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Maxillary first molar

The maxillary first molar is the largest and strongest permanent in the human , located in the upper jaw () as the sixth from the midline on each side, positioned distal to the second . It typically erupts between 6 and 7 years of , with completion around 9 to 10 years, marking the beginning of the posterior without a predecessor. Featuring a broad, quadrangular crown approximately 10-11 mm mesiodistally and 11 mm buccolingually, it has four primary cusps—mesiobuccal, distobuccal, mesiolingual (largest), and distolingual (spheroidal)—often supplemented by a small mesiolingual . Supported by three divergent (mesiobuccal, distobuccal, and the longest palatal ), it usually contains four root canals, with the mesiobuccal frequently exhibiting a second canal (MB2). Its primary function is the grinding and of food during mastication, while also establishing vertical dimension, supporting occlusal stability, and serving as a cornerstone for the . Anatomically, the maxillary first molar's occlusal surface is characterized by oblique ridges and fossae that facilitate efficient , with the mesiobuccal cusp occluding in the buccal groove of the mandibular first molar to guide proper alignment. The crown converges cervically, and the roots, averaging 12 to 14 in length, provide robust anchorage in the alveolar bone, though variations such as fused roots or additional canals occur in up to 58% of cases, particularly the MB2 canal in certain populations. These features make it prone to complex endodontic treatments due to its internal morphology, including a pulp chamber that narrows apically. Clinically, the maxillary first molar is significant for its early eruption, which exposes it to higher risks of caries, trauma, and developmental anomalies like ectopic eruption, influencing orthodontic planning and overall oral health. Its position near the center of the arch underscores its role in arch development and bite formation, with studies emphasizing the need for precise radiographic assessment to account for anatomical diversity across ethnic groups.

Anatomy

Location and general description

The maxillary first molar occupies a key position in the permanent of the upper jaw, serving as the most distal in the premolar-molar transition of each maxillary quadrant, immediately posterior to the second . In the Universal Numbering System adopted by the , it is designated as number 3 on the right side and number 14 on the left side, while in the Fédération Dentaire Internationale (FDI) system, it corresponds to numbers 16 (upper right) and 26 (upper left). This positioning establishes it as the first of the three permanent molars in the arch, contributing to the overall stability and alignment of the posterior . As a permanent tooth, the maxillary first molar typically features three well-developed —two buccal and one palatal—and four major cusps, classifying it as a multicuspid grinding element essential for occlusal function. Its exhibits a rhomboidal outline when viewed occlusally, with average dimensions including a mesiodistal width of approximately 10.4 mm and a buccolingual width of about 11.5 mm, making it broader transversely than anteroposteriorly to accommodate expansive surfaces. The height averages 7-8 mm, providing a relatively low profile that supports efficient force distribution during mastication. These measurements can vary slightly by sex and population, with males generally showing larger dimensions than females. Evolutionarily, the maxillary first molar represents a conserved feature in human dentition, adapted as a primary grinding tooth for processing tough, fibrous foods in ancestral diets, reflecting broader trends in hominid dental reduction while retaining robust occlusal capabilities for trituration.

Crown morphology

The crown of the maxillary first molar is the largest in the maxillary arch, exhibiting a rhomboidal or heart-shaped outline when viewed occlusally, with dimensions averaging approximately 10 mm mesiodistally and 11 mm buccolingually. The occlusal surface is characterized by four major cusps: the mesiobuccal (prominent), distobuccal (slightly smaller), mesiolingual (largest), and distolingual (smallest and least developed). These cusps are interconnected by ridges, including a prominent oblique ridge that spans transversely from the mesiobuccal cusp to the distolingual cusp, contributing to the tooth's structural integrity and grinding efficiency. The buccal surface displays a contour, with the mesiobuccal cusp reaching a height of approximately 6-7 mm and the distobuccal cusp at 5-6 mm, separated by a distinct buccal developmental groove that extends from the occlusal surface toward the cervical line. The lingual surface features the mesiolingual cusp as the tallest (about 6 mm), exceeding the distolingual cusp (4-5 mm), with a lingual groove dividing the two and occasionally a small on the mesiolingual aspect. The mesial surface is trapezoidal and inclined cervically, bordered by a prominent mesial marginal that connects the mesiobuccal and mesiolingual cusps, while the distal surface is narrower with a less developed distal marginal linking the distobuccal and distolingual cusps. Internally, the pulp chamber occupies the central portion of the crown and appears triangular when viewed from the occlusal aspect, reflecting the broader mesial dimension. It contains four pulp horns that correspond directly to the major cusps: the mesiobuccal horn (largest and deepest), distobuccal, mesiolingual, and distolingual horns, which extend toward the occlusal surface and are vulnerable to during or caries progression. The occlusal table includes a network of fissures and pits, such as the central fossa pit at the intersection of the central groove and oblique ridge, along with buccal and lingual fissures that outline the cusps; these features, bounded by marginal ridges, facilitate food retention during initial mastication stages while the overall ridged directs particles to minimize deep trapping. The crown-root junction at the cervical line is relatively smooth, marking the transition to the roots without pronounced irregularities.

