

This tells us the K file is sufficently large and advises us on which size of obturation material to select. (preventing us from losing control i.e. it passes apically)

Question 117

What is obturation and why do we do it?

Answer 117

Obturation is filing the root canal system to prevent the passage of micro-organisms and fluid along it after disinfection.

Question 118

Discuss the 2 part system of obturation?

Answer 118

There are two parts:

• semi solid core (gutta percha)
• Seal (this is more fluid to fill the voids between the semi-solid core and the root canal wall)

Question 119

What is gutta percha?

Answer 119

A trans isonomer of polyisoprene which contains:

20% GP

65% zinc oxide

10% radiopacifiers

5% plasticizers

Question 120

What is cold lateral compaction?

Answer 120

The process where we use multiple points of GP to fill the root canal.

Question 121

What is the purpose of a finger spreader?

Answer 121

To apply apical and lateral pressure to force the master GP cone to the side of the canal, making space for the accesory GP cones.

Question 122

Why do we use a heated plugger after obturation?

Answer 122

To remove excess GP and compact GP into the root canal. (we don’t want GP in the pulp chamber)

Question 123

What is the problem with cold lateral compaction?

Answer 123

We are limited to how much we can obturate laterally.

Question 124

What is warm vertical compaction?

Answer 124

When a cone of GP is placed in the root canal & the coronal portion is severed off using a heated plugger. This transfers heat to the GP which is then plugged apically to fill the area.

Warm peices of GP are placed on top of the apical plug to backfill the root canal.

Question 125

What is continuous wave obturation?

Answer 125

The use of guns that contain electrically heated pluggers and GP to remove and deliver the gutta percha in a continuous wave.

Question 126

What is carrier based obturation?

Answer 126

An oven is used to warm the GP which is held on a stick with a handle.

This allows placement of warm GP into the root canal space.

Question 127

Why is carrier based obturation not good in wide straight canals?

Answer 127

As the warm flowable GP means that we lack apical control

Question 128

Why do we use MTA?

Answer 128

To fill large apical diameters (open apexes)

Question 129

What are the advantages and disadvantages of MTA?

Answer 129

Adv- It is bioinductive (bone and cementum can grow alongside it thanks to the alkaline conditions it produces)

The white version has reduced particle size and discoloration.

It requires moisture to set.

Disadv- It is not easy to remove if we need to retreat the root canal.

It has a delayed setting reaction .

Question 130

What is the function of sealers?

Answer 130

• Seal the place between the dentinal wall and the core.
• Fill voids and irregularities in the canal, lateral canals and between the GP points used in lateral condensation
• Lubricate during obturation.

Question 131

What sealer do we use in the dental hospital and why?

Answer 131

A resin sealer.

adv- it is good seal that remains over time.

Disadv- It has an initial toxicity but this declines after 24 hours (could leave post-operative sensitivity)

Question 132

Why do we use a secondary seal after obturation?

Answer 132

We use RMGI or vitrabond to seal the root canal from any ingress of bacteria as the GP becomes rapidily infected if exposed directly to oral bacteria.

Question 133

When do we assess root canal treatment and why?

Answer 133

After 6 months to:

• Give time for signs and symptoms to subside.
• Allow radiographic evidence of healing to be present. (change to a normal PDL)

Question 134

What is an uncertain root canal outcome?

Answer 134

If the radiographic changes remain the same or have diminished in size.

(so the problem has not gone away, it has just reduced)

Question 135

How do you deal with an uncertain root canal outcome?

Answer 135

You assess the lesion for a minimum of 4 years or until it has resolved.

Question 136

What is an unfavourable root canal outcome?

Answer 136

• Tooth is associated with the signs and symptoms of infection
• Lesion has appeared after treatment or increased in size
• Lesion has not changed size (or has taken 4 years to reduce in size)
• Root resorption is continuing.

Question 137

What happens if you fail to maintain patency?

Answer 137

There will be a blockage.

Question 138

What happens if ledges are produced in the root canal?

Answer 138

Access to the root canal is restricted.

Question 139

Compare Treatment of persistant intra-radicular infections and persistant extra-radicular infections

Answer 139

Persistant intra-radicular infections are due to complex canals, biofilm and resistant bacteria.- We can RC to help these.

Persistant extra-radicular bacteria -if bacteria make it out of the RC to reside in the peri-radicular tissues disinfection of the RC alone will not work- we need to control the infection.

Question 140

Compare true and pocket cysts?

Answer 140

True cysts- These are seperate from the RC.

Pocket cysts- these are continuous with the RC.

