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    Daniel Fried, PhD

    SchoolUCSF School of Dentistry
    DepartmentPreventive & Restor Dent Sci
    Address707 Parnassus Ave, Dentistry
    San Francisco CA 94143

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      Publications listed below are automatically derived from MEDLINE/PubMed and other sources, which might result in incorrect or missing publications. Researchers can login to make corrections and additions, or contact us for help.
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      1. Chan KH, Tom H, Darling CL, Fried D. A method for monitoring enamel erosion using laser irradiated surfaces and optical coherence tomography. Lasers Surg Med. 2014 Nov; 46(9):672-8.
        View in: PubMed
      2. Lee RC, Kang H, Darling CL, Fried D. Automated assessment of the remineralization of artificial enamel lesions with polarization-sensitive optical coherence tomography. Biomed Opt Express. 2014 Sep 1; 5(9):2950-62.
        View in: PubMed
      3. Tom H, Simon JC, Chan KH, Darling CL, Fried D. Near-infrared imaging of demineralization under sealants. J Biomed Opt. 2014 Jul; 19(7):77003.
        View in: PubMed PMC4103580
      4. Nee A, Chan K, Kang H, Staninec M, Darling CL, Fried D. Longitudinal monitoring of demineralization peripheral to orthodontic brackets using cross polarization optical coherence tomography. J Dent. 2014 May; 42(5):547-55.
        View in: PubMed PMC4007269
      5. Simon JC, Chan KH, Darling CL, Fried D. Multispectral near-IR reflectance imaging of simulated early occlusal lesions: variation of lesion contrast with lesion depth and severity. Lasers Surg Med. 2014 Mar; 46(3):203-15.
        View in: PubMed PMC3961544
      6. Chan KH, Chan AC, Fried WA, Simon JC, Darling CL, Fried D. Use of 2D images of depth and integrated reflectivity to represent the severity of demineralization in cross-polarization optical coherence tomography. J Biophotonics. 2015 Jan; 8(1-2):36-45.
        View in: PubMed
      7. Fried WA, Fried D, Chan KH, Darling CL. High contrast reflectance imaging of simulated lesions on tooth occlusal surfaces at near-IR wavelengths. Lasers Surg Med. 2013 Oct; 45(8):533-41.
        View in: PubMed
      8. Kang H, Darling CL, Fried D. Nondestructive monitoring of the repair of enamel artificial lesions by an acidic remineralization model using polarization-sensitive optical coherence tomography. Dent Mater. 2012 May; 28(5):488-94.
        View in: PubMed PMC3319335
      9. Staninec M, Douglas SM, Darling CL, Chan K, Kang H, Lee RC, Fried D. Non-destructive clinical assessment of occlusal caries lesions using near-IR imaging methods. Lasers Surg Med. 2011 Dec; 43(10):951-9.
        View in: PubMed PMC3241877
      10. Chung S, Fried D, Staninec M, Darling CL. Multispectral near-IR reflectance and transillumination imaging of teeth. Biomed Opt Express. 2011 Oct 1; 2(10):2804-14.
        View in: PubMed PMC3191447
      11. Chan KH, Hirasuna K, Fried D. Rapid and selective removal of composite from tooth surfaces with a 9.3 µm CO2 laser using spectral feedback. Lasers Surg Med. 2011 Sep; 43(8):824-32.
        View in: PubMed
      12. Nguyen D, Chang K, Hedayatollahnajafi S, Staninec M, Chan K, Lee R, Fried D. High-speed scanning ablation of dental hard tissues with a ? = 9.3 µm CO2 laser: adhesion, mechanical strength, heat accumulation, and peripheral thermal damage. J Biomed Opt. 2011 Jul; 16(7):071410.
        View in: PubMed PMC3160453
      13. Rechmann P, Fried D, Le CQ, Nelson G, Rapozo-Hilo M, Rechmann BM, Featherstone JD. Caries inhibition in vital teeth using 9.6-µm CO2-laser irradiation. J Biomed Opt. 2011 Jul; 16(7):071405.
