Publications

Patents

Fried NM, Tsitlik A, Berger RD, Lardo AC, Calkins H, Halperin HR. Circumferential pulmonary vein ablation using a laser and fiberoptic balloon catheter. United States Patent # 7,137,395, November 21, 2006. Johns Hopkins University.

Fried NM and Walsh JT. Method for welding tissue using pulsed radiation and a dye. United States Patent # 6,221,068 B1, April 24, 2001.  Northwestern University.

Manuscripts

2022

Giglio NC, Grose HM, Fried NM. Comparison of fiber optic linear beam shaping designs for laparoscopic laser sealing of vascular tissues. Opt. Eng.  61(2):026112, 2022.

Giglio NC, Fried NM. Nondestructive optical feedback systems for use during infrared laser sealing of blood vessels.  Lasers Surg. Med.  In press.

Giglio NC, Grose HM, Fried NM. Reciprocating side-firing fiber for laser sealing of blood vessels.  SPIE 11936:1-7, 2022.

Giglio NC, Fried NM. Real-time, nondestructive optical feedback systems for infrared laser sealing of blood vessels. SPIE 11936:1-5, 2022.

Giglio NC, Grose HM, Fried NM. Optical coherence tomography feedback system for infrared laser sealing of blood vessels.  SPIE 11948:1-5, 2022.

2021

Giglio NC, Fried NM. Computational simulations for infrared laser sealing and cutting of blood vessels.  IEEE J. Sel. Top. Quantum Electron.  27(4):1-8, 2021.

Giglio NC, Hutchens TC, South AA, Fried NM. Dynamic properties of surfactant enhanced laser induced vapor bubbles for lithotripsy applications.  Biomed. Opt.  26(1):018001, 2021.

South AA, Giglio NC Fried NM. Simulations and testing of the mechanical properties of small core optical fibers for ureteroscopy. Opt. Eng. 60(3):036110, 2021.

South AA, Giglio NC, Fried NM. Simulating manual manipulation of small optical fibers within flexible ureteroscopes for potential application in Thulium fiber laser lithotripsy.  SPIE. 1161908:1-8, 2021.

Giglio NC, South AA, Fried NM. Characterization of a prototype miniature digital ureteroscope tip for enabling office-based Thulium fiber laser lithotripsy.  SPIE 116190F:1-7, 2021.

Giglio NC, Fried NM. Sealing and bisection of blood vessels using a 1470 nm laser: optical, thermal, and tissue damage simulations.  SPIE 1162108:1-5, 2021.

Giglio NC, Fried NM. Optical transmission feedback for infrared laser sealing of blood vessels.  OSA/SPIE European Conferences on Biomedical Optics, 2021.

2020

Andreeva V, Vinarov A, Yaroslavsky I, Kovalenko A, Vybornov A, Rapoport L, Enikeev D, Sorokin N, Dymov A, Tsarichenko D, Glybochko P, Fried NM, Traxer O, Altshuler G, Gapontsev V. Preclinical comparison of a super pulse Thulium fiber laser and a Holmium:YAG laser for lithotripsy.  World J. Urol. 38(2):497-503, 2020.

Giglio NC, Hutchens TC, Wilson CR, Gonzalez DA, Fried NM. Surfactant enhanced laser-induced vapor bubbles for potential use in Thulium fiber laser lithotripsy. IEEE Eng Med Biol Conf 5045-5048, 2020.

Hutchens TC, Giglio NC, Cilip CM, Rosenbury SB, Hardy LA, Kerr DE, Nau WH, Fried NM. Novel optical linear beam shaping designs for use in laparoscopic laser sealing of vascular tissues.  IEEE Eng Med Biol Conf 5049-5052, 2020.

Giglio NC, Hutchens TC, Cilip CM, Fried NM. Optical coherence tomography for use in infrared laser sealing of vessels.  IEEE International Photonics Conference.

2019

Hall LA, Gonzalez DA, Fried NM. Thulium fiber laser ablation of kidney stones using an automated, vibrating fiber.  J Biomed Opt 24(3):038001, 2019.

Hardy LA, Vinnichenko V, Fried NM. High-power Holmium:YAG versus Thulium fiber laser treatment of kidney stones in dusting mode: ablation rate and fragment size studies.  Lasers Surg Med 51(6):522-530, 2019.

Hardy LA, Fried NM. Comparison of first generation (1908 nm) and second generation (1940 nm) Thulium fiber lasers for ablation of kidney stones.  Eng. 58(9):096101, 2019.

Gonzalez DA, Giglio NC, Hall LA, Vinnichenko V, Fried NM. Comparison of single, dual, and staircase temporal pulse profiles for reducing stone retropulsion during Thulium fiber laser lithotripsy in an in vitro stone phantom model.  SPIE 108520E:1-8, 2019.

Hardy LA and Fried NM. Comparison of 1908 and 1940 nm wavelengths for Thulium fiber laser lithotripsy. SPIE 108520G:1-7, 2019.

Hardy LA, Vinnichenko V, Fried NM. Holmium:YAG versus Thulium fiber laser dusting of calcium oxalate monohydrate stones.  SPIE 108520I:1-6, 2019.

Gonzalez DA and Fried NM. Thulium fiber laser lithotripsy using small, medium, and large muzzle brake fiber optic tips.  SPIE 108520K:1-9, 2019.

Hall LA, Gonzalez DA, and Fried NM. Thulium fiber laser stone dusting using an automated, vibrating optical fiber.  SPIE 108520C:1-11, 2019.

Hall LA, Fried NM. Optical tracking of kidney stones: preliminary studies. SPIE 1085205:1-6, 2019.

2018

Gonzalez DA, Hardy LA, Hutchens TC, Irby PB, Fried NM. Thulium fiber laser induced vapor bubble dynamics using bare, tapered, ball, hollow steel, and muzzle brake fiber optic tips.  Opt Eng 57(3):036106, 2018.

Fried NM. Recent advances in infrared laser lithotripsy. Biomed Opt Express 9(9):4552-4568, 2018.

