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8. TMJ energy densities in healthy men and women

Author

Iwasaki, L R, Gonzalez, Y M, Liu, Y, Liu, H, Markova, M, Gallo, Luigi Maria, Nickel, J C, University of Zurich, and Iwasaki, L R

Subjects
2732 Orthopedics and Sports Medicine, 2745 Rheumatology, 10223 Clinic for Masticatory Disorders, 2204 Biomedical Engineering, 610 Medicine & health
Published
2017

9. Mechanobehavior and Ontogenesis of the Temporomandibular Joint

Author

Nickel, J C, Iwasaki, L R, Gonzalez, Y M, Gallo, L M, Yao, H, Nickel, J C, Iwasaki, L R, Gonzalez, Y M, Gallo, L M, and Yao, H

Abstract

Craniofacial secondary cartilages of the mandibular condyle and temporomandibular joint (TMJ) eminence grow in response to the local mechanical environment. The intervening TMJ disc distributes normal loads over the cartilage surfaces and provides lubrication. A better understanding of the mechanical environment and its effects on growth, development, and degeneration of the TMJ may improve treatments aimed at modifying jaw growth and preventing or reversing degenerative joint disease (DJD). This review highlights data recorded in human subjects and from computer modeling that elucidate the role of mechanics in TMJ ontogeny. Presented data provide an approximation of the age-related changes in jaw-loading behaviors and TMJ contact mechanics. The cells of the mandibular condyle, eminence, and disc respond to the mechanical environment associated with behaviors and ultimately determine the TMJ components' mature morphologies and susceptibility to precocious development of DJD compared to postcranial joints. The TMJ disc may be especially prone to degenerative change due to its avascularity and steep oxygen and glucose gradients consequent to high cell density and rate of nutrient consumption, as well as low solute diffusivities. The combined effects of strain-related hypoxia and limited glucose concentrations dramatically affect synthesis of the extracellular matrix (ECM), which limit repair capabilities. Magnitude and frequency of jaw loading influence this localized in situ environment, including stem and fibrocartilage cell chemistry, as well as the rate of ECM mechanical fatigue. Key in vivo measurements to characterize the mechanical environment include the concentration of work input to articulating tissues, known as energy density, and the percentage of time that muscles are used to load the jaws out of a total recording time, known as duty factor. Combining these measurements into a mechanobehavioral score and linking these to results of computer models of str

Published
2018

12. Diagnostic group differences in temporomandibular joint energy densities

Author

Gallo, L M, Iwasaki, L R, Gonzalez, Y M, Liu, H, Marx, D B, Nickel, J C, University of Zurich, and Nickel, J C

Subjects
2733 Otorhinolaryngology, 3504 Oral Surgery, 3505 Orthodontics, 10223 Clinic for Masticatory Disorders, 610 Medicine & health, 2746 Surgery
Published
2015

14. Mechanobehavior and Ontogenesis of the Temporomandibular Joint.

Author

Nickel, J. C., Iwasaki, L. R., Gonzalez, Y. M., Gallo, L. M., and Yao, H.

Subjects
ONTOGENY, TEMPOROMANDIBULAR joint abnormalities, CRANIOFACIAL abnormalities, CARTILAGE, MANDIBULAR condyle, BIOMECHANICS, DEGENERATION (Pathology), JAWS -- Evolution, THERAPEUTICS
Abstract

Craniofacial secondary cartilages of the mandibular condyle and temporomandibular joint (TMJ) eminence grow in response to the local mechanical environment. The intervening TMJ disc distributes normal loads over the cartilage surfaces and provides lubrication. A better understanding of the mechanical environment and its effects on growth, development, and degeneration of the TMJ may improve treatments aimed at modifying jaw growth and preventing or reversing degenerative joint disease (DJD). This review highlights data recorded in human subjects and from computer modeling that elucidate the role of mechanics in TMJ ontogeny. Presented data provide an approximation of the age-related changes in jaw-loading behaviors and TMJ contact mechanics. The cells of the mandibular condyle, eminence, and disc respond to the mechanical environment associated with behaviors and ultimately determine the TMJ components' mature morphologies and susceptibility to precocious development of DJD compared to postcranial joints. The TMJ disc may be especially prone to degenerative change due to its avascularity and steep oxygen and glucose gradients consequent to high cell density and rate of nutrient consumption, as well as low solute diffusivities. The combined effects of strain-related hypoxia and limited glucose concentrations dramatically affect synthesis of the extracellular matrix (ECM), which limit repair capabilities. Magnitude and frequency of jaw loading influence this localized in situ environment, including stem and fibrocartilage cell chemistry, as well as the rate of ECM mechanical fatigue. Key in vivo measurements to characterize the mechanical environment include the concentration of work input to articulating tissues, known as energy density, and the percentage of time that muscles are used to load the jaws out of a total recording time, known as duty factor. Combining these measurements into a mechanobehavioral score and linking these to results of computer models of strain-regulated biochemical events may elucidate the mechanisms responsible for growth, maintenance, and deterioration of TMJ tissues. [ABSTRACT FROM AUTHOR]

