Comparison of Root Resorption in Patients Treated With .018 Slot Brackets Versus Those Treated With .022 Slot Brackets

Bailey, Spencer S.

January 2002

Indiana University-Purdue University Indianapolis (IUPUI) / Understanding the factors that increase patients susceptibility to orthodontically induced root resorption is of the utmost importance to the practicing clinician. Numerous studies have been conducted that investigated contributing and etiological factors that tend to increase the amount of external apical root resorption a patient may incur during orthodontic treatment. However, there has been little research that has attempted to determine if patients treated with different slot size orthodontic brackets exhibit the same amount of external apical root resorption. The purpose of this research was to determine if patients treated with the 0.018 x 0.025 slot size bracket and patients treated with the 0.022 x 0.028 exhibited similar amounts of external apical root resorption during orthodontic treatment. Pre and Post treatment panoramic films from 91 consecutively treated orthodontic patients from a private orthodontic practice were used for this study. Each case that was included in the study had been treated with standard edgewise brackets using the Tweed-Merrifield philosophy of treatment. Forty-three cases from the 0.018 group and 48 from the 0.022 group were obtained. Each film that was analyzed was blinded prior to measuring to minimize observer bias. Mitutoyo Digimatic® calipers accurate to the nearest tenth of a millimeter were used for obtaining tooth measurements. Measurements were made from the Cemento-enamel junction and from incisal/occlusal to most apical portion of each incisor and all first molars. Statistical analysis was performed and the results showed no significant correlation between the size of the bracket and the amount of root resorption. No significant correlations existed between the groups for patient age, time in treatment, gender, and angle classification. Statistically significant differences were noted for cases in which extraction of four bicuspids was performed. Subjects belonging to the extraction group demonstrated significantly more external apical root resorption than those in which extractions were not done. This study demonstrated that the incidence of EARR that a patient may incur during treatment is independent of the size of the slot of the orthodontic bracket.

Root Resorption -- Etiology

Orthodontic Brackets

Root Damage in Mechanically Fatigued Teeth

Altschul, Aaron S.

January 2004

Indiana University-Purdue University Indianapolis (IUPUI) / According to one theory of root resorption, occlusal trauma during orthodontic tooth movement damages the cementum covering the root dentin. The body detects the exposed dentin and seeks to remove it, and the result is root resorption. This experiment will explore an aspect of this theory by quantifying the amount and location of damage in mechanically fatigued teeth. Nine dog mandibles were sectioned at the mandibular symphysis. Each half was mounted in orthodontic resin with the incisors upright and exposed. The block was inserted into a jig and placed into a servohydraulic mechanical testing machine. The left central incisor was fatigue loaded with a 2Hz, 10-90 N sinusoidal force for 100,000 cycles (approximately 14 hours). The right central incisor served as the control. Both specimens were scanned with a micro-CT unit, stained with basic fuchsin, and then sectioned along the sagittal plane. Because the experimental and control specimens were stained before sectioning, only microdamage due to the loading process would be evident in the sections. Microdamage which occurred during the sectioning process would not be stained. Central sections through the long axes of the samples were examined for the presence of microdamage with a light microscope and a micro-CT unit. Based on preliminary findings, two types of staining patterns were measured and recorded. The first was called "diffuse stain" and consisted of large stained areas in the dentinal tubules. Diffuse stain was not associated with any visible features at the dentinocemental junction. The second type of staining pattern was called "stained defects." Stained defects were stained irregularities at the dentinocemental junction. For statistical analysis, the roots were divided into buccal-cervical, buccal-middle, buccal-apical, lingual-cervical, lingual-middle, and lingual-apical regions. Comparisons between the fatigued and non-fatigued teeth for differences in area, length, and depth were made under the generalized estimating equation (GEE) framework applied to normally-distributed data. Because the measurements were not normally distributed, a rank transformation of the measurements was performed before conducting the analyses. Comparisons between the fatigued and non-fatigued teeth for differences in presence or absence of stain or defects were made using Cochran-Mantel-Haenszel tests. Repeatability of the measurements was assessed using intraclass correlation coefficients (ICCs), paired t-tests, and Bland-Altman plots. The ICC's ranged from 0 .85 to 1.00, thus making the repeatability of the measurements generally very good. The statistical analysis showed there were no significant differences between the experimental and control teeth for stained defects or diffuse staining for length, depth, or area measurements. However, analyses comparing the distribution of stained defects and diffuse stain within the control and experimental specimens showed significant differences in the distribution of stained defects within the experimental specimens. In the experimental specimens, the stained defects were distributed in a gradient, with the most in the apical region and progressing to the least amount in the cervical region. In the control specimens, there was only a difference in the stained defects between the cervical and apical regions. This distribution is consistent with the biomechanical model which shows increasing stress moving from the cervical region towards the apex. These results show that the test and control specimens differed in how the stained defects were distributed throughout the root, even though there were no differences in the amount of staining between the control and experimental specimens. Whole tooth and histologic slides were scanned with the micro-CT unit, but the dentinocemental junction could not be delineated enough to make any measurements. No data could be collected regarding microdamage in this area using the micro-CT unit. It was recommended that future studies use a tomography unit with better resolution, use a larger samples size, employ a contrast agent when trying to visualize microdamage with the micro-CT unit, and incorporate a way to measure the intensity of the staining in addition to the location and size.

