Zusammenfassung
In diesem Kapitel werden Möglichkeiten einer direkten myokardialen Revaskularisation (DMR) bei weit fortgeschrittener koronarer Herzerkrankung diskutiert. Anhand der bisherigen Untersuchungsergebnisse verschiedener Verfahren soll deren potentieller Nutzen dargelegt werden.
This is a preview of subscription content, log in via an institution to check access.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
Preview
Unable to display preview. Download preview PDF.
Literatur
Allen KB, Dowling RD, Fudge TL, Schoettle GP, Selinger SL, Gangahar DM, Angell WW, Petracek MR, Shaar CJ, O’Neil WW (1999) Comparison of transmyocardial revascularization with medical therapy in patients with refractory angina. N Engl J Med 341:1029–1036
Andersen C, Hole P, Oxhoj H (1994) Does pain relief with spinal cord stimulation for angina conceal myocardial infarction. Br Heart J 71:419–421
Arealis EG, Volder JG, Kolff WJ (1973) Arterialization of the coronary vein coming from an ischemic area. Chest 63:462–463
Augustinsson LE (1989) Spinal cord electrical stimulation in severe angina pectoris: surgical technique, intraoperative physiology, complications, and side effects Pacing Clin Electrophysiol 12:693–694
Bailey WF Jr, Mannion JD, Magno MG (1997) Does skeletal muscle steal blood from the heart following a latissimus dorsi cardiomyoplasty? In: Carpentier A, Chachques JC, Grandjean P, eds. Cardiac Bioassist. Futura Publishing, Armonk, NY, USA. Chapter 19: pp 237–246
Barry A, Patten B (1953) The structure of the adult heart. In: Gould SE, (ed) Pathology of the Heart. Charles C. Thomas Publisher, Springfield Ill
Beck CS (1935) The development of a new blood supply to the heart by operation. Ann Surg 102: 801–813
Beck CS, Tichy VL (1935) The production of a collateral circulation to the heart - I. An experimental study. Am Heart J 10:849–873
Beck CS, Stanton E, Batiuchok W, Leiter E (1948) Revascularization of heart by graft of systemic artery into the coronary sinus. JAMA 137:436–442
Benedict JS, Buhl TL, Henney RP (1975) Cardiac vein myocardial revascularization. An experimental study and report of 3 clinical cases. Ann Thorac Surg 20:550–557
Beyer M, Hoffer H, Beyer U, Gortz A, Mierdl S, Hannekum A (1992) A microcorrosion cast study for analyzing a new method of indirect myocardial revascularization. Thorac Cardiovasc Surg 40:340–344
Beyer M, Beyer U, Mierdl S, Sirch J, von Behren H, Hannekum A (1994) Indirect myocardial revascularization - an experimental study in the dog. Eur J Cardiothorac Surg 8:557–562
Beyer M, Hoffer H, Lass M, Fleischmann W, Hannekum A (1997) Cardiomyoplasty to improve myocardial perfusion: long-term results. In: Carpentier A, Chachques JC, Grandjean P, eds. Cardiac Bioas-sist. Futura Publishing Armonk, NY, USA. Chapter 20, pp 247–252
Borggrefe M, Budde T, Podczeck A, Breithardt G (1987) High frequency alternating current ablation of an accessory pathway in humans. J Am Coll Cardiol 10:576–582
Borst C, Bos AN, Zwaginga JJ, Rienks R, de Groot PG, Sixma JJ (1990) Loss of blood platelet adhesion after heating native and cultured human sub-endothelium to 100 degrees Celcius. Cardiovasc Res 24:665–668
Burkhoff D, Fisher PE, Apfelbaum M, Kohmoto T, DeRosa CM, Smith CR (1996) Histologic appearance of transmyocardial laser channels after 4 1/2 weeks. Ann Thorac Surg 61:1532–1534
Burkhoff D, Schmidt S, Schulman SP, Myers J, Resar J, Becker LC, Weiss J, Jones JW (1999) Trans-myocardial laser revascularisation compared with continued medical therapy for treatment of refractory angina pectoris: a prospective randomised trial. ATLANTIC Investigators. Angina Treatments-Lasers and Normal Therapies in Comparison. Lancet 354:885–890