Root morphology

The maxillary first molar typically possesses three distinct : the mesiobuccal (), distobuccal (), and palatal (P) , which emerge from the crown- and provide anchorage in the alveolar . The palatal is the largest and longest, often exhibiting a tapered, cross-section with a broad lingual depression, while the two buccal are shorter and more rounded, with the being broader buccolingually to resist torsional forces. These diverge widely from a short common trunk, enhancing stability against occlusal loads directed buccolingually. The root trunk, the undivided portion from the cementoenamel junction to the furcation, measures approximately 4-5 mm in length, with the buccal furcation occurring around 4 mm apical to the junction and the mesial and distal furcations slightly more coronal or apical, respectively. Average root lengths vary slightly by population but generally range from 12.7 to 14.0 mm, with the palatal root averaging 14.0 mm, the mesiobuccal 12.9 mm, and the distobuccal 12.7 mm; the palatal root's greater length contributes to its role in resisting vertical forces. Divergence angles between roots average around 45° between the distobuccal and palatal roots, promoting separation and reducing fracture risk. Internally, the root canal system is complex, particularly in the mesiobuccal root, which often contains two canals (prevalence 57-71%) classified as Weine Type II (two canals merging before the ) or Type IV (two separate canals throughout), while the distobuccal and palatal roots typically feature a single canal each (98-100% Type I per Vertucci/Weine). canals occur frequently, especially in the apical third, and apical deltas—networks of fine branches near the —are more prevalent in the mesiobuccal root (up to 60% in some studies), complicating endodontic access and influencing treatment outcomes. These configurations underscore the tooth's variability, with the palatal being the widest and most straightforward for .

Development and eruption

Chronology of development

The development of the maxillary first molar, as part of permanent odontogenesis, progresses through distinct morphological stages beginning . The bud stage initiates around the 16th week of intrauterine life, marked by the formation of a tooth germ as an epithelial from the extension of the dental lamina behind the primary second molar buds. This is followed by the cap stage, where the assumes a cap-like configuration enclosing the underlying and , occurring between approximately 16 and 20 weeks prenatal; histodifferentiation begins, establishing the foundation for morphology specific to molars with multiple cusps. The bell stage ensues from about 20 weeks prenatal through birth, during which the fully envelops the dental papilla, promoting cytodifferentiation of ameloblasts and odontoblasts, and setting the stage for apposition of hard tissues; the cervical loop of the starts to form the bilayered Hertwig's epithelial root sheath, which will later direct root development. Calcification, providing the first evidence of cusp formation through and deposition, commences at birth in the mesiobuccal cusp, followed sequentially by other cusps. Enamel formation completes at 2.5 to 3 years postnatal, while deposition in the crown is completed by 2.5 to 3 years; continues forming until root completion at 9 to 10 years. Hertwig's epithelial root sheath, originating from the cervical loop during the late bell stage, elongates apically post-crown formation, fragmenting to allow cementoblast access and facilitating the trilobate root structure typical of the maxillary first molar.

