Zusammenfassung
Dieses Kapitel beschäftigt sich mit der historischen Entwicklung der Lasertechnologie – von der durch Einstein beschriebenen stimulierten Emission, über den MASER bis hin zur Entwicklung des ersten LASERs. Ferner werden die wichtigsten historischen Eckdaten zusammengefasst wiedergegeben. Auch der erste Einsatz im medizinischen Kontext der unterschiedlichen Laservarianten und ihre heutige Verwendung werden exemplarisch vorgestellt.
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Literatur
Anderson RR, Margolis RJ, Watenabe 5 et al. (1989) selevtive photothermolysis of cutaneous pigmentation by Q-switched Nd:YAG laser pulses at 1064,532 and 355 nm. J Invest DermatoI 93:38–42
Anderson RR, Parrish JA (1981) Microvasculature can be selectively damaged using dye lasers: a basic theory and experimental evidence in human skin. Lasers Surg Med 1:263–276
Anderson RR, Parrish JA (1983) selective photothermolysis: precise microsurgery by selective absorption of pulsed radiation. Science 220:524–527
Apfelberg DB, Maser MR, Lash H (1979) Argon laser treatment of decorative tattoos. Br J Plast Surg 32:141–144
Apfelberg DB, Bailin p, Rosenberg H (1986) Preliminary investigation of KTP/532 laser light in the treatment of hemangiomas and tattoos. Laser surg Med 6:38–42
Arndt KA, Noe JM, Northam DBC et al. (1981) Laser therapy: basic concepts and nomenciature.J Am Acad DermatoI 5:649–654
Arndt K (1982) Adenoma sebaceum: successful treatment with argon laser. Plast Reconstr Surg 70: 91–93
Asawanonda p, Anderson RR, Chang Y, Taylor CR (2000) 308-nm excimer laser for the treatment of psoriasis. Arch Dermatol 136:619–624
Bahmer FA, Tang E (1984) Der Neodym:YAG-Laser in der dermatologischen Therapie. Z Hautkr 59:1692– 1702
Bailin PL, Ratz JL, Levine HL (1980) Removal of tattoos by C02laser. J Dermatol Surg OncoI 6:977–1001
Basov NG, Prokhorov AM (1954) 3-level gas oscillator. Zh Eksp Teor Fiz (JETP) 27:431
Bridges WB (1964) Laseroscillation in singly ionized argon in the visible spectrum. Applied Physics Letters 5:39
Dietrickx CC. Grossman MC, Farinelli WA, Anderson RR (1997) Long-pulsed ruby laser hair removal. Laser Surg Med [supp19]:197
Einstein A (1917) Zur Quantentheorie der Strahlung. Physical Z 1:121–128
Finkel B, Eliezri YD, Wald man A, Slatkine M (1997) Pulsed alexandrite laser technology for noninvasive hair removal. Clin Laser Med Surg 15:225–229
Fitzpatrick RE,Goldman MP, Ruiz-Esparza J (1993) The use ofthe alexandrite laser (755 nm, 100 nsec) for tattoo pigment removal in an animal model. Am Acad DermatoI 28:745–750
Fitzpatrick RE, Goldman MP,satur NM, Tope WD (1996) Pulsed carbon dioxide laser resurfacing of photoaged facial skin. Arch Dermatol 132: 395–402
Geusic JE, Marcos HM, Van Uitert LG (1964). Laser oscillations in Nd-doped yttrium aluminium, yttrium gallium and gadolinium garnets. Applied Physics Letters 4:182
Gilchrest BA, Rosen 5, Noe JM (1982) Chilling port wine stains improves the response to argon laser therapy. Plast Reconstr Surg 69:278-283
Goldman L (1983) Historical perspecitve: personal reflecions. ln: Arndt KA, Noe JM, Rosen 5 (eds) Cutaneous laser therapy: principles and methods. John Wiley and Sons Ltd, pp 3–9
Goldman L, Blaney DJ, Kindei DJ Jr et al. (1963) Pathology of the effect of the laser beam on the skin. Nature 197:912–914
Goldman L, Blaney DJ, Kindei DJ Jr, Franke EK (1963) Effect of the laser beam on the skin. J Invest Dermatol 40:121–123
