Understanding mechanical environment changes and biological responses to canine retraction using t-loop

Jiang, Feifei

05 1900

Indiana University-Purdue University Indianapolis (IUPUI) / Predictability of tooth displacement in response to specific orthodontic load system directly links to the quality and effectiveness of the treatment. The key questions are how the tooth’s environment changes in response to the orthodontic load and how the biological tissues respond clinically. The objectives of this study are to determine the mechanical environment (ME) changes and to quantify the biological tissues’ response. Eighteen (18) patients who needed maxillary bilateral canine retractions were involved in the study. A method was developed to quantify the 3D load systems on the canine, which allowed the treatment strategies to be customized in terms of orthodontic loading systems to meet either translation (TR) or controlled tipping (CT) requirement. Dental casts were made before and after each treatment interval, and the Cone Beam Computed Tomography (CBCT) scans were taken prior to and following the entire treatment for control of treatment strategy and post treatment evaluations. Finite element method (FEM) was applied to calculate the location of center of resistance (CRes) for tooth movement control. The location and variation of CRes were recorded and compared with previous studies. A quick CRes assessment method that locates CRes by calculating the centroid of the contact surface (CCS) and the centroid of the projection of root surface (CPCS) in certain direction was also tested and compared with the results from FEM. Customized T-loop spring, a kind of orthodontic appliance, was designed, fabricated, and calibrated on a load measuring system to ensure that the load met the clinician’s prescription. The treatment outcomes in terms of tooth displacement and root resorption characterized by the changes of tooth length and volume as well as the bone mineral density (BMD) represented by the Hounsfield units (HU) change were recorded and analyzed. The ME in terms of stress were also calculated by using FEM. Paired t-test and mixed model ANOVA methods were used to analyze the relationships between the mechanical inputs (quantified and customized load, and corresponding stress) and clinical outcomes (root resorption and BMD change). It was found that the overall root resorption is not significant for canine retraction, but apical root resorption does occur, meaning that orthodontic load is not a sufficient factor. Also, it was observed that HU distribution changed significantly in both root and alveolar bone. The maximum reduction was on the coronal level in the direction perpendicular to the direction of movement in root, and in the direction of the tooth movement at the coronal level in bone. In addition, it was determined that the locations of the CRes in the MD and BL directions were significantly different. The locations of the CRes of a human canine in MD and BL directions can be estimated by finding the CPCSs in the two directions. Finally, it was shown that the stress invariants can be used to characterize how the osteocytes feel when ME changes. The stress invariants in the alveolar bone are not significantly affected by different M/F. The higher bone modeling/remodeling activities along the direction of tooth movement may be related to the initial volumetric increase and decrease in the alveolar bone.

Mechanotransduction

Finite element

Mineral density

Orthodontics -- Research

Biomechanics

Transduction

Dental casting

Dental care

Tomography

Materials -- Dynamic testing

Orthodontic appliances -- Research

Orthodontics, Corrective

Cortical Bone Mechanics Technology (CBMT) and Dual X-Ray Absorptiometry (DXA) Sensitivity to Bone Collagen Degradation in Human Ulna Bone

Warnock, Sarah M.

January 2019

No description available.

Biomechanics

Biomedical Research

Anatomy and Physiology

Technology

Bone strength

flexural rigidity

bone fragility

bone mineral density

bone mechanics

ulna

osteoporosis

biomechanics

technology

fracture risk

Body Composition and Nutrition Trends in Club Triathlon Members

Appleton, Elizabeth Allyn

24 August 2018

No description available.

Nutrition

Kinesiology

Biomechanics

Radiology

Reliability and Validity of Body Composition and Bone Mineral Density Measurements by DXA