Published
2018
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15. Mechanobehavioral Scores in Women with and without TMJ Disc Displacement.

Author

Iwasaki, L. R., Gonzalez, Y. M., Liu, Y., Liu, H., Markova, M., Gallo, L. M., and Nickel, J. C.

Subjects
DISEASES in women, TEMPOROMANDIBULAR disorders, JAW physiology, DEGENERATION (Pathology), CARTILAGE physiology, MOUTH muscles, ENERGY density, TEMPORALIS muscle, DIAGNOSIS, PHYSIOLOGY, DISEASE risk factors
Abstract

Cartilage fatigue may be a factor in the precocious development of degenerative changes in the temporomandibular joint (TMJ). This cross-sectional study estimated potential for cartilage fatigue via TMJ energy densities (ED) and jaw muscle duty factors (DF), which were combined to calculate mechanobehavioral scores (MBS) in women with (+) and without (-) bilateral TMJ disc displacement (DD). All subjects gave informed consent to participate and were examined using Diagnostic Criteria (DC) for Temporomandibular Disorders (TMD) and magnetic resonance (MR) and computed tomography (CT) images. Forty-seven subjects were categorized into +DD (n = 29) and -DD (n = 18) groups. Dynamic stereometry (MR images combined with jaw-tracking data) characterized individual-specific data of TMJ stress-field mechanics to determine ED (ED = W/Q mJ/mm³, where W = work done, Q = volume of cartilage) during 10 symmetrical jaw-closing cycles with a 20-N mandibular right canine load. Subjects were trained to record masseter and temporalis electromyography over 3 days and 3 nights. Root mean square electromyography/bite-force calibrations determined subject-specific masseter and temporalis muscle activities per 20-N bite-force (T20 N, μV), which defined thresholds. Muscle DF (DF = % duration of muscle activity/total recording time) were determined for a range of thresholds, and MBS (ED² × DF) were calculated. Intergroup differences in ED, DF, and MBS were assessed via analyses of variance with Bonferroni and Tukey honest significant difference post hoc tests. Average ED for contralateral TMJs was significantly larger (P = 0.012) by 1.4-fold in +DD compared to -DD subjects. Average DF were significantly larger (all P < 0.01) for +DD compared to -DD subjects by 1.7-, 2.5-, and 1.9-fold for day, night, and overall, respectively. Daytime MBS were significantly larger (all P < 0.04) by up to 8.5-fold in +DD compared to -DD subjects. Significantly larger ED, DF, and MBS were shown in women with compared to women without bilateral TMJ DD. [ABSTRACT FROM AUTHOR]

Published
2017
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16. Longitudinal Stability of Common TMJ Structural Disorders.

Author

Schiffman, E. L., Ahmad, M., Hollender, L., Kartha, K., Ohrbach, R., Truelove, E. L., Zhang, L., Hodges, J. S., Sommers, E., Anderson, G. C., Gonzalez, Y. M., Guo, X., and Look, J. O.