Question 141

insoluble resins have been used to obturate the root canal space, what technique do you use for retreatment?

Answer 141

Ultrasonic

Question 142

Gutta percha has been used to obturate the root canal space, what technique do you use for retreatment?

Answer 142

Hand files (Hedstroem) (and maybe solvent)

Then protaper D or Reciproc.

Question 143

Soluble pastes have been used to obturate the root canal space, what technique do you use for retreatment?

Answer 143

Hand files (maybe solvent)

then protaper D or Reciproc

Question 144

When do we use solvent with the handfiles and why?

Answer 144

During retreatment-If the GP is well condensed

& solvent is used to dissolve the GP and allow the files to penetrate deeper.

Question 145

WWhy do we use a headstroem file?

Answer 145

To engage the GP and try and withdraw it.

Question 146

Why do we use D files for retreatment?

Answer 146

As D files have an active tip used to penetrate the material.

Question 147

What is a disadvantage of using D files?

Answer 147

They can cause perforations so we need to be careful of the curves in the root canal.

Question 148

Discuss Nickel titanium hand files (Nitinol)

Answer 148

Nitinol can be strained more than stainless steel before permanent deformation- this makes it more suitable for curved canals.

There are 2 forms:
Austenitic- hard and strong used for the file (found at room temperature)

Martensite- (soft and easily deformed)

Question 149

What is the flute of an endodontic instrument?

Answer 149

The groove which collects dentine and soft tissue.

Question 150

What is the land of an endodontic instrument?

Answer 150

The land is the surface between flutes. This touches the wall causing friction.

This friction can be reduced by reducing the surface of the land.

Question 151

Compare a Post and a core?

Answer 151

Post- this is placed in the root canal and retains the core.

Core-this is what the prosthesis is cemented to

Question 152

What is coronal micro-leakage

Answer 152

The ingress of bacteria into the root canal- which will cause biological failure.

We seal the GP and pulpal floor with RMGI to prevent this.

Question 153

What is a ferrule and why is it important?

Answer 153

A dentine collar (1-2mm of vertical tooth structure)

This allows the crown to be placed on the tooth structure rather than filling structure, preventing fracture.

Question 154

Discuss the ideal post?

Answer 154

It should be:

• Parallel sided- more retentive
• Non threaded- less stress to the remaining tooth
• Cement retained - cement acts as a buffer between mastigatory forces and the post/tooth.
• Joint post and core- to avoid material interfaces.

Question 155

Discuss the material selection for posts:

Answer 155

Metal- Poor aesthetics/ can corrode

Ceramic- high flexural strength & fracture toughness/ good aesthetic

Fibre- Flexible/ bonds to dentine with DBA

Question 156

compare the materials used for Cores

Answer 156

Composite- Tooth coloured/ bonds to tooth structure (most common)
Amalgam- requires retention/ poor aesthetics /Core needs 24hrs to set.

Glass ionomer- Absorbs water causing expansion in size (prevents restoration from fitting)

Therefore, we chose composite.

Question 157

What is the main reason for post/crown failure?

Answer 157

Restorative problems e.g. caries around the crown margins.

Question 158

What do we avoid when restoring posterior teeth and why?

Answer 158

Posts because the narrow roots of posterior teeth increase the risk of perforation during post preparation.

Question 159

How should an endodontically treated posterior tooth be restored and why?

Answer 159

A cast restoration with occlusal coverage (e.g. an MOD onlay)

This is to provide cuspal protection to

• Prevent catastrophic fracture
• maintain the coronal seal
• Prevent microbial ingress.

Question 160

Compare the terms straight line access and glide path.

Answer 160

A glide path is a smooth radicular tunnel from the canal orifice to the apical constriction. This is used to confirm straight line access.

Straight line acess is the straight access to the first point of curvature/apex of the tooth to prevent curving of the instrument which would cause fatigue and eventually breakage.

Question 161

Identify the canals in this radiograph of the upper 1st molar.

Answer 161

Longest canal- the palatal.

More curved canal- mesiobuccal.

Straighter canal- Distobuccal.

Question 162

How does a metal post fail and compare this to how a fibre post fails?

Answer 162

Metal post fails due to fracture of the root.

Fibre posts can debond at the Post/cement interface which allows recurrent caries.

Question 163

Why does irreversible pulpitis keep a patient up at night?

Answer 163

There is increased pain due to an increase in interpulpal pressure due to the patient lying down.

Question 164

compare apical and periapical

Answer 164

Apical refers to a problem originating at the root tip. Periapical refers to a problem originating around the root tip.