TL;DR

Key Facts

What Is It?

The maxillary second molar is the sixth tooth from the midline in the upper jaw, positioned directly posterior to the maxillary first molar and anterior to the maxillary third molar (wisdom tooth). In the universal numbering system used in the United States, it is designated #2 on the patient’s upper right and #15 on the upper left. In the FDI two-digit system, it is numbered 17 (upper right) and 27 (upper left).

Unlike the premolars and anterior teeth, the maxillary second molar is not a succedaneous tooth — it does not replace any primary (deciduous) tooth. It erupts in a position posterior to the deciduous dentition entirely, typically emerging between the ages of 12 and 13. Its eruption coincides roughly with the eruption of the mandibular second molar and the completion of the adolescent mixed dentition transition. By the time the second molar fully erupts and establishes occlusion, the primary dentition has been fully replaced by the permanent teeth (with the exception of the ongoing development of third molars).

The maxillary second molar is broadly similar to the maxillary first molar in its general crown and root form, but a careful examination reveals consistent differences: the crown is somewhat smaller, the occlusal outline is less rhomboidal and more convergent distally, root fusion is more prevalent, and the cusp of Carabelli — a prominent feature on many maxillary first molars — is frequently absent or vestigial on the second molar. These distinctions are important for board exam tooth identification exercises and for clinical decision-making in restorative and endodontic procedures.

Why It Matters (Clinical + Exam Context)

The maxillary second molar is a high-frequency tooth in both clinical practice and board examinations. Its posterior position, complex root anatomy, and susceptibility to caries and periodontal disease — particularly in the distal region — demand thorough knowledge across multiple dental disciplines.

Clinical Relevance

Several clinical disciplines regularly encounter important challenges specific to the maxillary second molar:

• Endodontics: The mesiobuccal root of the maxillary second molar, like that of the first molar, frequently harbors a second canal (MB2). Missing this canal is one of the most common causes of endodontic failure. The posterior position of the tooth also creates access challenges — the buccal fat pad, limited mouth opening, and ramus proximity all complicate rubber dam placement, instrument access, and obturation.
• Restorative Dentistry: The distal surface of the maxillary second molar has no posterior neighbor (aside from the third molar, which is frequently absent or impacted). This means the distal contact area is often open or in contact with an erupting or impacted third molar, making it prone to food packing, caries, and periodontal pocketing.
• Periodontics: Distal pocketing adjacent to the second molar is one of the most common periodontal findings in adults. When a third molar is present, partially erupted, or impacted, the distal of the second molar is chronically inaccessible to home care and is at elevated risk for angular bone loss.
• Oral Surgery: Impacted third molars that lie close to or against the distal root of the maxillary second molar can cause resorption of the second molar’s distal root — a serious complication that may require treatment of both teeth. Access for third molar removal must always account for the proximity of the second molar’s roots.
• Orthodontics: The second molar is frequently used as an anchorage unit in orthodontic mechanics, particularly for retraction of anterior teeth. Banding or bonding the second molar requires careful adaptation to its convergent crown form and sometimes to an erupting third molar.

Crown Morphology

The crown of the maxillary second molar is broadly similar to that of the first molar but with several consistently observed differences that allow the two teeth to be distinguished. Understanding these distinctions is essential for tooth identification in practical dental anatomy courses and board examinations.

Occlusal Outline and Cusp Pattern

When viewed from the occlusal aspect, the maxillary second molar crown has a more trapezoidal or heart-shaped outline compared to the more rhomboidal shape of the first molar. The crown converges more markedly toward the distal, meaning the distal width is noticeably narrower than the mesial. The maxillary second molar typically presents with four cusps: the mesiobuccal (MB), distobuccal (DB), mesiopalatal (ML), and distopalatal (DL) cusps. The distopalatal cusp is generally smaller and less developed than it is in the first molar, and in some individuals it is reduced to a cusp remnant or absent entirely, producing a three-cusp (tricuspid) form.

The cusp of Carabelli — a fifth accessory cusp on the mesiopalatal surface present in a significant proportion of maxillary first molars — is typically absent or greatly reduced on the maxillary second molar. Its absence is a reliable radiographic and clinical feature that helps distinguish the second molar from the first.

Cusp Size and Arrangement

The mesiopalatal cusp remains the largest cusp of the maxillary second molar, consistent with the pattern established at the first molar. The cusps rank in size from largest to smallest: mesiopalatal > mesiobuccal > distobuccal > distopalatal. The oblique ridge — the prominent diagonal ridge connecting the mesiopalatal cusp tip to the distobuccal cusp tip — is present on the maxillary second molar but is frequently less well-defined than on the first molar.