Subjects
TEMPOROMANDIBULAR disorders, OSTEOARTHRITIS, MAGNETIC resonance imaging, COMPUTED tomography, SCIENTIFIC observation, FOLLOW-up studies (Medicine), COHEN'S kappa coefficient (Statistics), COMPARATIVE studies, LONGITUDINAL method, RESEARCH methodology, MEDICAL cooperation, RESEARCH, RESEARCH evaluation, RESEARCH funding, EVALUATION research, DISEASE progression
Abstract

The longitudinal course of temporomandibular joint (TMJ) disc displacement (DD) and degenerative joint disease (DJD) has never been conclusively described with magnetic resonance imaging and computed tomography, respectively. This 8-y observational study's objective was to assess the longitudinal stability of DD and DJD among 401 subjects. The Validation Project provided baseline measures; follow-up was performed in the TMJ Impact Project. With magnetic resonance imaging, 2 radiologists rendered a consensus diagnosis of normal/indeterminate, DD with reduction, or DD without reduction. Computed tomography consensus diagnoses included normal/indeterminate, grade 1 DJD, or grade 2 DJD. Radiologist reliability was assessed by kappa; a Hui-Walter model was used to estimate, after accounting for diagnostic disagreement, the frequency of diagnostic progression and reversal. Permutation tests were used to test the statistical influence of concurrent baseline diagnoses on diagnostic changes at follow-up. Of 789 baseline joint-specific soft tissue diagnoses of DD, 598 (76%) joints showed no change; 109 (14%) demonstrated progression; and 82 (10%) had reversal. Of 794 joints with baseline joint-specific hard tissue diagnoses of DJD, progression was observed in 122 (15%) joints, no change in 564 (71%), and reversal in 108 (14%). Radiologist reliability (kappa) was 0.73 (95% CI, 0.64 to 0.83) for DD and 0.76 (95% CI, 0.68 to 0.83) for DJD. After accounting for the influence of diagnostic disagreement, progression of hard tissue diagnoses in the right TMJ occurred in 15.2% of subjects (95% CI, 10.5% to 20.8%) and reversal in 8.3% (95% CI, 4.9% to 12.3%); results were similar for soft tissue diagnoses and the left TMJ. Concurrent baseline soft tissue diagnoses were associated with hard tissue diagnostic changes at follow-up ( P < 0.0001). Baseline hard tissue diagnoses showed no statistical association with soft tissue changes at follow-up ( P = 0.11). Longitudinally, 76% of baseline TMJ soft tissue diagnoses and 71% of the baseline hard tissue diagnoses remained stable. Diagnostic reversal and progression were confirmed for both soft and hard tissues. [ABSTRACT FROM AUTHOR]

Published
2017
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20. Mechanics- and Behavior-Related Temporomandibular Joint Differences.

Author

Nickel JC, Gonzalez YM, Liu Y, Liu H, Gallo LM, and Iwasaki LR

Subjects
Humans, Male, Female, Adult, Biomechanical Phenomena, Joint Dislocations physiopathology, Joint Dislocations diagnostic imaging, Muscle Fatigue physiology, Masseter Muscle diagnostic imaging, Masseter Muscle physiology, Masseter Muscle physiopathology, Temporal Muscle diagnostic imaging, Temporal Muscle physiopathology, Temporal Muscle physiology, Electromyography, Young Adult, Bite Force, Magnetic Resonance Imaging, Temporomandibular Joint Disorders physiopathology, Temporomandibular Joint Disorders diagnostic imaging, Temporomandibular Joint Disc diagnostic imaging, Temporomandibular Joint Disc physiopathology, Temporomandibular Joint diagnostic imaging, Temporomandibular Joint physiopathology
Abstract

Fatigue of temporomandibular joint (TMJ) tissues reflects the effects of magnitude (energy density; ED) and frequency of loading (jaw muscle duty factor; DF). This observational study measured these variables and tested for differences in mechanobehavior scores (MBS = ED 2 × DF) and component variables in subjects with and without TMJ disc displacement (±D). In accordance with Institutional Review Board and STROBE guidelines, written informed consent was obtained, and examination and imaging protocols identified eligible adult subjects. Specifically, magnetic resonance imaging was used to assign subjects' TMJs to ±D groups. Subjects were trained to record in-field jaw muscle activities, from which DFs (percentage of recording time) were determined. EDs (mJ/mm 3 ) were estimated using modeled TMJ loads and in vivo dynamic stereometry. Multivariate analysis of variance, post hoc independent t tests, and K-means cluster analysis identified significant group differences ( P < 0.05). Of 242 individuals screened, 65 females (TMJs: 78 +D, 52 -D) and 53 males (TMJs: 39 +D, 67 -D) participated. Subjects produced 312 daytime and 319 nighttime recordings of average duration 6.0 ± 0.2 h and 7.6 ± 0.1 h, respectively, and 219 (114 right, 105 left) intact dynamic stereometry recordings. Average EDs were 2-fold and significantly larger in +D than -D TMJs ( P < 0.0001). DFs were on average 3-fold larger during the daytime versus nighttime for both masseter and temporalis muscles and 1.8- and 3.0-fold larger for the masseter versus temporalis muscle during the daytime and nighttime, respectively. Daytime masseter MBSs for +D TMJs in females were the largest overall at 621 ± 212 (mJ/mm 3 ) 2 % and 2- to 43-fold larger versus -D TMJs in both sexes during daytime and nighttime. Cluster analysis ( P < 0.0001) identified groups 2 and 3, which comprised 87% +D TMJs and had average MBSs 21-fold larger than group 1. The results show MBS as a potential biomarker to predict homeostasis versus progression or reversal of degenerative TMJ structural changes., Competing Interests: Declaration of Conflicting InterestsThe authors declared no potential conflicts of interest with respect to the research, authorship, and/or publication of this article.

