Upload
paras-angrish
View
219
Download
1
Tags:
Embed Size (px)
Citation preview
LUXATION TOOTH INJURIESBY-DR. PARAS ANGRISH
Injuries to periodontal tissues
Concussion
Subluxation
Intrusive luxation
Extrusive luxation
lateral luxation
Exarticulation
Prognosis of pulp after luxation injuries
Type of luxation injury Pulp death
concussion 4%
sub-luxation 12%
lateral luxation 77%
extrusive luxation 55 – 98%
intrusive luxation 100%
Barnett et al ‘02
Luxation injuries
Largest group – 30 to 44%
Includes
1. Concussion
2. Subluxation
3. Extrusive luxation
4. Lateral luxation
5. Intrusive luxation
6. Avulsion
CONCUSSIONDescription An injury to the tooth-supporting structures
without increased mobility or displacement of
the tooth, but with pain to percussion.
Visual signs Not displaced.
Percussion test Tender to touch or tapping.
Mobility test No increased mobility.
Pulp sensibility test Usually a positive result.The test is important in
assessing future risk of healing complications.
A lack of response to the test indicates an
increased risk of later pulp necrosis.
Radiographic findings No radiographic abnormalities, the tooth is in-
situ in its socket.
Radiographs recommended As a routine: Occlusal, periapical exposure
and lateral view from mesial or distal aspect
of the tooth in question. This should be done in
order to exclude displacement.
Diagnosis
Concussion - Treatment Guidelines
Treatment objectives•Usually there is no need for treatment.
Treatment•Monitor pulpal condition for at least 1 year.
Patient instructions•Soft food for 1 week.Good healing following an injury to the teeth and oral tissues depends, in part, on good oral hygiene. Brushing with a soft brush and rinsing with chlorhexidine 0.1 % is beneficial to prevent accumulation of plaque and debris.
Follow-up•Clinical and radiographic control at 4 weeks, 6-8 weeks and 1 year.
SUBLUXATION
An injury to the tooth supporting structures
resulting in increased mobility, but without
displacement of the tooth. Bleeding from the
gingival sulcus confirms the diagnosis
ETIOLOGY
DIAGNOSTIC SIGNS
Description An injury to the tooth supporting structures resulting in increased mobility, but without displacement of the tooth. Bleeding from the gingival sulcus confirms the diagnosis
Visual signs Not displaced.
Percussion test Tender to touch or tapping.
Mobility test Increased mobility.
Pulp sensibility test Sensibility testing may be negative initially indicating transient pulpal damage. Monitor pulpal response until a definitive pulpal diagnosis can be made.
There will be a positive sensibility test result in about half the cases. The test is important in assessing future risk of healing complications. A lack of response at the initial test indicates an increased risk of later pulp necrosis.
Radiographic findings Usually no radiographic abnormalities.
Radiographs recommended As a routine: Occlusal, periapical exposure and lateral view from the mesial or distal aspect of the tooth.
TREATMENT OBJECTIVE
Usually no need for treatment.
TREATMENT
A flexible splint to stabilize the tooth for patient comfort can be used for up to 2 weeks.
PATIENT INSTRUCTIONS
Soft food for 1 week.
Good healing following an injury to the teeth and oral tissues depends, in part, on good oral hygiene. Brushing with a soft brush and rinsing with chlorhexidine 0.1 % is beneficial to prevent accumulation of plaque and debris.
FOLLOW-UP
Clinical and radiographic control at 4 weeks, 6-8 weeks and 1 year.
EXTRUSION
Partial displacement of the tooth out of its socket. An injury to the tooth
characterized by partial or total separation of the periodontal ligament
resulting in loosening and displacement of the tooth. The alveolar socket
bone is intact in an extrusion injury as opposed to a lateral luxation injury. In
addition to axial displacement, the tooth will usually have an element of
protrusion or retrusion. In severe extrusion injuries the retrusion/protrusion
element can be very pronounced. In some cases it can be more
pronounced than the extrusive element.
ETIOLOGY
DIAGNOSTIC SIGNS
Definition Partial displacement of the tooth out of its alveolar socket.
