Dental Fistula in Children: Causes, Diagnosis, and Evidence-Based Treatment

A dental fistula in children—also known as a parulis or gum boil—is a pathological drainage pathway that forms as a result of a chronic dental infection, usually originating from pulp necrosis due to deep caries or trauma.

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Although often painless, a fistula indicates the presence of an active infectious process that requires immediate dental intervention. Understanding its etiology, clinical presentation, and management is essential for effective pediatric care.

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✅ Etiology of Dental Fistula in Pediatric Patients
The most frequent causes include:

1. Deep Dental Caries
The primary cause is untreated dental caries that lead to irreversible pulpitis and ultimately pulp necrosis. This allows bacterial proliferation and abscess development, culminating in fistula formation.

2. Dental Trauma
Trauma—particularly in anterior teeth—may cause pulpal ischemia and necrosis, increasing the risk of chronic periapical infection.

3. Developmental Anomalies
Anomalies such as dens invaginatus or enamel defects increase susceptibility to pulp exposure and infection.

4. Failed Dental Treatments
Incomplete pulpotomies, pulpectomies, or restorations can predispose the tooth to persistent infection.

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✅ Clinical Characteristics
A pediatric dental fistula typically presents as:

▪️ A small, raised white or yellowish lesion on the gingiva or mucosa
▪️ Intermittent pus drainage
▪️ Minimal pain (because pressure is released)
▪️ A necrotic primary or permanent tooth
▪️ Radiographic evidence of periapical radiolucency

The fistula itself is not the disease, but a symptom of the underlying infection.

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✅ Diagnosis
Diagnosis is primarily clinical, supported by:

➤ Radiographic Evaluation
▪️ Periapical radiograph or CBCT to identify periapical pathology
▪️ Tracing the fistulous tract with a gutta-percha cone
➤ Pulp Vitality Testing
Useful for permanent teeth; typically unreliable in primary teeth.
➤ Caries and Trauma Assessment
Determining the original source of infection is essential for treatment.

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✅ Evidence-Based Treatment of Dental Fistula in Children
The goal is not to treat the fistula itself, but to eliminate the source of infection.

1. Pulp Therapy or Root Canal Treatment
▪️ Primary teeth: pulpectomy using resorbable materials
▪️ Permanent teeth: conventional root canal therapy
This eliminates bacterial load and restores periapical health.

2. Extraction of Non-Restorable Teeth
Indicated when:

▪️ The tooth has severe destruction
▪️ There is pathological mobility
▪️ Infection persists despite treatment

3. Systemic Antibiotics
Antibiotics are not first-line treatment but may be used when:

▪️ Facial cellulitis is present
▪️ The child has systemic symptoms (fever, malaise)
▪️ The infection is rapidly progressing

➤ Common pediatric antibiotic doses:
▪️ Amoxicillin: 40–50 mg/kg/day divided every 8–12 h
▪️ Amoxicillin + Clavulanate: 40–45 mg/kg/day (based on amoxicillin component) every 12 h
▪️ Clindamycin (penicillin allergy): 10–20 mg/kg/day divided every 6–8 h

These are evidence-based pediatric doses, but clinicians must consider weight, severity, and guidelines.

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✅ Prevention Strategies

▪️ Early and routine dental visits
▪️ Fluoride therapy for caries prevention
▪️ Restoration of early carious lesions
▪️ Traumatic injury prevention counseling
▪️ Sealants for high-risk occlusal surfaces

📊 Comparative Table: Management Approaches for Pediatric Dental Fistula

Aspect	Advantages	Limitations
Pulp Therapy (Pulpectomy)	Preserves tooth structure; high success in primary teeth	Requires child cooperation; not suitable for severely damaged teeth
Extraction	Eliminates infection quickly; simple procedure	May affect occlusion and arch space; requires space maintenance

💬 Discussion
A pediatric dental fistula is the result of a long-standing infectious process, most commonly linked to untreated caries, emphasizing the importance of early intervention and preventive dentistry. While fistulas may appear benign due to absence of pain, they reflect chronic periapical pathology that may compromise both primary and permanent dentition. Evidence indicates that definitive dental treatment, not antibiotics, is the most effective approach. When treated appropriately, prognosis is excellent and recurrence is rare.