Zack, Melissa Kareen

18 April 2002

Dual energy X-ray absorptiometry (DXA) has been well established in both clinical and research settings for measurement of bone mineral density (BMD), and is becoming more widely utilized for assessment of body composition. Reliability and validity are essential factors in both applications of this technique; however, neither have been confirmed for the QDR-4500A DXA at Virginia Tech. Therefore, measurements of the whole body (WB), lumbar spine (LS), total proximal femur (TPF) and total forearm (TF) were made in a group of young-adult males and females at two time-points, 5-7 days apart. Significant differences were not found in BMD (g/cm2) at these body sites with repeated measurements by DXA. Furthermore, measures of percent body fat (%BF), lean body mass (LBM), and fat mass (FM) by DXA were reliable. Validity of %BF by DXA was assessed from comparison to single-frequency bioelectrical impedance analysis (BIA). Significant differences were not found in measures of %BF by DXA and BIA. A second study investigated the reliability and validity of the QDR-4500A DXA in measurements of distal tibia (DT) BMD. Significant differences were not found between repeated measurements. Validity was established by a significant correlation between WB BMD and DT BMD. A third study examined the influence of navel jewelry on the accuracy of LS DXA measurements. Repeated measurements with a spine phantom revealed that both a navel ring and a barbell produced significantly greater measures of LS BMD compared to the spine phantom alone. Manual correction of navel jewelry did not eliminate BMD inaccuracies. Data from these studies confirmed that the QDR-4500A DXA at Virginia Tech was a reliable and valid device in measurement of WB, LS, TPF, TF and DT BMD, as well as %BF, LBM, and FM. In addition, effects of navel jewelry on LS BMD have been recognized. Further studies investigating the reliability and validity of DT BMD measures as well as effects of different types, gauges, and shapes of body jewelry on BMD measures in human subjects are warranted. / Master of Science

dual energy X-ray absorptiometry

body piercing

distal tibia BMD

body composition

metal artifacts

bone mineral density

navel jewelry

reliability

QDR-4500A

validity

The evaluation of bone strength

Jain, Atul

January 2008

Bone drilling is a major part of orthopaedic surgery performed during the internal fixation of fractured bones. At present, information related to drilling force, drilling torque, rate of drill bit penetration and drill bit rotational speed is not available to orthopaedic surgeons, clinicians and researchers as bone drilling is performed manually. This research demonstrates that bone drilling force data if recorded in-vivo, during the repair of bone fractures, can provide information about the strength/quality of the bone. Drilling force does not give a direct measure of bone strength; therefore it has been correlated with the shear strength and screw pullout strength to determine the efficacy in estimating the bone strength. Various synthetic bone material densities and animal bones have been tested to demonstrate the use of drilling force data. A novel automated experimental test rig, which enables drilling tests, screw insertion and screw pullout tests to be carried out in a controlled environment, has been developed. Both drilling and screw pullout tests have been carried out in a single setting of the specimen to reduce the experimental errors and increase repeatability of the results. A significantly high value of correlation (r² > 0.99) between drilling force & shear strength and also between drilling force & normalised screw pullout strength in synthetic bone material was found. Furthermore, a high value of correlation (r² = 0.958 for pig bones and r² = 0.901 for lamb bones) between maximum drilling force & normalised screw pullout strength was also found. The result shows that drilling data can be used to predict material strength. Bone screws are extensively used during the internal fixation of fractured bones. The amount of screw been tightened is one of the main factor which affects the bone-screw fixation quality. Over tightening of screw can result into the loss of bone-screw fixation strength, whereas under tightening can result in the screw loosening. Therefore, optimum tightening of the screw is important to achieve the maximum bone-screw fixation strength. At present, optimum tightening of the screw is entirely dependent upon the skill and judgment of the surgeon, which is predominantly based on the feel of the screw tightening torque. Various studies have been reported in the literature to develop an algorithm to set an optimum tightening torque value to be used in surgery. A method which is based on the use of rotation angle of the screw while tightening, rather than using screw insertion/tightening torque, to optimise the bone-screw fixation strength is proposed in this research. The effectiveness of the proposed method has been successfully demonstrated on the synthetic bone material using the designed test rig. The optimum angle for the tested screw was found to be 120° which is equivalent to 33% of the screw pitch.

617

Využití vibrací ve sportu a zdravotnictví / Use of vibration in sports and health care

Koutná, Martina

January 2012

Title: The Use of Vibration in Sports and Health Care Objectives: The aim of this study is to confirm or refute established hypotheses. Hypotheses: 1. The use of vibration loading improves muscle strength. 2. The use of vibration loading improves bone mineral density. 3. The use of vibration loading can influence balance. Methods: This diploma thesis is elaborated as search form. It is based on exploration of available literary sources, clinical trials accessible through electronic databases of medical and sports, and library catalogs. The resources from sport, physiology, biomechanics, and various medical disciplines (osteology, physiotherapy, kinesiology) were used also. Results: Due to retrieval process of whole body vibration training it was found out that this method can improve muscle strength, bone mineral density, balance and mobility. The effect depends on chosen parameters of whole-body vibrations. Under certain conditions whole-body vibration training could represent an alternative or a supplement to conventional training in order to increase muscle strength and bone mineral density or improve balance and mobility of elderly. The selection of right vibration parameters could support ordinary physical therapy of some neurological disorders. Keywords: vibration, whole-body vibration...

