Your search keyword '"Fried, Daniel"' showing total 33 results

1. Monitoring lesion activity on primary teeth with CP-OCT and SWIR reflectance imaging.

Author

Zhu Y, Kim J, Lin B, and Fried D

Subjects

Humans, Tomography, Optical Coherence methods, Tooth, Deciduous, Fluorides, Tooth Demineralization diagnostic imaging

Abstract

Objective: The purpose of this study was to use cross polarization optical coherence tomography (CP-OCT) and short wavelength infrared imaging (SWIR) reflectance imaging to monitor changes in the structure and activity of early occlusal caries on primary teeth over a period of 6 months during intervention with fluoride., Methods: Participants (n = 29) aged 6-10 each with two suspected active occlusal lesions on primary teeth completed the study. Fluoride varnish was applied to tooth surfaces every 3-months and participants were instructed to brush twice daily with a fluoride toothpaste. Images were acquired using CP-OCT every 3 months for 6 months. SWIR reflectance images were acquired during forced air-drying of the lesions for 30 s at 0 and 6-months., Results: Most of the 42 lesions appeared initially active at baseline. Only 6 lesions appeared arrested at baseline based on the presence of a highly mineralized transparent surface layer (TSL) in CP-OCT images. At 6 months, 14 of the lesions appeared arrested including the 6 initially arrested lesions and the TSL thickness increased significantly (p < 0.0001). The mean lesion depth (Ld) and the integrated reflectivity over the lesion depth (ΔR) increased significantly (p < 0.05) after 6 months for the 42 lesions analyzed. SWIR reflectance images showed that there was a significantly higher (p < 0.05) delay before changes in intensity were measured for active lesions versus arrested lesions during lesion drying., Conclusion: CP-OCT was able to monitor changes in lesion structure and activity including the formation of a highly mineralized TSL indicative of lesion arrest during nonsurgical intervention. Time-resolved SWIR reflectance imaging also shows that there are differences in the dehydration kinetics between active and arrested lesions. This study demonstrates two independent imaging methods that can be used to monitor changes in lesion activity over time., (© 2023 Wiley Periodicals LLC.)

Published

2023

2. Monitoring silver diamine fluoride application with optical coherence tomography and thermal imaging: An in vitro proof of concept study.

Author

Abdelaziz M, Yang V, Chang NN, Darling C, Fried W, Seto J, and Fried D

Subjects

Animals, Cattle, Dentin pathology, Fluorides, Topical, Proof of Concept Study, Quaternary Ammonium Compounds, Silver Compounds, Dental Caries pathology, Tomography, Optical Coherence methods

Abstract

Objectives: The purpose of this study was to show that optical coherence tomography (OCT) and thermal imaging can be used to monitor changes in the structure and activity of caries lesions over time after treatment with silver diamine fluoride (SDF)., Methods: Artificial caries lesions were formed on enamel and dentin bovine blocks. Each block was partitioned into five windows with the central three windows exposed to a demineralization solution to create lesions: one sound window served as a sound control (SC), one sound window was exposed to SDF to serve as a test control (SCT), one lesion window served as a lesion control (LC), one lesion window received one application of SDF (L1), while the other lesion window received two applications of SDF (L2). Each window was scanned using OCT before SDF application, and every week subsequently, for 12 weeks after initial SDF treatment. Changes in the mean intensity and the width of the peak of increased reflectivity due to the lesion and SDF along with the intensity at a depth of 180 µm from the surface representing optical penetration through the lesion were monitored. Changes in the heat lost, ΔQ (temperature integrated over time) of each window during drying with air were also monitored using a thermal imaging camera. Transverse microradiography (TMR), and high-resolution microscopy were also used for the analysis of selected samples., Results: The reflectivity and optical penetration of sound and lesion areas of enamel and dentin manifested significant changes in OCT images after SDF application. Thermal imaging showed significant differences in ΔQ indicative of permeability changes in the sound and lesion areas of enamel and dentin after SDF application., (© 2022 The Authors. Lasers in Surgery and Medicine published by Wiley Periodicals LLC.)

Published

2022

3. High Contrast Reflectance Imaging of Enamel Demineralization and Remineralization at 1950-nm for the Assessment of Lesion Activity.

Author

Fried WA, Abdelaziz M, Darling CL, and Fried D

Subjects

Animals, Cattle, Dental Enamel diagnostic imaging, Microscopy, Polarization, Spectroscopy, Near-Infrared, Tomography, Optical Coherence, Tooth Demineralization diagnostic imaging

Abstract

Background and Objectives: Previous studies have shown that large changes in the diffuse reflectivity of caries lesions during drying with air can be used to assess lesion activity. The largest changes occur at short wavelength infrared (SWIR) wavelengths coincident with high water absorption. The strongest water absorption in the SWIR occurs at 1950 nm. In this study changes in the reflectivity of simulated lesions with varying degrees of remineralization was measured at 1500-2340 nm and at 1950 nm as the samples were dried with air., Study Design/materials and Methods: Twenty bovine enamel surfaces each with five treatment windows were exposed to two demineralization/remineralization regimens to produce simulated lesions of varying depth, severity, and mineral gradients. An extended range tungsten-halogen lamp with a long pass filter (1500-2340 nm) and a broadband amplified spontaneous emission source centered near the peak of the water-absorption band at 1950-nm were used as light sources and an extended range InGaAs camera (1000-2340 nm) was used to acquire reflected light images as the samples were dried with air. Lesions were also assessed using digital microscopy, polarized light microscopy, optical coherence tomography, and transverse microradiography., Results: Both wavelength ranges showed extremely high lesion contrast (>0.9) for all six lesion treatment windows in both models. The change in contrast (ΔI) was significantly higher for the 1950 nm broadband source for all the intact lesion windows compared with the 1500-2340 nm wavelength range., Conclusion: SWIR light at 1950 nm yields extremely high contrast of demineralization and appears to be the optimum wavelength for the assessment of lesion activity on tooth coronal surfaces. Lasers Surg. Med. 00:00-00, 2020. © 2020 Wiley Periodicals LLC., (© 2020 Wiley Periodicals LLC.)

Published

2021

4. Image-Guided Ablation of Dental Calculus From Root Surfaces Using a DPSS Er:YAG Laser.

Author

Fried WA, Chan KH, Darling CL, Curtis DA, and Fried D

Subjects

Equipment Design, Fiber Optic Technology, Humans, In Vitro Techniques, Infrared Rays, Microscopy, Polarization, Dental Calculus therapy, Lasers, Semiconductor therapeutic use, Tooth Root diagnostic imaging

Abstract

Background and Objectives: Recent studies have demonstrated that near-infrared (IR) imaging can be used to acquire high-contrast images of root caries and calculus on the root surfaces of extracted teeth at wavelengths longer than 1450 nm. The purpose of this study was to determine if image-guided laser ablation can be used to selectively remove calculus from tooth surfaces with minimal damage to the underlying sound cementum and dentin., Materials and Methods: In this study, sequential near-IR images at 1500-1700 nm were used to guide a diode-pumped (DPSS) Er:YAG laser for the removal of calculus from the root surfaces of 10 extracted teeth. The selectivity of removal was assessed using digital microscopy, optical coherence tomography, and surface profilometry., Results: Calculus was removed rapidly with minimal damage to the underlying sound cementum and dentin. Image-guided ablation achieved high-selectivity, the mean volume of calculus removal was more than 27 times higher than the mean loss of cementum., Conclusions: We have demonstrated that near-IR image-guided laser ablation can be used for the selective removal of calculus from root surfaces ex vivo. Additionally, we have demonstrated that a diode-pumped solid-state Er:YAG laser is well suited for selective removal. Lasers Surg. Med. © 2019 Wiley Periodicals, Inc., (© 2019 Wiley Periodicals, Inc.)

Published

2020

5. Selective ablation of dental caries using coaxial Co 2 (9.3-μm) and near-IR (1880-nm) lasers.

Author

Chan KH and Fried D

Subjects

Equipment Design, Humans, In Vitro Techniques, Infrared Rays, Lasers, Gas, Thulium, Tomography, Optical Coherence, Dental Caries surgery, Laser Therapy methods

Abstract

Objective: The purpose of this study was to determine the feasibility of image-guided laser ablation of demineralization from tooth occlusal surfaces using coaxial near-infrared (NIR) and CO 2 lasers., Materials and Methods: A CO 2 laser operating at a wavelength of 9.3-μm was combined with a thulium-doped fiber laser operating at 1880-nm for the selective removal of simulated occlusal caries lesions from 10 tooth samples. Serial NIR reflectance images at 1880-nm were used to guide the CO 2 laser for image-guided laser ablation. Polarization-sensitive optical coherence tomography (PS-OCT) was used to assess the initial depth of the lesions before removal and assess the volume of sound and demineralized tissue removed by the CO 2 laser., Results: PS-OCT scans indicated that roughly ∼99% of the lesion was removed by image-guided laser ablation. A mean volume of 0.191-mm 3 or 11.9-μm/voxel of excess enamel was removed during lesion removal., Conclusion: A co-aligned NIR/CO 2 laser scanning system has great potential for the highly selective removal of dental decay (demineralization). Lasers Surg. Med. 51:176-184, 2019. © 2018 Wiley Periodicals, Inc., (© 2018 Wiley Periodicals, Inc.)

