A functional lateral shift of the mandible into maximum intercuspation is most likely to be associated with which long-term consequence if left uncorrected during the active growth period?

 # A functional lateral shift of the mandible into maximum intercuspation is most likely to be associated with which long-term consequence if left uncorrected during the active growth period?

A. Increased risk of External Apical Root Resorption (EARR)

B. Pathologic Attrition on the non-shifted side

C. Anterior Open Bite Development

D. Skeletal Asymmetry

The correct answer is D. Skeletal Asymmetry

A functional lateral shift of the mandible—often due to unilateral posterior crossbite—forces the jaw to deviate laterally into maximum intercuspation to avoid occlusal interferences. During active growth, this chronic deviation alters condylar loading and remodeling, promoting asymmetric mandibular growth (e.g., longer ramus or body on the shifted side) and potential facial skeletal discrepancies, such as chin deviation or canting. Early correction is crucial, as these changes become increasingly permanent post-growth. This contrasts with the other options: EARR is more tied to orthodontic forces, attrition typically affects the shifted/working side's teeth, and anterior open bite relates to habits or vertical discrepancies rather than lateral shifts.

Malocclusion affecting the production of sibilant sounds

 # The production of sibilant sounds (e.g., 's', 'z') is most commonly affected by which two concurrent malocclusion features due to uncontrolled air escape and altered tongue positioning?

A. Unilateral Posterior Crossbite and Midline Discrepancy

B. Severe Mandibular Crowding and Deep Overbite

C. Excessive Overjet and Anterior Open Bite

D. Class III Malocclusion and Edge-to-Edge Incisors

The correct answer is: C. Excessive Overjet and Anterior Open Bite

Sibilant sounds like 's' and 'z' rely on precise airflow through a narrow tongue-to-palate groove, and disruptions from excessive overjet (protruding upper incisors) alter tongue positioning, while anterior open bite allows uncontrolled air escape through the anterior gap, often causing lisps or distortions. Studies confirm this combination's strong impact on sibilants, unlike the other options, which less directly affect anterior airflow or tongue placement for these sounds.

Severe, localized pathologic attrition on the palatal surfaces of maxillary incisors and the incisal edges of mandibular incisors is most commonly pathognomonic of which specific malocclusion?

 # Severe, localized pathologic attrition on the palatal surfaces of maxillary incisors and the incisal edges of mandibular incisors is most commonly pathognomonic of which specific malocclusion?

A. Severe Anterior Open Bite

B. Class II Division 2 Malocclusion (Deep Bite)

C. Unilateral Posterior Crossbite with functional shift

D. Class I Malocclusion with severe posterior crowding

The correct answer is: B. Class II Division 2 Malocclusion (Deep Bite)

This wear pattern—severe, localized pathologic attrition on the palatal surfaces of the maxillary incisors and the incisal edges of the mandibular incisors—is pathognomonic for Class II Division 2 malocclusion, which features retroclined maxillary central incisors and a deep overbite. In this condition, the mandibular incisors contact the lingual (palatal) aspects of the maxillary incisors during occlusion, leading to friction and progressive enamel loss at these sites over time. This contrasts with the other options: anterior open bite reduces incisal contact, unilateral posterior crossbite primarily affects lateral segments, and Class I with posterior crowding does not typically produce this anterior-specific lingual wear.

Accommodation Options for Delegates Attending the 16th International Conference of ODOAN, Dharan, Nepal

Our Conference venue is White Elegance Palace, Dharan. 

Stay comfortably close to the venue! Here are our recommended hotels for your convenience:

1. Hotel Brick

• Address: Sainik Chowk, Dharan, Sunsari, Nepal
• Phone: +977 9769703533
• Distance: 1 Kilometer
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2. Hotel Meriken

• Address: Dharan-15, Ramlaxman Marga, Dharan, Sunsari, Nepal
• Phone: +977 9761003570
• Distance: 2.6 Kilometer
• CLICK HERE TO VIEW REVIEWS ON GOOGLE

3. Hotel Star Purwi

• Address: Chatara Line, Dharan, Sunsari, Nepal
• Phone: +977 9817302498 / +977 9840070025
• Distance: 750 meters
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Non AC Single @ Rs. 1600

AC Twin Double @ Rs. 2500

AC Deluxe Tripe Sharing @ Rs. 2500

AC Deluxe Master Bedrooms @ Rs. 2200

4. New Dreamland Hotel & Lodge

• Address: Dhankute Road, Dharan, Sunsari, Nepal
• Phone: +977 25 525024, +977 25 575024, +977 25 575300
• Distance: 1 Kilometer
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5. Hotel Gorkha

• Address: Chatara Line, Dharan, Sunsari, Nepal
• Phone: +977 25 582311 / +977 9801355198
• Distance: 450 meters
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6. Hotel Gajur Palace

• Address: Bhotepul, Dharan, Sunsari, Nepal
• Phone: +977 9805338898
• Distance: 2.3 Kilometer
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The Psychosocial Impact of Dental Aesthetics Questionnaire (PIDAQ) and the Index of Orthodontic Treatment Need (IOTN) are both used to assess treatment need. Which component of the IOTN is most directly correlated with the patient-reported concerns measured by the PIDAQ?