Eruption and exfoliation

The permanent maxillary first molar is among the first to erupt, typically between 6 and 7 years of age, emerging in the oral cavity distal to the primary second molar without a direct primary predecessor. This eruption marks the onset of the mixed dentition phase and positions the tooth to guide the alignment of subsequent permanent teeth. The primary maxillary first molar, which erupts earlier between 13 and 19 months of age, usually exfoliates around 9 to 11 years, coinciding with the completion of development in its permanent successor and further into the arch. Following that initiates at birth as a prerequisite for structural readiness, the permanent tooth's emergence is independent of the primary tooth's shedding but contributes to overall arch . After eruption, the maxillary first molar undergoes post-eruptive migration, involving gradual apical movement to maintain occlusal contact and compensate for lifelong wear. Occlusal wear patterns evolve from initial cuspal attrition in early years to progressive flattening and exposure in adulthood, influenced by masticatory forces and dietary factors. Factors such as space availability and overall arch length play key roles in successful eruption; inadequate space can result in delayed or ectopic positioning.

Occlusion and function

Occlusal relationships

In centric , the mesiobuccal cusp of the maxillary first molar aligns with and contacts the buccal groove of the mandibular first molar, establishing the primary anteroposterior relationship for normal . The distobuccal cusp of the maxillary first molar contributes to precise cusp-fossa alignment that supports vertical stability and even force distribution during closure. During lateral excursions, occlusal relationships shift to accommodate mandibular movement, with two predominant schemes influencing the maxillary first molar's role: canine guidance and group function. In canine guidance, the maxillary and mandibular canines provide the primary lateral contacts, disoccluding the posterior teeth including the first molars to prevent excessive wear and lateral forces on the molars. Conversely, in group function, multiple teeth on the working side—including the maxillary first molar's buccal cusps—maintain contacts with opposing mandibular teeth, distributing lateral forces across the premolars and molars for balanced excursion dynamics. Angle's classification of directly references the maxillary first molar's position relative to the mandibular first molar, with Class I representing the normal relationship where the mesiobuccal cusp overlaps the buccal groove, promoting ideal anteroposterior harmony and serving as a foundational benchmark for assessment. Deviations, such as Class II where the maxillary molar is positioned anteriorly, alter these contacts and can compromise overall stability. The buccal tilt of the maxillary first molar's cusps, oriented outward along the Curve of Wilson, enhances lateral stability by positioning the surfaces to resist tipping forces during function. This tilt, combined with cusp-fossa interdigitation, creates a locking mechanism in centric that minimizes lateral displacement and ensures efficient load transfer between arches.

Role in mastication

The maxillary first molar plays a central role in the of food during mastication, leveraging its broad table to grind and ingested material into smaller particles. This tooth, in conjunction with its mandibular counterpart, performs the majority of the mechanical breakdown required for efficient chewing, transforming coarse food into a form suitable for . The surface, characterized by multiple cusps and ridges, facilitates shearing and crushing actions that enhance the overall process. During mastication, the maxillary first molar absorbs and distributes significant occlusal forces, typically up to 200-300 in natural , which are transmitted through its multi-rooted structure to the alveolar bone. The three well-developed —two buccal and one palatal—provide robust anchorage, allowing the to neutralize and dissipate these loads effectively and prevent excessive on surrounding periodontal tissues. This biomechanical ensures during repetitive cycles, contributing to the tooth's durability in handling varied food consistencies. By pulverizing food particles, the maxillary first molar aids in the formation of a cohesive bolus, which mixes with to initiate enzymatic and prepare contents for gastric processing. This grinding action increases the surface area of , promoting better salivation and , thereby facilitating smoother to the . The tooth's early eruption and prominent position in the underscore its in establishing effective bolus from childhood onward. With advancing age, on the occlusal surface of the maxillary first molar progressively exposes underlying , which can alter masticatory efficiency by reducing the sharpness of cuspal edges and potentially disrupting force distribution. This , resulting from cumulative occlusal contacts, may lead to decreased capability and altered patterns, though compensatory adaptations in musculature can mitigate some impacts. Advanced risks compromising the overall balance of the masticatory system, emphasizing the need for monitoring in older individuals.