An injury to the tooth characterized by partial or total separation of the periodontal ligament resulting in loosening and displacement of the tooth. The alveolar socket bone is intact in an extrusion injury as opposed to a lateral luxation injury. Apart from axial displacement, the tooth will usually have an element of protusion or retrusion. In severe extrusion injuries the retrusion/protrusion element can be very pronounced. In some cases it can be more pronounced than the extrusive element.
Visual signs Appears elongated.
Percussion test Tender.
Mobility test Excessively mobile.
Sensibility test Usually lack of response except for teeth with minor displacements. The test is important in assessing risk of healing complications. A positive result to the initial test indicates a reduced risk of later pulp necrosis.
In immature, not fully developed teeth, pulpal revascularization usually occurs. In mature teeth pulp revascularization sometimes occurs.
Radiographic findings Increased periapical ligament space.
Radiographs recommended As a routine: Occlusal, periapical exposure and view from the mesial or distal aspect of the tooth.
TREATMENT
The exposed root surface of the displaced tooth is cleansed with saline before repositioning.
Reposition the tooth by gently re-inserting it into the tooth socket with axial digital pressure (local anesthesia is usually not necessary).
Stabilize the tooth for 2 weeks using a flexible splint.
Monitoring the pulpal condition is essential to diagnose associated root resorption.
Open apex: Revascularization can be confirmed radiographically by evidence of continued root formation and pulp canal obliteration and usually a return to a positive pulp response to sensibility testing.
Closed apex: A continued lack of pulp response to sensibility testing should be taken as evidence of pulp necrosis together with periapical rarefaction and sometimes crown discoloration.
PATIENT INSTRUCTIONS
Soft food for 1 week.
Good healing following an injury to the teeth and oral tissues depends, in part, on good oral hygiene. Brushing with a soft brush and rinsing with chlorhexidine 0.1 % is beneficial to prevent accumulation of plaque and debris.
FOLLOW-UP
Clinical and radiographic control and splint removal after 2 weeks. Clinical and radiographic control at 4 weeks, 6-8 weeks, 6 months, and 1 year.
LATERAL LUXATION
Displacement of the tooth other than axially. Displacement is accompanied by comminution or fracture of either the labial or the palatal/lingual alveolar bone.
Lateral luxation injuries, similar to extrusion injuries, are characterized by partial or total separation of the periodontal ligament. However, lateral luxations are complicated by fracture of either the labial or the palatal/lingual alveolar bone and a compression zone in the cervical and sometimes the apical area. If both sides of the alveolar socket have been fractured, the injury should be classified as an alveolar fracture (alveolar fractures rarely affect only a single tooth). In most cases of lateral luxation the apex of the tooth has been forced into the bone by the displacement, and the tooth is frequently non-mobile.
ETIOLOGY
DIAGNOSTIC SIGNS
Description Displacement of the tooth other than axially. Displacement is accompanied by comminution or fracture of either the labial or the palatal/lingual alveolar bone.
Lateral luxation injuries, similar to extrusion injuries, are characterized by partial or total separation of the periodontal ligament. However, lateral luxations are complicated by fracture of either the labial or the palatal/lingual alveolar bone and a compression zone in the cervical and sometimes the apical area. If both sides of the alveolar socket have been fractured, the injury should be classified as an alveolar fracture (alveolar fractures rarely affect only a single tooth). In most cases of lateral luxation the apex of the tooth has been forced into the bone by the displacement, and the tooth is frequently non-mobile.
Visual signs Displaced, usually in a palatal/lingual or labial direction.
Percussion test Usually gives a high metallic (ankylotic) sound.
Mobility test Usually immobile.
Sensibility test Sensibility tests will likely give a lack of response except for teeth with minor displacements.
The test is important in assessing risk of healing complications. A positive result at the initial examination indicates a reduced risk of future pulp necrosis.
Radiographic findings Widened periapical ligament space best seen on occlusal or
TREATMENT OBJECTIVE
To reposition and splint a displaced tooth to facilitate pulp and periodontal ligament healing.
TREATMENT
Rinse the exposed part of the root surface with saline before repositioning.
Apply a local anesthesia
Reposition the tooth with forceps or with digital pressure to disengage it from its bony lock and gently reposition it into its original location.
Stabilize the tooth for 4 weeks using a flexible splint. 4 weeks is indicated due to the associated bone fracture.