        View in: PubMed PMC3144970
      14. Louie T, Lee C, Hsu D, Hirasuna K, Manesh S, Staninec M, Darling CL, Fried D. Clinical assessment of early tooth demineralization using polarization sensitive optical coherence tomography. Lasers Surg Med. 2010 Dec; 42(10):738-45.
        View in: PubMed PMC3058417
      15. Lee C, Lee D, Darling CL, Fried D. Nondestructive assessment of the severity of occlusal caries lesions with near-infrared imaging at 1310 nm. J Biomed Opt. 2010 Jul-Aug; 15(4):047011.
        View in: PubMed PMC2929264
      16. Staninec M, Lee C, Darling CL, Fried D. In vivo near-IR imaging of approximal dental decay at 1,310 nm. Lasers Surg Med. 2010 Apr; 42(4):292-8.
        View in: PubMed PMC3195334
      17. Le MH, Darling CL, Fried D. Automated analysis of lesion depth and integrated reflectivity in PS-OCT scans of tooth demineralization. Lasers Surg Med. 2010 Jan; 42(1):62-8.
        View in: PubMed PMC3192502
      18. Tao YC, Fried D. Near-infrared image-guided laser ablation of dental decay. J Biomed Opt. 2009 Sep-Oct; 14(5):054045.
        View in: PubMed PMC2782366
      19. Manesh SK, Darling CL, Fried D. Nondestructive assessment of dentin demineralization using polarization-sensitive optical coherence tomography after exposure to fluoride and laser irradiation. J Biomed Mater Res B Appl Biomater. 2009 Aug; 90(2):802-12.
        View in: PubMed PMC2707504
      20. Manesh SK, Darling CL, Fried D. Polarization-sensitive optical coherence tomography for the nondestructive assessment of the remineralization of dentin. J Biomed Opt. 2009 Jul-Aug; 14(4):044002.
        View in: PubMed
      21. Staninec M, Darling CL, Goodis HE, Pierre D, Cox DP, Fan K, Larson M, Parisi R, Hsu D, Manesh SK, Ho C, Hosseini M, Fried D. Pulpal effects of enamel ablation with a microsecond pulsed lambda = 9.3-microm CO2 laser. Lasers Surg Med. 2009 Apr; 41(4):256-63.
        View in: PubMed PMC3188421
      22. Wu J, Fried D. High contrast near-infrared polarized reflectance images of demineralization on tooth buccal and occlusal surfaces at lambda = 1310-nm. Lasers Surg Med. 2009 Mar; 41(3):208-13.
        View in: PubMed PMC2689647
      23. Lee C, Darling CL, Fried D. Polarization-sensitive optical coherence tomographic imaging of artificial demineralization on exposed surfaces of tooth roots. Dent Mater. 2009 Jun; 25(6):721-8.
        View in: PubMed PMC2701248
      24. Pugach MK, Strother J, Darling CL, Fried D, Gansky SA, Marshall SJ, Marshall GW. Dentin caries zones: mineral, structure, and properties. J Dent Res. 2009 Jan; 88(1):71-6.
        View in: PubMed PMC2759645
      25. Staninec M, Meshkin N, Manesh SK, Ritchie RO, Fried D. Weakening of dentin from cracks resulting from laser irradiation. Dent Mater. 2009 Apr; 25(4):520-5.
        View in: PubMed PMC3195403
      26. Hsu DJ, Darling CL, Lachica MM, Fried D. Nondestructive assessment of the inhibition of enamel demineralization by CO2 laser treatment using polarization sensitive optical coherence tomography. J Biomed Opt. 2008 Sep-Oct; 13(5):054027.
        View in: PubMed
      27. Hirasuna K, Fried D, Darling CL. Near-infrared imaging of developmental defects in dental enamel. J Biomed Opt. 2008 Jul-Aug; 13(4):044011.
        View in: PubMed
      28. Can AM, Darling CL, Ho C, Fried D. 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. Lasers Surg Med. 2008 Jul; 40(5):342-9.
        View in: PubMed
      29. Darling CL, Fried D. Real-time near IR (1310 nm) imaging of CO2 laser ablation of enamel. Opt Express. 2008 Feb 18; 16(4):2685-93.