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✍️ Conclusion
A dental fistula in children is a visible sign of an underlying infection requiring prompt diagnosis and treatment. Elimination of the infectious source —whether through pulp therapy or extraction—is essential for complete healing. Preventive strategies remain key to avoiding severe complications and maintaining long-term pediatric oral health.

🔎 Recommendations
▪️ Evaluate any gingival lesion suspicious of a fistula with radiographs.
▪️ Treat the source of infection—not just the fistula.
▪️ Avoid unnecessary antibiotic use.
▪️ Emphasize prevention through caregiver education.
▪️ Monitor treated teeth until complete radiographic healing is confirmed.

📚 References

✔ American Academy of Pediatric Dentistry. (2024). Guideline on antibiotic therapy for pediatric dental patients. AAPD Reference Manual. https://www.aapd.org
✔ Fuks, A. B., Papagiannoulis, L., & Duggal, M. S. (2021). Pulp therapy for primary teeth. International Journal of Paediatric Dentistry, 31(1), 5–15. https://doi.org/10.1111/ipd.12701
✔ Siqueira, J. F., & Rôças, I. N. (2023). The microbiology of apical periodontitis. Dental Clinics of North America, 67(1), 1–16. https://doi.org/10.1016/j.cden.2022.08.001
✔ Robertson, A., & Andreasen, J. O. (2019). Traumatic dental injuries in children. Pediatric Dentistry, 41(3), 210–218.

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Traumatic White Lesions in the Pediatric Oral Cavity: Diagnosis, Prevention and Evidence-Based Treatment

Traumatic white lesions in the pediatric oral cavity are mucosal alterations caused by mechanical, thermal, or chemical trauma.

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These lesions often present as white plaques, patches, or linear streaks resulting from epithelial damage and keratinization. Recognizing their etiology and distinguishing them from infectious, genetic, or premalignant disorders is essential for accurate pediatric dental management.

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✅ Introduction
White lesions in children may arise from physiological processes, benign injuries, or pathological conditions. Trauma-related white lesions are particularly common because children frequently bite, scrape, or irritate the oral mucosa during play, mastication, or parafunctional habits. Misdiagnosis may lead to unnecessary antimicrobial use or missed identification of systemic disease. This article presents an evidence-based diagnostic and therapeutic approach focused specifically on traumatic etiologies.

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✅ Clinical Presentation and Diagnosis

➤ Etiology of Traumatic White Lesions
Traumatic white lesions in children typically arise from:

▪️ Accidental cheek or lip biting
▪️ Frictional keratosis from orthodontic appliances or fractured teeth
▪️ Thermal burns from hot food or beverages
▪️ Chemical injuries, commonly from aspirin or acidic agents
▪️ Iatrogenic trauma (dental procedures, suction injuries)
▪️ Self-inflicted habits (nail biting, bruxism-related cheek trauma)

These insults cause epithelial hyperkeratosis, necrosis, or fibrin deposition, producing a white appearance.

➤ Key Diagnostic Features
Clinically, traumatic white lesions typically show:

▪️ Well-defined or irregular white patches, sometimes with erythematous borders
▪️ History of repeated trauma
▪️ Non-scrapable surface, distinguishing them from candidiasis
▪️ Rapid onset, often within hours
▪️ Pain or sensitivity, although frictional keratosis is often asymptomatic
▪️ Resolution in 7–14 days once the irritant is removed

Laboratory tests or biopsies are rarely required unless lesions persist or atypical features appear.

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✅ Evidence-Based Treatment and Management

➤ First-line Management
▪️ Eliminate the source of trauma, such as sharp teeth, orthodontic appliances, or biting habits.
▪️ Advise soft diet and reduced irritants (acidic foods, strong spices).
▪️ Topical analgesics (benzocaine or lidocaine gel) for pain relief.
▪️ Barrier protectants, such as hyaluronic acid gels or Orabase.
▪️ Re-evaluation in 1–2 weeks to confirm healing.