Published

2019

6. Influence of multi-wavelength laser irradiation of enamel and dentin surfaces at 0.355, 2.94, and 9.4 μm on surface morphology, permeability, and acid resistance.

Author

Chang NN, Jew JM, Simon JC, Chen KH, Lee RC, Fried WA, Cho J, Darling CL, and Fried D

Subjects

Administration, Topical, Animals, Cariostatic Agents administration & dosage, Cariostatic Agents pharmacology, Cattle, Combined Modality Therapy, Dental Enamel drug effects, Dental Enamel metabolism, Dental Enamel pathology, Dentin drug effects, Dentin metabolism, Dentin pathology, Fluorides administration & dosage, Fluorides pharmacology, In Vitro Techniques, Microscopy, Electron, Scanning, Microscopy, Polarization, Permeability drug effects, Permeability radiation effects, Phosphates administration & dosage, Phosphates pharmacology, Tooth Demineralization chemically induced, Tooth Demineralization metabolism, Tooth Demineralization pathology, Acids adverse effects, Dental Enamel surgery, Dentin surgery, Lasers, Gas therapeutic use, Lasers, Solid-State therapeutic use, Tooth Demineralization prevention & control

Abstract

Objective: Ultraviolet (UV) and infrared (IR) lasers can be used to specifically target protein, water, and mineral, respectively, in dental hard tissues to produce varying changes in surface morphology, permeability, reflectivity, and acid resistance. The purpose of this study was to explore the influence of laser irradiation and topical fluoride application on the surface morphology, permeability, reflectivity, and acid resistance of enamel and dentin to shed light on the mechanism of interaction and develop more effective treatments., Methods: Twelve bovine enamel surfaces and twelve bovine dentin surfaces were irradiated with various combinations of lasers operating at 0.355 (Freq.-tripled Nd:YAG (UV) laser), 2.94 (Er:YAG laser), and 9.4 μm (CO 2 laser), and surfaces were exposed to an acidulated phosphate fluoride gel and an acid challenge. Changes in the surface morphology, acid resistance, and permeability were measured using digital microscopy, polarized light microscopy, near-IR reflectance, fluorescence, polarization sensitive-optical coherence tomography (PS-OCT), and surface dehydration rate measurements., Results: Different laser treatments dramatically influenced the surface morphology and permeability of both enamel and dentin. CO 2 laser irradiation melted tooth surfaces. Er:YAG and UV lasers, while not melting tooth surfaces, showed markedly different surface roughness. Er:YAG irradiation led to significantly rougher enamel and dentin surfaces and led to higher permeability. There were significant differences in acid resistance among the various treatment groups., Conclusion: Surface dehydration measurements showed significant changes in permeability after laser treatments, application of fluoride and after exposure to demineralization. CO 2 laser irradiation was most effective in inhibiting demineralization on enamel while topical fluoride was most effective for dentin surfaces. Lasers Surg. Med. 49:913-927, 2017. © 2017 Wiley Periodicals, Inc., (© 2017 Wiley Periodicals, Inc.)

Published

2017

7. Automated ablation of dental composite using an IR pulsed laser coupled to a plume emission spectral feedback system.

Author

Jang AT, Chan KH, and Fried D

Subjects

Feasibility Studies, Humans, Tomography, Optical Coherence, Tooth diagnostic imaging, Composite Resins, Lasers, Gas therapeutic use, Tooth surgery

Abstract

Objective: The purpose of this study is to assemble a laser system for the selective removal of dental composite from tooth surfaces, that is feasible for clinical use incorporating a spectral feedback system, a scanning system, articulating arm and a clinical hand-piece, and evaluate the performance of that system on extracted teeth., Methods: Ten extracted teeth were collected and small fillings were placed on the occlusal surface of each tooth. A clinical system featuring a CO 2 laser operating at 50 Hz and spectral optical feedback was used to remove the composite. Removal was confirmed using a cross polarized optical coherence tomography (CP-OCT) system designed for clinical use., Results: The system was capable of rapidly removing composite from small preparations on tooth occlusal surfaces with a mean loss of enamel of less than 20 μm., Conclusion: We have demonstrated that spectral feedback can be successfully employed in an automated system for composite removal by incorporating dual photodiodes and a galvanometer controlled CO 2 laser. Additionally, the use of registered OCT images presents as a viable method for volumetric benchmarking. Overall, this study represents the first implementation of spectral feedback into a clinical hand-piece and serves as a benchmark for a future clinical study. Lasers Surg. Med. 49:658-665, 2017. © 2017 Wiley Periodicals, Inc., (© 2017 Wiley Periodicals, Inc.)

Published

2017

8. Near-IR and CP-OCT imaging of suspected occlusal caries lesions.

Author

Simon JC, Kang H, Staninec M, Jang AT, Chan KH, Darling CL, Lee RC, and Fried D

Subjects

Adolescent, Adult, Analysis of Variance, Cohort Studies, Dental Caries pathology, Dental Fissures diagnostic imaging, Dental Fissures pathology, Female, Humans, Male, Middle Aged, Tooth Demineralization diagnostic imaging, Tooth Demineralization pathology, Transillumination instrumentation, Young Adult, Dental Caries diagnostic imaging, Image Interpretation, Computer-Assisted, Spectroscopy, Near-Infrared methods, Tomography, Optical Coherence methods, Transillumination methods

Abstract

Introduction: Radiographic methods have poor sensitivity for occlusal lesions and by the time the lesions are radiolucent they have typically progressed deep into the dentin. New more sensitive imaging methods are needed to detect occlusal lesions. In this study, cross-polarization optical coherence tomography (CP-OCT) and near-IR imaging were used to image questionable occlusal lesions (QOC's) that were not visible on radiographs but had been scheduled for restoration on 30 test subjects., Methods: Near-IR reflectance and transillumination probes incorporating a high definition InGaAs camera and near-IR broadband light sources were used to acquire images of the lesions before restoration. The reflectance probe utilized cross-polarization and operated at wavelengths from 1,500 to 1,700 nm where there is an increase in water absorption for higher contrast. The transillumination probe was operated at 1,300 nm where the transparency of enamel is highest. Tomographic images (6 × 6 × 7 mm 3 ) of the lesions were acquired using a high-speed swept-source CP-OCT system operating at 1,300 nm before and after removal of the suspected lesion., Results: Near-IR reflectance imaging at 1,500-1,700 nm yielded significantly higher contrast (P < 0.05) of the demineralization in the occlusal grooves compared with visible reflectance imaging. Stains in the occlusal grooves greatly reduced the lesion contrast in the visible range yielding negative values. Only half of the 26 lesions analyzed showed the characteristic surface demineralization and increased reflectivity below the dentinal-enamel junction (DEJ) in 3D OCT images indicative of penetration of the lesion into the dentin., Conclusion: This study demonstrates that near-IR imaging methods have great potential for improving the early diagnosis of occlusal lesions. Lasers Surg. Med. 49:215-224, 2017. © 2017 Wiley Periodicals, Inc., (© 2017 Wiley Periodicals, Inc.)

