JangGD. Angioplasty. New York: McGraw Hill, 1986: 4.
2.
EinsteinA.Zur Quantentheorie der Strahlung. Physikalische Zeitschrift1917; 18: 121–30. Translated in: The old quantum theory.ElmsfordL ed. New York: Pergamon Press, 1967: 167–83.
3.
MaimanTH. Stimulated optical radiation in ruby. Nature1960; 187: 493–94.
4.
HechtJ.The laser guidebook. New York: McGraw Hill, 1986.
5.
PhillipsR.Sources and applications of ultraviolet radiation. London: Academic Press, 1983.
6.
WeberMJ. Rare earth lasers. In: GschneiderKAEyringL eds. Handbook on the physics and chemistry of rare earths. Amsterdam: Elsevier, 1979: 275–315.
7.
McGuffPEBushnellDSoroffHS. Studies of the surgical applications of laser (Light Amplification by Stimulated Emission of Radiation). Surg Forum1963; 14: 143–45.
8.
MacruzRMartinesJRMTupinambàHS. Possibilidades terapéuticas do raio laser em ateromas. Arq Bras Cardiol1980; 34: 9–13.
9.
ChoyDSJ. US Patent 4 207 874: 1979.
10.
BoulnoisJ-L.Photophysical processes in recent medical laser developments: A review. Lasers Med Sci1986; 1: 47–66.
11.
van GemertMJCWelchAJBonnierJJM. Some physical concepts in laser angioplasty. Semin Intervent Radiol1986; vmr-3: 27–38.
12.
AbelaGSStaplesEDContiCR. Immediate and long term effects of laser radiation on the arterial wall: Light and electron microscopic observation. Surg Forum1984; 34: 454–56.
13.
EldarMBattlerANeufeldHN. Transluminal carbon dioxide laser catheter angioplasty for dissolution of atherosclerotic plaques. J Am Coll Cardiol1984; vmr-3: 135–37.
14.
ZurAKatzirA.Use of infrared fibers for low-temperature radiometric measurements. Appl Phys Lett1986; 48: 499–500.
15.
DeckelbaumLIIsnerJMDonaldsonRF. Reduction of laser induced pathologic tissue injury using pulsed energy delivery. Am J Cardiol1985; 56: 662–67.
16.
CrossFWBowkerTJ. The physical properties of tissue ablation with excimer lasers. Med Instrum1987; 21: 226–30.
17.
CrossFWWrightJKBowkerTJBownSG. The role of pulse length in limiting distant tissue damage to vascular tissue caused by the Nd-YAG laser. Lasers Med Sci1987; 2: 175–81.
18.
PrinceMRDeutschTFMathews-RothMM. Preferential light absorption in atheromas in vitro. Implications for laser angioplasty. J Clin Invest1986; 78: 295–302.
19.
GregoryKWPrinceMRLaMuragliaGM. Effect of blood on the selective ablation of atherosclerotic plaque with a pulsed dye laser. Lasers Surg Med1990; 10: 533–43.
20.
LaMuragliaGMMathews-RothMMParrishJA. Enhancing the carotenoid content of atherosclerotic plaque: Implications for laser therapy. J Vasc Surg1989; 9: 563–67.
GrundfestWSLitvakIFGoldenbergT. Pulsed ultraviolet lasers and the potential for safe laser angioplasty. Am J Surg1985; 150: 220–26.
23.
BowkerTJCrossFWRumsbyPT. Excimer laser angioplasty. Quantitative comparison in vitro of three ultraviolet wavelengths on tissue ablation and haemolysis. Lasers Med Sci1986; 1: 91–99.
24.
CrossFWBowkerTJ. The physical properties of tissue ablation with excimer lasers. Med Instrum1987; 21: 226–30.
25.
IsnerJMDonaldsonRFDeckelbaumLI. The excimer laser: Gross, light microscopic and ultrastructural analysis of potential advantages for use in laser therapy of cardiovascular disease. J Am Coll Cardiol1985; 6: 1102–1109.
26.
CrossFWBowkerTJMarstonA. Artificial circulation assessment of sapphire fibretips for use in laser angioplasty. Br J Surg1987; 74: 329.
27.