➤ When to Consider Medications
▪️ Severe inflammation: short-term topical corticosteroids (e.g., 0.1% triamcinolone acetonide).
▪️ Secondary infection: antimicrobial mouth rinses (chlorhexidine 0.12%).
▪️ Persistent biting habits: behavioral therapy or orthodontic guards.

➤ When to Escalate
Lesions should be reassessed or referred if:
▪️ Persist beyond 3 weeks
▪️ Present with induration, ulceration, or unexplained bleeding
▪️ Mimic systemic pathologies (lichen planus, HSV, autoimmune disorders)

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✅ Prevention Strategies
▪️ Proper smoothing of sharp dental edges
▪️ Protection during orthodontic treatment
▪️ Counseling caregivers about parafunctional habits
▪️ Avoidance of chemical irritants in the mouth
▪️ Guidance on safe temperature of food and drinks
▪️ Encourage wearing mouthguards during sports activities

📊 Comparative Table: Trauma-Induced vs Infectious White Lesions

Aspect	Advantages	Limitations
Trauma-Induced Lesions	Clear history of injury; rapid healing once irritant removed	May mimic other pathologies; recurrent in parafunctional habits
Infectious Lesions	Responsive to targeted antimicrobial therapy; distinctive scrapable features	Risk of misdiagnosis; may indicate systemic disease if recurrent

💬 Discussion
Traumatic white lesions are typically benign but can resemble more serious conditions. A careful history is the most critical diagnostic tool. Distinguishing traumatic keratosis from infectious or systemic etiologies prevents overtreatment with antifungals or unnecessary biopsies. Evidence supports environmental modification and habit correction as effective first-line management. Pediatric dentists must remain alert to lesions that deviate from typical healing patterns, as these may signal underlying systemic issues requiring medical evaluation.

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✍️ Conclusion
Traumatic white lesions in children are common, benign, and generally self-limiting. Through a structured diagnostic process, clinicians can differentiate them from infectious and systemic pathologies. Early identification, elimination of irritants, and follow-up are essential to successful management. Prevention strategies involving appliance adjustment, habit counseling, and environmental modifications significantly reduce recurrence.

🔎 Recommendations
▪️ Conduct a thorough history to identify traumatic etiology.
▪️ Prioritize removal of mechanical, chemical, or thermal irritants.
▪️ Use barrier and analgesic agents when needed.
▪️ Re-evaluate within 1–2 weeks to confirm resolution.
▪️ Refer if lesions persist beyond 3 weeks or show atypical features.
▪️ Educate caregivers and children to reduce risky habits and oral trauma.

📚 References

✔ American Academy of Pediatric Dentistry. (2022). Policy on management of dental patients with oral lesions. AAPD Reference Manual. https://www.aapd.org
✔ Chiang, M. L., & Ng, S. K. (2021). Traumatic oral lesions in children: A clinical review. Pediatric Dentistry Journal, 31(2), 45–52. https://doi.org/10.1016/j.pdj.2021.03.004
✔ Odell, E. W. (2020). Clinical problem solving in oral medicine. Elsevier.
✔ Regezi, J. A., Sciubba, J. J., & Jordan, R. C. (2022). Oral pathology: Clinical pathologic correlations (8th ed.). Elsevier.
✔ Villa, A., & Abati, S. (2019). Oral white lesions: An updated clinical diagnostic decision tree. Journal of Dentistry, 84, 103–110. https://doi.org/10.1016/j.jdent.2019.03.011

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Antibiotics in Pediatric Dentistry: Safe Indications, Correct Dosing, and Common Prescribing Errors

Antibiotic prescribing in children requires strict clinical criteria to prevent resistance, adverse effects, and therapeutic failure. This article provides updated guidance on indications, dosing, common mistakes, and safe alternatives in pediatric dental infections.