Monitoring the pulpal condition is essential to diagnose root resorption. If the pulp becomes necrotic, root canal treatment is indicated to prevent infection related root resorption.
In immature developing teeth, revascularization can be confirmed radiographically by evidence of continued root formation, initiation of pulp canal obliteration and usually a return to a positive response to sensibility testing.
In fully formed teeth, a continued lack of response to sensibility testing (i.e. exceeding 3 months) should be taken as evidence of pulp necrosis together with periapical radiolucency and sometimes crown discoloration.
Splint removal: after the fixation period (4 weeks) resin can be removed. If non-composite resin is used it can be peeled off with a dental scaler. If composite is used i should be removed with a bur. The tooth must be supported with digital pressure during this procedure.
PATIENT INSTRUCTIONS
Soft food for 1 week.
Good healing following an injury to the teeth and oral tissues depends, in part, on good oral hygiene. Brushing with a soft brush and rinsing with chlorhexidine 0.1 % is beneficial to prevent accumulation of plaque and debris.
FOLLOW-UP
Clinical and radiographic control after 2 weeks. Clinical and radiographic control and splint removal after 4 weeks. Clinical and radiographic control at 6-8 weeks, 6 months, 1 year and yearly for 5 years.
INTRUSION - INTRUSIVE LUXATION
Displacement of the tooth into the alveolar bone. This injury is accompanied by comminution or
fracture of the alveolar socket.
ETIOLOGY
INTRUSION - DIAGNOSTIC SIGNS
Description Displacement of the tooth into the
alveolar bone. This injury is
accompanied by comminution or
fracture of the alveolar socket.
Visual signs The tooth is displaced axially into the
alveolar bone.
Percussion test Usually gives a high metallic
(ankylotic) sound.
Mobility test The tooth is immobile.
Sensibility test Sensibility test will likely give negative
response.
In immature, not fully developed
teeth, pulpal revascularization may
occur.
Radiographic findings The periodontal ligament space may
be absent from all or part of the root.
The cemento-enamel junction is
located more apically in the intruded
tooth than in adjacent non-injured
teeth, at times even apical to the
marginal bone level.
Radiographs recommended As a routine: Occlusal, periapical
exposure and lateral view from the
mesial or distal aspect of the tooth in
question. If the tooth is totally intruded
a lateral exposure is indicated to
make sure the tooth has not
TREATMENT
Tooth intrusion is associated with a potential risk of tooth loss due to progressive root resorption (ankylosis or infection related resorption). The following three methods are only partly evidence based.
Spontaneous eruptionThis is the treatment of choice for permanent teeth with incomplete root formation with minor or moderate intrusion. In teeth with mature root development it is only recommended for teeth with minor intrusion.This treatment seems to lead to fewer healing complications than orthodontic and surgical repositioning. If no movement within a few weeks, initiate orthodontic or surgical repositioning before ankylosis can develop.
Orthodontic repositioningThis treatment may be preferred for patients coming in for delayed treatment. This treatment method enables repair of marginal bone in the socket along with the slow repositioning of the tooth.
Surgical repositioningThis treatment technique is preferable in the acute phase. Intrusion with major dislocation of the tooth (more than 7 mm) may be an indication for surgical repositioning.
Common for all treatmentsEndodontic treatment can prevent the necrotic pulp from initiating infection-related root resorption. This treatment should be considered in all cases with completed root formation where the chance of pulp revascularization is unlikely. Endodontic therapy should preferably be initiated within 3-4 weeks post-trauma. A temporary filling with calcium hydroxide is recommended
Degree of
intrusionRepositioning
Spontaneous Orthodontic Surgical
OPEN APEX
Up to 7 mm x
More than 7
mmx x
CLOSED APEX
Up to 3 mm x
3-7 mm x x
More than 7
mmx
PATIENT INSTRUCTIONS
Soft food for 1 week.
Good healing following an injury to the teeth and oral tissues depends, in part, on good oral
hygiene. Brushing with a soft brush and rinsing with chlorhexidine 0.1 % is beneficial to prevent
accumulation of plaque and debris.