Published

2017

9. Clinical monitoring of smooth surface enamel lesions using CP-OCT during nonsurgical intervention.

Author

Chan KH, Tom H, Lee RC, Kang H, Simon JC, Staninec M, Darling CL, Pelzner RB, and Fried D

Subjects

Adolescent, Adult, Cariostatic Agents pharmacology, Dental Caries drug therapy, Dental Caries pathology, Dental Enamel drug effects, Dental Enamel pathology, Drug Administration Schedule, Female, Fluorides, Topical pharmacology, Follow-Up Studies, Humans, Linear Models, Male, Middle Aged, Treatment Outcome, Young Adult, Cariostatic Agents therapeutic use, Dental Caries diagnostic imaging, Dental Enamel diagnostic imaging, Fluorides, Topical therapeutic use, Tomography, Optical Coherence methods

Abstract

Introduction: Studies have shown that cross-polarization optical coherence tomography (CP-OCT) can be used to image the internal structure of carious lesions in vivo. The objective of this study was to show that CP-OCT can be used to monitor changes in the internal structure of early active carious lesions on smooth surfaces during non-surgical intervention with fluoride., Methods: Lesions on the smooth surfaces of teeth were imaged using CP-OCT on 17 test subjects. Lesion structural changes were monitored during fluoride varnish application at 6-week intervals for 30 weeks. The lesion depth (L d ), integrated reflectivity (ΔR), and surface zone thickness (S z ) were monitored., Results: A distinct transparent surface zone that may be indicative of lesion arrestment was visible in CP-OCT images on 62/63 lesions before application of fluoride varnish. The lesion depth and internal structure were resolved for all the lesions. The overall change in the mean values for L d , ΔR, and S z for all the lesions was minimal and was not significant during the study (P > 0.05). Only 5/63 lesions manifested a significant increase in S z during intervention., Conclusion: Even though it appears that most of the lesions manifested little change with fluoride varnish application in the 30 weeks of the study, CP-OCT was able to measure the depth and internal structure of all the lesions including the thickness of the important transparent surface zone located at the surface of the lesions, indicating that CP-OCT is ideally suited for monitoring lesion severity in vivo. Lasers Surg. Med. 48:915-923, 2016. © 2016 Wiley Periodicals, Inc., (© 2016 Wiley Periodicals, Inc.)

Published

2016

10. Near-IR transillumination and reflectance imaging at 1,300 nm and 1,500-1,700 nm for in vivo caries detection.

Author

Simon JC, Lucas SA, Staninec M, Tom H, Chan KH, Darling CL, Cozin MJ, Lee RC, and Fried D

Subjects

Adolescent, Adult, Child, Female, Humans, Male, Middle Aged, Radiography, Dental, Spectroscopy, Near-Infrared instrumentation, Transillumination instrumentation, Young Adult, Dental Caries diagnosis, Spectroscopy, Near-Infrared methods, Transillumination methods

Abstract

Introduction: Several studies suggest that near-IR imaging methods at wavelengths longer than 1,300 nm have great potential for caries detection. In this study, the diagnostic performance of both near-IR transillumination and near-IR reflectance was assessed on teeth scheduled for extraction due to orthodontic treatment (n = 109 teeth on 40 test subjects)., Methods: Three intra-oral near-IR imaging probes were fabricated for the acquisition of in vivo images using a high definition InGaAs camera and near-IR broadband light sources. Two transillumination probes provided occlusal and approximal images using 1,300 nm light which manifests the highest transparency in enamel. A third reflectance probe utilized cross-polarization and operated at wavelengths greater than 1,500 nm where water absorption is higher which reduces the reflectivity of sound tissues, significantly increasing lesion contrast. Teeth were collected after extraction and sectioned and examined with polarized light microscopy and microradiography which served as the gold standard. In addition, radiographs were taken of the teeth and the diagnostic performance of near-IR imaging was compared with radiography., Results: Near-IR imaging was significantly more sensitive (P < 0.05) than radiography for the detection of lesions on both occlusal and proximal surfaces., Conclusion: Near-IR imaging methods are ideally suited for screening all tooth surfaces for carious lesions. Lasers Surg. Med. 48:828-836, 2016. © 2016 Wiley Periodicals, Inc., (© 2016 Wiley Periodicals, Inc.)

Published

2016

11. Near-IR image-guided laser ablation of demineralization on tooth occlusal surfaces.

Author

Tom H, Chan KH, Darling CL, and Fried D

Subjects

Dental Occlusion, Humans, In Vitro Techniques, Laser Therapy methods, Spectroscopy, Near-Infrared, Surgery, Computer-Assisted, Tooth Demineralization surgery

Abstract

Introduction: Studies have shown that reflectance images at near-IR wavelengths coincident with higher water absorption are well-suited for image-guided laser ablation of carious lesions since the contrast between sound and demineralized enamel is extremely high and interference from stains is minimized. The objective of this study was to demonstrate that near-IR reflectance images taken at a wavelength range of 1,500-1,700 nm can be used to guide a 9.3 μm CO(2) laser for the selective ablation of early demineralization on tooth occlusal surfaces., Methods: The occlusal surfaces of ten sound human molars were used in this in vitro study. Shallow simulated caries lesions with random patterns and varying depth and position were produced on tooth occlusal surfaces. Sequential near-IR reflectance images at 1,500-1,700 nm were used to guide the laser for the selective removal of the demineralized enamel. Digital microscopy and polarization sensitive optical coherence tomography (PS-OCT) were used to assess selectivity., Results: Images taken before and after lesion removal suggest that the demineralized areas were removed with high selectivity. Although the estimated volume of tissue ablated was typically higher than the initial lesion volume measured with PS-OCT, the volume of enamel removed by the laser correlated well with the initial lesion volume., Conclusion: Sequential near-IR reflectance images at 1,500-1,700 nm can be used to guide a 9.3 μm CO(2) laser for the selective ablation of early demineralization on tooth occlusal surfaces., (© 2016 Wiley Periodicals, Inc.)

Published

2016

12. A method for monitoring enamel erosion using laser irradiated surfaces and optical coherence tomography.

Author

Chan KH, Tom H, Darling CL, and Fried D

Subjects

Animals, Cattle, Incisor pathology, Incisor radiation effects, Tissue Culture Techniques, Tooth Demineralization etiology, Tooth Erosion etiology, Dental Enamel pathology, Dental Enamel radiation effects, Lasers, Gas, Tomography, Optical Coherence, Tooth Demineralization pathology, Tooth Erosion pathology

Abstract

Introduction: Since optical coherence tomography (OCT) is well suited for measuring small dimensional changes on tooth surfaces, OCT has great potential for monitoring tooth erosion. Previous studies have shown that enamel areas ablated by a carbon dioxide laser manifested lower rates of erosion compared to the non-ablated areas. The purpose of this study was to develop a model to monitor erosion in vitro that could potentially be used in vivo., Methods: Thirteen bovine enamel blocks were used in this in vitro study. Each 10 mm × 2 mm block was partitioned into five regions, the central region was unprotected, the adjacent windows were irradiated by a CO2 laser operating at 9.3 µm with a fluence of 2.4 J/cm(2) , and the outermost windows were coated with acid resistant varnish. The samples were exposed to a pH cycling regimen that caused both erosion and subsurface demineralization for 2, 4 and 6 days. The surfaces were scanned using a time-domain polarization sensitive optical coherence tomography (PS-OCT) system and the degree of surface loss (erosion) and the integrated reflectivity with lesion depth was calculated for each window., Results: There was a large and significant reduction in the depth of surface loss (erosion) and the severity of demineralization in the areas irradiated by the laser., Conclusion: Irradiation of the enamel surface with a pulsed carbon dioxide laser at sub-ablative intensities results in significant inhibition of erosion and demineralization under the acid challenge employed in this study. In addition, these results suggest that it may be feasible to modify regions of the enamel surface using the laser to serve as reference marks to monitor the rate of erosion in vivo., (© 2014 Wiley Periodicals, Inc.)

Published

2014

13. Multispectral near-IR reflectance imaging of simulated early occlusal lesions: variation of lesion contrast with lesion depth and severity.

Author

Simon JC, Chan KH, Darling CL, and Fried D

Subjects

Humans, Image Interpretation, Computer-Assisted, In Vitro Techniques, Spectrometry, Fluorescence, Tomography, Optical Coherence, Molar, Optical Imaging methods, Spectroscopy, Near-Infrared methods, Tooth Demineralization diagnosis

Abstract

Background and Objectives: Early demineralization appears with high contrast at near-IR wavelengths due to a 10- to 20-fold difference in the magnitude of light scattering between sound and demineralized enamel. Water absorption in the near-IR has a significant effect on the lesion contrast and the highest contrast has been measured in spectral regions with higher water absorption. The purpose of this study was to determine how the lesion contrast changes with lesion severity and depth for different spectral regions in the near-IR and compare that range of contrast with visible reflectance and fluorescence., Materials and Methods: Forty-four human molars were used in this in vitro study. Teeth were painted with an acid-resistant varnish, leaving a 4 mm × 4 mm window on the occlusal surface of each tooth exposed for demineralization. Artificial lesions were produced in the unprotected windows after 12-48 hours exposure to a demineralizing solution at pH 4.5. Near-IR reflectance images were acquired over several near-IR spectral distributions, visible light reflectance, and fluorescence with 405-nm excitation and detection at wavelengths >500-nm. Crossed polarizers were used for reflectance measurements to reduce interference from specular reflectance. Cross polarization optical coherence tomography (CP-OCT) was used to non-destructively assess the depth and severity of demineralization in each sample window. Matching two-dimensional CP-OCT images of the lesion depth and integrated reflectivity were compared with the reflectance and fluorescence images to determine how accurately the variation in the lesion contrast represents the variation in the lesion severity., Results: Artificial lesions appear more uniform on tooth surfaces exposed to an acid challenge at visible wavelengths than they do in the near-IR. Measurements of the lesion depth and severity using CP-OCT show that the lesion severity varies markedly across the sample windows and that the lesion contrast in the visible does not accurately reflect the large variation in the lesion severity. Reflectance measurements at certain near-IR wavelengths more accurately reflect variation in the depth and severity of the lesions., Conclusion: The results of the study suggest that near-IR reflectance measurements at longer wavelengths coincident with higher water absorption are better suited for imaging early caries lesions., (© 2013 Wiley Periodicals, Inc.)