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✅ Introduction
Pediatric dental infections are primarily managed through local treatment, not antibiotics. Despite this, unnecessary prescriptions remain common. Understanding when antibiotics are essential and how to prescribe them safely and effectively is crucial for pediatric dentists.

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✅ Indications for Antibiotics in Pediatric Dentistry
Antibiotics are indicated only when an infection spreads beyond the tooth, shows systemic involvement, or cannot be controlled with local measures.

➤ Evidence-based indications
▪️ Facial swelling with extraoral cellulitis
▪️ Lymphadenitis associated with dental infection
▪️ Fever, malaise, or trismus indicating systemic spread
▪️ Acute dental abscess with spreading infection
▪️ Immunocompromised pediatric patients
▪️ Post-trauma infection when contamination is high

➤ Non-indications (Do NOT prescribe)
▪️ Localized pulpitis
▪️ Local dental abscess without systemic signs
▪️ Pain without infection
▪️ After routine extractions
▪️ Viral lesions (herpetic gingivostomatitis)

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✅ Pediatric Dosage Recommendations (By Infection Type)

➤ First-line antibiotic: Amoxicillin
▪️ Dose: 20–40 mg/kg/day divided every 8 hours
▪️ Indications: odontogenic cellulitis, abscess with systemic signs

➤ Severe infections or concern for resistance: Amoxicillin–Clavulanate
▪️ Dose: 25–45 mg/kg/day (amoxicillin component), divided every 12 hours
▪️ Indications: spreading cellulitis, failure of first-line therapy

➤ Penicillin allergy (non-anaphylactic): Cephalexin
▪️ Dose: 25–50 mg/kg/day divided every 6–12 hours
▪️ Indications: mild to moderate odontogenic infections

➤ Penicillin allergy (anaphylactic): Clindamycin
▪️ Dose: 10–25 mg/kg/day divided every 8 hours
▪️ Indications: severe infections, cellulitis, deep-space involvement

➤ Anaerobic dominance suspected: Metronidazole
▪️ Dose: 7.5 mg/kg every 8 hours
▪️ Always used in combination with amoxicillin

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✅ Common Prescribing Errors in Pediatric Dentistry

➤ Overuse of antibiotics
One of the most recurrent issues. Local treatment (pulpotomy, drainage, extraction) is often sufficient.

➤ Incorrect dosing
Underdosing promotes resistance; overdosing increases toxicity. Weight-based calculation is essential.

➤ Wrong duration
For odontogenic infections: 5–7 days is typically enough; prolonged courses offer no benefit.

➤ Treating viral diseases with antibiotics
Herpetic gingivostomatitis or recurrent aphthae do not require antibiotics.

➤ Prescribing without drainage
Antibiotics do not replace surgical management.

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✅Safe Alternatives to Antibiotic Use

➤ Local interventions
▪️ Drainage
vPulp therapy
▪️ Extraction
▪️ Irrigation

➤ Analgesic management
▪️ Acetaminophen: 10–15 mg/kg/dose every 6 hours
▪️ Ibuprofen: 10 mg/kg every 6–8 hours

➤ Adjunctive measures
▪️ Warm compresses
▪️ Oral hygiene reinforcement
▪️ Monitoring within 24–48 hours

📊 Comparative Table: Safe Alternatives vs Antibiotic Therapy

Aspect	Advantages	Limitations
Local Treatment (Drainage, Pulp Therapy)	Addresses the source of infection; avoids antibiotic exposure	Requires cooperation and may not be feasible in severe cases
Systemic Antibiotics	Useful when infection spreads or systemic signs are present	Risk of resistance, adverse reactions, and misuse

💬 Discussion
The misuse of antibiotics in pediatric dentistry contributes to global antimicrobial resistance. Proper prescribing requires understanding infection pathways, pediatric physiology, and pharmacology. Local treatment remains the cornerstone of management, while antibiotics play a supportive role only when clinically necessary.

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✍️ Conclusion
Appropriate antibiotic use in pediatric dentistry demands strict adherence to indications, accurate weight-based dosing, and avoidance of unnecessary prescriptions. Implementing evidence-based practices ensures effective management while reducing risks of resistance and adverse effects.