Goldman L, Igelman JM, Richfield DF (1964) Impact of the laser on nevi and melanomas. Arch Dematol 90:71–75
Goldman L, RockweIl J, Meyer R et al. (1967) Lasertreatment of tattoos: a preliminary survey ofthree years’ clinieal experience. JAMA 20:841–844
Goldman L, Wilson R, Hornby P (1965) Radiation from a Q-switched ruby laser: effect of repeated impacts of power output of 10 megawatts on a tattoo of man. J Invest DermatoI 44:69–71
Gordon Jp, Zeiger HJ, Townes CH (1955) The MASER-New type of amplifier, frequency standard and spectrometer. Physiol Rev 99:1264–1274
Greenwald J, Rosen 5, Anderson RR et al. (1981) Comparative histological studies of the tunable dye (at 577 nm) laser and argon laser: The specific vascular effects ofthe dye laser.J Invest Dermatol 77:305–310
Grema H, Raulin C, Greve B (2002) „skin rejuvenation“ durch nichtablative Laser- und Lichtsysteme. Hautarzt 53:385–392
Hall RN, Fenner GE, Kingsley JD et al. (1962) Coherent light emission from GaAs junctions. Physical Rev Letters 9:366
Hecht J (1992) Laser pioneers. Academie Press, Boston San Diego New York London sydneyTokyo Toronto
Hellwig S, Petzoldt D, König K, Raulin C (1998) Aktueller Stand der Lasertherapie in der Dermatologie. Hautarzt 49:690–704
Itzkan I, Drake EH (1997) History of laser medicine. ln: Arndt KA, Dover JS, Olbricht SM (eds) Lasers in cutaneous and aesthetie surgery. Lippincott-Raven Publishers, Philadelphia, pp 3–10
Javan A, BennettWR Jr, Herriott DR (1961) Population inversion and continous optical maser oscillation in a gas discharge containing a He-Ne mixture. Phys Rev 6:106
Jalkh AE, Pflibsen K, Pomerantzeff 0 et al. (1988) A new solid-state, frequency-doubled neodymium-YAG photocoagulation system. Arch OphthalmoI 106:847–849
Johnson LF, Nassau K (1961) Infra red fluorescence and stimulated emission of Nd+3 in CaW04. Proceedings IRE 49:1704
Kaufmann R, Hibst R (1989) Pulsed Erb:YAG and 308 nm UV-excimer laser: in vitro and in vivo study of skin-ablative effects. Lasers Surg Med 9:132–140
Landthaler M, Haina D, Waidelieh W et al. (1984) Argon laser therapy of verrucous nevi. Plast Reconstr Surg 74:108–113
Loe E, Biltz H, Koort Jet al. (1990) Possible advantages of Excimer lasers in dermatology: an in vitro comparison of ArF and XeCI Excimer, Ar+ and Nd:YAG lasers. Z Hautkr 65:556–561
Maiman TH (1960) Stirnulated optieal radiation in ruby. Nature 187:493–494
McBurney EI (1978) Carbon dioxide laser surgery of dermatologie lesions. South Med J 71 :795–797
McClung RJ, Hellwarth RW (1962) Giant optical pulsations from ruby. J Applied Physics 33:828
Patel CK, Mc Farlane RA, FaustWL (1964) selective excitation through vibrational energy transfer and optieal maser action in N2-C02. Physiol Rev 13:617–619
Peterson OG, Tuccio sA, Snavely BB (1970) CW operation of an organie dye solution laser. Applied Physics Letters 17:245
Raulin C, Greve B (2003) Laser und IPL-Technologie in der Dermatologie und Ästhetischen Medizin, 2. Aufl. Schattauer, Stuttqart New York
Raulin C, Greve B, Raulin 5 (2001) Ethical considerations concerning laser medicine. Lasers Surg Med 28:100–101
Schäfer Fp, Schmidt W, Volze J (1966) Organie dye solution laser. Applied Physics Letters 9:306
Schawlow AL, Townes CH (1958) Infrared and optical masers. Phys Rev 112:1940–1949