        View in: PubMed
      30. Chong SL, Darling CL, Fried D. Nondestructive measurement of the inhibition of demineralization on smooth surfaces using polarization-sensitive optical coherence tomography. Lasers Surg Med. 2007 Jun; 39(5):422-7.
        View in: PubMed
      31. Fan K, Bell P, Fried D. Rapid and conservative ablation and modification of enamel, dentin, and alveolar bone using a high repetition rate transverse excited atmospheric pressure CO2 laser operating at lambda=9.3 micro. J Biomed Opt. 2006 Nov-Dec; 11(6):064008.
        View in: PubMed
      32. Fried D, Featherstone JD, Le CQ, Fan K. Dissolution studies of bovine dental enamel surfaces modified by high-speed scanning ablation with a lambda = 9.3-microm TEA CO(2) laser. Lasers Surg Med. 2006 Oct; 38(9):837-45.
        View in: PubMed
      33. Staninec M, Gardner AK, Le CQ, Sarma AV, Fried D. Adhesion of composite to enamel and dentin surfaces irradiated by IR laser pulses of 0.5-35 micros duration. J Biomed Mater Res B Appl Biomater. 2006 Oct; 79(1):193-201.
        View in: PubMed
      34. Jones RS, Fried D. Remineralization of enamel caries can decrease optical reflectivity. J Dent Res. 2006 Sep; 85(9):804-8.
        View in: PubMed PMC2254215
      35. Darling CL, Huynh GD, Fried D. Light scattering properties of natural and artificially demineralized dental enamel at 1310 nm. J Biomed Opt. 2006 May-Jun; 11(3):34023.
        View in: PubMed
      36. Jones RS, Darling CL, Featherstone JD, Fried D. Imaging artificial caries on the occlusal surfaces with polarization-sensitive optical coherence tomography. Caries Res. 2006; 40(2):81-9.
        View in: PubMed
      37. Jones RS, Darling CL, Featherstone JD, Fried D. Remineralization of in vitro dental caries assessed with polarization-sensitive optical coherence tomography. J Biomed Opt. 2006 Jan-Feb; 11(1):014016.
        View in: PubMed
      38. Fried D, Featherstone JD, Darling CL, Jones RS, Ngaotheppitak P, Bühler CM. Early caries imaging and monitoring with near-infrared light. Dent Clin North Am. 2005 Oct; 49(4):771-93, vi.
        View in: PubMed
      39. Ngaotheppitak P, Darling CL, Fried D. Measurement of the severity of natural smooth surface (interproximal) caries lesions with polarization sensitive optical coherence tomography. Lasers Surg Med. 2005 Jul; 37(1):78-88.
        View in: PubMed
      40. Bühler C, Ngaotheppitak P, Fried D. Imaging of occlusal dental caries (decay) with near-IR light at 1310-nm. Opt Express. 2005 Jan 24; 13(2):573-82.
        View in: PubMed
      41. Louie TM, Jones RS, Sarma AV, Fried D. Selective removal of composite sealants with near-ultraviolet laser pulses of nanosecond duration. J Biomed Opt. 2005 Jan-Feb; 10(1):14001.
        View in: PubMed
      42. Fried NM, Yang Y, Chaney CA, Fried D. Transmission of Q-switched erbium:YSGG (lambda=2.79 microm) and erbium:YAG (lambda=2.94 microm) laser radiation through germanium oxide and sapphire optical fibres at high pulse energies. Lasers Med Sci. 2004; 19(3):155-60.
        View in: PubMed
      43. Jones RS, Staninec M, Fried D. Imaging artificial caries under composite sealants and restorations. J Biomed Opt. 2004 Nov-Dec; 9(6):1297-304.
        View in: PubMed
      44. Goodis HE, Fried D, Gansky S, Rechmann P, Featherstone JD. Pulpal safety of 9.6 microm TEA CO2 laser used for caries prevention. Lasers Surg Med. 2004; 35(2):104-10.