FOLLOW-UP
Control after 2 weeks. Splint removal and control after 4 weeks, 6-8 weeks, 6 months, 1 year and
yearly for 5 years
Sequalae to luxation injury
Yellow discoloration
Grey discoloration
Resorption – 5 to 15%
Incomplete root formation
Primary teeth – pulp space obliteration by
calcification
Avulsed Permanent Teeth
Incidence
0.5% to 16% of
traumatic injuries
Main etiologic
factors
Fights
Sports injuries
Automobile
accidents
Avulsed Permanent Teeth
Maxillary central incisor
Most commonly avulsed
tooth
Mandibular teeth
Seldom affected
Most frequently involves
a single tooth
Avulsed Permanent Teeth
Most common age - 7 to
11
Permanent incisors
erupting
Loosely structured PDL
Avulsed Permanent Teeth
Associated injuries
Fracture of alveolar
socket wall
Avulsed Permanent Teeth
Associated injuries
Fracture of alveolar
socket wall
Injuries to the lips
and gingiva
Management of the
Avulsed Tooth
What tissue should
be our primary
concern?
Pulp?
Management of the
Avulsed Tooth
What tissue should
be our primary
concern?
Pulp?
Socket?
Management of the
Avulsed Tooth
What tissue should
be our primary
concern?
Pulp?
Socket?
PDL?
Management of the
Avulsed Tooth
Ultimate goal
PDL healing without
root resorption
Management of the
Avulsed Tooth
Ultimate goal
PDL healing without
root resorption
Most critical factor
Maintaining an
intact and viable
PDL on the root
surface
Periodontal Ligament
Responses
Surface Resorption
Replacement Resorption (Ankylosis)
Inflammatory Resorption
Andreasen JO, Hjorting-Hansen E.
Replantation of teeth II. Histological study of 22 replanted anterior teeth in humans.
Acta Odontol Scand 1966;24:287-306.
Periodontal Ligament
Responses
Surface resorption
Superficial
resorption cavities
Mainly in
cementum
Complete repair of
PDL
Periodontal Ligament
Responses
Replacement resorption (Ankylosis)
Direct union of bone and root
Resorption of root -Replacement with bone
Direct result of loss of vital PDL
Periodontal Ligament
Responses
Inflammatory
resorption
Resorption of
cementum and
dentin
Inflammatory reaction
in the periodontal
ligament
Etiology
Inflammatory
resorption
Surface resorption
of cementum
exposing dentinal
tubules
Etiology
Inflammatory
resorption
Surface resorption
of cementum
exposing dentinal
tubules
Pulp necrosis
Etiology
Inflammatory
resorption
Surface resorption of
cementum exposing
dentinal tubules
Pulp necrosis
Toxic products from
the pulp provoke an
inflammatory
response in the PDL
Periodontal Ligament
Responses
Surface resorption
Periodontal Ligament
Responses Surface resorption
Replacement resorption (Ankylosis)
Periodontal Ligament
Responses Surface resorption
Replacement resorption (Ankylosis)
Inflammatory resorption
Treatment Considerations
Extraoral time
Extraoral environment
Root surface manipulation
Management of the socket
Stabilization
Extraoral Time
Shorter time = Better prognosis*
< 30 min 10% resorption
> 90 min 90% resorption
Andreasen JO, Hjorting-Hansen E.
Replantation of teeth I. Radiographic and clinical study of 110 human teeth replanted after accidental loss.
Acta Odontol Scand 1966;24:263-86.
Extraoral Time
Shorter time = Better prognosis*
< 30 min 10% resorption
> 90 min 90% resorption
*depending on storage medium
Andreasen JO, Hjorting-Hansen E.
Replantation of teeth I. Radiographic and clinical study of 110 human teeth replanted after accidental loss.
Acta Odontol Scand 1966;24:263-86.
Extraoral Environment
Viability of PDL cells is
critical
Storage Media
Tap Water
Dry
Saliva
Saline
Andreasen JO.
Effect of extra-alveolar period and storage media upon periodontal and pulpal healing after
replantation of mature permanent incisors in monkeys.
Int J Oral Surg 1981;10:43-53.
Poor results
Storage Media
Tap Water
Dry
Saliva
Saline
Andreasen JO.
Effect of extra-alveolar period and storage media upon periodontal and pulpal healing after replantation
of mature permanent incisors in monkeys.
Int J Oral Surg 1981;10:43-53.