Published
2024
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21. Chronic Pain-Related Jaw Muscle Motor Load and Sensory Processing.

Author

Nickel JC, Gonzalez YM, Wu Y, Liu Y, Liu H, and Iwasaki LR

Subjects
Adult, Electromyography methods, Female, Humans, Male, Masseter Muscle, Perception, Temporal Muscle, Chronic Pain, Myalgia etiology
Abstract

Chronic pain associated with temporomandibular disorders (TMDs) may reflect muscle mechanoreceptor afferent barrage and dysregulated sensory processing. This observational study tested for associations between Characteristic Pain Intensity (CPI), physical symptoms (Patient Health Questionnaire-15 [PHQ-15]), and cumulative jaw muscle motor load (mV*s). In accordance with institutional review board oversight and Strengthening the Reporting of Observational Studies in Epidemiology guidelines, adult subjects gave informed consent and were identified via Diagnostic Criteria for TMD (DC-TMD) examination and research protocols. Subjects were assigned to ±Pain groups using DC-TMD criteria for myalgia. CPI scores characterized pain intensity. PHQ-15 scores were surrogate measures of dysregulated sensory processing. Laboratory tests were performed to quantify masseter and temporalis muscle activities (mV) per bite force (N) for each subject. In their natural environments, subjects recorded day- and nighttime electromyography from which cumulative jaw muscle motor loads (mV*s) were determined for activities consistent with bite forces of >1 to ≤2 and >2 to ≤5 N. Data were assessed using univariate analysis of variance, simple effects tests, K-means cluster classification, and 3-dimensional regression analyses. Of 242 individuals screened, 144 enrolled, and 125 with complete data from study protocols, there were 35 females and 15 males for +Pain and 35 females and 40 males for -Pain. Subjects produced 324 daytime and 341 nighttime recordings of average duration 6.9 ± 1.7 and 7.6 ± 1.7 h, respectively. Overall, +Pain compared to -Pain subjects had significantly higher (all P ≤ 0.002) CPI and PHQ-15 scores. Cumulative jaw muscle motor loads showed significant between-subject effects for time, diagnostic group, and sex (all P < 0.003), where motor loads tended to be higher for daytime versus nighttime, +Pain versus -Pain groups, and males versus females. Two clusters were identified, and regression relations showed associations of low-magnitude daytime masseter motor load, PHQ-15, and CPI scores for cluster 1 ( n = 105, R 2 = 0.44) and cluster 2 ( n = 18, R 2 = 0.80). Furthermore, these regression relations showed thresholds of motor load and PHQ-15 scores, above which there were nonlinear increases in reported pain.

Published
2022
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22. Effect of Sustained Joint Loading on TMJ Disc Nutrient Environment.