Variations and anomalies

Morphological variations

The maxillary first molar exhibits notable morphological variations in cusp configuration, root structure, and overall dimensions, influenced by genetic and population factors. These benign variants occur within the normal range and differ from pathological anomalies. The standard serves as a baseline, featuring four primary cusps (mesiobuccal, distobuccal, mesiolingual, and distolingual) and three roots (two buccal and one palatal). Cusp number variations primarily involve the presence of accessory cusps, with the Carabelli trait—manifesting as an extra cusp or on the mesiolingual surface—being the most common. This trait ranges from a small pit to a fully developed fifth cusp and shows a global prevalence of 59% in permanent maxillary first molars, based on a of over 16,000 participants. Prevalence varies significantly by ethnicity, with higher rates in European populations (up to 87% in some studies) compared to Asian groups (around 40-50% in South Asians and lower in East Asians). Rare additional cusps, such as a fifth on the buccal surface, occur in less than 1% of cases and are more frequently reported in specific populations. Root fusion represents another key variation, where the typical three-root configuration may merge, resulting in two roots in approximately 4-5% of maxillary first molars globally. Complete fusion from the cemento-enamel junction to the apex affects about 4.8% of cases, often involving the palatal and distobuccal roots, and shows slight ethnic differences, with higher rates (up to 5-10%) in Asian populations like Yemenis and Koreans. The palatal root may appear bilobular in 5-10% of individuals, contributing to these fusion patterns without altering overall function. Additional roots, leading to a four-rooted form, are rare at 0.047% worldwide and occur across ethnic groups without marked disparities. Size and shape differences further highlight population-based diversity, with Asian groups exhibiting larger overall compared to Europeans or Caucasians. For instance, mesiodistal crown diameters average 10.0-10.5 mm in East Asian populations versus 9.5-10.0 mm in Europeans, reflecting broader buccolingual dimensions in the former. These variations influence occlusal fit but remain within functional norms across ethnicities.

Developmental anomalies

Developmental anomalies of the maxillary first molar encompass congenital defects arising during odontogenesis, distinct from morphological variations or post-eruptive . These irregularities can impact formation, , and , often resulting from genetic, environmental, or syndromic influences during the critical developmental phases between the 3rd and 6th months of intrauterine for this . Agenesis, the complete failure of the maxillary first molar to develop, is an exceedingly rare with reported rates ranging from 0.02% to 0.05% in the general . This frequently occurs in association with ectodermal dysplasia syndromes, where multiple teeth may be absent, leading to significant occlusal and masticatory challenges if untreated. Fusion and gemination represent unions or partial divisions of tooth germs, respectively, which can involve the maxillary first molar with adjacent teeth such as the second molar or premolars, effectively altering the total count in the arch. The prevalence of these anomalies in permanent is low, approximately 0.1% to 0.5%, and they are less common in molars compared to , but when present, they complicate endodontic and restorative procedures due to irregular chamber morphology. Taurodontism is characterized by an enlarged chamber extending apically, with short, furcated , giving the tooth a bull-like appearance on radiographs. In the maxillary first molar, this has a prevalence of about 4% to 8% across various populations, often bilateral and more frequent in females, potentially increasing susceptibility to exposure and complicating therapy. Developmental enamel hypoplasia manifests as quantitative defects in enamel formation, presenting as pits, grooves, or thin enamel layers on the maxillary first molar crown, resulting from disruptions such as nutritional deficiencies or infections during . While less prevalent in maxillary molars compared to mandibular counterparts (affecting around 10-20% of first molars overall), it predisposes the tooth to , caries, and aesthetic concerns. Dens invaginatus, or dens in dente, involves an infolding of into the crown or root, creating a pathway for bacterial ingress and involvement. Although predominantly affecting maxillary lateral incisors (prevalence up to 10%), its occurrence in the maxillary first molar is rare, estimated at less than 1%, but it significantly elevates the risk of early pulpal necrosis requiring proactive endodontic intervention.