Fried NM and Irby PB. Advances in laser technology and fiber optic delivery systems for use in lithotripsy.  Nat Rev Urol 15(9):563-573, 2018.

Wilson CR, Kennedy JD, Irby PB, Fried NM. Miniature ureteroscope distal tip designs for potential use in Thulium fiber laser lithotripsy.  J Biomed Opt 23(7):076003, 2018.

Gonzalez DA, Hardy LA, Hutchens TC, Irby PB, Fried NM. Thulium fiber laser induced vapor bubbles using bare, tapered, ball, hollow steel, and muzzle brake fiber optic tips.  SPIE 1046806:1-9, 2018.

Chang CH, Hardy LA, Peters MG, Bastawros DA, Myers EM, Kennelly MJ, Fried NM. Optical clearing of vaginal tissues in cadavers.  SPIE 104680K:1-5, 2018.

Hardy LA, Gonzalez DA, Irby PB, Fried NM. Fragmentation and dusting of large kidney stones using a compact, air-cooled, high peak power, 1940-nm, Thulium fiber laser.  SPIE 104680O:1-5, 2018.

Hardy LA, Irby PB, Fried NM. Scanning electron microscopy of real and artificial kidney stones before and after Thulium fiber laser ablation in air and water.  SPIE 104680G:1-11, 2018.

Chan KH, Fried NM, Fried D. Selective ablation of carious lesions using an integrated near-IR imaging system and a novel 9.3-mm CO₂  SPIE 104730E:1-7, 2018.

Chung CH, Fried NM. Laser probe with integrated contact cooling for subsurface tissue thermal remodeling.  Southeastern Biomedical Engineering Conference, 2018.

2017

Hutchens TC, Gonzalez DA, Irby PB, Fried NM. Fiber optic muzzle brake tip for reducing fiber burnback and stone retropulsion during Thulium fiber laser lithotripsy. J Biomed Opt  22(1):018001, 2017.

Chang CH, Myers EM, Kennelly MJ, Fried NM. Optical clearing of vaginal tissues, ex vivo, for minimally invasive laser treatment of female stress urinary incontinence. J Biomed Opt  22(1):018002, 2017.

Hardy LA, Chang CH, Myers EM, Kennelly MJ, Fried NM. Computer simulations of thermal tissue remodeling during transvaginal and transurethral laser treatment of female stress urinary incontinence.  Lasers Surg Med 49(2):198-205, 2017.

Cilip CM, Kerr D, Latimer CA, Rosenbury SB, Giglio NC, Hutchens TC, Nau WH, Fried NM. Infrared laser sealing of porcine vascular tissues using a 1470 nm diode laser:  preliminary in vivo studies.  Lasers Surg Med 49(4):366-371, 2017.

Hutchens TC, Gonzalez DA, Hardy LA, McLanahan CS, Fried NM. Thulium fiber laser recanalization of occluded ventricular catheters in an ex vivo tissue model. J Biomed Opt 22(4):048001, 2017.

Hardy LA, Hutchens TC, Larson ER, Gonzalez DA, Chang CH, Nau WH, Fried NM. Rapid sealing of porcine renal vessels, ex vivo, using a high power, 1470-nm laser and laparoscopic prototype.  J Biomed Opt  22(5):058002, 2017.

Hardy LA, Kennedy JD, Wilson CR, Irby PB, Fried NM. Analysis of Thulium fiber laser induced vapor bubbles for ablation of kidney stones.  J Biophotonics 10(10):1240-1249, 2017.

Wilson CR, Kennedy JD, Irby PB, Fried NM. Anti-reflection coated optical fibers for use in Thulium fiber laser lithotripsy.  SPIE 10038:100380D:1-6, 2017.

Kennedy JD, Wilson CR, Irby PB, Fried NM. Miniature ureteroscope tip designs for use in Thulium fiber laser lithotripsy.  SPIE 10038:100380Q:1-7, 2017.

Wilson CR, Peller JA, Trammell SR, Irby PB, Fried NM. Novel ureteroscope illumination designs.  SPIE 10038:100380G:1-7, 2017.

Hutchens TC, Gonzalez DA, Irby PB, Fried NM. Thulium fiber laser lithotripsy using a muzzle brake fiber tip.  SPIE 10038:100380G:1-8, 2017.

Chang CH, Myers EM, Kennelly MJ, Fried NM. Optical clearing of vaginal tissues. SPIE 10038:100380A:1-9, 2017.

Hardy LA, Hutchens TC, Larson ER, Gonzalez DA, Chang CH, Nau WH, Fried NM. Laparoscopic prototype for optical sealing of renal blood vessels.  SPIE 10038:100380V:1-7, 2017.

Chang CH, Hammerland J, Nau WH, Fried NM. Tissue dissection using a 1470-nm diode laser and laparoscopic prototype.  SPIE 10066:10066V:1-5, 2017.

2016

Wilson CR, Hardy LA, Kennedy JD, Irby PB, Fried NM. Miniature ball tip optical fibers for use in Thulium fiber laser ablation of kidney stones.  J Biomed Opt 21(1):018003, 2016.

Wilson CR, Hardy LA, Irby PM, Fried NM. Microscopic analysis of laser-induced proximal fiber tip damage during Holmium:YAG and Thulium fiber laser lithotripsy. Opt Eng 55(4):046102, 2016.

Hardy LA, Kennedy JD, Wilson CR, Irby PB, Fried NM. Cavitation bubble dynamics during Thulium fiber laser lithotripsy.  SPIE  9689:96891Q:1-6, 2016.

Wilson CR, Hardy LA, Kennedy JD, Irby PB, Fried NM. Thulium fiber laser lithotripsy using small spherical distal fiber tips.  SPIE  9689:96891G:1-5, 2016.

Wilson CR, Hardy LA, Irby PB, Fried NM. Proximal fiber tip damage during Holmium:YAG and Thulium fiber laser ablation of kidney stones.  SPIE  9689:96891Q:1-6, 2016.

Hardy LA, Chang CH, Myers EM, Kennelly MJ, Fried NM. Laser treatment of female stress urinary incontinence: optical, thermal, and tissue damage simulations.   SPIE  9689:96891R:1-6, 2016.