Published

2014

14. High contrast reflectance imaging of simulated lesions on tooth occlusal surfaces at near-IR wavelengths.

Author

Fried WA, Fried D, Chan KH, and Darling CL

Subjects

Humans, Image Interpretation, Computer-Assisted, In Vitro Techniques, Lasers, Semiconductor, Light, Molar, Optical Imaging instrumentation, Tomography, Optical Coherence, Optical Imaging methods, Spectrometry, Fluorescence instrumentation, Spectrometry, Fluorescence methods, Spectroscopy, Near-Infrared instrumentation, Spectroscopy, Near-Infrared methods, Tooth Demineralization diagnosis

Abstract

Introduction: In vivo and in vitro studies have shown that high contrast images of tooth demineralization can be acquired in the near-infrared (near-IR) without the interference of stain. The purpose of this study is to compare the lesion contrast in reflectance at near-IR wavelengths coincident with high water absorption with those in the visible, the near-IR at 1,300 nm and with fluorescence measurements for early lesions in occlusal surfaces., Methods: Twenty-four human molars were used in this in vitro study. Teeth were painted with an acid-resistant varnish, leaving a 4 × 4 mm window in the occlusal surface of each tooth exposed for demineralization. Artificial lesions were produced in the exposed windows after 1- and 2-day exposure to a demineralizing solution at pH 4.5. Lesions were imaged using near-IR reflectance at three wavelengths, 1,300, 1,460, and 1,600 nm using a high definition InGaAs camera. Visible light reflectance, and fluorescence with 405 nm excitation and detection at wavelengths greater than 500 nm were also used to acquire images for comparison. Crossed polarizers were used for reflectance measurements to reduce interference from specular reflectance., Results: The contrast of both the 1- and 2-day lesions were significantly higher (P < 0.05) for near-IR reflectance imaging at 1,460 and 1,600 nm than it was for near-IR reflectance imaging at 1,300 nm, visible reflectance imaging, and fluorescence., Conclusion: The markedly higher contrast at 1,460 and 1,600 nm wavelengths, coincident with higher water absorption, suggest that these wavelengths are better suited than 1,300 nm for imaging early/shallow demineralization on tooth surfaces., (© 2013 Wiley Periodicals, Inc.)

Published

2013

15. Non-destructive clinical assessment of occlusal caries lesions using near-IR imaging methods.

Author

Staninec M, Douglas SM, Darling CL, Chan K, Kang H, Lee RC, and Fried D

Subjects

Dental Caries pathology, Dental Enamel pathology, Dentin pathology, Humans, Microradiography, Microscopy, Polarization, Tomography, Optical Coherence instrumentation, Dental Caries diagnosis, Spectroscopy, Near-Infrared methods, Tomography, Optical Coherence methods

Abstract

Objective: Enamel is highly transparent in the near-IR (NIR) at wavelengths near 1,300 nm, and stains are not visible. The purpose of this study was to use NIR transillumination and optical coherence tomography (OCT) to estimate the severity of caries lesions on occlusal surfaces both in vivo and on extracted teeth., Methods: Extracted molars with suspected occlusal lesions were examined with OCT and polarization sensitive OCT (PS-OCT), and subsequently sectioned and examined with polarized light microscopy (PLM) and transverse microradiography (TMR). Teeth in test subjects with occlusal caries lesions that were not cavitated or visible on radiographs were examined using NIR transillumination at 1,310 nm using a custom built probe attached to an indium gallium arsenide (InGaAs) camera and a linear OCT scanner. After imaging, cavities were prepared using dye staining to guide caries removal and physical impressions of the cavities were taken., Results: The lesion severity determined from OCT and PS-OCT scans in vitro correlated with the depth determined using PLM and TMR. Occlusal caries lesions appeared in NIR images with high contrast in vivo. OCT scans showed that most of the lesions penetrated to dentin and spread laterally below the sound enamel., Conclusion: This study demonstrates that both NIR transillumination and OCT are promising new methods for the clinical diagnosis of occlusal caries., (Copyright © 2011 Wiley Periodicals, Inc.)

Published

2011

16. Rapid and selective removal of composite from tooth surfaces with a 9.3 µm CO2 laser using spectral feedback.

Author

Chan KH, Hirasuna K, and Fried D

Subjects

Dentistry methods, Humans, In Vitro Techniques, Surface Properties, Time Factors, Composite Resins, Lasers, Gas, Tooth

Abstract

Objective: Dental composite restorative materials are color matched to the tooth and are difficult to remove by mechanical means without excessive removal or damage to peripheral enamel and dentin. Lasers are ideally suited for selective ablation to minimize healthy tissue loss when replacing existing restorations, sealants, or removing composite adhesives such as residual composite left after debonding orthodontic brackets., Methods: In this study, a carbon dioxide laser operating at 9.3-µm with a pulse duration of 10-20-microsecond and a pulse repetition rate of ∼200 Hz was integrated with a galvanometer based scanner and used to selectively remove composite from tooth surfaces. Spectra of the plume emission were acquired after each laser pulse and used to differentiate between the ablation of dental enamel or composite. Microthermocouples were used to monitor the temperature rise in the pulp chamber during composite removal. The composite was placed on tooth buccal and occlusal surfaces and the carbon dioxide laser beam was scanned across the surface to selectively remove the composite without excessive damage to the underlying sound enamel. The residual composite and the damage to the underlying enamel was evaluated using optical microscopy., Results: The laser was able to rapidly remove composite from tooth buccal and occlusal surfaces with minimal damage to the underlying sound enamel and without excessive heat accumulation in the tooth., Conclusion: This study demonstrated that composite can be selectively removed from tooth surfaces at clinically relevant rates using a CO(2) laser operating at 9.3-µm with high pulse repetition rates with minimal heat deposition and damage to the underlying enamel., (Copyright © 2011 Wiley-Liss, Inc.)

Published

2011

17. Clinical assessment of early tooth demineralization using polarization sensitive optical coherence tomography.

Author

Louie T, Lee C, Hsu D, Hirasuna K, Manesh S, Staninec M, Darling CL, and Fried D

Subjects

Adolescent, Adult, Child, Female, Humans, Image Processing, Computer-Assisted, Male, Microradiography, Predictive Value of Tests, Severity of Illness Index, Young Adult, Cariostatic Agents therapeutic use, Fluorides, Topical therapeutic use, Tomography, Optical Coherence, Tooth Demineralization diagnosis, Tooth Demineralization prevention & control

Abstract

Introduction: The aims of this study were to test the hypothesis that polarization sensitive-optical coherence tomography (PS-OCT) can be used to non-destructively measure and quantify the severity of the early demineralization of enamel on buccal and occlusal surfaces and assess the inhibitory effect of fluoride varnish in vivo., Methods: A split mouth design was used to assess the effects of fluoride varnish on inhibiting dissolution on 20 test subjects. Orthodontic bands with a buccal window were cemented on the premolars and small incisions were produced on occlusal surfaces to serve as sites for plaque retention for enhanced demineralization. Bands were removed after 30 days and PS-OCT scans were acquired in vivo of occlusal and buccal areas. Teeth were extracted, sectioned, and analyzed using polarized light microscopy (PLM) and transverse microradiography (TMR) for comparison with the PS-OCT images., Results: High contrast PS-OCT images were acquired of both occlusal and buccal surfaces in vivo. Both occlusal and buccal surfaces, showed a significant difference (P < 0.05) in the integrated reflectivity (ΔR) between the "sound" and "carious" enamel groups. Although the mineral loss (ΔZ) and ΔR measured using TMR and PS-OCT were less for the fluoride varnish-treated buccal surfaces the difference was not statistically significant (P > 0.05)., Conclusions: Our results indicate that PS-OCT can non-destructively measure early enamel demineralization on the buccal and occulsal surfaces in vivo., (Copyright © 2010 Wiley-Liss, Inc.)