Scheibner A, Wheeland RG (1989) Argon-pumped tunable dye laser therapy for facial port-wine stain heman giomas in adults - a new technique using small spot size and minimal power.J Dermatol Surg Oncol 15:277–282
Solomon H, Goldman L, Henderson B et al. (1968) Histopathology ofthe laser treatment of port wine lesions. J Invest DermatoI 50:141–146
Sorekin Pp, Lankard JR (1966) Stirnulated emission observed from an organie dye, chloroaluminum phthalocyanine. IBM J Res Develop 10:162
Sorekin Pp, Lankard JR (1967) Flashlamp excitation of organie dye lasers-a short communieation. IBM J Res Develop 11:148
Strempel H, Klein G (1983) Über einen neuen Ansatz in der Laser-Therapie des Naevus flammeus. Z Hautkr 58:967–974
Taboada J, Mikesell GW Jr, Reed RD (1981) Response of the corneal epithelium to KrF excimer laser pulses. Health Phys 40:677–683
Tan OT, Murray 5, Kurban AK (1989) Action spectrum of vascualr specific injury using pulsed irradiation. J Invest DermatoI 92:868–871
Trokel Sl, Srinivasan R, Braren B (1983) Excimer laser surgery of the cornea. Am J Ophthalmol 96:710–715
White AD, Rigden JD (1962) Continuous gas maser operation in the visible. Proc IRE 50:1697
Williams RM, Gladstone HB, Moy RL (1999) Hair removal using an 810 nm gallium aluminum arsenide semiconductor diode laser: a preliminary study. Dermatol Surg 25:935–937
YahrWZ,strully KJ (1966) Blood vessel anastomosis by laser and other biomedical applications. J Assoc Adv Med Instr 1 :28–31
Zweng HC,Flocks M (1967) Retinallaser photocoagulation. Trans Am Acad Ophthalmol Otolaryngol 71:39–45
Bitter PH (2000) Noninvasive rejuvenation of photodamaged skin using serial, full-face intense pulsed light treatments. Dermatol Surg 26: 835–43
Gold MH, Bell MW, FosterTD, Street S (1997) Long-term epilation using the EpiLight broad band, intense pulsed light hair removal system. Dermatol Surg 23: 909–13
Gold MH, Foster TD, Bell MW (1999) Naevus spilus successfully treated with an intense pulsed light source. Dermatol Surg 25: 254–5
Goldberg DJ (2000). New collagen formation after dermal remodeling with an intense pulsed light source. J Cutan LaserTher 2: 59–61
Goldberg DJ, Cutler KB (2000). Nonablative treatment of rhytids with intense pulsed light. Lasers Surg Med 26: 196–200
Goldberg DJ, Samady JA (2001). Intense pulsed light and Nd:YAG Laser non-ablative treatment of facial rhytids. Lasers Surg Med 28: 141–4
Grema H, Raulin C, Greve B (2002) Falten – Behandlung durch „non-ablative facial rejuvenation“. Literaturrecherche und Übersicht. Hautarzt 53: 385–92
Hellwig S, Raulin C, Schönermark MP (1995) Behandlung von Gefäßmalformationen und Pigmentstörungen an Gesicht und Hals durch gepulsten Farbstoffiaser, PhotoDerm VL und gütegeschalteten Rubinlaser. Laryngo Rhino Otol 74: 635–41
Jay H, Borek C (1998) Treatment of a venous-Iake angioma with intense pulsed light. Lancet 351: 112
Lask G, Eckhouse S, Slatkine M, Waldman A, Kreindel M, Gottfried V (1999) The role of intense light and laser sources in photo-epilation: A comparative evaluation. J Cutan Laser Ther 1: 1–13
Negishi K, Tezuka Y, Kushikata N, Wakamatsu S (2001) Photorejuvenation for asian skin by intense pulsed light. Dermatol Surg 27: 627–32
Raulin C, Greve B, Grema H (2003) IPL technology. A review. Lasers Surg Med 32: 78–87
Raulin C, Schröter CA, Maushagen-Schnaas E (1997) Einsatzgebiete einer hochenergetischen Blitzlampe (PhotoDerm VL). Hautarzt 48: 886–93.