Chang CH, Fried NM. Diffusing, side-firing, and radial delivery laser balloon catheters for creating subsurface thermal lesions in tissue.  SPIE  9689:96891S:1-6, 2016.

2015

Blackmon RL, Hutchens TC, Hardy LA, Wilson CR, Irby PB, Fried NM. Thulium fiber laser ablation of kidney stones using a 50-mm-core silica optical fiber.  Opt Eng  54(1):011004, 2015.

Wilson CR, Hardy LA, Irby PB, Fried NM. Collateral damage to the ureter and Nitinol stone baskets during Thulium fiber laser lithotripsy.  Lasers Surg Med 47(5):403-410, 2015.

Fried NM and Burnett AL. Novel methods for mapping the cavernous nerves during radical prostatectomy.  Nat Rev Urol 12(8):451-460, 2015.

Wilson CR, Hutchens TC, Hardy LA, Irby PB, Fried NM. A miniaturized, 1.9-French integrated optical fiber and stone basket for use in Thulium fiber laser lithotripsy.  J Endourol 29(10): 1110-1114, 2015.

Cilip CM, Hutchens TC, Kerr D, Latimer D, Rosenbury SB, Giglio NC, Schweinsberger GR, Perkins WC, Wilson CR, Ward A, Nau WH, Fried NM. Infrared laser sealing of porcine tissues: preliminary in vivo studies.  SPIE  9303:930319:1-7, 2015.

Wilson CR, Hardy LA, Irby PB, Fried NM. Thulium fiber laser damage to nitinol stone baskets.  SPIE  9303:93031A:1-4, 2015.

Kaouk GS, Perkins WC, Lagoda GA, Burnett AL, Fried NM. Optical and electrical stimulation of the rat prostate cavernous nerves: priming and fatigue studies.  SPIE 930318:1-6, 2015.

Hardy LA, Wilson CR, Irby PB, Fried NM. Kidney stone ablation times and peak saline temperatures.  SPIE  9303:930310:1-6, 2015.

Perkins WC, Lagoda GA, Burnett AL, Fried NM. Electrical stimulation vs. pulsed and continuous-wave optical stimulation of the rat prostate cavernous nerves, in vivo. SPIE 9542:954217:1-5, 2015.

Chang CH, Wilson CR, Fried NM. Comparison of four lasers (l = 650, 808, 980, and 1075 nm) for noninvasive creation of deep subsurface lesions in tissue. SPIE 95420G:1-4, 2015.

Wilson CR, Hardy LA, Irby PB, Fried NM. Thulium fiber laser damage to the ureter.  SPIE  9542:95420C:1-5, 2015.

2014

Hutchens TC, Darafsheh A, Fardad A, Antoszyk AN, Ying HS, Astratov VN, Fried NM. Detachable microsphere scalpel tips for potential use in ophthalmic surgery with the Erbium:YAG laser.  J Biomed Opt 19(1):018003, 2014.

Tozburun S, Lagoda GA, Burnett AL, Fried NM. Infrared laser nerve stimulation as a potential diagnostic method for intra-operative identification and preservation of the prostate cavernous nerves.  IEEE J Sel Top Quantum Electron 20(2):7101308, 2014.

Giglio NC, Hutchens TC, Perkins WC, Latimer C, Ward A, Nau WH, Fried NM. Rapid sealing and cutting of porcine blood vessels, ex vivo, using a high power, 1470-nm diode laser.  J Biomed Opt  19(3):038002, 2014.

Hardy LA, Wilson CR, Irby PB, Fried NM. Rapid Thulium fiber laser lithotripsy at pulse rates up to 500 Hz using a stone basket.  IEEE J Sel Top Quantum Electron  20(5):0902604, 2014.

Hardy LA, Wilson CR, Irby PB, Fried NM. Thulium fiber laser lithotripsy in an in vitro ureter model.  J Biomed Opt  19(12):128001, 2014.

Blackmon RL, Hutchens TC, Hardy LA, Irby PB, Fried NM. Characterization of a 50-mm-core optical fiber for potential use in Thulium fiber laser lithotripsy.  SPIE 89261F:1-10, 2014.

Giglio NC, Hutchens TC, Perkins WC, Latimer C, Ward A, Nau WH, Fried NM. Rapid infrared laser sealing and cutting of porcine renal vessels, ex vivo.  SPIE  8926:892619:1-8, 2014.

Perkins WC, Lagoda GA, Burnett AL, Fried NM. A compact, inexpensive infrared laser system for continuous wave optical stimulation of the rat prostate cavernous nerves.  SPIE  89261E:1-5, 2014.

Hardy LA, Wilson CR, Irby PB, Fried NM. Rapid vaporization of kidney stones, ex vivo, using a Thulium fiber laser at pulse rates up to 500 Hz with a stone basket.  SPIE  8926:89261H:1-7, 2014.

Wilson CR, Hutchens TC, Hardy LA, Irby PB, Fried NM. An integrated fiber and stone basket device for use in Thulium fiber laser lithotripsy.  SPIE  8926:89261J:1-8, 2014.

2013

Blackmon RL, Case JR, Trammell SR, Irby PB, Fried NM. Fiber optic manipulation of urinary stone phantoms using Holmium:YAG and Thulium fiber lasers. J Biomed Opt 18(2):028001, 2013.

Hutchens TC, Blackmon RL, Irby PB, Fried NM. Detachable fiber optic tips for use in Thulium fiber laser lithotripsy.  J Biomed Opt  18(3):038001, 2013.

Cilip CM, Rosenbury SB, Giglio N, Hutchens TC, Schweinsberger GR, Kerr D, Latimer C, Nau WH, Fried NM. Infrared laser thermal fusion of blood vessels: preliminary ex vivo tissue studies.  J Biomed Opt  18(5):058001, 2013.

Tozburun S, Hutchens TC, McClain MA, Lagoda GA, Burnett AL, Fried NM. Temperature  controlled optical stimulation of the rat prostate cavernous nerves.  J Biomed Opt  18(6):067001, 2013.

