Department of Central Laboratory and Pathology, Ninth People's Hospital of Suzhou, Soochow University, Suzhou, China.
Department of Central Laboratory and Dentistry, Ninth People's Hospital of Suzhou, Soochow University, Ludang Road 2666#, Wujiang Dist., 215200, Suzhou, China.
BMC Oral Health. 2023 Mar 8;23(1):129. doi: 10.1186/s12903-023-02830-5.
Comprehensive understanding of the root canal system complexity is critical important for successful root canal therapy. A double root canal system may be present in permanent mandibular incisors with a variable incidence in different ethnic populations. Ignorance or improper management of this canal variation can lead to treatment failure. This in vitro study aimed to identify the anatomic features of root canal systems in the mandibular incisors in a Chinese population by using micro-CT.
A total of 106 permanent mandibular incisors (53 central incisors and 53 lateral incisors) were collected from a native Chinese population. The teeth were scanned by a micro-CT scanner and then reconstructed three-dimensionally. The canal configurations were detected by Vertucci's classification, and the number and location of the accessory canals were also identified. The long (D) and short diameters (d) of the main and accessory canals were measured and D/d ratio was calculated at different root levels (cemento-enamel junction [CEJ] level, mid-root level and 1, 2, 3 and 4 mm from the apex). The root canal curvatures in the double-canaled mandibular incisors were measured at the proximal view by using modified Schneider's method. Chi-square test or Fisher's exact test was used for comparison of occurrence rates. Comparison of means from multiple groups was performed by using one-way ANOVA and LSD post-hoc test.
In regard to the occurrence of double root canals, gender difference was neither detected in the mandibular central (16.0% [male] vs 14.3% [female]; p = 0.862), nor in the mandibular lateral incisors (26.9% [male] vs 33.3% [female]; p = 0.611). Age group difference was also not detected in the mandibular central (p = 0.717) and lateral incisors (p = 0.521). The incidence of double root canals was 15.1% (8/53) in the central incisors, and 30.2% (16/53) in the lateral incisors, but the difference did not reach statistical significance (p = 0.063). The most frequent non-single canal type was the type III (1-2-1) (18.9% [20/106]), and the other types identified included 1 case of type II (2-1) and 3 cases of type V (1-2). The incidence of accessory canals was 17.9% (19/106), with a mean level of 1.92 ± 1.19 mm from the apex. The frequency of long-oval (2 ≤ D/d < 4) and flattened canals (D/d ≥ 4), as well as the mean value of D, d and D/d ratio increased from the apical 1 mm to the apical 4 mm level (the D/d ratio increased from 1.9 to 2.9 for the single canals, from 1.4 to 3.3 for the buccal canals and from 1.2 to 2.3 for the lingual canals), and the D/d ratio reached the peak at the mid-root level. Double curvatures were detected in 33.3% (8/24) of the buccal canals and 37.5% (9/24) of the lingual canals, and the difference has no statistical significance (p = 0.063). The degrees of the primary curvatures were 21.5 ± 7.1 degrees for the buccal and 30.1 ± 9.2 degrees for the lingual canals, and the degrees of secondary curvatures were 27.0 ± 11.4 degrees for the buccal and 30.5 ± 12.5 degrees for the lingual canals in the double curvatures. The degrees of the single curvatures were 14.2 ± 6.3 degrees for the buccal and 15.6 ± 6.0 degrees for the lingual canals. Significant difference was detected among above 6 groups of canal curvatures (p = 0.000), and severe curvatures (≥ 20 degrees) were more frequently detected in the double curved canals.
Double-canaled mandibular incisors were not uncommon in the Chinese population, and type 1-2-1 was the most frequent non-single canal type. Gender and age did not significantly impact the occurrence of a second canal in mandibular incisors. Long-oval and flattened canals were very common at different root levels and their incidence increased from apex to the mid-root level. Severe curvatures were frequently detected in the double canal systems, especially in those canals with double curvatures.
全面了解根管系统的复杂性对于成功的根管治疗至关重要。下颌切牙可能存在双根管系统,不同种族人群的发生率存在差异。忽视或不当管理这种根管变异可能导致治疗失败。本体外研究旨在通过 micro-CT 来识别中国人群下颌切牙根管系统的解剖特征。
从中国人群中收集了 106 颗下颌恒切牙(53 颗中切牙和 53 颗侧切牙)。使用 micro-CT 扫描仪对牙齿进行扫描,然后进行三维重建。通过 Vertucci 分类法检测根管形态,确定副根管的数量和位置。测量主副根管的长径(D)和短径(d),并在不同根管水平(牙釉牙骨质界[CEJ]水平、根中 1/3 水平以及距根尖 1、2、3 和 4 mm 处)计算 D/d 比值。使用改良 Schneider 法在近中面测量双根管下颌切牙根管的弯曲度。使用卡方检验或 Fisher 确切概率法比较发生率。使用单因素方差分析和 LSD 事后检验比较多组之间的均值差异。
在双根管发生率方面,下颌中切牙(16.0%[男性] vs 14.3%[女性];p=0.862)和下颌侧切牙(26.9%[男性] vs 33.3%[女性];p=0.611)的性别差异均无统计学意义。下颌中切牙(p=0.717)和侧切牙(p=0.521)的年龄组差异也无统计学意义。中切牙双根管发生率为 15.1%(8/53),侧切牙为 30.2%(16/53),但差异无统计学意义(p=0.063)。最常见的非单根管类型是 1-2-1 型(18.9%[106 例]),其他类型包括 1 例 2-1 型和 3 例 5-1 型。副根管的发生率为 17.9%(19/106),平均距根尖 1.92±1.19 mm。长椭圆形(2≤D/d<4)和扁平形根管(D/d≥4)的发生率以及 D、d 和 D/d 比值的平均值从根尖 1 mm 增加到根尖 4 mm 水平(单根管的 D/d 比值从 1.9 增加到 2.9,颊侧根管从 1.4 增加到 3.3,舌侧根管从 1.2 增加到 2.3),并且在根中 1/3 水平达到峰值。24 个颊侧根管中有 33.3%(8/24)和 24 个舌侧根管中有 37.5%(9/24)检测到双弯曲,差异无统计学意义(p=0.063)。颊侧根管的主弯曲角度为 21.5°±7.1°,舌侧根管为 30.1°±9.2°,颊侧和舌侧根管的次弯曲角度分别为 27.0°±11.4°和 30.5°±12.5°。在双弯曲根管中,颊侧和舌侧根管的单弯曲角度分别为 14.2°±6.3°和 15.6°±6.0°。6 组根管弯曲角度之间的差异有统计学意义(p=0.000),并且在双弯曲根管中更常检测到严重弯曲(≥20 度)。
下颌切牙双根管并不少见,1-2-1 型是最常见的非单根管类型。性别和年龄对下颌切牙第二根管的发生没有显著影响。不同根管水平的长椭圆形和扁平形根管很常见,其发生率从根尖向根中 1/3 水平增加。在双根管系统中经常检测到严重弯曲,尤其是在那些具有双弯曲的根管中。