GinsburgRWexlerLMitchellRS. Percutaneous transluminal laser angioplasty for treatment of peripheral vascular disease. Radiology1985; 156: 619–24.
VerdaasdonkRMJansenEDHolstegeFC. Optically modified fiber tips penetrate tissue only when ‘dirty’. Society of Photo-optic Instrumentation Engineers1990; 1201: (Optical Fibers in Medicine) 129–36.
30.
VerdaasdonkRMBorstCBoulangerLHMA. Laser angioplasty with a metal laser probe (‘hot tip’): Probe temperature in blood. Lasers Med Sci1987; 2: 153–58.
31.
KeoghBECreaFBullT. Intravascular delivery of laser energy with metal-capped optical fibres: The potential hazard of distal embolism. Am Heart J1989; 118: 47–53.
WhiteCJRameeSRCollinsTJ. Recanalization of arterial occlusions with a lensed fibre and a Holmium: YAG laser. Lasers Surg Med1991; 11: 250–56.
34.
DeckelbaumLIScottJJStetzML. Detection of calcified atherosclerotic plaque by laser-induced plasma emission. Lasers Surg Med1992; 12: 18–24.
35.
UnsöldEPesariniABaumgartnerR. Laser-assisted fluorescence detection of plaque. Lasers Med Sci1991; 6: 289–96.
36.
Richards-KortumRMehtaAHayesG. Spectral diagnosis of atherosclerosis using an optical fiber laser catheter. Am Heart J1989; 118: 381–91.
37.
NordstromJHauglandMStraussGS. Direct laser angioplasty; clinical results of 53 consecutive human peripheral and 5 coronary cases. Lasers Surg Med1989; S1: 7(A).
38.
GeschwindHJBoussignacGTeisseireB. Percutaneous transluminal laser angioplasty in man. Lancet1984; i: 844.
39.
LammerJKarnelF.Percutaneous transluminal laser angioplasty with contact probes. Radiology1988; 168: 733–37.
40.
PilgerELammerJKleinertR. Laser angioplasty with a contact probe for the treatment of peripheral vascular disease. Cardiovasc Res1988; 22: 149–53.
41.
PilgerELammerJBertuchH. Nd: YAG laser with sapphire tip combined with balloon angioplasty in peripheral arterial occlusions. Long term results. Circulation1991; 83: 141–47.
42.
FletcherJPWonkKP. Early experiences with laser-assisted thermal angioplasty for peripheral vascular disease. Med J Aust1989; 151: 372–79.
43.
EngeIPSchilvoldA.Recanalization of occluded peripheral vessels by laser assisted PTA. Ann Radiol1988; 31: 74–76.
FleisherHLThompsonBWMcCowanTC. Human percutaneous laser angioplasty. Am J Surg1987; 154: 666–70.
46.
CumberlandDCSanbornTATaylerDI. Percutaneous laser thermal angioplasty: Initial clinical results with a laser probe in total peripheral artery occlusions. Lancet1986; i: 1457–59.
47.
DiethrichEBTimbadiaEBahadirI.Applications and limitations of laser-assisted angioplasty. Eur J Vasc Surg1989; vmr-3: 61–70.
48.
JeansWDMurphyPHughesAO. Randomized trial of laser-assisted passage through occluded femoro-popliteal arteries. Br J Radiol1990; 63: 19–21.
49.
GreenfieldAJ. Hot tip laser. Results and complications. Circulation1991; 83: (suppl 2): 94–96.
50.
SeegerJMKaelinLDBarbeauG. Laser recanalization in high risk patients. Lasers Surg Med1990; 10: 105–11.
51.
BelliA-MCumberlandDCMylerRK. Peripheral arterial occlusions: Initial results from percutaneous angioplasty with a hybrid laser probe. Radiology1990; 174: 447–49.
52.
MichaelsJACrossFWShawP. Laser angioplasty with a pulsed Nd-YAG laser: Early clinical experience. Br J Surg198976: 921–24.
53.
KvasnickaJBoudikFStanekF. Percutaneous laser angioplasty with a pulsed Nd: YAG laser. Initial clinical experience and early follow-up. Int Angiol1991; 10: 29–33.
54.
WhiteCIRameeSRMesaJE. Laser angioplasty using a lensed-fiber delivery system and a pulsed Nd-YAG laser: Early clinical results. SPIE1990; 1201: (Optical Fibers in Medicine) 206–10.