Hutchens TC, Blackmon RL, Irby PB, Fried NM. Hollow steel tips for reducing fiber burnback during Thulium fiber laser lithotripsy.  J Biomed Opt  18(7):078001, 2013.

Tozburun S, Stahl SD, Hutchens TC, Lagoda GA, Burnett AL, Fried NM. Continuous-wave infrared subsurface optical stimulation of the rat prostate cavernous nerves using a 1490 nm diode laser.  Urology  82(4):969-973, 2013.

Stahl CSD, Tozburun S, Hutchens TC, Lagoda GA, Burnett AL, Keller MD, Fried NM. Comparison of three pulsed infrared lasers for optical stimulation of the rat prostate cavernous nerves.  SPIE 8565:85655N:1-5, 2013.

Cilip CM, Rosenbury SB, Giglio N, Hutchens TC, Schweinsberger GR, Kerr D, Latimer C, Nau WH, Fried NM. Thermal sealing of blood vessels using infrared lasers.  SPIE 8565:85654B:1-7, 2013.

Hutchens TC, Blackmon RL, Irby PB, Fried NM. Comparison of detachable and tapered fiber optic tips for Thulium fiber laser lithotripsy.  SPIE 8565:85651A:1-12, 2013.

Tozburun S, Stahl CSD, Hutchens TC, Lagoda GA, Burnett AL, Fried NM. Subsurface optical stimulation of rat prostate cavernous nerves using a continuous wave, single mode, 1490 nm diode laser.  SPIE 8565:856515:1-6, 2013.

Tozburun S, Lagoda GA, McClain MA, Burnett AL, Fried NM. Temperature-controlled optical stimulation of the rat prostate cavernous nerves.  SPIE 8565:856516:1-6, 2013.

Blackmon RL, Case JR, Trammell SR, Irby PB, Fried NM. Fiber optic suctioning of urinary stone phantoms during laser lithotripsy.  SPIE 8565:856518:1-6, 2013.

Darafsheh A, Hutchens TC, Fardad A, Antoszyk AN, Ying HS, Fried NM, Astratov VN. Contact focusing multimodal probes for potential use in ophthalmic surgery with the Erbium:YAG laser.  SPIE 8567:856729:1-10, 2013.

2012

Cilip CM, Allaf ME, Fried NM. Application of optical coherence tomography and high-frequency ultrasound imaging during noninvasive laser vasectomy.  J Biomedical Opt 17(4):046006, 2012.

Burks D, Rosenbury SB, Kennelly MJ, Fried NM. Selective laser vaporization of polypropylene mesh used in treatment of female stress urinary incontinence and pelvic organ prolapse:  preliminary studies using a red diode laser.  Lasers Surg Med  44(4):325-329, 2012.

Blackmon RL, Irby PB, Fried NM. Enhanced thulium fiber laser lithotripsy using micro-pulse train modulation.  J Biomed Opt  17(2):028002, 2012.

Hutchens TC, Darafsheh A, Fardad A, Antoszyk AN, Ying HS, Astratov VN, Fried NM. Characterization of novel microsphere chain fiber optic tips for potential use in ophthalmic laser surgery.  J Biomed Opt  17(6):068004, 2012.

Tozburun S, Lagoda GA, Burnett AL, Fried NM. Subsurface near-infrared laser stimulation of the periprostatic cavernous nerves.  J Biophotonics  5(10):793-800, 2012.

Burks D, Rosenbury SB, Kennelly MJ, Fried NM. Selective laser vaporization of polypropylene sutures and mesh.  SPIE 8207:820710:1-7, 2012.

Hutchens TC, Darahsheh A, Fardad A, Antoszyk AN, Ying HS, Astratov VN, Fried NM. Novel microsphere chain fiber tips for use in mid-infrared ophthalmic laser surgery.  SPIE  8218:821803:1-8, 2012.

Blackmon RL, Irby PB, Fried NM. Improved thulium fiber laser vaporization of urinary stones using micro-pulse packets.  SPIE 8207:82071C:1-7, 2012.

Tozburun S, Lagoda GA, Burnett AL, Fried NM. Subsurface optical stimulation of the rat prostate nerves using continuous-wave near-infrared laser radiation. Proc SPIE 82070Y:1-6, 2012.

Cilip CM, Allaf ME, Fried NM. Optical coherence tomography vs. high-frequency ultrasound during noninvasive laser coagulation of the canine vas deferens.  SPIE 82640X:1-8, 2012.

Darafsheh A, Lupu A, Burand SA, Hutchens TC, Fried NM, Astratov VN. Photonic nanojet-induced modes:  fundamentals and applications.  SPIE 8264:82640X:1-8, 2012.

2011

Darafsheh A, Fardad A, Fried NM, Antoszyk AN, Ying HS, Astratov VN. Contact focusing multimodal microprobes for ultraprecise laser tissue surgery.  Optics Express  19(4):3440-3448, 2011.

Schweinsberger GR, Cilip CM, Trammell SR, Cherukuri H, Fried NM. Noninvasive laser coagulation of the human vas deferens: optical and thermal simulations.  Lasers Surg Med  43(5):443-449, 2011.

Blackmon RL, Irby PB, Fried NM. Comparison of Holmium:YAG and Thulium fiber laser lithotripsy: ablation thresholds, ablation rates, and retropulsion effects.  J Biomed Opt  16(7):071403, 2011.

Tozburun S, Lagoda GA, Burnett AL, Fried NM. Continuous-wave laser stimulation of the rat prostate cavernous nerves using a compact and inexpensive all single mode optical fiber system.  J Endourol  25(11):1727-1731, 2011.

Cilip CM, Pierorazio PM, Ross AE, Allaf ME, Fried NM. High-frequency ultrasound imaging of noninvasive laser coagulation of the canine vas deferens.  Lasers Surg Med  43:838-842, 2011.

Tozburun S, Cilip CM, Lagoda GA, Burnett AL, Fried NM. Continuous-wave optical stimulation of the rat prostate nerves using an all-single-mode 1455 nm diode laser and fiber system. SPIE 7883:788352:1-6, 2011.