Occlusal Surface Grooves and Fossae

The occlusal surface of the maxillary second molar presents a central fossa and the associated groove pattern. The central groove runs mesiodistally across the occlusal table, connecting the mesial and distal triangular fossae. The buccal groove extends from the central groove toward the buccal surface, separating the mesiobuccal and distobuccal cusps. The lingual groove extends lingually, separating the mesiopalatal and distopalatal cusps. The oblique ridge interrupts the central groove, which is why the maxillary molar groove pattern does not form a simple cross (unlike the lower molars). Pit-and-fissure caries risk is concentrated at the central fossa and the buccal groove terminus.

Buccal and Palatal Surfaces

The buccal surface presents two buccal cusps separated by a buccal groove. The crown height on the buccal surface is slightly less than on the first molar. The palatal surface is dominated by the large mesiopalatal cusp, which produces a prominent convexity. There is no cusp of Carabelli tubercle on the palatal surface of the second molar in most individuals.

Root & Canal Anatomy

The root system of the maxillary second molar follows the same three-root pattern as the first molar — mesiobuccal (MB), distobuccal (DB), and palatal — but exhibits several distinctive characteristics that have direct clinical implications, particularly in endodontics and oral surgery.

Root Form and Divergence

The three roots of the maxillary second molar are generally shorter and less divergent than those of the first molar. The mesiobuccal root curves distally in the apical third, the distobuccal root is the shortest and most conical, and the palatal root is the longest and most curved (frequently with a buccal curve in the apical third). The reduced divergence of the roots compared to the first molar means there is a greater likelihood of root fusion.

Root fusion — where two or more roots are joined by cementum along part or all of their length — is significantly more common in the maxillary second molar than in the first molar. The most common fusion pattern involves the mesiobuccal and distobuccal roots fusing to create a two-rooted tooth with separate buccal and palatal roots. Complete fusion of all three roots into a single conical root (taurodontism-like form) also occurs, though less frequently. Radiographic assessment of root form before any endodontic or surgical procedure is essential.

Canal Configuration and the MB2 Canal

The most clinically significant anatomic feature of the maxillary second molar’s root system is the mesiobuccal root’s canal configuration. Like the maxillary first molar, the mesiobuccal root of the second molar frequently contains two canals — the primary MB1 canal and the often-missed MB2 canal. The prevalence of the MB2 canal in the maxillary second molar is somewhat lower than in the first molar (approximately 50–70% versus 70–95% in the first molar, depending on the study and the method of detection), but it remains high enough that every clinician must actively search for it during endodontic treatment.

The distobuccal root typically has one canal, and the palatal root typically has one canal — though it is the largest and most amenable to negotiation. The palatal canal is usually wide and straight in the coronal portion before curving buccally toward the apex.

Palatal Root Curvature

The palatal root of the maxillary second molar, despite being the largest and easiest to access, frequently has a pronounced buccal curvature in the apical third. This curvature is not always visible on a standard periapical radiograph (which is taken in the buccolingual plane) and may only become apparent on an angled radiograph or CBCT. Failure to account for this curvature during canal preparation can result in transportation or ledge formation at the apical curve.

Clinical Considerations

The maxillary second molar presents a unique cluster of clinical challenges that stem from its posterior position, root anatomy, and relationship to the third molar:

• Access for endodontic treatment: The second molar is the most difficult permanent tooth to access endodontically in routine practice. The buccal fat pad, limited interocclusal space, and the ramus of the mandible all restrict instrument angulation. A more mesially angled access cavity preparation (shifting the access opening slightly toward the mesial) and the use of shorter, more flexible rotary instruments are strategies employed to navigate this geometry.
• Distal surface caries and pocket management: The distal surface of the maxillary second molar is frequently affected by caries or periodontal disease when a third molar is present or impacted against it. Restorative access to the distal surface can be extremely limited when a third molar is in close proximity. In many such cases, extraction of the third molar is prerequisite to restoring the second molar’s distal surface.
• Third molar–second molar relationship: Radiographic evaluation must always include an assessment of the third molar’s relationship to the second molar’s distal roots. External root resorption of the second molar’s distal root caused by a horizontally impacted third molar is an underdiagnosed finding that, if identified early, can be addressed by third molar removal before significant structural loss occurs.
• Furcation involvement: Despite the roots being closer together than in the first molar, furcation involvement of the maxillary second molar is a common periodontal finding in older patients. The furcation entrance from the buccal is less accessible than in the first molar due to the second molar’s more posterior position, making both diagnosis and treatment more challenging.
• Impression-taking and prosthodontics: When the maxillary second molar is a distal abutment for a fixed partial denture, the preparation and impression must account for the distal convergence of the crown and the limited access for the impression material to flow and capture the finish line accurately. The second molar’s distal finish line is routinely one of the most technically demanding in crown and bridge dentistry.