🔎 Recommendations
▪️ Always confirm systemic involvement before prescribing.
▪️ Choose first-line agents based on current pediatric guidelines.
▪️ Calculate doses by body weight, not age.
▪️ Reassess within 48 hours for clinical improvement.
▪️ Educate parents on correct administration and adherence.

📚 References

✔ Brook, I. (2017). The role of antibiotics in pediatric dental infections. Pediatric Dentistry, 39(5), 325–331.
✔ Wright, J. T., Tampi, M. P., Graham, L., Estrich, C., et al. (2018). Evidence-based clinical practice guideline for antibiotic use in pediatric dental patients. Journal of the American Dental Association, 149(11), 906–921.e12. https://doi.org/10.1016/j.adaj.2018.08.020
✔ American Academy of Pediatric Dentistry. (2023). Use of antibiotic therapy for pediatric dental patients. AAPD Reference Manual.

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Chewing Gum with Xylitol vs. Other Delivery Forms: Which Works Best to Prevent Dental Caries?

This article evaluates the effectiveness of xylitol chewing gum compared with other xylitol delivery forms—including syrups, lozenges, and wipes—for preventing dental caries in children. Current evidence highlights differences in mechanism, compliance, and clinical outcomes.

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✅ Introduction
Xylitol is a well-established noncariogenic polyol with proven benefits in reducing Streptococcus mutans levels and caries incidence. Although chewing gum is the most widely studied delivery form, alternative methods such as xylitol syrup, lozenges, and oral wipes have expanded clinical use, especially in younger children who cannot chew gum. This article examines which delivery form offers the most effective caries-preventive benefit based on current scientific evidence.

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✅ Mechanism of Action Across Delivery Forms
All delivery forms rely on the same primary mechanism: inhibition of Streptococcus mutans metabolism, reduced bacterial adhesion, and promotion of salivary flow. Chewing gum, however, provides an additional benefit by stimulating saliva, which enhances buffering capacity and mechanical clearance.

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✅ Presentations
Below is a structured presentation of the main xylitol product formulations used in pediatric caries prevention. Each subsection summarizes evidence, practical advantages, and age-appropriate considerations.

➤ Xylitol Chewing Gum
▪️ Evidence & rationale: Multiple randomized trials and long-term studies show that xylitol chewing gum (used 3–5 times/day) reduces caries incidence in school-aged children.
▪️ Practical notes: Provides salivary stimulation and prolonged oral exposure; best suited for children able to safely chew gum (typically ≥5 years). Not recommended for toddlers due to choking risk and chewing ability.

➤ Xylitol Syrup
▪️ Evidence & rationale: RCTs in infants and toddlers demonstrate that xylitol syrup administered by caregivers (e.g., divided doses totaling ~8–10 g/day) reduces vertical transmission of S. mutans and lowers early childhood caries (ECC) incidence.
▪️ Practical notes: Ideal for children who cannot chew; dosing and caregiver compliance are critical.

➤ Xylitol Lozenges (or Pastilles)
▪️ Evidence & rationale: Lozenges prolong contact time in the oral cavity and have shown similar antimicrobial effects to gum when consistently used. Clinical effectiveness depends on adherence and correct use (slow dissolution).
▪️ Practical notes: Useful in settings where gum is restricted (e.g., schools) but require that children understand not to swallow or chew them prematurely.

➤ Xylitol Wipes and Topical Applications
▪️ Evidence & rationale: Primarily studied for their ability to reduce salivary/plaque levels of S. mutans in infants. Evidence for direct caries-preventive outcomes is limited but promising as an adjunct.
▪️ Practical notes: Best as part of a caregiver-administered routine for infants and very young children; not a standalone solution for high-risk cases.

➤ Combined or Programmatic Use (e.g., Maternal + Child Regimens)
▪️ Evidence & rationale: Studies combining maternal xylitol use with child interventions (e.g., syrup or wipes) show additive reductions in transmission and caries risk. Programmatic approaches used in public health initiatives often yield better population outcomes.
▪️ Practical notes: Consider combined strategies for high-risk populations; logistics and adherence must be planned.