Chitchian S, Lagoda GA, Burnett AL, Fried NM. Fourier-domain versus time-domain optical coherence tomography of the prostate nerves.  SPIE 7883:788314:1-7, 2011.

Tozburun S, Lagoda GA, Burnett AL, Fried NM. Continuous-wave versus pulsed infrared laser stimulation of the rat prostate cavernous nerves.  SPIE 7883:78831A:1-6, 2011.

Blackmon RL, Irby PB, Fried NM. Holmium:YAG (l=2120 nm) versus Thulium fiber laser (l=1908 nm) ablation of kidney stones: thresholds, rates, and retropulsion.  SPIE 7883:788318:1-7, 2011.

Schweinsberger GR, Cilip CM, Trammell SR, Cherukuri H, Fried NM. Optical and thermal simulations of noninvasive laser coagulation of the human vas deferens.  SPIE 7883:78831C:1-8, 2011.

Fried NM, Blackmon RL, Irby PB. A review of thulium fiber laser ablation of kidney stones.  SPIE  7914:791402:1-10, 2011.

Cilip CM, Schweinsberger GR, Fried NM. Comparison of 808, 980, and 1075 nm lasers for noninvasive thermal coagulation of the canine vas deferens, ex vivo.  SPIE 7883:78831B:1-6, 2011.

Darafsheh A, Allen KW, Fardad A, Fried NM, Antoszyk AN, Ying HS, Astratov VN. Focusing capability of integrated chains of microspheres in the limit of geometrical optics. SPIE 7913:79131A:1-7, 2011.

Tozburun S, Lagoda GA, Burnett AL, Farahi F, Fried NM. Fiber beam shaping for optical nerve stimulation.  IEEE Photonics Society Annual Meeting (IPC11) WL6:493-494, 2011.

2010

Chitchian S, Fried NM.  Optical coherence tomography of the prostate gland (Book Chapter).  In Prostate Disease Management, Ed. Suri J.  Springer.  In Press.

Chitchian S, Weldon TP, Fiddy MA, Fried NM.  Combined image processing algorithms for improved optical coherence tomography of the prostate nerves.  Journal of Biomedical Optics  15(4):046014, 2010.

Tozburun S, Lagoda GA, Lagoda GA, Burnett AL, Farahi F, Fried NM.  A compact laparoscopic probe for optical stimulation of the prostate nerves.  IEEE Journal of Selected Topics in Quantum Electronics  16(4):941-945, 2010.

Cilip CM, Ross AE, Jarow JP, Fried NM.  Application of an optical clearing agent during noninvasive laser coagulation of the canine vas deferens.  Journal of Biomedical Optics  15(4):048001, 2010.

Blackmon RL, Irby PB, Fried NM. Holmium:YAG (lambda = 2120 nm) versus Thulium fiber laser (lambda = 1908 nm) lithotripsy. Lasers in Surgery and Medicine 42(3):232-236, 2010.

Blackmon RL, Irby PB, Fried NM.  Thulium fiber laser lithotripsy using tapered fibers.  Lasers in Surgery and Medicine  42:45-50, 2010.

Chitchian S, Fried NM.  An edge detection algorithm for improving optical coherence tomography images of the prostate nerves.  OSA BIOMED.  In press.

Astratov VN, Darafsheh A, Kerr MD, Allen KW, Fried NM.  Focusing microprobes based on integrated chains of microspheres.  Progress in Electromagnetics Research Symposium (PIERS).  In press.

Cilip CM, Ross AE, Jarow JP, Fried NM.  Use of an optical clearing agent during noninvasive laser coagulation of the canine vas deferens, ex vivo and in vivo.  Proc. SPIE 7548: 75481C:1-6, 2010.

Blackmon RL, Irby PB, Fried NM.  Comparison of Holmium:YAG and Thulium fiber lasers for lithotripsy.  Proc. SPIE 7548: 75481G:1-6, 2010.

Cilip CM, Ross AE, Jarow JP, Fried NM.  Noninvasive laser coagulation of the canine vas deferens, in vivo.  Proc. SPIE 7548: 75481D:1-5, 2010.

Chitchian S, Fried NM.  Near-IR optical properties of canine prostate tissue using oblique-incidence reflectometry.  Proc. SPIE 7548: 75480Z:1-6, 2010.

Blackmon RL, Irby PB, Fried NM.  A tapered distal fiber tip for laser lithotripsy.  Proc. SPIE 7548: 75481F:1-7, 2010.

Chitchian S, Weldon TP, Fried NM.  OCT image segmentation of the prostate nerves.  Proc. SPIE 7443: 74431D:1-4, 2010.

Tozburun S, Lagoda GA, Burnett AL, Fried NM.  Gaussian versus flat-top spatial beam profiles for optical stimulation of the prostate nerves.  Proc. SPIE 7548: 75484W:1-6, 2010.

Tozburun S, Lagoda GA, Mayeh M, Burnett AL, Farahi F, Fried NM.  Incorporation of fiber optic beam shaping into a laparoscopic probe for laser stimulation of the cavernous nerves.  Proc. SPIE 7548:754818:1-5, 2010.

Darafsheh A, Kerr MD, Allen KW, Fried NM, Antoszyk AN, Ying HS, Astratov VN.  Integrated microsphere arrays:  light focusing and propagation effects.  Proc. SPIE 7605:76050R:1-9, 2010.

2009

Chitchian S, Weldon TP, Fried NM.  Segmentation of optical coherence tomography images for differentiation of the cavernous nerves from the prostate.  Journal of Biomedical Optics  14(4):044033, 2009.

Chitchian S, Weldon TP, Fried NM.  OCT image segmentation of the prostate nerves.  Proc. SPIE.  7443:74431D, 2009.

Chitchian S, Fiddy MA, Fried NM. Denoising during optical coherence tomography of the prostate nerves via wavelet shrinkage using dual-tree complex wavelet transform. Journal of Biomedical Optics 14(1):014031, 2009.