Good protection for 2 hrs
Poor results
Milk As A Storage Medium
Physiologic
osmolality
Markedly fewer
bacteria than
saliva
Readily available
Storage Media - Milk vs. Saliva
Storage for 2 hrs
Periodontal healing almost as good as immediate replantation
Blomlof L, et al.
Storage of experimentally avulsed teeth in milk prior to replantation.
J Dent Res 1983;62:912-6.
Storage Media - Milk vs. Saliva
Storage for 2 hrs Periodontal healing almost as good as
immediate replantation
Storage for 6 hrs Saliva extensive replacement resorption
Milk healing almost as good as immediate replant
Blomlof L, et al.
Storage of experimentally avulsed teeth in milk prior to replantation.
J Dent Res 1983;62:912-6.
Cell Culture Media
Eagle’s Medium
Hank’s Balanced Salt Solution
Hank’s Balanced Salt Solution
Proper pH and osmolality
Reconstitutes depleted cellular
metabolites
Washes toxic breakdown products from
the root surface
Organ Transplant Storage Media
Viaspan
Dramatically prolongs the storage of human
organs
Expensive
Not readily available
Storage Media Comparison
Viaspan
Complete healing after 6 and 12 hrs
Good for extended storage periods (72 and 96 hrs)
Trope M, Friedman S.
Periodontal healing of replanted dog teeth stored in Viaspan, milk and Hank’s balanced salt solution.
Endod Dent Traumatol 1992;8:183-8.
Storage Media Comparison
Viaspan
Complete healing after 6 and 12 hrs
Good for extended storage periods (72 and 96 hrs)
Hank’s balanced salt solution
Healing results similar to Viaspan
Trope M, Friedman S.
Periodontal healing of replanted dog teeth stored in Viaspan, milk and Hank’s balanced salt solution.
Endod Dent Traumatol 1992;8:183-8.
Recommended Storage Media
1. Socket
(immediate
replantation)
2. Cell culture
medium
3. Milk
4. Physiologic saline
5. Saliva
Root Surface Manipulation
Attempt to retain PDL cell viability
Do not curette root surface
Avoid caustic chemicals
Van Hassel HJ, Oswald RJ, Harrington GW.
Replantation 2. The role of the periodontal ligament.
J Endodon 1980;6:506-8.
Root Surface Manipulation
Extraoral dry time determines handling
Root Surface Manipulation
Extraoral dry time < 1 hr
PDL healing is still possible
Handling recommendations
Keep root moist
Do not handle root surface
Gentle debridement
Root Surface Manipulation
Extraoral dry time > 1 hr
Loss of PDL cell viability
inevitable
Treatment recommendations
Remove tissue tags
Soak in accepted dental fluoride solution for 20 min
Fluoride Treatment
1.0-2.4% topical
fluoride solution
Sodium fluoride
(Andreasen)
Stannous fluoride
(Krasner)
20 minute soak
Management of the Socket
Remove contaminated coagulum
in socket
Irrigate with sterile saline
Management of the Socket
Examine socket If fracture is evident
Reposition fractured bone with a blunt
instrument
Management of the Socket
Replant using light digital pressure
Stabilization
Splint
Definition a rigid or flexible device used to support,
protect, or immobilize teeth, preventing further injury
Types
• Acid etch composite
• Cross-suture
Acid Etch Composite Splints
Interproximal composite
Acid Etch Composite Splints
Composite with arch wire
Acid Etch Composite Splints
Composite with monofilament nylon
Acid Etch Composite Splints
Functional Splint
20-30 lbmonofilament nylon
Bonded with composite
Allows physiologic movement
Antrim DD, Ostrowski JS.
A functional splint for traumatized teeth.
J Endodon 1982;8:328-31.
Cross-Suture Splint
Indications
No adjacent teeth
to splint to
Unmanageable
traumatized
children
Cross-Suture Splint
Splinting Time
Effect of splinting time
7 days
30 days
Nasjleti CE, Castelli WA, Caffesse RG.
The effects of different splinting times on replantation of teeth in monkeys.
Oral Surg 1982;53:557-66.
Splinting Time
Recommended time
7 to 10 days
Nasjleti CE, Castelli WA, Caffesse RG.