 The Psychosocial Impact of Dental Aesthetics Questionnaire (PIDAQ) and the Index of Orthodontic Treatment Need (IOTN) are both used to assess treatment need. Which component of the IOTN is most directly correlated with the patient-reported concerns measured by the PIDAQ?

A. The Treatment Complexity Index (TCI)

B. The Aesthetic Component (AC)

C. The Dental Health Component (DHC)

D. The Peer Assessment Rating (PAR) Index 

The correct answer is B. The Aesthetic Component (AC)

The PIDAQ assesses patient-reported psychosocial impacts (e.g., psychological, social, and aesthetic self-consciousness) stemming from perceived dental aesthetics, making it a subjective, condition-specific OHRQoL tool. The IOTN's Aesthetic Component (AC) directly evaluates subjective aesthetic impairment via a 10-point visual scale of anterior teeth appearance (clinician-rated but perception-based), aligning closely with PIDAQ's focus on self-perceived concerns. Validation studies consistently use AC for convergent validity of PIDAQ, showing significant correlations (e.g., Spearman's ρ = 0.389, p < 0.001 in Sahoo et al., 2025; p < 0.001 in multiple adaptations like Persian, Swedish, and Indian versions). PIDAQ scores discriminate across AC grades, with higher AC scores (worse aesthetics) linked to elevated psychosocial impacts.

In contrast, the Dental Health Component (DHC) measures objective malocclusion severity for health risks, showing correlations (e.g., r = 0.72, p < 0.01 in Brown & Moerenhout, 2016) but indirectly via aesthetic proxies in severe cases. TCI and PAR are unrelated (TCI from complexity indices; PAR for malocclusion quantification). Thus, AC provides the most direct link to PIDAQ's patient-centered aesthetic concerns.

Based on current, high-level evidence, which occlusal feature has demonstrated the strongest, albeit weak, statistical association with an increased prevalence of pain-related Temporomandibular Disorders (TMD)?

 # Based on current, high-level evidence, which occlusal feature has demonstrated the strongest, albeit weak, statistical association with an increased prevalence of pain-related Temporomandibular Disorders (TMD)?

A. Anterior Open Bite

B. Class II Division 2 Malocclusion

C. Overjet greater or equal to 6 mm

D. Posterior Unilateral Crossbite

The correct answer is D. Posterior Unilateral Crossbite

High-level evidence from systematic reviews, such as the 2025 review by Alghamdi et al. in Frontiers in Neurology (analyzing 17 studies on children/adolescents), identifies posterior unilateral crossbite as having the strongest association with pain-related TMD signs/symptoms, including TMJ/muscle pain and tenderness. Pooled data show odds ratios (ORs) of 2.25–5.74 (95% CIs: 1.15–4.43 to 1.18–27.85; p<0.05 across studies like Pereira et al. 2009 and Perrotta et al. 2018), indicating a 2–6-fold increased risk, though with low GRADE certainty due to cross-sectional designs and heterogeneity. This exceeds associations for other features: anterior open bite (OR ~1.5–2.0 in select studies, e.g., Sonnesen 1998); Class II Division 2 (OR 2.61 for general Class II, but weaker/subgroup-specific for Div 2, per Šimunović et al. 2024); and overjet ≥6 mm (OR ~1.8–2.5, less consistent in mixed/permanent dentition per Manfredini et al. 2010). A 2025 meta-analysis by Chen et al. in BMC Oral Health reports 59% TMD prevalence in unilateral crossbite cases (95% CI: 46%–72%), vs. 40%–44% for others. Overall, while all links are weak (ORs <6, multifactorial etiology), crossbite shows the most consistent statistical signal.

The primary mechanism by which severe mandibular incisor crowding is hypothesized to independently increase the risk of localized periodontal breakdown, beyond confounding factors like poor hygiene, is:

The primary mechanism by which severe mandibular incisor crowding is hypothesized to independently increase the risk of localized periodontal breakdown, beyond confounding factors like poor hygiene, is:

A. Increased horizontal force application on the periodontium

B. Increased localized tooth mobility secondary to reduced bone support

C. Reduced access for optimal plaque control by the patient

D. Development of fenestrations and dehiscences due to tooth displacement

The correct answer is D. Development of fenestrations and dehiscences due to tooth displacement

Severe mandibular incisor crowding causes teeth to displace or rotate within the alveolar housing, violating bone constraints and leading to cortical plate resorption. This results in fenestrations (narrow bone defects exposing root surfaces) and dehiscences (wider marginal defects causing gingival recession and reduced bone support), increasing localized periodontal breakdown risk independently of plaque accumulation or hygiene. Studies, including a 2024 review in the British Dental Journal, highlight that crowded, labially displaced incisors often lack adequate labial gingival coverage, while lingual positioning creates excess tissue and undermined support, predisposing to attachment loss. Proclined incisors in crowded arches show up to a 50% chance of 2 mm bone loss per 8° of proclination, per CBCT analyses. This mechanism differs from hygiene-related plaque retention (option C) or secondary effects like mobility (option B), and while horizontal forces (option A) may contribute, displacement-induced defects are the primary hypothesized pathway in orthodontic literature.