Published

2010

18. In vivo near-IR imaging of approximal dental decay at 1,310 nm.

Author

Staninec M, Lee C, Darling CL, and Fried D

Subjects

Dental Caries diagnostic imaging, Fiber Optic Technology, Humans, Radiography, Bitewing, Sensitivity and Specificity, Surface Properties, Dental Caries diagnosis, Spectroscopy, Near-Infrared instrumentation, Transillumination instrumentation

Abstract

Objective: The high transparency of dental enamel in the near-IR (NIR) light at 1,310-nm can be exploited for imaging dental caries without the use of ionizing radiation (X-rays). We present the results of the first in vivo imaging study in which NIR images were acquired of approximal contact surfaces., Methods: NIR imaging hand-pieces were developed and attached to a compact InGaAs focal plane array and subsequently used to acquire in vivo NIR images of 33 caries lesions on 18 test subjects. The carious lesions were discernible on bitewing radiographs, but were not visible upon clinical examination., Results: NIR images were acquired in vivo from three directions and the majority of lesions examined were too small to require restoration, based on accepted bitewing radiograph criteria. All but one of the 33 lesions examined were successfully imaged from at least one direction., Conclusion: This first in vivo study of imaging at the 1,310-nm wavelength region shows that NIR imaging has great potential as a screening tool for the detection of approximal lesions without the use of ionizing radiation., ((c) 2010 Wiley-Liss, Inc.)

Published

2010

19. Automated analysis of lesion depth and integrated reflectivity in PS-OCT scans of tooth demineralization.

Author

Le MH, Darling CL, and Fried D

Subjects

Algorithms, Animals, Cattle, Microradiography, Microscopy, Polarization, Predictive Value of Tests, Severity of Illness Index, Tissue Culture Techniques, Image Processing, Computer-Assisted, Lasers, Semiconductor, Tomography, Optical Coherence, Tooth Demineralization diagnosis

Abstract

Background and Objectives: Several studies have demonstrated that polarization sensitive optical coherence tomography (PS-OCT) can be used to nondestructively measure the severity of subsurface demineralization in enamel and dentin, track lesion progression over time and measure remineralization. The purpose of this study was to develop methods for the automated assessment of the depth and severity of demineralization in PS-OCT scans., Materials and Methods: Subsurface caries-like lesions of increasing depth and severity were produced in adjoining windows on 10 bovine enamel samples via exposure to demineralization for periods of 1-4 days. PS-OCT scans were acquired for each sample and analyzed using various methods to calculate the lesion depth and severity. Edge detection algorithms were most successful for measurement of the lesion depth for improved assessment of lesion severity., Results: Edge-finding algorithms were able to detect significant differences (P<0.05) in the lesion depth and severity between each of the periods of demineralization and sound enamel. The lesion depth and mineral loss were also measured with polarized light microscopy and transverse microradiography after sectioning the teeth for comparison., Conclusions: This study demonstrates that the depth and severity of early lesions can be calculated automatically for rapid analysis of PS-OCT images.

Published

2010

20. Pulpal effects of enamel ablation with a microsecond pulsed lambda = 9.3-microm CO2 laser.

Author

Staninec M, Darling CL, Goodis HE, Pierre D, Cox DP, Fan K, Larson M, Parisi R, Hsu D, Manesh SK, Ho C, Hosseini M, and Fried D

Subjects

Humans, In Vitro Techniques, Molar, Temperature, Dental Enamel radiation effects, Laser Therapy methods, Lasers, Gas

Abstract

Background and Objectives: In vitro studies have shown that CO2 lasers operating at the highly absorbed 9.3 and 9.6-microm wavelengths with a pulse duration in the range of 10-20-microsecond are well suited for the efficient ablation of enamel and dentin with minimal peripheral thermal damage. Even though these CO2 lasers are highly promising, they have yet to receive FDA approval. Clinical studies are necessary to determine if excessive heat deposition in the tooth may have any detrimental pulpal effects, particularly at higher ablative fluencies. The purpose of this study was to evaluate the pulpal safety of laser irradiation of tooth occlusal surfaces under the conditions required for small conservative preparations confined to enamel., Study Design/materials and Methods: Test subjects requiring removal of third molar teeth were recruited and teeth scheduled for extraction were irradiated using a pulsed CO2 laser at a wavelength of 9.3 microm operating at 25 or 50 Hz using a incident fluence of 20 J/cm(2) for a total of 3,000 laser pulses (36 J) for both rates with water cooling. Two control groups were used, one with no treatment and one with a small cut made with a conventional high-speed hand-piece. No anesthetic was used for any of the procedures and tooth vitality was evaluated prior to treatment by heat, cold and electrical testing. Short term effects were observed on teeth extracted within 72 hours after treatment and long term effects were observed on teeth extracted 90 days after treatment. The pulps of the teeth were fixed with formalin immediately after extraction and subjected to histological examination. Additionally, micro-thermocouple measurements were used to estimate the potential temperature rise in the pulp chamber of extracted teeth employing the same irradiation conditions used in vivo., Results: Pulpal thermocouple measurements showed the internal temperature rise in the tooth was within safe limits, 3.3+/-1.4 degrees C without water cooling versus 1.7+/-1.6 degrees C with water-cooling, n = 25, P<0.05. None of the control or treatment groups showed any deleterious effects on pulpal tissues and none of the 29 test-subjects felt pain or discomfort after the procedure. Only two test-subjects felt discomfort from "cold sensitivity" during the procedure caused by the water-spray., Conclusion: It appears that this CO2 laser can ablate enamel safely without harming the pulp under the rate of energy deposition employed in this study.

Published

2009

21. Non-destructive assessment of inhibition of demineralization in dental enamel irradiated by a lambda=9.3-microm CO2 laser at ablative irradiation intensities with PS-OCT.

Author

Can AM, Darling CL, Ho C, and Fried D

Subjects

Animals, Cattle, Dental Cavity Preparation, Laser Therapy, Microscopy, Polarization, Reproducibility of Results, Tissue Culture Techniques, Tooth Demineralization etiology, Dental Enamel surgery, Lasers, Gas therapeutic use, Tomography, Optical Coherence methods, Tooth Demineralization diagnosis, Tooth Demineralization prevention & control

Abstract

Background and Objective: Polarization sensitive optical coherence tomography (PS-OCT) has great promise for the non-destructive assessment of the efficacy of anti-caries agents such as fluoride and thermal laser treatments on enamel surfaces. The purpose of this study was to demonstrate that PS-OCT can be used to measure demineralization in craters/incisions prepared in enamel by a CO(2) laser operating at the high irradiation intensities required for cavity preparations., Materials and Methods: Incisions in bovine enamel surfaces were produced by a CO(2) laser used with a water spray. The laser was operated at lambda=9.3 microm with a pulse duration of 15 micros and an incident fluence of 20 J/cm(2). The laser treatments were also combined with topical fluoride treatments. A PS-OCT system operating at 1,310 nm was used to acquire polarization resolved images of six areas including sound and laser-ablated+topical fluoride treated zones on each sample. After imaging the teeth, they were sectioned and the thin sections were examined with polarized light microscopy (PLM) and transverse microradiography (TMR). The integrated reflectivity and lesion depth derived from the PS-OCT scans, the integrated mineral loss and depth measured using TMR and the lesion depth measured with PLM were acquired for each area on the fifteen samples for comparison., Results: The integrated reflectivity and depth in the areas treated by the laser and fluoride were significantly lower (P<0.05) than for the untreated enamel. Similar results were observed for TMR and PLM., Conclusions: These results suggest that PS-OCT has great potential for the non-destructive "in vivo" assessment of the inhibition of demineralization by lasers at ablative irradiation intensities with and without topical fluoride application.

Published

2008

22. Nondestructive measurement of the inhibition of demineralization on smooth surfaces using polarization-sensitive optical coherence tomography.

