From 2011-2016, images and videos of "The Root Canal Anatomy Project" were developed at the Laboratory of Endodontics of Ribeirao Preto Dental School. From 2016, images were acquired in other educational institutions. They can be freely used for attributed noncommercial educational purposes by educators, scholars, student and clinicians. It means that all material used should include proper attribution and citation (http://rootcanalanatomy.blogspot.com). In such cases, this information should be linked to the image in a manner compatible with such instructional objectives. Unfortunately, because material shared on the RCAP has not been properly cited by several users, from November 2019 a watermark was added to the images and videos. Enjoy!
Showing posts with label Mandibular Second Molar. Show all posts
Showing posts with label Mandibular Second Molar. Show all posts

November 8, 2020

Radix Entomolarix (Mandibular Molar)


Root Canal Anatomy Project Merging Art & Science
Three-dimensional microCT-based root canal model of a mandibular second molar with radix entomolaris using advanced computacional design tools

October 3, 2020

Root Canal Anatomy: 3D animations

Root Canal Anatomy Project

Merging Art & Science

Flying over the root canal system of a mandibular first molar


Sometimes, anatomy makes me crazy


If the supervillain Thanos from Marvel decided that root canal should die


The anatomy and the heat-treated instrument are based on real objects (microCT-based model).
But - in clinics - would it be able to do that?

Root canal system of a maxillary first molar


C-shaped canal in a mandibular second molar

February 12, 2012

Mandibular Second Molar: Radix Entomolaris

       Mandibular molars can have an additional root located lingually (the radix entomolaris) or buccally (the radix paramolaris). The presence of a separate RE in the first mandibular molar is associated with certain ethnic groups. In African populations a maximum frequency of 3% is found, while in Eurasian and Indian populations the frequency is less than 5%. In populations with Mongoloid traits (such as the Chinese, Eskimo and American Indians) reports have noted that the RE occurs with a frequency that ranges from 5% to more than 30%. Because of its high frequency in these populations, the RE is considered to be a normal morphological variant (eumorphic root morphology). In Caucasians the RE is not very common and, with a maximum frequency of 3.4 to 4.2%, is considered to be an unusual or dysmorphic root morphology. The etiology behind the formation of the RE is still unclear. In dysmorphic, supernumerary roots, its formation could be related to external factors during odontogenesis, or to penetrance of an atavistic gene or polygenetic system (atavism is the reappearance of a trait after several generations of absence). In eumorphic roots, racial genetic factors influence themore profound expression of a particular gene that results in the more pronounced phenotypic manifestation. Curzon suggested that the ‘three-rootedmolar’ trait has a high degree of genetic penetrance as its dominance was reflected in the fact that the prevalence of the trait was similar in both pure Eskimo and Eskimo/Caucasian mixes. An RE can be found on the first, second and third mandibular molar, occurring least frequently on the second molar. Some studies report a bilateral occurrence of the RE from50 to 67%. Bolk reported the occurrence of a buccally located addi tional root: the RP. This macrostructure is very rare and occurs less frequently than the RE. The prevalence of RP, as observed by Visser, was found to be 0% for the first mandibular molar, 0.5% for the second and 2% for the third molar. Other studies have, however, reported RP in first mandibular molars. The RE is located distolingually, with its coronal third completely or partially fixed to the distal root. The dimensions of the RE can vary from a short conical extension to a ‘mature’ rootwith normal length and root canal. Inmost cases the pulpal extension is radiographically visible. In general, the RE is smaller than the distobuccal and mesial roots and can be separate from, or partially fused with, the other roots. A classification by Carlsen and Alexandersen describes four different types of RE according to the location of the cervical part of the RE: types A, B, C and AC. Types A and B refer to a distally located cervical part of the RE with two normal and one normal distal root components, respectively. Type C refers to a mesially located cervical part, while type AC refers to a central location, between the distal and mesial root components. This classification allows for the identi fication of separate and nonseparate RE. In the apical two thirds of the RE, a moderate to severe mesially or distally orientated inclination can be present. In addition to this inclination, the root can be straight or curved to the lingual. According to the classification of De Moor et al., based on the curvature of the separate RE variants in bucco-lingual orientation, three types can be identified. Type I refers to a straight root/root canal, while type II refers to an initially curved entrance which continues as a straight root/root canal. Type III refers to an initial curve in the coronal third of the root canal and a second curve beginning in the middle and continuing to the apical third. The RP is located (mesio) buccally. As with the RE, the dimensions of the RP can vary from a ‘mature’ root with a root canal, to a short conical extension. This additional root can be separate or nonseparate. Carlsen and Alexandersen describe two different types: types A and B. Type A refers to an RP in which the cervical part is located on the mesial root complex; type B refers to an RP in which the cervical part is located centrally, between the mesial and distal root complexes.An increased number of cusps is not necessarily related to an increased number of roots; however, an additional root is nearly always associated with an increased number of cusps, and with an increased number of root canals (From Calberson et al. 2007 JOE 33(1):58-63).



 

Keywords: micro-computed tomography, micro-ct, marco versiani, micro-computer tomography, high resolution x-ray tomography, dental anatomy, root canal anatomy

October 1, 2011

Mandibular Second Molar - C-Shaped

Somewhat smaller coronally than the mandibular first molar....read more.


 

Keywords: micro-computed tomography, micro-ct, marco versiani, micro-computer tomography, high resolution x-ray tomography, dental anatomy, root canal anatomy

June 7, 2011

Mandibular Second Molar

Somewhat smaller coronally than the mandibular first molar....read more.



Keywords: micro-computed tomography, micro-ct, marco versiani, micro-computer tomography, high resolution x-ray tomography, dental anatomy, root canal anatomy

March 12, 2011

Mandibular Second Molar

Somewhat smaller coronally than the mandibular first molar....read more.



Keywords: micro-computed tomography, micro-ct, marco versiani, micro-computer tomography, high resolution x-ray tomography, dental anatomy, root canal anatomy

March 4, 2011

Mandibular Second Molar

Somewhat smaller coronally than the mandibular first molar and tending toward more symmetry, the mandibular second molar is identified by the proximity of its roots. The roots often sweep distally in a gradual curve with the apices close together. The degree and configuration of canal curvature were studied in the mesial roots of 100 randomly selected mandibular first and second molars. One hundred percent of the specimens demonstrated curvature in both buccal-lingual and mesial-distal views. Access is made in the mesial aspect of the crown, with the opening extending only slightly distal to the central groove. After penetration with the end-cutting fissure bur, the longshanked round bur is used to sweep outwardly until unobstructed access is achieved. The distal angulation of the roots often permits less extension of the opening than in the mandibular first molar. Close attention should be given to the shape of the distal orifice. A narrow, ovoid opening indicates a ribbon-shaped distal canal, requiring more directional-type filing. All caries, leaking fillings, and pulpal calcifications must be removed and replaced with a suitable temporary restoration prior to endodontic therapy. The mandibular second molar is the most susceptible to vertical fracture. After access preparation the clinician should utilize the fiberoptic light to search the floor of the chamber prior to endodontic treatment. The prognosis of mesial-distal crownroot fractures is very poor. Full occlusal coverage after endodontic therapy is mandatory to ensure against future problems with vertical fracture (Burns RC, Buchanan LS. Tooth Morphology and Access Openings. Part One: The Art of Endodontics in Pathway of Pulp, 6th Ed. p. 162).

 

 

Keywords: micro-computed tomography, micro-ct, marco versiani, micro-computer tomography, high resolution x-ray tomography, dental anatomy, root canal anatomy