Burns SM, Sharples LD, Tait S, Caine N, Wallwork J, Schofield PM (1999) The transmyocardial laser revascularization international registry report. Eur Heart J 20:31–37
Carlson CJ, Ratajczyk Pakalska E, Cogan JJ, Rapaport E (1985) Effect of venous retroperfusion on experimental myocardial ischemia in the open-chest pig. J Surg Res 38:105–112
Chauhan A, Mullins PA, Thuraisingham SI, Taylor G, Petch MC, Schofield PM (1994) Effect of trans-cutaneous electrical nerve stimulation on coronary blood flow. Circulation 89:694–702
Chikamatsu E, Sakurai T, Nishikimi N, Yano T, Nimura Y (1995) Comparison of laser vascular welding, interrupted sutures, and continuous sutures in growing vascular anastomoses. Lasers Surg Med 16:34–40
Chu V, Kuang J, McGinn A, Giaid A, Korkola S, Chiu RC (1999) Angiogenic response induced by mechanical transmyocardial revascularization. J Thorac Cardiovasc Surg 118:849–856
Cicutti N, Rakusan K, Downey HF (1994) Coronary artery occlusion extends perfusion territory boundaries through microvascular collaterals. Basic Res Cardiol 89:427–437
Cooley DA, Frazier OH, Kadipasaoglu KA, Pehlivanoglu S, Shannon RL, Angelini P (1994) Transmyocardial laser revascularization. Anatomic evidence of long-term channel patency. Tex Heart Inst J 21:220–224
Cooley DA, Frazier OH, Kadipasaoglu KA, Lindenmeir MH, Pehlivanoglu S, Kolff JW, Wilansky S, Moore WH (1996) Transmyocardial laser revascularization• clinical experience with twelve-month follow-up. J Thorac Cardiovasc Surg 111:791–797
Cooley DA, Frazier OH, Kadipasaoglu KA, Lindenmeir MH, Pehlivanoglu S, Kolff JW, Wilansky D, Moore WH (1996) Transmyocardial laser revascu-larization: clinical experience with 12-month follow-up. J Thorac Cardiovasc Surg 111:791–799
Crystal GJ, Downey HF, Bashour FA (1981) Evaluation of noncoronary sources of left ventricular perfusion to intercoronary collateral-dependent myocardium due to chronic major vessel occlusion: absent contribution of luminal and extracardiac channels. Am Heart J 102:841–845
de Jongste MJL, Hautvast RWM, Hiliege HL (1994) Efficacy of spinal cord stimulation as adjuvant therapy for intractable angina pectoris: a prospective, randomized clinical study. J Am Coll Cardiol 1592–1597
Diegeler A, Schneider J, Lauer B, Mohr FW, Kluge R (1998) Transmyocardial laser revascularization using the Holium-YAG laser for treatment of end stage coronary artery disease. Eur J Cardiothorac Surg 13:392–397
Dietz U, Otto M, Buerke M, Eick O, El Odhi R, Förderer A, Rippin G, Kirkpatrick CJ, Meyer J, Darius H (2000) Temperature-controlled high-frequency ablation for creation of transmyocardial channels. In vivo validation of a novel method. Cardiology 93:234–241
Donovan CL, Landolfo KP, Lowe JE, Clements F, Coleman RB, Ryan T (1997) Improvement in inducible ischemia during dobutamine stress echocardiography after transmyocardial laser revascularization in patients with refractory angina pectoris. J Am Coll Cardiol 30:607–612
Effler DB (1976) Myocardial revascularization - a 14-year overview of the Cleveland Clinic experience. JAMA 235:828–832
Favaloro RG, Effler DB, Groves LK, Sones FM, Fergusson DJG (1967) Myocardial revascularization by internal mammary implant procedures - clinical experience. J Thorac Cardiovasc Surg 54:359–370
Fleischer KJ, Goldschmidt Clermont PJ, Fonger JD, Hutchins GM, Hruban RH, Baumgartner WA (1996) One-month histologic response of trans-myocardial laser channels with molecular intervention. Ann Thorac Surg 62:1051–1058
Foley DP, Melkert R, Serruys PW (1994) Influence of coronary vessel size on renarrowing process and late angiographic outcome after successful balloon angioplasty. Circulation 90:1239–1251