Author

Chong SL, Darling CL, and Fried D

Subjects

Adhesiveness, Cariostatic Agents pharmacology, Coated Materials, Biocompatible pharmacology, Fluorides pharmacology, Glass Ionomer Cements pharmacology, Humans, In Vitro Techniques, Pit and Fissure Sealants pharmacology, Time Factors, Dental Enamel pathology, Microscopy, Polarization, Molar pathology, Tomography, Optical Coherence, Tooth Demineralization prevention & control

Abstract

Background and Objective: The objective of this study was to test the hypothesis that the inhibition of demineralization in an in vitro simulated caries model by different fluoride agents could be monitored nondestructively using polarization-sensitive optical coherence tomography (PS-OCT) on smooth enamel surfaces peripheral to orthodontic brackets., Materials and Methods: Sixty human molar samples used for this in vitro study were divided into four groups of fifteen. The groups consisted of a control, a fluoride releasing glass ionomer cement, an adhesive fluoride sealant, and fluoride in solution (2-ppm fluoride). The reflectivity from tooth surfaces was monitored using a PS-OCT system at different time points after exposure to a pH cycling demin/remin model at 3-day intervals for 15 days. Polarized light microscopy (PLM) was used to examine lesion depth after day 15., Results: PS-OCT was effective at measuring significant differences in the integrated reflectivity in depth between the control and fluoride groups (P<0.001). The fluoride sealant demonstrated a greater protective effect than the fluoride in solution and the glass ionomer cement., Conclusions: These results suggest that PS-OCT is well suited for the nondestructive assessment of caries inhibition by anti-caries agents., ((c) 2007 Wiley-Liss, Inc.)

Published

2007

23. Dissolution studies of bovine dental enamel surfaces modified by high-speed scanning ablation with a lambda = 9.3-microm TEA CO(2) laser.

Author

Fried D, Featherstone JD, Le CQ, and Fan K

Subjects

Animals, Atmospheric Pressure, Biocompatible Materials administration & dosage, Biocompatible Materials metabolism, Carbon Dioxide metabolism, Cattle, Cold Temperature, Dental Bonding, Dental Caries Susceptibility drug effects, Dental Caries Susceptibility radiation effects, Dental Enamel metabolism, Durapatite administration & dosage, Durapatite metabolism, Hot Temperature, Microscopy, Electron, Scanning, Models, Animal, Spectroscopy, Fourier Transform Infrared, Surface Properties drug effects, Surface Properties radiation effects, Water, Carbon Dioxide administration & dosage, Catheter Ablation, Dental Enamel radiation effects, Dental Enamel surgery, Laser Therapy

Abstract

Background and Objectives: Previous studies have demonstrated that lasers can be used to modify the chemical composition of dental enamel to render the mineral phase more resistant to acid dissolution with minimal peripheral thermal damage. Transverse excited atmospheric (TEA) CO(2) lasers tuned to the strong mineral absorption of hydroxyapatite (HAP) near lambda = 9 microm are well-suited for the efficient ablation of dental hard tissues if the laser-pulse is stretched to greater than 5-10 microseconds to avoid plasma shielding phenomena. Moreover, TEA CO(2) lasers can be operated at very high repetition rates and are inherently less expensive and more versatile than Er:YAG and Er:YSGG solid-state lasers. In this study a lambda = 9.3-microm TEA CO(2) with a pulse duration of 8 microseconds and a repetition rate of 300 Hz was used to uniformly treat bovine enamel surfaces at ablative irradiation intensities. We hypothesized that a uniform surface layer of modified enamel of improved crystallinity and CaP phase composition would be formed with an enhanced resistance to acid-dissolution in the ablated areas at higher scanning rates used with the water spray. Such a modified layer of enamel formed at the base and walls of a cavity preparation under the irradiation conditions employed in this study have the potential to inhibit secondary caries under sealants and restorations., Study Design/materials and Methods: The surfaces of bovine enamel blocks (3 x 3 mm(2)) were rapidly scanned across the laser beam at rates of 2, 3, and 6 mm/second with and without a water-spray at an incident fluence of 30 J/cm(2). The resistance to acid dissolution was evaluated using controlled surface dissolution experiments on laser-irradiated and control samples., Results: The groups irradiated at a fluence of 30 J/cm(2) with a repetition rate of 300 Hz and a high scan rate of 6 mm/second with and without water-cooling significantly reduced the overall surface dissolution rates (P < 0.001). At low scan rates (2-3 mm/second) excessive heat deposition resulted in the formation of an outer layer of asperities containing non-apatitic CaP phases that were more susceptible to acid-dissolution. At a scanning rate of 6 mm/second even without the water spray a layer of purer phase HAP was formed without thermal damage, indicating that a high scanning rate can be used to avoid excessive thermal damage during ablation. The best results (80% inhibition) were attained for the higher scanning speed 6-mm/second combined with a water spray., Conclusion: This study demonstrates that an enamel surface with enhanced resistance to acid dissolution is produced after ablation with lambda = 9.3-microm TEA CO(2) laser pulses delivered at high-repetition rates if sufficiently high scanning rates are used with or without a water-spray.

Published

2006

24. Measurement of the severity of natural smooth surface (interproximal) caries lesions with polarization sensitive optical coherence tomography.

Author

Ngaotheppitak P, Darling CL, and Fried D

Subjects

Humans, Tooth Demineralization diagnosis, Dental Caries diagnosis, Microradiography methods, Tomography, Optical Coherence methods

Abstract

Background and Objectives: Previous studies have demonstrated that polarization sensitive optical coherence tomography (PS-OCT) can be used to image early dental caries. The purpose of this study was to compare the measured reflectivity of natural caries lesions found on smooth surfaces (interproximal lesions) with the mineral loss measured using digital microradiography (DM) in order to determine if PS-OCT can be used as a non-destructive method to measure the severity of dental decay and resolve the internal structure of caries lesions., Materials and Methods: A PS-OCT system operating at 1,310 nm was used to acquire polarization resolved images of natural white spot lesions and pigmented lesions on the smooth surfaces of extracted teeth. The integrated reflectivity from lesion areas was compared to polarized light microscopic images (PLM) and to the integrated mineral loss from the same lesion area measured using high resolution DM., Results: The frequently complex internal structure of caries lesions could be resolved with PS-OCT. Such structural information is potentially useful for determining whether or not the lesion is active and progressing or whether it has become arrested and remineralized and does not require intervention. There was a strong correlation between the integrated mineral loss of the caries lesions measured using DM and the integrated reflectivity in the perpendicular polarization axis of the PS-OCT system., Conclusions: The integrated reflectivity in the perpendicular polarization channel can be used to represent the severity of demineralization in natural early caries lesions. Therefore, PS-OCT has considerable potential as a non-destructive clinical probe of early caries lesions to assess their severity, monitor their progression over-time and potentially assess lesion activity., ((c) 2005 Wiley-Liss, Inc.)

Published

2005

25. Selective targeting of protein, water, and mineral in dentin using UV and IR pulse lasers: the effect on the bond strength to composite restorative materials.

Author

Sheth KK, Staninec M, Sarma AV, and Fried D

Subjects

Microscopy, Electron, Scanning, Minerals, Proteins, Surface Properties, Water, Dental Bonding, Dentin radiation effects, Lasers, Ultraviolet Rays

Abstract

Background and Objectives: Previous studies have shown that during the laser irradiation of dentin and bone, thermal damage can be minimized by using a highly absorbed laser wavelength, laser pulses shorter than the thermal relaxation time of the deposited laser energy at that wavelength, and the addition of a layer of water to the tissue surface before ablation. The objective of this study was to investigate the influence of laser pulse duration and wavelength with and without the added water layer on the bond strength of composite to laser prepared dentin surfaces. The specific hypothesis that was tested was that thermal damage to the collagen matrix in dentin compromises the bond strength to composite restorative materials., Study Design/materials and Methods: Three laser systems were employed that were tuned to water, collagen, and mineral absorption with pulse durations less than the thermal relaxation time of the deposited energy. The surfaces of human dentin were irradiated by laser irradiation from free-running and Q-switched Er:YSGG lasers, pulsed CO(2) lasers operating at 9.6-microm, and a Q-switched Nd:YAG laser operating at 355-nm. A motion control system and a pressurized spray system incorporating a microprocessor controlled pulsed nozzle for water delivery, were used to ensure uniform treatment of the entire surface. Shear bond testing was used to evaluate the adhesive strength in order to access the suitability of laser treated surfaces for bonding. Bonded interfaces were examined by SEM., Results: All the laser groups had significantly lower bond strengths than the positive acid etch control group. The highest bond strengths were for the short pulse (< 5-microsecond) Er:YSGG and CO(2) laser groups with water. Laser groups without water had significantly reduced bond strengths and thicker layers of thermally damaged dentin., Conclusions: Thermal damage to the collagen matrix profoundly influences the bond strength to composite restorations., ((c) 2004 Wiley-Liss, Inc.)