55.
MichaelsJACrossFWBowkerTJ. Assessment of a new device for laser angioplasty. Eur J Vasc Surg1989; vmr-3: 71–77.
56.
MurrayAWoodRFM. Peripheral laser angioplasty with pulsed dye laser and ball-tipped optical fibres. Lancet1989; ii: 1471–74.
57.
MitchellDCMurrayAWoodRFM. Laser-assisted angioplasty for arterial occlusion of the lower limb: Initial results and followup. Br J Surg1992; 79: 81–85.
58.
VeithFJBakalCWCynamonJ. Early experience with the smart laser in the treatment of atherosclerotic occlusions. Am Heart J1991; 121: 1531–38.
59.
HolmJArfvidssonBJivegardL. Chronic lower limb ischaemia. A prospective randomized controlled study comparing the 1-year results of vascular surgery and percutaneous transluminal angioplasty (PTA). Eur J Vasc Surg1991; 5: 517–22.
60.
LeonMBAlmagorYBartorelliA. Fluorescence-guided laser-assisted balloon angioplasty in patients with femoropopliteal occlusions. Circulation1990; 81: 143–55.
61.
GeschwindHJAptecarEBoussignacG. Results and followup after percutaneous pulsed laser-assisted balloon angioplasty guided by spectroscopy. Circulation1991; 83: 787–96.
62.
LauferGWolleneckGHohlaK. Excimer laser-induced simultaneous ablation and spectral identification of normal and atherosclerotic arterial tissue layers. Circulation1988; 78: 1031–39.
SanbornTABittlJAHershmanRA. Percutaneous coronary excimer laser-assisted angioplasty: Initial multicenter experience in 141 patients. J Am Coll Cardiol1991; 17: 169B–73B.
70.
LunderganCFFoeghMLRamwellPW. Peptide inhibition of myointimal proliferation by angiopeptin, a somatostatin analogue. J Am Coll Cardiol1991; 17 (suppl 6): 132B–36B.
71.
LindnerVReidyMA. Proliferation of smooth muscle cells after vascular injury is inhibited by an antibody against basic fibroblast growth factor. Proc Natl Acad Sci1991; 88: 3739–43.
72.
SahniRManietARVociG. Prevention of restenosis by lovastatin after successful coronary angioplasty. Am Heart J1991; 121 (6 part 1): 1600–1608.
73.
SchatzRABairnDSLeonM. Clinical experience with the Palmaz-Schatz coronary stent. Initial results of a multicenter study. Circulation1991; 83: 148–61.
74.
SerruysPWStraussBHBeattKJ. Angiographic followup after placement of a self-expanding coronary artery stent. N Engl J Med1991; 324: 13–17.
75.
PompaJJEllisSG. Intracoronary stents: Clinical and angiographic results. Herz1990; 15: 307–18.
76.
MorgensternBRGetrajdmanGILaffeyKJ. Total occlusions of the femoropopliteal artery: High technical success rate of conventional balloon angioplasty. Radiology1989; 172: 937–40.
77.
MartinECFankuchenEIKarlsonKB. Angioplasty for femoral artery occlusion: Comparison with surgery. Am J Radiol1981; 137: 915–19.
78.
MeierB.Chronic total coronary occlusion angioplasty. Cathet Cardiovasc Diagn1989; 17: 212–17.
79.
LittleTPichardADLindsayJ.Probe angioplasty of total coronary occlusion using an intracoronary probing catheter. Cathet Cardiovasc Diagn1989; 17: 218–23.
80.
HammCWKupperWKuckKH. Recanalization of chronic, totally occluded coronary arteries by new angioplasty systems. Am J Cardiol1990; 661459–63.
81.
JeansWDArmstrongSColeSE. Fate of patients undergoing transluminal angioplasty for lower limb ischaemia. Radiology1990; 177: 559–64.
82.
HorvathWOertlMHaidingerD.Percutaneous transluminal angioplasty of crural arteries. Radiology1990; 177: 565–69.
83.
SchwartenDE. Clinical and anatomical considerations for nonoperative therapy in tibial disease and the results of angioplasty. Circulation1991; 83 (suppl 2): 186–90.