Author

Wu Y, Cisewski SE, Coombs MC, Brown MH, Wei F, She X, Kern MJ, Gonzalez YM, Gallo LM, Colombo V, Iwasaki LR, Nickel JC, and Yao H

Subjects
Adult, Animals, Biomechanical Phenomena, Diffusion, Glucose, Humans, Lactic Acid, Male, Oxygen, Stress, Mechanical, Swine, Young Adult, Energy Metabolism, Nutrients, Temporomandibular Joint Disc metabolism
Abstract

The temporomandibular joint (TMJ) disc nutrient environment profoundly affects cell energy metabolism, proliferation, and biosynthesis. Due to technical challenges of in vivo measurements, the human TMJ disc extracellular nutrient environment under load, which depends on metabolic rates, solute diffusion, and disc morphometry, remains unknown. Therefore, the study objective was to predict the TMJ disc nutrient environment under loading conditions using combined experimental and computational modeling approaches. Specifically, glucose consumption and lactate production rates of porcine TMJ discs were measured under varying tissue culture conditions ( n = 40 discs), and mechanical strain-dependent glucose and lactate diffusivities were measured using a custom diffusion chamber ( n = 6 discs). TMJ anatomy and loading area were obtained from magnetic resonance imaging of healthy human volunteers ( n = 11, male, 30 ± 9 y). Using experimentally determined nutrient metabolic rates, solute diffusivities, TMJ anatomy, and loading areas, subject-specific finite element (FE) models were developed to predict the 3-dimensional nutrient profiles in unloaded and loaded TMJ discs (unloaded, 0% strain, 20% strain). From the FE models, glucose, lactate, and oxygen concentration ranges for unloaded healthy human TMJ discs were 0.6 to 4.0 mM, 0.9 to 5.0 mM, and 0% to 6%, respectively, with steep gradients in the anterior and posterior bands. Sustained mechanical loading significantly reduced nutrient levels ( P < 0.001), with a critical zone in which cells may die representing approximately 13.5% of the total disc volume. In conclusion, this study experimentally determined TMJ disc metabolic rates, solute diffusivities, and disc morphometry, and through subject-specific FE modeling, revealed critical interactions between mechanical loading and nutrient supply and metabolism for the in vivo human TMJ disc. The results suggest that TMJ disc homeostasis may be vulnerable to pathological loading (e.g., clenching, bruxism), which impedes nutrient supply. Given difficulties associated with direct in vivo measurements, this study provides a new approach to systematically investigate homeostatic and degenerative mechanisms associated with the TMJ disc.

Published
2019
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23. TMJ energy densities in healthy men and women.

Author

Iwasaki LR, Gonzalez YM, Liu Y, Liu H, Markova M, Gallo LM, and Nickel JC

Subjects
Adult, Biomechanical Phenomena, Female, Healthy Volunteers, Humans, Male, Sex Factors, Temporomandibular Joint Disc physiology, Young Adult, Stress, Mechanical, Temporomandibular Joint physiology, Weight-Bearing physiology
Abstract

Objective: Cartilage fatigue, due to mechanical work, may account for the early development of degenerative joint disease (DJD) in the temporomandibular joint (TMJ), and why women are three times more likely to be afflicted. This study tested for gender differences in mechanical energy densities in women and men with healthy TMJs., Design: Eighteen women and eighteen men gave informed consent. Research diagnostic criteria including imaging were used to ensure that subjects' TMJs were normal, without disc displacement or signs of DJD. Numerical modeling determined TMJ loads (F normal ). Jaw tracking and three-dimensional dynamic stereometry characterized individual-specific data of stress-field dynamic mechanics during 10 symmetrical jaw closing cycles. These data were used to estimate tractional forces (F traction ). Energy densities were then calculated, where: Energy Density = W/Q (W = work done or mechanical energy input = F traction *distance of stress-field translation, Q = volume of cartilage). Two-way analysis of variance (ANOVA) and follow-up two-group comparisons tested mean energy densities for ipsilateral and contralateral TMJs in women vs men., Results: Mean energy densities ± standard deviations in ipsilateral and contralateral TMJs in women were 9.0 ± 9.7 and 8.4 ± 5.5 mJ/mm 3 , respectively, and were significantly larger (P = 0.004 and 0.001, respectively) compared to ipsilateral and contralateral TMJs in men, which were 5.6 ± 4.2 and 6.3 ± 4.2 mJ/mm 3 , respectively., Conclusions: Energy densities were significantly larger in healthy TMJs of women than men. Larger TMJ energy densities during normal jaw functions could predispose earlier mechanical fatigue of the TMJ disc., (Copyright © 2017 Osteoarthritis Research Society International. Published by Elsevier Ltd. All rights reserved.)

Published
2017
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24. Muscle organization in individuals with and without pain and joint dysfunction.