Root Resorption -- Etiology

Genetic Factors in External Apical Root Resorption Associated with Orthodontic Treatment

Al-Qawasmi, Riyad A.

06 1900

Indiana University-Purdue University Indianapolis (IUPUI) / External apical root resorption (EARR) is a common sequela of orthodontic treatment, although it may also occur without orthodontic treatment. Despite rigorous investigation, no single factor or group of factors that directly causes root resorption has been identified. Experiment 1. A sample of 83 pairs of full siblings who had undergone orthodontic treatment was studied. Measurements were made of the longest maxillary central incisor, mandibular central incisor and mesial and distal roots of the mandibular first molars. Heritability estimates were generated by generalized liner models. Our results showed that the heritability estimate of the EARR was 64% on average. It was concluded that there was sufficient heritability for EARR to pursue genetic analysis. Experiment 2. Five polymorphic markers flanking or lying within the IL-IA , IL-JB, TNSALP, TNFA, and TNFRSFJ JA genes were used in a candidate gene approach to assess linkage and association with EARR in 38 pedigrees. Suggestive evidence for linkage between EARR and the polymorphic marker D18S64 was obtained with the analysis program MAPMAKER/SIBS (LOD score 2.51). The Q-TDT program showed highly significant (p = 0.0003) evidence of linkage disequilibrium of IL-1 B polymorphisms with EARR. Our analysis indicates that the JL -1 B polymorphism accounts for 15% of the total EARR variation. Experiment 3. Nine-week-old male mice were randomly selected as controls or for placement under anesthesia of an open coil spring ligated to the left maxillary first molar producing a force of approximately 25 g. The control (C) or treated (T) per strain were A/J (C=3,T=9), C57BL/6J (C=7,T=8), C3H/HeJ (C = 4,T=6), BALB/cJ (C=4,T=6), 129P3 /J (C=6,T=8), DBA/2J (C=8,T=9), SJL/J (C=8,T= 10), and AKR/J (C=9,T =8). Animals were sacrificed after nine days of treatment or control; maxillae were immediately removed, prepared, sectioned, mounted, stained with H&E, and observed microscopically at 1 OOX to determine root resorption. Mice were grouped into root resorption resistant (A/J, C57BL/6J and SJL/J); intermediate (C3H/HeJ and AKR/J); and susceptible (BALB/cJ, DBA/2J, and 129P3/J) strains. It was concluded that there were differential susceptibility or resistance to root resorption among inbred mouse strains, indicating that genotype is an influencing factor.

Root Resorption -- Etiology

Root Resorption -- Genetics

Glycoproteins -- Genetics

Chromosomes, Human -- Genetics

Orthodontic Mechanotransduction and the Role of the P2X7 Receptor

Viecilli, Rodrigo F.

January 2009

Indiana University-Purdue University Indianapolis (IUPUI) / The first part of the study describes the development of a microCT based engineering model to study orthodontic responses. The second part investigated the relationship between orthodontic stimulus, root resorption and bone modeling. It was hypothesized that stress magnitudes are insufficient to portray the mechanical environment and explain the clinical response; directions also play a role. An idealized tooth model was constructed for finite element analysis. The principal stress magnitudes and directions were calculated in tipping and translation. It was concluded that within the same region of root, PDL and bone, there can be compression in one structure, tension in another. At a given point in a structure, compression and tension can coexist in different directions. Magnitudes of compression or tension are typically different in different directions. Previously published data presenting only stress magnitude plots can be confusing, perhaps impossible to understand and/or correlate with biological responses. To avoid ambiguities, a reference to a principal stress should include its predominant direction. Combined stress magnitude/direction results suggest that the PDL is the initiator of mechanotransduction. The third part of this project tested the role of the P2X7 receptor in the dentoalveolar morphology of C57B/6 mice. P2X7R KO (knockout) mice were compared to C57B/6 WT to identify differences in a maxillary molar and bone. Tooth dimensions were measured and 3D bone morphometry was conducted. No statistically significant differences were found between the two mouse types. P2X7R does not have a major effect on alveolar bone or tooth morphology. The final part examines the role of the P2X7 receptor in a controlled biomechanical model. Orthodontic mechanotransduction was compared in wild-type (WT) and P2X7R knock-out (KO) mice. Using Finite Element Analysis, mouse mechanics were scaled to produce typical human stress levels. Relationships between the biological responses and the calculated stresses were statistically tested and compared. There were direct relationships between certain stress magnitudes and root resorption and bone formation. Hyalinization and root and bone resorption were different in WT and KO. Orthodontic responses are related to the principal stress patterns in the PDL and the P2X7 receptor plays a significant role in their mechanotransduction.

Orthodontics

Genetics

Engineering

Finite element

Mouse

Tooth Movement -- methods

Receptors, Purinergic P2 -- physiology

Bone Remodeling -- physiology

Periodontal Ligament -- physiopathology

Root Resorption -- etiology