Frazier OH, Cooley DA, Kadipasaoglu KA, Pehlivanoglu S, Lindenmeir M, Barasch E, Conger JL, Wilansky S, Moore WH (1995) Myocardial revascularization with laser. Preliminary findings. Circulation 92:II-58–65
Frazier OH, Kadipasaoglu KA, Cooley DA (1998) Transmyocardial laser revascularization. Does it have a role in the treatment of ischemic heart disease? Tex Heart Inst J 25:24–29
Frazier OH, March RJ, Horvath KA (1999) Trans-myocardial revascularization with a carbon dioxide laser in patients with end-stage coronary artery disease. N Engl J Med 341:1021–1028
Freedom RM, Culham JA, Moes CA, Harrington DP (1976) Selective aortic root angiography in the hypoplastic left heart syndrome. Eur J Cardiol 4:25–29
Gassler N, Wintzer HO, Stubbe HM, Wullbrand A, Helmchen U (1997) Transmyocardial laser revascularization. Histological features in human nonresponder myocardium. Circulation 95:371–375
Gates RN, Laks H, Drinkwater DC, Pearl JM, Zaragoza AM, Lewis W, Sorensen TJ, Kaczer EM, Chang PA (1993) Gross and microvascular distribution of retrograde cardioplegia in explanted human hearts. Ann Thorac Surg 56:410–416
Gennaro M, Ascer E, Mohan C, Wang S (1991) A comparison of CO2laser-assisted venous anastomoses and conventional suture techniques: patency, aneurysm formation, and histologic differences J Vasc Surg 14:605–613
Goda T, Wierzbicki Z, Gaston A, Leandri J, Vouron J, Loisance D (1987) Myocardial revascularization by CO2laser. Eur Surg Res 19:113–117
Goldman A, Greensone SM, Preuss FS, Strauss SH, Chang E (1956) Experimental methods for producing a collateral ciculation to the heart directly from the left ventricle. Thoracic Surg 31:364–374
Halle AAd, Wilson RF, Massin EK, Bourge RC, Stadius ML, Johnson MR, Wray RB, Young JB, Davies RA, Walford GD (1992) Coronary angioplasty in cardiac transplant patients. Results of a multicenter study. Circulation 86:458–462
Hardy RI, Bove KE, James FW, Kaplan S, Goldman L (1987) A histologic study of laser-induced trans-myocardial channels. Lasers Surg Med 6:563–573
Hardy RI, James FW, Millard RW, Kaplan S (1990) Regional myocardial blood flow and cardiac mechanics in dog hearts with CO2laser-induced intramyocardial revascularization. Basic Res Cardiol 85:179–197
Hartman RA, Whittaker P (1997) The physics of transmyocardial laser revascularization. J Clin Laser Med Surg 15:255–259
Hautvast RW, Blanksma PK, DeJongste MJ, Pruim J, van der Wall EE, Vaalburg W, Lie KI (1996) Effect of spinal cord stimulation on myocardial blood flow assessed by positron emission tomography in patients with refractory angina pectoris. Am J Cardiol 77:462–467
Hayward RH, Korompai FL, Knight WL (1991) Long-term follow-up of the Vineberg internal mammary artery implant procedure. Ann Thorac Surg 1991; 51:1002–1003
Heine H (1993) Stammesgeschichte des Koronargefißsystems. Spezielle pathologische Anatomie - Band 22/I Pathologische Anatomie des Herzens and seiner Hüllen. Springer, Berlin, Heidelberg S 54–71
Heusch G, Schipke JD (1993) Regional blood flow and contractile function: are they matched in normal, ischemic and reperfused myocardium? Basic Res Cardiol 88 (Suppl 2):103–119
Heusch G, Schulz R (1993) Chronic myocardial ischemia-hibernating myocardium: characteristics and limits. Z Kardiol 82 (Suppl 5):133–141
Hirsch GM, Thompson GW, Arora RC, Hirsch KJ, Sullivan JA, Armour JA (1999) Transmyocardial laser revascularization does not denervate the canine heart. Ann Thorac Surg 68:460–468