Scott NJ, Cilip CM, Fried NM. Thulium fiber laser ablation of urinary stones through small-core optical fibers. IEEE Journal of Selected Topics in Quantum Electronics 15(2):435-440, 2009.

Cilip NM, Jarow JP, Fried NM. Noninvasive laser vasectomy: preliminary ex vivo tissue studies. Lasers in Surgery and Medicine 41(3):203-7, 2009.

Scott NJ, Cilip CM, Fried NM. Thulium fiber laser lithotripsy. Proc. SPIE 7161:71611E, 2009. Cilip NM, Jarow JP, Fried NM. Noninvasive laser coagulation of the canine vas deferens, ex vivo. Proc. SPIE 7161: 71611O, 2009.

Tozburun S, Fried NM. Design of a compact laparoscopic probe for optical stimulation of the cavernous nerves. Proc. SPIE 7161:716113, 2009.

Chitchian S, Fiddy M, Fried NM. Speckle reduction during all-fiber common-path optical coherence tomography of the cavernous nerves. Proc. SPIE 7168:71682N, 2009.

Chitchian S, Fiddy M, Fried NM. Denoising during optical coherence tomography of the prostate nerves via bivariate shrinkage using dual-tree complex wavelet transform. Proc. SPIE 7161:716112, 2009.

2008

Fried NM, Lagoda GA, Scott NJ, Su LM, Burnett AL. Laser stimulation of the cavernous nerves in the rat prostate, in vivo: optimization of wavelength, pulse energy, and pulse repetition rate. Conf Proc IEEE Eng Med Biol Soc 2777-80, 2008.

Chitchian S, Fiddy M, Fried NM. Wavelet denoising during optical coherence tomography of the prostate nerves using the complex wavelet transform. Conf Proc IEEE Eng Med Biol Soc 3016-9, 2008.

Cilip CM, Scott NJ, Trammell S, Fried NM. Noninvasive thermal coagulation of deep subsurface tissue structures using a laser probe with integrated contact cooling Conf Proc IEEE Eng Med Biol Soc 3657-60, 2008.

Shein P, Cilip CM, Quinto G, Behrens A, Fried NM. Selective laser suture lysis with a compact, low-cost, red diode laser. Conf Proc IEEE Eng Med Biol Soc 4358-60, 2008.

Fried NM, Matlaga BR. “Laser/light applications in urology”, Ch. 41, In Lasers in Dermatology and Medicine, ed. Nouri K. Springer. In press.

Scott NJ, Trammell SR, Wittmann P, Behrens A, Tchapyjnikov A, Levin K, Tran D, Fried NM, Erbium:YAG laser emulsification of grade 4+ porcine and human cataracts using a germanium oxide fiber probe. OSA BIOMED. In press.

Casperson AL, Barton RA, Scott NJ, Fried NM. Holmium:YAG versus Thulium fiber laser for high-power vaporization of prostate tissue. Photonic Therapeutics and Diagnostics IV 6842:0Y:1-5 (SPIE, San Jose, 2008).

Scott NJ, Barton RA, Casperson AL, Tchapyjnikov A, Levin K, Tran D, Fried NM. Mid-IR germanium oxide fibers for Erbium:YAG and Erbium:YSGG contact laser tissue ablation in endourology. Photonic Therapeutics and Diagnostics IV 6842:12:1-7 (SPIE, San Jose, 2008).

Fried NM, Lagoda GA, Scott NJ, Su LM, Burnett AL. Optical stimulation of the cavernous nerves in the rat prostate. Photonic Therapeutics and Diagnostics IV 6842:13:1-6 (SPIE, San Jose, 2008).

Fried NM, Lagoda GA, Scott NJ, Su LM, Burnett AL. Non-contact stimulation of the cavernous nerves in the rat prostate using a tunable-wavelength thulium fiber laser. Journal of Endourology 22(3):409-413, 2008.

Rais-Bahrami S, Levinson AW, Fried NM, Lagoda GA, Hristov A, Chuang Y, Burnett AL, Su LM. Optical coherence tomography of cavernous nerves: a step toward real-time intraoperative imaging during nerve-sparing radical prostatectomy. Urology. (Online, Feb 15, 2008)

2007

Scott NJ, Barton RA, Casperson AL, Tchapyjnikov A, Levin K, Tran D, Fried NM. Mid-IR germanium oxide fibers for contact erbium laser tissue ablation in endoscopic surgery. IEEE Journal of Selected Topics in Quantum Electronics. 13(6):1709-1714, 2007.

Fried NM, Rais-Bahrami S, Lagoda GA, Chuang AY, Su LM, Burnett AL. Identification and imaging of the nerves responsible for erectile function in rat prostate, in vivo, using optical nerve stimulation and optical coherence tomography. IEEE Journal of Selected Topics in Quantum Electronics 13(6):1641-1645, 2007.

Fried NM, Munoz JA. Laser incision of urethral strictures. Biophotonics International 14(6):33-35, 2007.

Fried NM, Rais-Bahrami S, Lagoda GA, Chuang Y, Burnett AL, Su LM. Imaging the cavernous nerves in rat prostate using optical coherence tomography. Lasers Surg Med 39(1):36-41, 2007.

Fried NM. New laser treatment approaches for benign prostatic hyperplasia. Current Urology Reports 8(1):47-52, 2007.

Fried NM, Rais-Bahrami S, Lagoda GA, Chuang Y, Burnett AL, Su LM. Optical coherence tomography of the rat cavernous nerves. Photonic Therapeutics and Diagnostics III 6424:0W:1-8 (SPIE, San Jose, 2007).

Polletto TJ, Ngo AK, Tchapyjnikov A, Levin K, Tran D, Fried NM. Transmission of high Er:YAG laser pulse energies through germanium oxide fibers with sapphire tips. Photonic Therapeutics and Diagnostics III 6424:016:1-5 (SPIE, San Jose, 2007).

Munoz JA, Riemer JD, Hayes GB, Negus D, Fried NM. Er:YAG laser incision of urethral strictures: early clinical results. Photonic Therapeutics and Diagnostics III 64241:F:1-4 (SPIE, San Jose, 2007).