        View in: PubMed
      45. Dela Rosa A, Sarma AV, Le CQ, Jones RS, Fried D. Peripheral thermal and mechanical damage to dentin with microsecond and sub-microsecond 9.6 microm, 2.79 microm, and 0.355 microm laser pulses. Lasers Surg Med. 2004; 35(3):214-28.
        View in: PubMed
      46. Sheth KK, Staninec M, Sarma AV, Fried D. 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. Lasers Surg Med. 2004; 35(4):245-53.
        View in: PubMed
      47. Jones R, Huynh G, Jones G, Fried D. Near-infrared transillumination at 1310-nm for the imaging of early dental decay. Opt Express. 2003 Sep 8; 11(18):2259-65.
        View in: PubMed
      48. Wheeler CR, Fried D, Featherstone JD, Watanabe LG, Le CQ. Irradiation of dental enamel with Q-switched lambda = 355-nm laser pulses: surface morphology, fluoride adsorption, and adhesion to composite resin. Lasers Surg Med. 2003; 32(4):310-7.
        View in: PubMed
      49. Staninec M, Xie J, Le CQ, Fried D. Influence of an optically thick water layer on the bond-strength of composite resin to dental enamel after IR laser ablation. Lasers Surg Med. 2003; 33(4):264-9.
        View in: PubMed
      50. Fried D, Xie J, Shafi S, Featherstone JD, Breunig TM, Le C. Imaging caries lesions and lesion progression with polarization sensitive optical coherence tomography. J Biomed Opt. 2002 Oct; 7(4):618-27.
        View in: PubMed
      51. Fried D, Ashouri N, Breunig T, Shori R. Mechanism of water augmentation during IR laser ablation of dental enamel. Lasers Surg Med. 2002; 31(3):186-93.
        View in: PubMed
      52. Alexander R, Xie J, Fried D. Selective removal of residual composite from dental enamel surfaces using the third harmonic of a Q-switched Nd:YAG laser. Lasers Surg Med. 2002; 30(3):240-5.
        View in: PubMed
      53. Harris DM, White JM, Goodis H, Arcoria CJ, Simon J, Carpenter WM, Fried D, Burkart J, Yessik M, Myers T. Selective ablation of surface enamel caries with a pulsed Nd:YAG dental laser. Lasers Surg Med. 2002; 30(5):342-50.
        View in: PubMed
      54. Fried D, Zuerlein MJ, Le CQ, Featherstone JD. Thermal and chemical modification of dentin by 9-11-microm CO2 laser pulses of 5-100-micros duration. Lasers Surg Med. 2002; 31(4):275-82.
        View in: PubMed
      55. Fried D, Ragadio J, Akrivou M, Featherstone JD, Murray MW, Dickenson KM. Dental hard tissue modification and removal using sealed transverse excited atmospheric-pressure lasers operating at lambda=9.6 and 10.6 microm. J Biomed Opt. 2001 Apr; 6(2):231-8.
        View in: PubMed
      56. Fried D, Ragadio J, Champion A. Residual heat deposition in dental enamel during IR laser ablation at 2.79, 2.94, 9.6, and 10.6 microm. Lasers Surg Med. 2001; 29(3):221-9.
        View in: PubMed
      57. Dumore T, Fried D. Selective ablation of orthodontic composite by using sub-microsecond IR laser pulses with optical feedback. Lasers Surg Med. 2000; 27(2):103-10.
        View in: PubMed
      58. Zuerlein MJ, Fried D, Featherstone JD. Modeling the modification depth of carbon dioxide laser-treated dental enamel. Lasers Surg Med. 1999; 25(4):335-47.
        View in: PubMed
      59. Featherstone JD, Barrett-Vespone NA, Fried D, Kantorowitz Z, Seka W. CO2 laser inhibitor of artificial caries-like lesion progression in dental enamel. J Dent Res. 1998 Jun; 77(6):1397-403.
        View in: PubMed
      60. Fried D, Glena RE, Featherstone JD, Seka W. Permanent and transient changes in the reflectance of CO2 laser-irradiated dental hard tissues at lambda = 9.3, 9.6, 10.3, and 10.6 microns and at fluences of 1-20 J/cm2. Lasers Surg Med. 1997; 20(1):22-31.
        View in: PubMed
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