Author

Nickel JC, Gonzalez YM, McCall WD, Ohrbach R, Marx DB, Liu H, and Iwasaki LR

Subjects
Adult, Biomechanical Phenomena, Case-Control Studies, Chi-Square Distribution, Dental Stress Analysis, Electromyography, Female, Humans, Joint Dislocations, Linear Models, Male, Masticatory Muscles physiology, Middle Aged, Models, Biological, Young Adult, Bite Force, Computer Simulation, Facial Pain physiopathology, Masticatory Muscles physiopathology, Temporomandibular Joint Disorders physiopathology
Abstract

Central nervous system organization of masticatory muscles determines the magnitude of joint and muscle forces. Validated computer-assisted models of neuromuscular organization during biting were used to determine organization in individuals with and without temporomandibular disorders (TMD). Ninety-one individuals (47 women, 44 men) were assigned to one of four diagnostic groups based on the presence (+) or absence (-) of pain (P) and bilateral temporomandibular joint disc displacement (DD). Electromyography and bite-forces were measured during right and left incisor and molar biting. Two three-dimensional models employing neuromuscular objectives of minimization of joint loads (MJL) or muscle effort (MME) simulated biting tasks. Evaluations of diagnostic group and gender effects on choice of best-fit model were by analysis of variance (ANOVA) and Tukey-Kramer post hoc tests, evaluations of right-left symmetry were by Chi-square and Fisher's exact statistics, and evaluations of model accuracy were by within-subject linear regressions. MME was the best-fit during left molar biting in +DD individuals and incisor biting in men (all p < 0.03). Incisor biting symmetry in muscle organization was significantly higher (p < 0.03) in healthy individuals compared with those with TMD. Within-subject regressions showed that best-fit model errors were similar among groups: 8 to 15% (0.68 ≤ R(2) ≤ 0.74). These computer-assisted models predicted muscle organization during static biting in humans with and without TMDs.

Published
2012
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25. Hepatocyte ultrastructural alterations in cocaine users.

Author

Finol HJ, Mondragon DD, Gonzalez YM, Marquez A, Gonzalez N, and Paradisi C

Subjects
Adult, Cell Nucleus ultrastructure, Endoplasmic Reticulum ultrastructure, Female, Humans, Liver pathology, Liver Diseases etiology, Liver Diseases pathology, Liver Diseases physiopathology, Liver Function Tests, Male, Middle Aged, Mitochondria, Liver ultrastructure, Cocaine-Related Disorders pathology, Liver ultrastructure
Abstract

The ultrastructural examination of liver biopsies from five male cocaine users showed hepatocytes presenting diverse alterations in rough and smooth endoplasmic reticulum, mitochondria, nuclei and microvilli. Lipid deposition and an increase of autophagic vacuoles were also observed. This study demonstrates that the hepatocyte is an important target cell for cocaine toxic effects in some patients.

Published
2000

26. Occupational diseases in dentistry. Introduction and epidemiology.

Author

Gonzalez YM

Subjects
Air Microbiology, Air Pollutants, Occupational adverse effects, Anesthetics, Inhalation adverse effects, Blood-Borne Pathogens, Dermatitis, Occupational epidemiology, HIV Infections transmission, Hearing Loss, Noise-Induced epidemiology, Hepatitis B transmission, Hepatitis C transmission, Humans, Low Back Pain epidemiology, Nitrous Oxide adverse effects, Risk Factors, Tuberculosis, Pulmonary transmission, Dentists, Occupational Diseases epidemiology
Abstract

Health care workers are exposed to a wide range of physical, chemical, biological and psychological hazards. However, since blood and airborne pathogens represent a tangible risk, infectious diseases are of greater importance to health care workers.

Published
1998

27. Thomas Berdmore, dentist of His Majesty, George III, and dental calculus.

Author

Andreana S, Andreana G, Gonzalez YM, and Ciancio S

Subjects
Dentists history, England, History, 18th Century, Humans, Periodontics history, Textbooks as Topic history, Dental Calculus history
Abstract

Thomas Berdmore's book, Disorders of Deformities of the Teeth and Gums, presents examples of early concepts of preventive dentistry and treatment of periodontal diseases. Various aspects of dental calculus formation and composition are analyzed. Also the effects of periodontal disease as seen by Berdmore are discussed, and ways of treatment in 1770 summarized.

Published
1996

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