The effects of different splinting times on replantation of teeth in monkeys.
Oral Surg 1982;53:557-66.
Pulpal Prognosis
Stage of root development
Dry storage time
Storage media
Antibiotics
Stage of Root Development
Mature roots (< 1.0 mm)
Revascularization 0%
Kling M, et al. Endod Dent Traumatol 1986;2:83-9.
Andreasen JO, et al. Endod Dent Traumatol1995;11:51-8.
Stage of Root Development
Mature roots (< 1.0 mm)
Revascularization 0%
Immature roots (> 1.0 mm)
Revascularization 18-34%
Kling M, et al. Endod Dent Traumatol 1986;2:83-9.
Andreasen JO, et al. Endod Dent Traumatol1995;11:51-8.
Revascularization
Loss of blood
supply to pulp
Revascularization – Day 4
Coronal pulp
Extensive ischemic
injury
Revascularization – Day 4
Coronal pulp
Extensive ischemic
injury
Apical pulp
Initial
revascularization
Revascularization – 4 Weeks
Pulp status
Revascularization
Reinnervation
New odontoblastic
layer
Revascularization
Typical sequela
Pulp canal
obliteration
Dry Storage Time
As dry storage time increases
Pulp survival decreases
Andreasen JO, Borum MK, Jacobsen HL, Andreasen FM.
Endod Dent Traumatol 1995;11;59-68.
Storage Media
Nonphysiologicstorage
Minimal chance of pulp revascularization
Andreasen JO, Borum MK, Jacobsen HL, Andreasen FM.
Endod Dent Traumatol 1995;11;59-68.
Storage Media
Nonphysiologic storage
Minimal chance of pulp revascularization
Physiologic storage
HBSS, milk, saline, saliva
Improved chance of pulp revascularization
Andreasen JO, Borum MK, Jacobsen HL, Andreasen FM.
Endod Dent Traumatol 1995;11;59-68.
Pulpal Prognosis - Antibiotics
Systemic
antibiotics
Pulp
revascularization is
not increased
Cvek M, Cleaton-Jones P, Austin J, Lowni J, Kling M, Fatti P.
Endod Dent Traumatol 1990;6:157-69.
Pulpal Prognosis - Antibiotics Systemic antibiotics
Pulp
revascularization is
not increased
Topical antibiotics
Beneficial effect
Cvek M, Cleaton-Jones P, Austin J, Kling M, Lowni J, Fatti P.
Endod Dent Traumatol 1990;6:170-6.
Pulpal Prognosis - Antibiotics
Topical Doxycycline
Decreased microorganisms
in pulpal lumen
Increased pulp
revascularization
Cvek M, Cleaton-Jones P, Austin J, Kling M, Lowni J, Fatti P.
Endod Dent Traumatol 1990;6:170-6.
Pulpal Prognosis - Antibiotics
Recommendation
Topical Doxycycline
1 mg in 20 ml physiologic
saline
5 minute soak
Cvek M, Cleaton-Jones P, Austin J, Kling M, Lowni J, Fatti P.
Endod Dent Traumatol 1990;6:170-6.
Endodontic Rationale
Mature root - 4 weeks
Very limited
revascularization
Endodontic Rationale
Mature root - 4 weeks
Very limited
revascularization
Ischemic coronal pulp
with great risk of infection
!!!
Endodontic Rationale – Mature
Root
Pulpectomy 7-14 days
Endodontic Rationale – Mature
Root
Calcium hydroxide placement
Endodontic Rationale –
Mature Root
Calcium hydroxide
Antibacterial
Increases pH in dentin
Favors mineralization over resorption
Tronstad L, Andreasen JO, et al.
pH changes in dental tissues after root canal filling with calcium hydroxide.
J Endodon 1981;7:17-21.
Endodontic Rationale –
Mature Root
Treatment recommendation
Ca(OH)2 therapy for as long as
practical, usually 6-12 months
Treatment of the Avulsed Permanent Tooth.
Recommended Guidelines of the American Association of Endodontists, 1995.
Specific Treatment Regimen
Specific Treatment Regimen
Root Development
Closed apex
Open apex
Extraoral Dry Time
One hour or less
More than one
hour
Treatment of the Avulsed Permanent Tooth.
Recommended Guidelines of the American Association of Endodontists, 1995.