Využití vibrací ve sportu a zdravotnictví / The Use of Vibration in Sports and Health Care

Koutná, Martina

January 2011

Title: The Use of Vibration in Sports and Health Care Objectives: The aim of this study is to determine whole-body vibration training as potential training method in sport and health area. The usage of vibration training should increase strength, bone mineral density, and balance. Methods: This diploma thesis is solely theoretical. It is based on review of available literary sources, clinical trials accessible through electronic databases of medical and sports, and library catalogs. The resources from sport, physiology, biomechanics, and various medical disciplines (osteology, physiotherapy, kinesiology) were used also. Results: The research concluded that the usage of whole-body vibration of an appropriate frequency or acceleration respectively could represent an alternative or a supplement to conventional training in order to increase muscle strength and bone mineral density or improve balance and mobility of elderly. The selection of right vibration parameters could support ordinary physical therapy of some neurological disorders. Keywords: vibration, whole-body vibration training, muscle strength, balance, bone mineral density, neurological disorders, physical therapy

Évaluation de la microarchitecture trabéculaire et des propriétés mécaniques osseuses in vivo chez l’humain par scanner périphérique a haute résolution : application clinique à l’ostéoporose / In vivo assessment of trabecular microarchitecture and bone biomechanical properties by high resolution peripheral quantitative tomography : application to osteoporosis

Vilayphiou, Nicolas

16 December 2010

La microarchitecture osseuse est un des déterminants de la qualité osseuse qui peut maintenant être évaluée in vivo au radius et au tibia distaux avec une résolution isotropique de 82μm par un nouveau scanner à haute résolution (XtremeCT, SCANCO Medical AG). Par ailleurs, l’utilisation d’analyse en éléments finis sur les volumes 3D obtenus permet d’évaluer les propriétés biomécaniques de l’os comme la résistance osseuse. Nous avons montré qu’il s’agissait d’une technique prometteuse pour évaluer la densité, la microarchitecture et les propriétés biomécaniques osseuses au niveau des sites périphériques, notamment parce que ces mesures étaient associées chez la femme avec des fractures ostéoporotiques de toutes sortes. Nous avons également montré que les mêmes mesures étaient tout aussi pertinentes chez l’homme, alors qu’il est moins sujet à l’ostéoporose. Les résultats étaient associés aux fractures ostéoporotiques de toutes sortes, notamment les fractures vertébrales. L’analyse en éléments finis permet donc la mesure in vivo de la résistance osseuse, ce qui pourrait fournir des informations sur la fragilité osseuse et le risque de fracture non accessible par les seules mesures de densité ou de microarchitecture osseuse. / Bone microarchitecture is one of the determinants of bone quality that can now be evaluated in vivo at the distal radius and tibia with an isotropic resolution of 82μm with a new high-resolution peripheral scanner (XtremeCT, SCANCO Medical AG). Moreover, the use of finite element analysis on the 3D bone volume acquired allows the assessment of bone biomechanical properties such as bone strength. Our studies show that this technique is promising to assess bone density, microarchitecture and strength at peripheral skeletal sites. Indeed those measures were associated with osteoporotic fractures of all kinds in women. We also demonstrated that those same measures were associated with osteoporotic fractures of all kinds, including vertebral fractures, in men, who are less prone to be affected by osteoporosis. Finite element analysis allows in vivo measurement of bone strength, which might provide additional information about bone fragility and fracture risk that are not assessed by measures of density or microarchitecture.

Microarchitecture osseuse

HR-pQCT

Ostéoporose

Fracture par fragilité

Densité minérale osseuse

Densité minérale osseuse

Analyse en éléments finis

Bone Microarchitecture

HR-pQCT

Osteoporosis

Fragility fracture

Bone mineral density

Biomechanics

Finite element analysis

612.8

Effets de la greffe pulmonaire sur la densité minérale osseuse et l’anthropométrie des individus atteints de fibrose kystique

Durette, Gabrielle

12 1900

No description available.

fibrose kystique

greffe pulmonaire

densité minérale osseuse

os

anthropométrie

poids

IMC

cystic fibrosis

lung transplant

bone mineral density

bone

anthropometry

weight

BMI

cystic fibrosis bone disease

Calcificação prematura de artérias coronárias no lúpus eritematoso sistêmico: associação com duração de doença e densidade mineral óssea / Premature coronary artery calcification is associated with disease duration and bone mineral density in young female systemic lupus erythematosus

