Your search keyword '"Sarinnaphakorn, L."' showing total 7 results

1. Stem and osteoblast cells response to surface modified titanium implant: 049

Author

Sarinnaphakorn, L, Mesquida, P, Giordano, C, Sandrini, E, Chiesa, R, Cigada, A, Fenlon, M, and L, Di Silvio

Published

2007

2. The effect of posterior tooth guidance on non-working side arbitrary condylar point movement.

Author

Sarinnaphakorn, L., Murray, G. M., Johnson, C. W. L., and Klineberg, I. J.

Subjects

*DENTISTRY, *MOLARS, *PATIENTS, *DENTAL care, *CLINICAL medicine, *OCCLUSAL adjustment, *TEETH

Abstract

Occlusal form is frequently modified in clinical practice and yet we do not have detailed knowledge of the possible effects of these changes on condylar movement. The aim of this study was to quantify the effects of an alteration in the occlusion on condylar movement during a lateral excursive jaw movement. Posterior tooth guidances (i.e. metal overlays) were attached to both maxillary first molars. The movement of arbitrary condylar points on the non-working side was recorded in seven subjects duringlateral excursion under natural tooth guidance (control) and was compared with that after placement of the overlays (guidance). The guidance resulted In statistically significant changes to the displacement of the arbitrary condylar points on the non-working sides For example, at a standardized (3 nun) displacement along the mid- incisor point trajectory during the lateral excursion for both control and guidance in all subjects, the corresponding displacements of the condylar points were statistically significantly decreased under the guidance situation in comparison with the control situation. These data suggest that, for the same magnitude of mandibular displacement during lateral excursion, the introduction of a posterior tooth guidance limits condylar displacement on the non-working side. [ABSTRACT FROM AUTHOR]

Published

1997

3. Placement and verification of recording electrodes in the superior head of the human lateral pterygoid muscle

Author

Orfanos, T., Sarinnaphakorn, L., Murray, G.M., and Klineberg, I.J.

Published

1996

4. Development of silicon nitride ceramic for CAD/CAM restoration.

Author

Krajangta N, Sarinnaphakorn L, Didron PP, and Wasanapiarnpong T

Subjects

Dental Porcelain, Flexural Strength, Materials Testing, Silicon Compounds, Surface Properties, Ceramics, Computer-Aided Design

Abstract

White Silicon nitride (Si 3 N 4 ) ceramic has unique characteristics. Because of its high fracture toughness, strength, and biocompatibility, it can therefore be used to fabricate dental restorations. The purpose of this study was to produce partially-sintered block of Si 3 N 4 for fabrication of CAD/CAM dental restorations. The related properties of this novel Si 3 N 4 were evaluated including sintered shrinkage, flexural strength and fracture toughness. Partially sintered Si 3 N 4 ceramic blocks were prepared by heating at 1,400°C for 2 h under N 2 gas. After full sintering at 1,650 o C for 2 h, the linear shrinkage value was recorded at 19.88±0.56%. The flexural strength and fracture toughness were measured, the results were 891.21±37.25 MPa and 6.33±0.30 MPa•m 1/2 , respectively. These results showed that flexural strength and fracture toughness of Si 3 N 4 were more than 800 MPa and 5 MPa•m 1/2 , the white Si 3 N 4 developed in this study can be used to fabricate multi-unit dental restorations According to ISO 6872.

Published

2020

5. Trephination-based, guided surgical implant placement: A clinical study.

Author

Suriyan N, Sarinnaphakorn L, Deeb GR, and Bencharit S

Subjects

Computer-Aided Design, Cone-Beam Computed Tomography, Dental Implantation, Endosseous, Humans, Patient Care Planning, Trephining, Dental Implants, Surgery, Computer-Assisted

Abstract

Statement of Problem: Conventional guided implant surgery promises clinical success through implant placement accuracy; however, it requires multiple drills along with surgical sleeves and sleeve adapters for the horizontal and vertical control of osteotomy drills. This results in cumbersome surgery, problems with patients having limited mouth opening, and restriction to specific drill or implant manufacturers. A protocol for using trephination drills to simplify guided surgery and accommodate multiple implant systems is introduced., Purpose: The purpose of this clinical study was to evaluate the accuracy of implant placement using this novel guided trephine drill protocol with and without a surgical sleeve., Material and Methods: Intraoral scanning and preoperative cone beam computed tomography (CBCT) scans were used for implant treatment planning. Surgical guides were fabricated using stereolithography. Implant surgery was performed using the guided trephination protocol with and without a surgical sleeve. Postoperative CBCT scans were used to measure the implant placement deviations rather than the implant planning position. Surgical placement time and patient satisfaction were also documented. One-tailed t test and F-test (P=.01) were used to determine statistical significance., Results: Thirty-five implants in 17 participants were included in this study. With a surgical sleeve, implant positional deviations were 0.51 ±0.13 mm vertically, 0.32 ±0.10 mm facially, 0.11 ±0.11 mm lingually, and 0.38 ±0.13 mm mesially. Without a surgical sleeve, implant positional deviations were 0.58 ±0.27 mm vertically, 0.3 ±0.14 mm facially, 0.39 ±0.16 mm lingually, and 0.41 ±0.12 mm mesially. No statistically significant difference was found between the 2 protocols (P>.01), except that the sleeve group had greater vertical control precision (F-test, P=.006), reduced placement time, and the time variation was reduced (t test, P=.003; F-test, P<.001)., Conclusions: This trephination-based, guided implant surgery protocol produces accurate surgical guides that permit guided surgery in limited vertical access and with the same guided surgery protocol for multiple implant systems. Guided sleeves, although not always necessary, improve depth control and reduce surgical time in implant placement., (Copyright © 2018 Editorial Council for the Journal of Prosthetic Dentistry. Published by Elsevier Inc. All rights reserved.)