Hochberg MS (1977) Hemodynamic evaluation of selective arterialization of the coronary venous system. An experimental study of myocardial perfusion utilizing radioactive microspheres. J Thorac Cardiovasc Surg 74:774–783
Hochberg MS, Roberts AJ, Parsonnet V, Fisch D (1986) Selective arterialization of coronary veins: clinical experience of 55 american heart surgeons. In: Mohl W, Faxon D, Wolner E (eds) Clinics of CSI. Steinkopf, Darmstadt pp 195–201
Hoffmann E, Gebhardt C, Kisseler B (1971) Morphology of ventriculo-coronary anastomoses in hearts with intact and pathologically altered coronary vessels. Langenbecks Arch Chir 328:180–200
Horvath KA, Smith WJ, Laurence RG, Schoen FJ, Appleyard RF, Cohn LH (1995) Recovery and viability of an acute myocardial infarct after trans-myocardial laser revascularization. J Am Coll Cardiol 25:258–263
Horvath KA, Mannting F, Cummings N, Shernan SK, Cohn LH (1996) Transmyocardial laser revascularization: operative techniques and clinical results at two years. J Thorac Cardiovasc Surg 111:1047–1053
Horvath KA, Cohn LH, Cooley DA, Crew JR, Frazier OH, Griffith BP, Kadipasaoglu K, Lansing A, Mannting F, March R, Mirhoseini MR, Smith C (1997) Transmyocardial laser revascularization: results of a multicenter trial with transmyocardial laser revascularization used as sole therapy for end-stage coronary artery disease. J Thorac Cardiovasc Surg 113:645–653
Horvath KA, Greene R, Belkind N, Kane B, McPherson DD, Fullerton DA (1998) Left ventricular functional improvement after transmyocardial laser revascularization. Ann Thorac Surg 66:721–725
Horvath KA, Chiu E, Maun DC, Lomasney JW, Greene R, Pearce WH, Fullerton DA (1999) Up-regulation of vascular endothelial growth factor mRNA and angiogenesis after transmyocardial laser revascularization. Ann Thorac Surg 68:825–829
Hughes GC, Lowe JE, Kypson AP, St Louis JD, Pippen AM, Peters KG, Coleman RE, DeGrado TR, Donovan CL, Annex BH, Landolfo KP (1998) Neovascularization after transmyocardial laser revascularization in a model of chronic ischemia. Ann Thorac Surg 66:2029–2036
Hughes GC, Landolfo KP, Lowe JE, Coleman RB, Donovan CL (1999) Perioperative morbidity and mortality after transmyocardial laser revascularization: incidence and risk factors for adverse events. J Am Coll Cardiol 33:1021–1026
Ischinger T, Coppenrath K, Weber H, Enders S, Unsold E, Hessel S (1989) Use of the thermal laser effect of laser irradiation for cardiovascular applications exemplified by the Nd:YAG laser. Z Kardiol 78:689–700
Iskandrian AE, Sink JD, VanDecker W (1998) Images in cardiovascular medicine. Improvement of myocardial perfusion after transmyocardial laser revascularization and coronary artery bypass graft surgery. Circulation 98:728–729
Jacques SL (1992) Laser-tissue interactions. Photochemical, photothermal, and photomechanical. Surg Clin North Am 72:531–558
Jansen ED, Frenz M, Kadipasaoglu KA, Pfefer TJ, Altermatt HJ, Motamedi M, Welch AJ (1997) Laser-tissue interaction during transmyocardial laser revascularization. Ann Thorac Surg 63:640–647
Jeevanandam V, Auteri JS, Oz MC, Watkins J, Rose EA, Smith CR (1990) Myocardial revascularization by laser-induced channels. Surg Forum 41:225–227
Kadipasaoglu KA, Frazier OH (1999) Transmyocardial laser revascularization: effect of laser parameters on tissue ablation and cardiac perfusion. Semin Thorac Cardiovasc Surg 11:4–11
Kahler J, Ecks K, Koster R, Meinertz T (2000) Myocardial revascularization for therapy-refractory angina pectoris in the elderly. Dtsch Med Wochenschr 125:495–498
Khazei AH, Kime WP, Papadopoulos C, Cowley RA (1968) Myocardial canalization. A new method of myocardial revascularization. Ann Thorac Surg 6:163–171