Published

2004

26. Pulpal safety of 9.6 microm TEA CO2 laser used for caries prevention.

Author

Goodis HE, Fried D, Gansky S, Rechmann P, and Featherstone JD

Subjects

Adult, Dental Pulp pathology, Female, Humans, Male, Dental Caries prevention & control, Dental Pulp radiation effects, Laser Therapy

Abstract

Background and Objectives: Lasers are used for several procedures involving hard and soft tissues of the oral cavity. A potential future application is the use of the CO2 laser to alter the surface structure of tooth enamel to render it more resistant to caries. A new 9.6 microm wavelength transverse excited atmospheric pressure (TEA) CO2 laser (Argus Photonics, Jupiter, FL) has been investigated as a device that can be used for this purpose without harming the dental pulp., Study Design/materials and Methods: Erupted caries- and restoration-free third molars (n = 24 participants; 74 teeth) were used in the study. Teeth were irradiated at an incident fluence of 1.5 J/cm2, a repetition rate of 10 Hz and a spot size 1 mm in diameter. At the low and high settings, 200-400 pulses at 5-8 microseconds pulse duration were delivered at 12 mJ per pulse for a total energy of 2.4 or 4.8 J delivered for 20 or 40 seconds, respectively. Other teeth were subjected to a sham dental procedure (positive control) or no procedure (negative control). Prior to testing, radiographs were taken of all teeth, and they were assessed pulpally using heat, cold, and electricity to determine vitality. The teeth were removed either immediately or at 1 week or 1 month after testing., Results: Teeth were bioprepared and examined histologically for signs of inflammation. Only one tooth developed symptoms of sensitivity to cold for 10 days following exposure to the high power level. The sensitivity was of fleeting duration and was judged to be reversible pulpitis. All teeth tested responded normally at pre-testing and pre-extraction time periods. Histological examination of all teeth disclosed no indication of an inflammatory response in the pulp tissue at any time point. All sections appeared normal with no changes seen in the normal pulpal morphology., Conclusions: We conclude that the 9.6 microm wavelength laser causes no permanent/serious pulpal damage at the energy levels used and can be used safely for caries prevention treatments in humans.

Published

2004

27. Peripheral thermal and mechanical damage to dentin with microsecond and sub-microsecond 9.6 microm, 2.79 microm, and 0.355 microm laser pulses.

Author

Dela Rosa A, Sarma AV, Le CQ, Jones RS, and Fried D

Subjects

Collagen radiation effects, Durapatite radiation effects, Extracellular Matrix radiation effects, Humans, Microscopy, Polarization, Minerals radiation effects, Spectroscopy, Fourier Transform Infrared, Tomography, Optical Coherence, Dentin radiation effects, Laser Therapy methods

Abstract

Background and Objectives: It is desirable to minimize peripheral thermal damage during laser irradiation, since thermal damage to collagen and mineral compromises the bond strength to restorative materials in dentin and inhibits healing and osteointegration in bone. There were two primary objectives of this study. The first objective was to measure the degree of thermal damage peripheral to incisions in dentin produced with lasers resonant to the specific absorption bands of water, collagen, and hydroxyapatite with varying pulse duration using polarized-light microscopy (PLM). The second objective was to use synchrotron radiation infrared spectromicroscopy (SR-FTIR) to identify the specific chemical nature of the optical changes observed under PLM in the respective zones of thermal damage peripheral to the laser incisions., Study Design/materials and Methods: Precise incisions were produced in 3 x 3 mm2 blocks of human dentin using CO2 (9.6 microm), Er:YSGG (2.79 microm), and Nd:YAG (355 nm) lasers with and without a computer controlled water-spray. Optical coherence tomography (OCT) was used to obtain optical cross-sections of each incision to determine the rate of ablation. The peripheral thermal damage zone around each incision was analyzed using PLM and SR-FTIR., Results: Thermally induced chemical changes to both mineral and the collagen matrix were observed with SR-FTIR with a 10 microm spatial resolution and those changes were correlated with optical changes observed with PLM. Minimal (<10 microm) thermal damage was observed for pulse durations less than the thermal relaxation time (Tr) of the deposited laser energy, with and without applied water at 9.6 microm and with only applied water at 2.79 microm. For pulse durations greater than Tr, greater peripheral thermal damage was observed for both IR laser wavelengths with and without the water-spray. There was minimal thermal damage for 355 nm laser pulses less than Tr with and without applied water; however, extensive mechanical damage (cracks) was observed., Conclusions: High resolution SR-FTIR is well suited for characterization of the chemical changes that occur due to thermal damage peripheral to laser incisions in proteinaceous hard tissues. Sub-microsecond pulsed IR lasers resonant with water and mineral absorption bands ablate dentin efficiently with minimal thermal damage. Similar laser parameters are expected to apply to the ablation of alveolar bone., (Copyright 2004 Wiley-Liss, Inc.)

Published

2004

28. Influence of an optically thick water layer on the bond-strength of composite resin to dental enamel after IR laser ablation.

Author

Staninec M, Xie J, Le CQ, and Fried D

Subjects

Animals, Biomechanical Phenomena, Cattle, In Vitro Techniques, Spectroscopy, Fourier Transform Infrared, Composite Resins radiation effects, Dental Bonding, Dental Enamel radiation effects, Lasers, Water

Abstract

Background and Objectives: Several studies of hard tissue ablation with Er:YAG lasers have shown that the addition of an optically thick water layer ( approximately 1 mm) added to the surface of dental enamel before each incident laser pulse, profoundly influences the rate and efficiency of ablation and the resulting surface morphology. The objective of this study was the determination of laser parameters which result in clinically useful bond strengths without the need for phosphoric acid etching. The hypothesis to be tested was that laser irradiation through a relatively thick layer of water would result in a surface to which composite could be bonded with bond strength similar to surfaces etched with phosphoric acid. This hypothesis is predicated on the assumption that the water prevents the formation of non-apatite calcium phosphate phases on the enamel surface., Materials and Methods: In this study, a calibrated syringe pump and a motion control system were used to uniformly treat flat enamel surfaces using free-running Er:YAG laser pulses with and without water, and 9.6 mum CO(2) laser pulses on a dry surface for comparison. The rate of water delivery that resulted in the most efficient ablation was determined by profiling the resulting laser incisions using optical coherence tomography. In addition, enamel surfaces of 5 x 5 mm(2) were uniformly treated and the resulting surface morphology was examined using synchrotron radiation-fourier transform infrared spectroscopy (SR-FTIR), and optical and electron microscopy. The influence of the modified surface morphology on the adhesion of composite resin was investigated., Results: The shear-bond strength of composite bonded to enamel surfaces irradiated at intensities clinically relevant for caries removal approached values measured for conventional acid etching when the water delivery rate was optimized., Conclusions: This study demonstrates that composite restorative materials can be directly bonded to laser prepared surfaces without the necessity of further surface preparation and acid etching and that the addition of a thick water layer ( approximately 1 mm) prevents the formation of undesirable CaP phases that compromise adhesion to restorative materials. 2003., (Copyright 2003 Wiley-Liss, Inc.)

Published

2003

29. Irradiation of dental enamel with Q-switched lambda = 355-nm laser pulses: surface morphology, fluoride adsorption, and adhesion to composite resin.

Author

Wheeler CR, Fried D, Featherstone JD, Watanabe LG, and Le CQ

Subjects

Animals, Cattle, Composite Resins, Dental Bonding, Dental Enamel ultrastructure, Fluorides, Topical, Microscopy, Electron, Scanning, Surface Properties, Dental Enamel radiation effects, Laser Therapy

Abstract

Background and Objectives: Lasers can be used to modify the chemical composition of dental enamel to increase the bond strength to restorative materials and to render the mineral phase more resistant to acid dissolution. Previous studies have suggested a synergistic relationship between CO(2) laser irradiation and fluoride treatment on increased resistance to acid dissolution. In this study a near-UV laser operating with lambda = 355-nm laser pulses of 3-5 nanoseconds duration was used to modify the surface morphology of dental enamel to increase the bond strength to restorative materials and increase the uptake of topical fluoride to render the surface more resistant to acid dissolution. We hypothesize that the short UV laser pulses are primarily absorbed by protein and lipid localized between the enamel prisms resulting in removal of intact mineral effectively etching the surface without thermal modification of the mineral phase. Such modification is likely to increase the permeability of the enamel surface and the subsequent absorption of fluoride. In addition, there is an increase in surface roughness without the formation of a layer of loosely adherent, thermally modified enamel that increases the bond strength to composite restorative materials., Study Design/materials and Methods: The surfaces of blocks of bovine enamel, 5 x 5 mm(2), were uniformly irradiated by 355-nm laser pulses and subsequently bonded to composite. The shear bond test was used to assess the bond strength of non-irradiated blocks (negative control), acid etched blocks (positive control), and laser irradiated blocks. The resistance to acid dissolution was evaluated using controlled surface dissolution experiments on irradiated samples, irradiated samples exposed to topical fluoride, and non-irradiated control samples with and without fluoride., Results: The laser surface treatments significantly increased the shear-bond strength of enamel to composite, to a level exceeding 20 MPa which was significantly more than the non-irradiated control samples and significantly less than the acid etch. Laser irradiation alone and topical fluoride application alone did not significantly increase the resistance to acid dissolution. The laser treatment followed by topical application of fluoride significantly increased the resistance to acid dissolution to a level of over 50% versus the control samples., Conclusions: We present a novel method for increasing bond strength to restorative materials and enhancing fluoride delivery to enamel surfaces and shed some light on the underlying mechanisms of caries inhibition via laser treatment and topical application of fluoride., (Copyright 2003 Wiley-Liss, Inc.)