Published

2019

6. Comparison of excursive occlusal force parameters in post-orthodontic and non-orthodontic subjects using T-Scan® III.

Author

Qadeer S, Abbas AA, Sarinnaphakorn L, and Kerstein RB

Subjects

Adolescent, Adult, Female, Friction, Humans, Male, Surveys and Questionnaires, Bite Force, Dental Occlusion, Jaw Relation Record instrumentation, Orthodontics, Corrective, Temporomandibular Joint Disorders physiopathology

Abstract

Objective: Published studies indicate that orthodontically treated patients demonstrate increased posterior occlusal friction contributing to temporomandibular disorder (TMD) symptoms. This study investigated measured excursive movement occlusal contact parameters and their association with TMD symptoms between non- and post-orthodontic subjects., Methods: Twenty-five post-orthodontic and 25 non-orthodontic subjects underwent T-Scan® computerized occlusal analysis to determine their disclusion time (DT), the excursive frictional contacts, and occlusal scheme. Each subject answered a TMD questionnaire to determine the presence or absence of TMD symptoms. Statistical analysis compared the within group and between group differences (p < 0.05)., Results: Statistically significant differences were observed in the disclusion time: DT = 2.69 s in the post-orthodontic and 1.36 s in the non-orthodontic group. In the non-orthodontic group, 72.7% working and 27.3% non-working side contacts were seen, while in the post-orthodontic group, (near equal) 54.7% working and 45.3% non-working side contacts were seen. Presence of canine guidance was seen in 60% of the non-orthodontic group and 24% in the post-orthodontic group. Seventy-two percent of the post orthodontics subjects presented with one or more TMD symptoms., Conclusion: Significantly longer disclusion time, higher posterior frictional contacts, and more TMD symptoms were observed in the post-orthodontic group, suggesting that orthodontic treatment increases posterior tooth friction. Computerized occlusal analysis is an objective diagnostic tool determining the quality of excursive movements following orthodontic treatment.

Published

2018

7. Comparison of closure occlusal force parameters in post-orthodontic and non-orthodontic subjects using T-Scan® III DMD occlusal analysis.

Author

Qadeer S, Yang L, Sarinnaphakorn L, and Kerstein RB

Subjects

Adult, Case-Control Studies, Dental Occlusion, Balanced, Humans, Jaw Relation Record methods, Thailand, Young Adult, Bite Force, Diagnosis, Computer-Assisted, Jaw Relation Record instrumentation, Malocclusion diagnosis, Malocclusion therapy, Orthodontics, Corrective, Software

Abstract

Objective: Balanced occlusal force distribution is a critical factor for restorative, prosthetic or orthodontic treatment. It has been postulated that orthodontic treatment may lead to occlusal discrepancies in the arch due to changing the occlusal relationships. This study was conducted to compare the occlusal force parameters between natural dentition patients and a post-orthodontic treatment group., Method and Materials: Fifty Thai subjects were divided into non-orthodontic and post-orthodontic groups comprised of 25 subjects each (mean age 24.8 years). The T-Scan® III computerized occlusal analysis system was used to record a multi-bite closure for each subject. The initial occlusal contact location, the bilateral percentage force distribution, the percentage force in the anterior and posterior quadrants, and the individual tooth force percentages were calculated for both groups. The Student's Paired t-Test compared the in-group differences, while a one-way ANOVA analyzed the differences between the two groups., Results: The initial tooth contacts in both groups were found on the second molars and central incisors. Maximum force was most frequently observed on the left second molar tooth (15.9% non-orthodontic; 25.4% post-orthodontic). The bilateral right-to-left side force distribution (51.36% right-48.96% left) was not statistically different for all subjects, nor was it statistically different between the non-orthodontic (48.67% right-51.36% left) and the post-orthodontic groups (48.96% right-51.05% left). Statistically significant differences were found between the quadrants in both the groups (22.46% anterior-77.57% posterior in non-orthodontic subjects; 10.58% anterior-89.42% posterior in post-orthodontic subjects) (p < 0.01)., Conclusion: A significant occlusal force discrepancy was found in the post-orthodontic subjects, with higher force percentages observed posteriorly and much less percentage force anteriorly, when compared to the natural dentition subjects. T-Scan® III digital occlusal analysis may be recommended for orthodontic case finishing, to make visible to the clinician the severity of the orthodontically created occlusal force imbalance, such that it can be minimized during orthodontic case finishing.

Published

2016