📊 Comparative Table: Xylitol Delivery Forms for Caries Prevention

Aspect	Advantages	Limitations
Xylitol Chewing Gum	Strong evidence; high salivary stimulation; convenient for older children	Not suitable for toddlers; requires chewing ability; school restrictions
Xylitol Syrup	Ideal for infants; well-studied; easy caregiver administration	Higher sugar-like intake volume; requires multiple doses daily
Xylitol Lozenges	Prolonged oral exposure; gum alternative for older children	Dependent on compliance; choking risk for small children
Xylitol Wipes	Useful for infants; reduces S. mutans transmission	Less evidence for caries reduction; lower overall effectiveness

💬 Discussion
Among all delivery forms, xylitol chewing gum consistently demonstrates the strongest evidence for reducing dental caries in older children, largely due to its enhanced salivary stimulation and frequent dosing opportunities. Xylitol syrup, however, is the preferred form for toddlers and infants due to safety and ease of administration. Lozenges serve as a practical alternative for older children unable to chew gum during school hours, whereas wipes play a supportive role primarily in S. mutans reduction rather than direct caries prevention.

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✍️ Conclusion
Chewing gum with xylitol remains the most effective delivery form for preventing dental caries in school-aged children, supported by robust clinical evidence. For younger age groups, xylitol syrup is the preferred option, while lozenges and wipes offer supplementary or situational benefits. The optimal delivery form should consider age, safety, compliance, and clinical goals.

🔎 Recommendations
▪️ Use xylitol chewing gum (3–5 daily exposures) for children ≥5 years.
▪️ Prefer xylitol syrup for infants and toddlers.
▪️ Use lozenges where gum is not permitted.
▪️ Use wipes as an adjunct to reduce S. mutans in infants.
▪️ Select products containing at least 1 g of xylitol per dose.

📚 References

✔ Dodds, M. W. J. (2015). Xylitol and oral health. Journal of Dental Education, 79(10), 1169–1172. https://pubmed.ncbi.nlm.nih.gov/26438299/
✔ Honkala, S., & Honkala, E. (2017). Chewing gum and caries prevention in children. International Journal of Dentistry, 2017, 1–6. https://doi.org/10.1155/2017/8365651
✔ Hujoel, P. P., Lingström, P., & Bader, J. D. (2017). The effects of xylitol on dental caries and oral flora. Journal of the American Dental Association, 148(6), 455–463.e5. https://doi.org/10.1016/j.adaj.2017.03.013
✔ Milgrom, P., Ly, K. A., Roberts, M. C., Rothen, M., Mueller, G., & Yamaguchi, D. K. (2006). Xylitol pediatric syrup for caries prevention: A double-blind randomized clinical trial. Archives of Pediatrics & Adolescent Medicine, 160(11), 1272–1276. https://doi.org/10.1001/archpedi.160.11.1272
✔ Söderling, E. M. (2009). Xylitol, mutans streptococci, and dental plaque. Advances in Dental Research, 21(1), 74–78. https://doi.org/10.1177/0895937409335620

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Pulpotomy vs. Pulpectomy in Primary Teeth: A Contemporary Clinical Guide

Vital pulp therapy in primary teeth is a cornerstone of pediatric dental treatment. Among the most common procedures are pulpotomy, which conserves some of the radicular pulp, and pulpectomy, which removes all pulp tissue.

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Understanding the clinical indications, long-term outcomes, advantages, and limitations of each technique is essential for optimizing patient care and maintaining primary teeth until exfoliation.

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✅ Background and Rationale
Primary teeth differ significantly from permanent teeth in morphology and physiology, notably in their root anatomy, resorption patterns, and innervation. Current pediatric dentistry guidelines (e.g., AAPD) describe pulpotomy as indicated when coronal pulp is inflamed but radicular pulp remains vital. Meanwhile, pulpectomy is generally reserved for cases with necrosis, irreversible pulpitis, or radiographic pathology.