Fried NM, Noguera G, Castro-Combs J, Behrens A. Variable depth thermal lesions in rabbit corneas using a tunable thulium fiber laser. Ophthalmic Technologies XVII 6426:131:1-6. (SPIE, San Jose, 2007).

2006

Polletto TJ, Ngo AK, Tchapyjnikov A, Levin K, Tran D, Fried NM. Comparison of germanium oxide fibers with silica and sapphire fiber tips for transmission of Erbium:YAG laser radiation. Lasers in Surgery and Medicine 38(8):787-791, 2006.

Ngo AK, Fried NM. Side-firing germanium oxide optical fibers for use with the Erbium:YAG laser. Journal of Endourology 20(7):475-478, 2006.

Fried NM. Lasers in urology: What’s New?, What’s Next? Contemporary Urology October:12-19, 2006.

Fried NM. Therapeutic applications of lasers in urology: an update. Expert Review of Medical Devices 3(1):81-94, 2006.

Ngo AK, Sharma U, Kang JU, Fried NM. Laser welding of urinary tissues using a tunable Thulium fiber laser. Photonic Therapeutics & Diagnostics II 60781B:1-8 (SPIE, San Jose, 2006).

Chung CC, Permpongkosol S, Varkarakis IM, Lima G, Franco N, Hayman MH, Nichol T, Fried NM. Laser probes for noninvasive coagulation of subsurface tissues. Photonic Therapeutics and Diagnostics II 607822:1-5 (SPIE, San Jose, 2006).

Ngo AK, Fried NM. Delivery of Erbium:YAG laser radiation through side-firing germanium oxide fibers. Optical Fibers & Sensors for Medical Application VI 60830O:1-5 (SPIE, San Jose, 2006).

2005

Sharma U, Fried NM, Kang JU.  All-fiber common-path optical coherence tomography:  sensitivity optimization and system analysis.  IEEE Journal of Selected Topics in Quantum Electronics on Biophotonics  11(4):799-805, 2005.

Fried NM.  Thulium fiber laser lithotripsy:  an in vitro analysis of stone fragmentation using a modulated 110-watt Thulium fiber laser at 1.94 mm.  Lasers in Surgery and Medicine  37(1):53-58, 2005.

Varkarakis IM, Inagaki T, Allaf ME, Chan TY, Rogers CG, Wright EJ, Fried NM.  Comparison of Erbium:YAG and Holmium:YAG lasers for incision of the urethra and bladder neck in a chronic porcine model.  Urology  65(1):191-195, 2005.

Fried NM.  High-power laser vaporization of the canine prostate using a 110-watt Thulium fiber laser at 1.91 mm.  Lasers in Surgery and Medicine  36(1):52-56, 2005.

Fried NM, Murray KE.  High-power thulium fiber laser ablation of urological tissues at 1.94 mm.  Journal of Endourology  19(1):25-31, 2005.

Fried NM, Yang Y, Lee K, Tafti HA.  Transmission of free-running and Q-switched Er:YAG and Er:YSGG laser energy through germanium oxide / silica fibers.  Optical Fibers and Sensors for Medical Applications 5  5691:115-119 (SPIE, San Jose, 2005).

Varkarakis  IM, Inagaki T, Allaf ME, Chan TY,Rogers CG, Wright EJ, Fried NM.  Erbium vs. Holmium laser incision of the urethra and bladder neck.  Photonic Therapeutics and Diagnostics  5686:171-175 (SPIE, San Jose, 2005).

Fried NM, Murray KE.  High-power Thulium fiber laser ablation of the canine prostate.  Photonic Therapeutics and Diagnostics  5686:176-182 (SPIE, San Jose, 2005).

Ramli R, Chung CC, Fried NM, Franco N, Hayman M.  Nd:YAG laser irradiation in combination with contact tissue cooling for creation of subsurface thermal lesions.  Photonic Therapeutics and Diagnostics  5686:183-187 (SPIE, San Jose, 2005).

Sharma U, Kang JU, Fried NM.  Fizeau optical coherence tomography:  sensitivity optimization and system analysis.  CLEO 2005, CFA5, Baltimore, MD.

2004

Chaney CA, Yang Y, Fried NM. Hybrid germanium / silica optical fibers for endoscopic delivery of erbium:YAG laser radiation. Lasers in Surgery and Medicine 24:5-11, 2004.

Ramli R, Chung CC, Fried NM, Franco N, Hayman MH.  Subsurface tissue lesions created using an Nd:YAG laser with a sapphire contact cooling probe.  Lasers in Surgery and Medicine  35:392-396, 2004.

Fried NM, Yang Y, Chaney CA, Fried D.  Transmission of Q-switched Erbium:YSGG and Erbium:YAG laser radiation through germanium oxide and sapphire optical fibers at high pulse energies.  Lasers in Medical Science  19(3):155-160, 2004.

Levin K, Tran D, Tchapijnikov A, Fried NM.  Specialty fiber expands infrared laser applications.  Biophotonics International  11(4):41-43, 2004.

Yang Y, Chaney CA, Fried NM.  Erbium:YAG laser lithotripsy using hybrid germanium / silica optical fibers.  Journal of Endourology  18(9):830-835, 2004.

Fried NM, Tesfaye Z, Ong AM, Rha KH, Hejazi P. Variable pulsewidth erbium:YAG laser ablation of the ureter and urethra in vitro and in vivo: optimization of the laser fluence, pulse duration, and pulse repetition rate.  Lasers in Surgery 14  5312: 105-111 (SPIE, San Jose, 2004).

Ramli R, Durand D, Fried NM. Deep subsurface thermal lesions in tissue using an Nd:YAG laser and cryogen spray cooling: preliminary in vitro results.  Lasers in Surgery 14  5312: 112-116 (SPIE, San Jose, 2004).

Chaney CA, Yang Y, Fried NM. Assembly and testing of germanium / silica optical fibers for flexible endoscopic delivery of erbium:YAG laser radiation.  Optical Fibers and Sensors for Medical Applications 4  5317: 1-8 (SPIE, San Jose, 2004).