Raulin C, Schröter CA, Weiss RA, Keiner M, Werner S (1999) Treatment of port-wine stains with a noncoherent pulsed light source: A retrospective study. Arch Dermatol 135: 679–83
Raulin C, Weiss RA, Schönermark MP (1997) Treatment of essential telangiectasias with an intense pulsed light source (PhotoDerm VL). Dermatol Surg 23: 941–6
Raulin C, Werner S (1999) Treatment of venous mal formations with an intense pulsed light source (IPLS) technology: A retrospective study. Lasers Surg Med 25: 170–7
Sadick NS, Shea CR, Burchette JL Jr, Prieto VG (1999) High-intensity flashlamp photoepilation: a c1inical, histological, and mechanistic study in human skin. Arch Dermatol 135: 668–76
Schröter CA, Neumann HAM (1998) An Intense Light Source: The PhotoDerm VL-Flashlamp as a new treatment possibility for vascular skin lesions. Dermatol Surg 24: 743–48
Schröter CA, Wilder D, ReinekeT, Thürlimann W, Raulin C, Neumann HAM (1997) Clinical significance of an intense, pulsed light source on leg teleangiectasias of up to 1 mm diameter. Eur J Dermatol 7: 38–42
Troilius A, Troilius C (1999) Hair removal with a second generation broad spectrum intense pulsed light source – a long-term follow-up. J Cutan Laser Ther 1: 173–8
Weiss RA, Weiss MA (1997) lntense pulsed light: Newer perspective. Dermatol Surg 23: 1221
Weiss RA, Weiss MA (1999) Early clinical results with a multiple synchronized pulse 1064 nm laser for leg telangiectasias and reticular veins. Dermatol Surg 25: 399–402
Weiss RA, Weiss MA, Marwaha S, Harrington AC (1999) Hair removal with a non-coherent filtered flashlamp intense pulsed light source. Lasers Surg Med 24: 128–32
Basov NG, Prokhorov AM (1954) 3-level gas oscillator. Zh Eksp Teor Fiz (JETP) 27:431
Hecht J (1992) Laser pioneers. Academie Press. Boston, San Diego, New York, London, Sydney, Tokyo, Toronto
Schawlow AL, Townes CH (1958) Infrared and optical masers. Phys Rev 112:1940–1949
Javan A, Bennett WR Jr, Herriott DR (1961) Population inversion and continous optical maser oscillation in a gas discharge containing a He-Ne mixture. Phys Rev 6:106
White AD, Rigden JD (1962) Continuous gas maser operation in the visible. Proc IRE 50:1697
Geusic JE, Marcos HM, Van Uitert LG (1964). Laser oscillations in Nd-doped yttrium aluminium, yttrium gallium and gadolinium garnets. Applied Physies Letters 4:182
Patel CK, Mc Farlane RA, FaustWL (1964) selective excitation through vibrational energy transfer and optieal maser action in N2-C02. Physiol Rev 13:617–619
Bridges WB (1964) Laseroscillation in singly ionized argon in the visible spectrum. Applied Physies Letters 5:39
Sorekin Pp, Lankard JR (1966) Stirnulated emission observed from an organie dye, chloroaluminum phthalocyanine. IBM J Res Develop 10:162
Sorekin Pp, Lankard JR (1967) Flashlamp excitation of organie dye lasers-a short communieation. IBM J Res Develop 11:148
Peterson OG, Tuccio sA, Snavely BB (1970) CW operati on of an organie dye solution laser. Applied Physies Letters 17:245
Zweng HC, Flocks M (1967) Retinallaser photocoagulation. Trans Am Acad Ophthalmol Otolaryngol 71:39–45
Raulin C, Greve B et al. (2003) Laser und IPL-Technologie in der Dermatologie und Ästhetischen Medizin. 2. Aktualisierte Ausgabe, Schattauer-Verlag, Stuttgart
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Hammes, S., Raulin, C., Kautz, G., Kahl-Scholz, M. (2018). Die Geschichte des Lasers. In: Kautz, G. (eds) Energie für die Haut. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-662-56436-3_1
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