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✅ Clinical Evidence: Success Rates & Comparative Outcomes

➤ Randomized & Controlled Trials
▪️ A multicenter RCT comparing cervical pulpotomy (with calcium-enriched mixture cement) versus pulpectomy (Metapex) in primary molars with irreversible pulpitis found no significant difference in clinical and radiographic success rates. PubMed
▪️ In a split-mouth randomized trial on primary incisors with vital pulp exposure, pulpotomy (formocresol) and pulpectomy (zinc-oxide-eugenol) showed similar 12-month success, with survival rates of ~82% vs ~74%, respectively (not statistically significant).

➤ Observational and Cohort Studies
A retrospective cohort study of 876 primary molars reported that iRoot BP Plus pulpotomy had a significantly better long-term prognosis (survival over 48 months) than Vitapex pulpectomy.
A survival analysis of pulpectomy under general anesthesia found that failures usually stemmed from incomplete tissue removal and complexity of root canal systems in primary molars.

➤ Systematic Reviews & Meta-Analyses
▪️ A large Cochrane-type review concluded that MTA (mineral trioxide aggregate) is superior to formocresol and calcium hydroxide for pulpotomy in primary teeth.
▪️ Another systematic review and meta-analysis demonstrated high clinical and radiographic success for pulpotomy in primary teeth with irreversible pulpitis, suggesting that inflammation might be confined to the coronal pulp in many cases.

📊 Comparative Table: Pulpotomy vs Pulpectomy in Primary Teeth

Aspect	Advantages	Limitations
Tissue preservation	Maintains some vital radicular pulp, encouraging natural resorption	May leave inflamed tissue if diagnosis is incorrect
Procedure time & behavior	Generally faster and less technically demanding; better tolerated in uncooperative children	Hemostasis must be achieved; persistent bleeding may complicate treatment
Long-term survival	High survival rates over several years (e.g., > 70% at 48 months with bioceramic pulpotomy) :contentReference[oaicite:9]{index=9}	Success depends on correct diagnosis and use of proven medicaments (e.g., MTA) :contentReference[oaicite:10]{index=10}
Indications	Irreversible pulpitis with vital radicular tissue; minimal radiographic pathology	Not suitable if necrosis, internal/external resorption, or periapical infection present :contentReference[oaicite:11]{index=11}
Risks & complications	Lower risk of overfilling; less risk to developing permanent tooth bud	Risk of failure if improper agent or poor seal; possible internal resorption
Restoration after treatment	Can be restored with stainless steel crowns or other durable restorations with good retention :contentReference[oaicite:12]{index=12}	Coronal leakage or microleakage can compromise outcome if restoration fails

💬 Discussion
The body of evidence suggests that pulpotomy and pulpectomy both have clinically acceptable success in primary teeth when properly indicated. Notably:

▪️ Pulpotomy, especially when using modern materials like MTA or bioceramic cements (e.g., iRoot BP Plus), demonstrates excellent long-term survival.
▪️ Pulpectomy, while more invasive, remains critical in cases of necrosis or when radiographic signs of pathology are present. However, it is technically demanding, particularly due to the complex canal anatomy of primary molars.
▪️ Systematic reviews consistently favor MTA over traditional agents like formocresol or calcium hydroxide for pulpotomy, due to better clinical and radiographic outcomes.
▪️ Patient-centered outcomes also favor more conservative therapy: pulpectomy has been associated with improved quality of life and lower dental anxiety compared to extraction, making it preferable over tooth loss.

Additionally, a recently registered RCT protocol aims to provide more rigorous evidence by comparing pulpotomy vs pulpectomy in primary molars with irreversible pulpitis over two years. This trial could potentially shift paradigms if pulpotomy proves non-inferior, given its lower invasiveness and patient burden.

📌 Recommended Article :

Dental Article 🔽 Mineral Trioxide Aggregate (MTA) in Pediatric Dentistry: Uses, Benefits, and Clinical Evidence ... Among them, Mineral Trioxide Aggregate (MTA) has emerged as a gold standard for pulp therapy, especially for its regenerative properties and sealing capability.