Fried NM, Yang Y, Chaney C, Fried D. Transmission of free-running and q-switched Er:YSGG laser radiation through sapphire and germanium fibers. Optical Fibers and Sensors for Medical Applications 4  5317: 9-12 (SPIE, San Jose, 2004).

Sharma U, Fried NM, Kang JU, Bush J.  Optical coherence tomography based on an all-fiber autocorrelator using probe-end reflection as reference. CLEO 2004, CWJ3, San Francisco, CA.

 2003

Fried NM, Tesfaye Z, Ong AM, Rha KH, Hejazi P. Optimization of the erbium:YAG laser for precise incision of ureteral and urethral tissues: in vitro and in vivo results. Lasers in Surgery and Medicine  33:108-114, 2003.

Solomon SB, Nicol TL, Chan DY, Fjield T, Fried NM, Kavoussi LR.  Histologic evaluation of high intensity focused ultrasound in rabbit muscle.Investigative Radiology  38(5):293-301, 2003.

Ramli R, Durand D, Fried NM. Subsurface tissue lesions using an Nd:YAG laser and cryogen cooling. Journal of Endourology  17(10):923-926, 2003.

Fried NM, Roberts WW, Sinelnikov YD, Wright EJ, Solomon SB. Comparison of the vas deferens and epididymis as targets for noninvasive male sterilization using focused ultrasound. 2nd International Symposium on Therapeutic Ultrasound (Seattle, WA), pp. 155-162, 2003.

2002

Roberts WW, Chan DY, Fried NM, Wright EJ, Nicol T, Jarrett TW, Kavoussi LR, Solomon SB. High intensity focused ultrasound ablation of the vas deferens in a canine model. Journal of Urology 167:2613-2617, 2002.

Fried NM, Roberts WW, Sinelnikov YD, Wright EJ, Solomon SB. Focused ultrasound ablation of epididymis: Thermal measurements in a canine model. Fertility and Sterility 78(3):609-613, 2002.

Roberts WW, Wright EJ, Fried NM, Nichol T, Jarrett TW, Kavoussi LR, Solomon SB.  High intensity focused ultrasound ablation of the epididymis in a canine model: a potential alternative to vasectomy. Journal of Endourology 16(8):621-625, 2002.

Fried NM, Sinelnikov YD, Roberts WW, Solomon SB. Incisionless vasectomy using focused ultrasound.  Lasers in Surgery 12  4609:115-121, (SPIE: San Jose, 2002).

Fried NM, Long GM. Erbium:YAG laser ablation of urethral and ureteral tissues. Lasers in Surgery 12  4609:122-127, (SPIE, San Jose, 2002).

2001

Fried NM, Sinelnikov Y, Pant B, Roberts WW, Solomon SB. Noninvasive vasectomy using a focused ultrasound clip: thermal measurements and simulations. IEEE Transactions in Biomedical Engineering  48(12)1453-1459, 2001.

Fried NM, Tsitlik A, Rent K, Berger RD, Lardo AC, Calkins H, Halperin HR. Laser ablation of the pulmonary veins using a fiberoptic balloon catheter: implications for treatment of paroxysmal atrial fibrillation. Lasers in Surgery and Medicine 28:197-203, 2001.

Fried NM, Fried D. Comparison of Er:YAG and 9.6-mm TE CO2 lasers for ablation of skull tissue. Lasers in Surgery and Medicine 28:335-343, 2001.

Fried NM. Potential applications of the Er:YAG laser in endourology.  Journal
of Endourology  15(9):889-894, 2001.

 2000

Fried NM, Walsh JT. Cryogen spray cooling during laser tissue welding. Physics in Medicine and Biology 45: 753-763, 2000.

Fried NM, Walsh JT. Laser skin welding: in vivo tensile strength and wound healing results. Lasers in Surgery and Medicine 27: 55-65, 2000.

Fried NM, Lardo AC, Berger RD, Calkins H, Halperin HR. Linear lesions in myocardium created by laser using diffusing optical fibers: in vitro and in vivo results. Lasers in Surgery and Medicine 27: 295-304, 2000.

Fried NM, Fried D. Laser ablation of skull tissue using transverse excited 9.6-mm CO2 lasers with pulse durations of 1-100 ms. Lasers in Surgery 10  3914: 128-136, (SPIE, San Jose, 2000).

Fried NM, Lardo AC, Berger RD, Calkins H, Halperin HR. Linear lesions in heart tissue using diffused laser radiation. Lasers in Surgery 10  3907: 544-551, SPIE, San Jose, 2000).

1999

Fried NM, Hung VC, Walsh JT. Laser tissue welding: laser spot size and beam profile studies. IEEE Journal of Selected Topics in Quantum Electronics 5(4): 1004-1012, 1999.

Fried NM, Choi B, Welch AJ, Walsh JT. Radiometric surface temperature measurements during dye-assisted laser skin closure: in vitro and in vivo results. Lasers in Surgery and Medicine 25: 291-303, 1999.

Fried NM, Hung VC, Walsh JT. Laser spot size and beam profile studies for tissue welding applications. Lasers in Surgery 9  3590: 111-119 (SPIE, San Jose, 1999).

Fried NM, Choi B, Welch AJ, Walsh JT. Temperature measurements during laser skin welding.Lasers in Surgery 9  3590: 120-127, (SPIE, San Jose, 1999).

Fried NM, Walsh JT. Dynamic cooling during laser skin welding. Lasers in Surgery 9  3590: 128-133, (SPIE, San Jose, 1999).

1998

Fried NM, Walsh JT. Dye-assisted laser skin closure with pulsed radiation: an in vitro study of weld strength and thermal damage. Journal of Biomedical Optics 3: 401-408, 1998.

Fried NM.  Dye-assisted photothermal tissue welding.  Ph.D. Thesis, Northwestern University, Evanston, IL, 1998.

Fried NM. A physical approach to laser tissue welding. Dialogues in Pediatric Urology 21:4-6, 1998.

Fried NM, Walsh JT. Skin welding using pulsed radiation and a dye. Lasers in Surgery 8  3245: 262-267, (SPIE, San Jose, 1998).