Clinical aspects

Common pathologies

The maxillary first molar is particularly susceptible to dental caries due to its complex occlusal morphology, featuring deep and intricate fissures that trap food debris and harbor plaque accumulation, facilitating bacterial colonization and acid production by cariogenic flora such as . This anatomical predisposition often leads to initial lesion development in the pits and fissures, progressing to breakdown and, if untreated, involvement and , characterized by and potential pulp . Studies indicate a high of caries in first permanent molars, with occlusal surfaces of maxillary first molars showing caries frequencies around 52.7% in examined populations, underscoring their vulnerability compared to other tooth surfaces. Overall, caries in first permanent molars among adults ranges from 50% to 68.8%, with maxillary examples contributing significantly to this burden. Periodontal disease frequently manifests in the maxillary first molar through furcation involvement, where the trifurcation between its three roots—mesiobuccal, distobuccal, and palatal—becomes invaded by plaque and calculus, leading to horizontal bone loss and pocket formation. This occurs as a result of chronic gingival inflammation progressing to periodontitis, exacerbated by the tooth's root divergence and the anatomical proximity of furcations to the gingival margin, which hinders effective plaque control. The distal furcation of the maxillary first molar exhibits the highest frequency of involvement, reported at approximately 53% in periodontal patients, while overall furcation defects in maxillary molars reach up to 90% in advanced cases. Such involvement increases the risk of mobility, attachment loss, and eventual tooth loss if the disease advances. Periapical abscesses in the maxillary first molar typically arise from untreated infections, where bacterial invasion from advanced caries or leads to and subsequent periapical , forming a localized collection of at the apex. The tooth's multiple , particularly the palatal , provide pathways for infection spread into the surrounding alveolar bone and if the abscess extends superiorly. First molars, including the maxillary variant, are among the most common sites for such abscesses, accounting for a significant proportion of odontogenic infections due to their high caries incidence and endodontic treatment needs. While specific prevalence data for maxillary first molars is limited, they represent a frequent in cases, often linked to prior from occlusal decay. In one study of adults, dental attrition prevalence was 88%, with maxillary molars showing notable wear progression longitudinally from childhood into adulthood due to these habits. and commonly affect the occlusal surfaces of the maxillary first molar, resulting from parafunctional habits such as or clenching, which cause mechanical wear through tooth-to-tooth contact, or external frictional forces from habits like aggressive toothbrushing. involves progressive loss of and via occlusal grinding, often accelerated in individuals with sleep or awake , leading to flattened cusps and potential dentinal . , conversely, presents as V-shaped notches or band-like wear, typically on the facial surfaces near the . The maxillary first molar's prominent position in makes it particularly prone, contributing to altered bite dynamics over time.

Diagnostic and treatment considerations

Diagnosis of issues in the maxillary first molar begins with clinical vitality testing, such as the cold test, which demonstrates high (89%) and specificity (80%) for identifying nonvital , outperforming other subjective methods in regular dental practice. Pain on percussion serves as a periradicular test to assess supporting structures, with acceptable predictive value when combined with radiographic findings, though its standalone specificity is lower at 41%. Radiographic evaluation is essential for morphology; cone-beam computed tomography (CBCT) effectively detects additional canals, such as the mesiobuccal 2 (MB2), identifying a fourth canal in up to 37% of cases and confirming configurations with high accuracy compared to and clinical methods. Endodontic treatment requires careful access cavity design to preserve tooth structure; conservative endodontic access cavities, limited to the central area of the pulp chamber, reduce the preparation size by approximately 60-65% compared to traditional designs, minimizing dentin removal while allowing canal location. Instrumentation of the curved mesiobuccal and distobuccal roots poses challenges due to canal curvatures often exceeding 25 degrees; nickel-titanium rotary systems like Mtwo maintain original canal shape better than ProTaper, reducing transportation and ensuring effective cleaning without instrument separation. For restorative interventions addressing occlusal caries, amalgam remains a common choice for posterior due to its durability, with odds 2.44 times higher for use in versus bicuspids. Composite resins are preferred for minimally invasive restorations, while full crowns are indicated for extensive damage to restore function and protect remaining structure. is indicated for maxillary first affected by severe periodontitis, where advanced loss compromises restorability, often necessitating ridge preservation to maintain alveolar dimensions for future placement; such procedures can increase volume by up to 35% and reduce the need for augmentation. In cases of , may be required if conservative rocking fails to mobilize the , followed by consideration to replace the missing and prevent occlusal drift.