✅ Recommendations for Clinical Practice

1. Case Selection Is Key
▪️ Use pulpotomy when the pulp is vital, bleeding is controlled, and no periapical pathology is evident.
▪️ Reserve pulpectomy for cases with necrosis, internal/external resorption, or evidence of interradicular/periapical disease.

2. Material Choice
▪️ Prefer MTA or bioceramic materials (e.g., iRoot BP Plus) for pulpotomy due to demonstrated higher success rates.
▪️ For pulpectomy, use resorbable filling materials compatible with primary tooth anatomy (e.g., Metapex, Vitapex), though evidence does not strongly favor one over another.

3. Behavior Management & Procedural Efficiency
▪️ Because pulpotomy is generally faster and less technique-sensitive, it may be better suited for younger or less cooperative children.
▪️ Ensure accurate diagnosis (clinical + radiographic) to minimize risk of failed treatment.

4. Follow-up Protocol
▪️ Schedule periodic clinical and radiographic reviews (e.g., 6 months, 12 months, annually) to monitor for signs of failure or resorption.
▪️ Optimize restorative sealing (e.g., stainless-steel crown) to reduce risk of microleakage.

5. Research and Continuous Learning
▪️ Stay updated with ongoing trials (e.g., the non-inferiority RCT of pulpotomy vs pulpectomy in primary molars) for evidence that may refine treatment guidelines.
▪️ Contribute to or audit long-term outcomes in your own practice to inform future decisions.

📌 Recommended Article :

Dental Article 🔽 Partial Pulpotomy in Pediatric Dentistry: Technique, Benefits, and Key Differences ... Partial pulpotomy offers a biologically favorable approach in cases of limited pulp inflammation, especially in traumatic pulp exposures or shallow carious lesions, promoting healing and long-term tooth survival.

✍️ Conclusion
In modern pediatric dentistry, both pulpotomy and pulpectomy remain viable options for managing pulpally involved primary teeth. While pulpotomy offers a more conservative and less time-consuming approach with excellent long-term survival—especially when using materials like MTA or bioceramics—pulpectomy remains irreplaceable in cases of necrosis or advanced pathology. Clinicians should base their choice on careful diagnosis, patient behavior, material selection, and a commitment to follow-up. Together, these strategies help preserve primary teeth, maintain arch integrity, and support the well-being of pediatric patients.

📚 References

✔ Holan, G., & Fuks, A. B. (2015). The role of pulpectomy in the primary dentition. Pediatric Dentistry, 37(6), 559–566.
✔ Philip, N., Cherian, J. M., Mathew, M. G., et al. (2024). Treatment outcomes of pulpotomy versus pulpectomy in vital primary molars diagnosed with symptomatic irreversible pulpitis: protocol for a non-inferiority randomized controlled trial. BMC Oral Health, 24, 626. https://doi.org/10.1186/s12903-024-04411-6
✔ Li, J., Fan, W., Zhou, Y., Wu, L., Liu, W., & Huang, S. (2024). Pulpotomy versus pulpectomy in carious vital pulp exposure in primary incisors: a randomized controlled trial. BMC Dentistry.
✔ Xu, X., Chen, X., Wang, X., & Chen, J. (2023). Survival analysis of pulpotomy versus pulpectomy in primary molars with carious pulp exposure. International Endodontic Journal.
✔ Walsh, T., Clarke, M., Tsang, A., Marshman, Z., & Petrou, K. (2016). Pulp treatment for extensive decay in primary teeth. Cochrane Database of Systematic Reviews, (4), CD003220.
✔ American Academy of Pediatric Dentistry. (n.d.). Pulp Therapy for Primary and Immature Permanent Teeth. AAPD Policy.

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► Management of Pulpal Infections in Primary Teeth: Evidence-Based Protocols 2025
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► Partial pulpotomy vs. Conventional (full) pulpotomy in primary teeth — a comparative, evidence-based review