Treatment Flowchart
< 1 hr > 1 hr
Extraoral Dry Time
Apex MaturityClosed Open Open or Closed
Pulpectomy7-14 days
Observe
Option:
Extraoral RCT
Pulpectomy 7-14 days
Emergency Treatment
Replantation technique
Local anesthetic, if
necessary
Radiograph to verify
position
Check occlusion
Physiologic splint
Emergency Treatment
Additional
Considerations
Analgesics
Emergency Treatment
Additional
Considerations
Analgesics
Chlorhexidine
Emergency Treatment
Additional Considerations
Analgesics
Chlorhexidine
Tetanus
Refer to physician for tetanus prophylaxis prn
Rothstein RJ, Baker FJ.
Tetanus: Prevention and treatment.
J Am Med Assoc 1978;240:675-6.
Emergency Treatment
Additional Considerations
Analgesics
Chlorhexidine
Tetanus
Antibiotics
Antibiotics
Penicillin
500 mg qid for 4-7 days
Andreasen JO.
Atlas of replantation and transplantation of teeth.
Philadelphia: W.B. Saunders Co., 1992;57-92.
Antibiotics
Tetracycline vs. amoxicillin in a replacement resorption model
Tetracycline had better anti-resorptive properties
Sae-Lim V, Wang CY, Choi GW, Trope M.
The effect of systemic tetracycline on resorption of dried replanted dogs’ teeth.
Endod Dent Traumatol 1998;14:127-32.
Antibiotics
Tetracycline vs. amoxicillin in an inflammatory root resorption model
Tetracycline had better anti-bacterial properties
Sae-Lim V, Wang CY, Trope M.
Effect of systemic tetracycline and amoxicillin on inflammatory root resorption of replanted dogs’ teeth.
Endod Dent Traumatol 1998;14:216-20.
Antibiotics
Recommendation
“Tetracycline could be considered as an alternative to amoxicillin after avulsion injuries.”
Sae-Lim V, Wang CY, Trope M.
Effect of systemic tetracycline and amoxicillin on inflammatory root resorption of replanted dogs teeth.
Endod Dent Traumatol 1998;14:216-20.
Tetracycline Use In Young Children
Tetracycline staining
Not a problem since avulsed maxillary anteriorshave already erupted and are not susceptible to staining
At worst, posterior teeth might be stained
Remote possibility with 7-10 day prescription
Sae-Lim V, Wang CY, Trope M.
Effect of systemic tetracycline and amoxicillin on inflammatory root resorption of replanted dogs’ teeth.
Endod Dent Traumatol 1998;14:216-20.
Avulsion Sequelae
Closed Apex
Extraoral dry
time 1 hour or
less
Avulsion Sequelae
Closed Apex
Extraoral dry time
more than 1 hour
Avulsion Sequelae
Open Apex
Extraoral dry
time 1 hour or
less
Avulsion Sequelae
Open Apex
Extraoral dry time
more than 1 hour
Avulsion Management
Be prepared -
Dental Trauma Kit
Immerse tooth in a
physiologic storage
medium to “buy time”
Determine extraoral dry
time
Follow AAE AND IADT
Guidelines
REFERENCES
- Essentials of traumatic injuries to the teeth
J.O.Anderasen and F.M. Anderasen
-Treatment planning for traumatized teeth
- Mitsuhiro tsukiboshi
-cohen’s pathways of the pulp
tenth edition
- Ingle’s –Endodontics 6th edition
- Storage Media For Avulsed
Teeth: A Literature ReviewBrazilian Dental Journal (2013) 24(5): 437-445
- Transport media for avulsed teeth:
A review Aust Endod J 2012; 38: 129–136
- A proposal for classification of tooth
fractures based on treatment needJournal of Oral Science, Vol. 52, No. 4, 517-529,
2010
Assessment of pulp vitality: a review
International Journal of Paediatric Dentistry 2009;
19: 3–15
STUDY OF STORAGE MEDIA FOR AVULSED
TEETH Brazilian Journal of Dental Traumatology
(2009) 1(2): 69-76
Fracture resistance of tooth
fragment reattachment: effects of
different preparation techniques and
adhesive materials Dental
Traumatology 2010; 26: 9–15;