Ribeiro, Giovana Gomes

13 March 2009

Objetivo: Avaliar a relevância de fatores de risco tradicionais para doença cardiovascular (FRC), fatores relacionados ao lúpus e densidade mineral óssea (DMO) na calcificação prematura de artérias coronárias (CAC) em mulheres jovens com lúpus eritematoso sistêmico (LES). Métodos: Noventa e quatro pacientes lúpicas do sexo feminino com duração de doença 5 anos e idade menor que 45 anos foram selecionadas consecutivamente para este estudo. Os fatores de risco cardiovascular analisados foram: diabetes mellitus, hipertensão arterial sistêmica, dislipoproteinemia, fumo, índice de massa corpórea (IMC), insuficiência ovariana e renal. Fatores de risco relacionados ao LES estudados foram: duração de doença, critérios ACR, SLICC/ACR modificado (excluindo escores relacionados à aterosclerose), SLEDAI, tratamento com glicocorticóide e ciclofosfamida. A densidade mineral óssea de corpo inteiro, coluna lombar e colo do fêmur foram realizadas por densitometria de dupla emissão de fontes de raios-X (DXA). Calcificação de artérias coronárias foi determinada usando tomografia computadorizada com 16 multidetectores. Resultados: Calcificação prematura de artérias coronárias foi identificada em 12 (12,7%) dos pacientes, havendo associação com maior freqüência de pacientes com FRC (p=0,008), maior número de FCR (p=0,003), idade (p=0,025), duração de doença (p=0,011) e SLICC (p=0,011). A análise individual dos FRC demonstrou que a presença de menopausa (p=0,036), dislipidemia (p=0,003) e hipertensão (p=0,006) foram significativamente associados com calcificação coronariana. Análise de regressão logística múltipla usando FRC, idade, duração de doença, SLICC e DMO de corpo inteiro revelou que apenas duração de doença (p=0,042) e DMO de corpo inteiro (p=0,023) permaneceram fatores significantes para calcificação coronariana. Conclusão: Identificamos que duração de doença e DMO reduzida são preditores independentes para calcificação coronariana prematura em mulheres jovens com LES, sugerindo um mecanismo subjacente comum / Objective: To evaluate the relevance of traditional cardiovascular risk factors (CVR), disease-related risk factors and bone mineral density (BMD) for premature coronary artery calcification (CAC) in young female systemic lupus erythematosus (SLE). Methods: Ninety-four female SLE patients 5 years disease duration and age <45 years were consecutively selected for this study. Cardiovascular risks (CVR) analyzed were: diabetes mellitus, arterial hypertension, dyslipoproteinemia, smoking, body mass index (BMI), ovarian and renal insufficiency. SLE-related risk factors evaluated were: disease duration, ACR criteria, modified SLICC/ACR (excluding atherosclerosis-related scores), SLEDAI, glucocorticoid and cyclophosphamide treatment. Bone mineral density (BMD) in whole body, lumbar spine and femoral neck was assessed by dual X ray absorptiometry (DXA). Coronary artery calcification was determined using the 16-slice multidetector computed tomography. Results: Premature coronary artery calcification was identified in 12 (12.7%) patients and was associated with a higher frequency of patients with CVR (p=0.008), a higher mean number of CVR (p=0.003), mean age (p= 0.025), mean disease duration (p=0.011) and mean SLICC (p=0.011). Individual analysis of CVR demonstrated that the presence of menopause (p= 0.036), dyslipidemia (p= 0.003) and hypertension (p=0.006) were significantly associated with coronary calcification. Additionally, premature calcification was associated with a lower whole body BMD (p=0.013). Multiple logistic regression analysis using CVR, age, disease duration, SLICC and whole body BMD revealed that only disease duration (p=0.042) and whole body BMD (p=0.023) remained significant factors for coronary calcification. Conclusion: We have identified that disease duration and decreased BMD are independent predictors for premature coronary calcification in young women with SLE, suggesting a common underlying mechanism

Aterosclerose

Atherosclerosis

Bone mineral density

Calcificação de artérias coronárias

Coronary artery calcification

Densidade mineral óssea

Fatores de risco

Lúpus eritematoso sistêmico

Multidetector computed tomography

Risk factors

Systemic lupus erythematosus