Published

2003

30. Selective ablation of surface enamel caries with a pulsed Nd:YAG dental laser.

Author

Harris DM, White JM, Goodis H, Arcoria CJ, Simon J, Carpenter WM, Fried D, Burkart J, Yessik M, and Myers T

Subjects

Adult, Chi-Square Distribution, Dental Caries classification, Dental Enamel radiation effects, Dental Enamel ultrastructure, Dental High-Speed Equipment, Dental Pulp radiation effects, Female, Humans, Male, Spectroscopy, Fourier Transform Infrared, Treatment Outcome, Dental Caries therapy, Dental Cavity Preparation instrumentation, Laser Therapy

Abstract

Background and Objective: High intensity infrared light from the pulsed Nd:YAG dental laser is absorbed by carious enamel and not absorbed by healthy enamel. Consequently, this system has potential for selective removal of surface enamel caries. Safety and efficacy of the clinical procedure was evaluated in two sets of clinical trials at three dental schools. Selective ablation was evaluated with FTIR spectroscopy., Study Design/materials and Methods: Carious lesions were randomized to drill or laser treatment. Pulp diagnosis, enamel surface condition, preparations, and restorations were evaluated by blinded evaluators. In Study I, surface caries were removed from 104 third molars scheduled for extraction. One-week post-treatment teeth were evaluated clinically, extracted, and the pulp was examined histologically. In Study II, 90 patients with 462 lesions on 374 teeth were randomized to laser or drill and followed for 6 months., Results: Pulsed Nd:YAG laser removal of surface enamel caries was demonstrated to be both safe and effective. Caries were removed in all conditions. There were no adverse events and both clinical and histological evaluations of pulp vitality showed no abnormalities. A significantly greater number of preparations in the drill groups vs. laser groups entered dentin (drill = 11, laser = 1, P = 0.007)., Conclusion: The more conservative laser treatment removed the caries but not the sound enamel below the lesion. The pulsed Nd:YAG dental laser was found to be both safe and effective for surface caries removal., (Copyright 2002 Wiley-Liss, Inc.)

Published

2002

31. Mechanism of water augmentation during IR laser ablation of dental enamel.

Author

Fried D, Ashouri N, Breunig T, and Shori R

Subjects

Animals, Cattle, Dental Enamel ultrastructure, Infrared Rays, Spectrophotometry, Infrared, Spectroscopy, Fourier Transform Infrared, Dental Enamel radiation effects, Lasers, Water administration & dosage

Abstract

Background and Objectives: The mechanism of water augmentation during IR laser ablation of dental hard tissues is controversial and poorly understood. The influence of an optically thick applied water layer on the laser ablation of enamel was investigated at wavelengths in which water is a primary absorber and the magnitude of absorption varies markedly., Study Design/materials and Methods: Q-switched and free running Er: YSGG (2.79 microm) and Er:YAG (2.94 microm), free running Ho:YAG and 9.6 microm TEA CO(2) laser systems were used to produce linear incisions in dental enamel with and without water. Synchrotron-radiation IR spectromicroscopy with the Advanced Light Source at Lawrence Berkeley National Laboratory was used to determine the chemical changes across the laser ablation profiles with a spatial resolution of 10-microm., Results: The addition of water increased the rate of ablation and produced a more desirable surface morphology during enamel ablation with all the erbium systems. Moreover, ablation was markedly more efficient for Q-switched (0.15 microsecond) versus free-running (150 microsecond) erbium laser pulses with the added water layer. Although the addition of a thick water layer reduced the rate of ablation during CO(2) laser ablation, the addition of the water removed undesirable deposits of non-apatite mineral phases from the crater surface. IR spectromicroscopy indicates that the chemical composition of the crater walls deviates markedly from that of hydroxyapatite after Er:YAG and CO(2) laser irradiation without added water. New mineral phases were resolved that have not been previously observed using conventional IR spectroscopy. There was extensive peripheral damage after irradiation with the Ho:YAG laser with and without added water without effective ablation of enamel., Conclusions: We postulate that condensed mineral phases from the plume are deposited along the crater walls after repetitive laser pulses and such non-apatitic phases interfere with subsequent laser pulses during IR laser irradiation reducing the rate and efficiency of ablation. The ablative recoil associated with the displacement and vaporization of the applied water layer removes such loosely adherent phases maintaining efficient ablation during multiple pulse irradiation., (Copyright 2002 Wiley-Liss, Inc.)

Published

2002

32. Thermal and chemical modification of dentin by 9-11-microm CO2 laser pulses of 5-100-micros duration.

Author

Fried D, Zuerlein MJ, Le CQ, and Featherstone JD

Subjects

Dental Caries pathology, Dentin ultrastructure, Feasibility Studies, Hot Temperature therapeutic use, Humans, In Vitro Techniques, Radiometry, Time Factors, Dental Caries radiotherapy, Dentin chemistry, Dentin radiation effects, Low-Level Light Therapy

Abstract

Background and Objectives: Previous studies have shown that dentin can be thermally modified by pulsed CO(2) laser irradiation to form a more highly mineralized tissue. The implications are important for the potential laser modification or removal of dentinal and root caries and the transformation of dentin to a more acid resistant mineralized tissue., Study Design/materials and Methods: Time resolved radiometry measurements with TEA CO(2) laser pulses were used to determine the magnitude of the absorption coefficients of dentin at the highly absorbed CO(2) laser wavelengths and to measure the temperature excursions during lambda = 9.3, 9.6, 10.3, and 10.6 microm laser irradiation at irradiation intensities of 0.1-8 J/cm(2) per pulse. In addition, photoacoustic and transient reflectance measurements were used to monitor the loss of water and organics and to detect the thresholds for surface modification and tissue ablation., Results: The absorption coefficients were measured to be 5,000; 6,500; 1,200; and 800 cm(-1) at lambda = 9.3, 9.6, 10.3, and 10.6 microm, respectively. The surface temperatures of dentin were markedly higher than those measured on enamel for similar irradiation intensities due to the lower reflectance losses of dentin and the lower thermal diffusivity of dentin at the respective wavelengths. Hence, lower fluences are required for the thermal decomposition of dentin. Ablation typically occurred with the first few laser-pulses during multiple pulse irradiation and eventually ceased after modification of dentin to a more highly mineralized enamel-like tissue. The debris ejected during the initial laser pulses shielded the surface by as much as 60% at the low fluences employed in this study. Optical and electron microscopy and IR spectroscopy indicated that incident laser pulses with incident fluence as low as 0.5 J/cm(2) at 9.3 and 9.6 microm wavelengths with a duration of 5-8-micros were sufficient to induce chemical and morphological changes in dentin., Conclusions: In this study, the laser parameters for the efficient thermal modification of dentin with minimum heat deposition at CO(2) laser wavelengths were firmly established., (Copyright 2002 Wiley-Liss, Inc.)

Published

2002

33. Selective removal of residual composite from dental enamel surfaces using the third harmonic of a Q-switched Nd:YAG laser.

Author

Alexander R, Xie J, and Fried D

Subjects

Animals, Cattle, Humans, Acrylic Resins radiation effects, Composite Resins radiation effects, Dental Enamel radiation effects, Hot Temperature, Low-Level Light Therapy methods, Polyurethanes radiation effects

Abstract

Background and Objective: Conventional methods of residual composite removal after the debonding of orthodontic brackets involve the use of abrasives that damage the underlying enamel. The objective of this study was to demonstrate that 355-nm laser pulses with a pulse width of 10 ns are well suited for the removal of composite through selective laser ablation., Study Design/materials and Methods: The residual composite remaining on the surface of extracted human third molars and bovine incisors was removed using multiple laser pulses from the third harmonic (355-nm) of a Q-switched Nd:YAG laser., Results: There is selective ablation of composite from the enamel surface without any discernable damage to the underlying enamel., Conclusion: This study demonstrates that 355-nm, 10 ns laser pulses can be used for the selective ablation of dental composite without thermal or mechanical damage to the underlying enamel., (Copyright 2002 Wiley-Liss, Inc.)

Published

2002