Common Mistakes & Misconceptions

Several recurring errors affect how students and early clinicians approach the maxillary second molar:

• Misconception: “The maxillary second molar has the same root anatomy as the first molar.”
  Correction: While the root pattern (three roots) is the same, the second molar’s roots are shorter, less divergent, and far more prone to fusion — particularly between the mesiobuccal and distobuccal roots. Never assume identical anatomy; always evaluate radiographically.
• Misconception: “The MB2 canal is only a concern in the maxillary first molar.”
  Correction: The MB2 canal is present in the maxillary second molar in roughly 50–70% of teeth. It is less prevalent than in the first molar but common enough that it must always be searched for during root canal treatment. Missing it is a major cause of endodontic failure.
• Misconception: “The cusp of Carabelli is a distinguishing feature of all maxillary molars.”
  Correction: The cusp of Carabelli is associated primarily with the maxillary first molar. It is typically absent or vestigial on the second molar. Its absence on a tooth that otherwise looks like a maxillary molar is a strong indicator that the tooth is a second molar.
• Misconception: “A single periapical radiograph is sufficient to plan endodontic treatment of the maxillary second molar.”
  Correction: Due to root fusion variability, palatal root curvature, and MB2 canal prevalence, a CBCT scan is strongly recommended before treating the maxillary second molar endodontically, especially in retreatment cases or when periapical pathology is present on a previously treated tooth.
• Misconception: “The distal of the maxillary second molar is self-cleansing in the absence of a third molar.”
  Correction: Even in the absence of a third molar, the distal surface of the second molar is difficult to clean due to its posterior position and the distal convergence of the crown. Patients require explicit instruction on how to clean this area effectively, and clinicians should monitor it carefully at recall visits.

Related Topics

The maxillary second molar is best understood alongside its immediate neighbors and the broader family of maxillary posterior teeth:

References & Sources

The following authoritative sources underpin the anatomic and clinical content presented in this article:

1. Wheeler, R.C. (2010). Wheeler’s Dental Anatomy, Physiology, and Occlusion, 9th ed. Saunders Elsevier. The definitive reference for molar crown and root morphology.
2. Vertucci, F.J. (1984). “Root canal anatomy of the human permanent teeth.” Oral Surgery, Oral Medicine, Oral Pathology, 58(5), 589–599. The foundational classification of root canal configurations including MB2 prevalence data.
3. Cleghorn, B.M., Christie, W.H., & Dong, C.C.S. (2006). “Root and root canal morphology of the human permanent maxillary first molar: a literature review.” Journal of Endodontics, 32(9), 813–821. Comparative root anatomy relevant to second molar assessment.
4. Ash, M.M. & Nelson, S.J. (2003). Wheeler’s Dental Anatomy, Physiology, and Occlusion, 8th ed. W.B. Saunders. Comprehensive tooth-by-tooth morphology reference.
5. Netter, F.H. (2014). Netter’s Head and Neck Anatomy for Dentistry, 2nd ed. Elsevier. Atlas-based visual reference for posterior tooth and regional anatomy.

Summary

The maxillary second molar is a clinically important tooth that demands respect for its anatomic subtleties. It may be tempting to treat it as simply a smaller version of the first molar, but the second molar’s greater tendency toward root fusion, its reduced crown size and cusp definition, the frequent absence of the Carabelli cusp, and the persistent presence of the MB2 canal all distinguish it in ways that matter for endodontic, restorative, and surgical treatment. Its posterior position and relationship to the third molar add additional layers of complexity. Mastery of the maxillary second molar’s specific anatomy — rather than relying on first molar assumptions — is essential for delivering predictable clinical outcomes.

About the Author

Dr. Andries Smith

Founder, Dental Panda

Dr. Andries Smith founded Dental Panda in 2020. As an immigrant to the United States, he had to take the INBDE exam, even though he was practicing dentistry for over 10 years. This revealed an opportunity. Andries noticed that INBDE prep course companies were putting profit over students. With his expertise and experience in dentistry, he created free dental wiki resources for students and the general public to have access to.