Kim CB, Kesten R, Javier M, Hayase M, Walton AS, Billingham ME, Kernoff R, Oesterle SN (1997) Percutaneous method of laser transmyocardial revascularization. Cathet Cardiovasc Diagn 40:223–228
Klagsbrun M, PA DA (1991) Regulators of angiogenesis. Annu Rev Physiol 53:217–239
Kohmoto T, Argenziano M, Yamamoto N, Vliet KA, Gu AG, Derosa CM, Fisher PE, Spotnitz HM, Burkhoff D, Smith CR (1997) Assessment of trans-myocardial perfusion in alligator hearts. Circulation 95:1585–1591
Kohmoto T, Fisher PE, Gu A, Zhu SM, DeRosa CM, Smith CR, Burkhoff D (1997) Physiology, histology, and 2-week morphology of acute transmyocardial channels made with a CO2laser. Ann Thorac Surg 63:1275–1283
Kohmoto T, Uzun G, Gu A, Zhu SM, Smith CR, Burkhoff D (1997) Blood flow capacity via direct acute myocardial revascularization. Basic Res Cardiol 92:45–51
Kohmoto T, DeRosa CM, Yamamoto N, Fisher PE, Failey P, Smith CR, Burkhoff D (1998) Evidence of vascular growth associated with laser treatment of normal canine myocardium. Ann Thorac Surg 65:1360–1367
Kohmoto T, Fisher PE, Gu A, Zhu S, DeRosa C, Smith CR, Burkhoff D (1999) Physiology and histology of acute myocardial channels made with different lasers. In:Whittaker P, Abela GS, eds. Direct Myocardial Revascularization: History, Methodology, Technology. Kluwer Academic Publishers, Boston Dordrecht London, pp 81–95
Kopchok GE, White RA, White GH, Fujitani R, Vlasak J, Dykhovsky L, Grundfest WS (1988) CO2 and argon laser vascular welding: acute histologic and thermodynamic comparison. Lasers Surg Med 8:584–588
Kornowski R, Hong MK, Leon MB (1998) Current perspectives on direct myocardial revascularization. Am J Cardiol 81:44–48E
Kornowski R, Hong MH, Haudenschild CC, Leon MB (1997) Potentially hazardous effects of high-power holmium: YAG lasers during direct myocardial revascularization in porcine myocardium Am J Cardiol 80 (Suppl 7A):14S
Kornowski R, Hong MK, Haudenschild CC, Leon MB (1998) Feasibility and safety of percutaneous laser revascularization using the Biosense system in porcine hearts. Coron Artery Dis 1998) 9:535–5340
Kornowski R, Hong MK, Leon MB (1998) Current perspectives on direct myocardial revascularization. Am J Cardiol 81:44–48e
Kornowski R, Bhargava B, Leon MB (1999) Percutaneous transmyocardial laser revascularization: an overview. Catheter Cardiovasc Intery 47:354–359
Krabatsch T, Schaper F, Leder C, Thisner J, Thalmann U, Hetzer R (1996) Histological findings after transmyocardial laser revascularization. J Card Surg 11:326–331
Kwon HM, Hong BK, Jang GJ, Kim DS, Choi EY, Kim IJ, McKenna CJ, Ritman EL, Schwartz RS (1999) Percutaneous transmyocardial revascularization induces angiogenesis: a histologic and 3-dimensional micro computed tomography study. J Korean Med Sci 14:502–510
Kwong KF, Kanellopoulos GK, Nickols JC, Pogwizd SM, Saffitz JE, Schuessler RB, Sundt TM 3rd (1997) Transmyocardial laser treatment denervates canine myocardium. J Thorac Cardiovasc Surg 114:883–889
Landreneau R, Nawarawong W, Laughlin H, Ripperger J, Brown O, McDaniel W, McKown D, Curtis J (1991) Direct CO2laser „revascularization“ of the myocardium. Lasers Surg Med 11:35–42
Lansing AM (1998) Syndrome X: relief by trans-myocardial revascularization. J Thorac Cardiovasc Surg 116:174–176
Lauer B, Junghans U, Stahl F, Kluge R, Oesterle SN, Schuler G (1999) Catheter-based percutaneous myocardial laser revascularization in patients with end-stage coronary artery disease. J Am Coll Cardiol 34:1663–1670
Leschke M, Schoebel FC, Stiegler H, Fischer Y, Schannwell CM, Strauer BE (1998) Antithrombotic therapy in chronic coronary syndromes - value of thrombocyte aggregation inhibition, anticoagulation and chronic thrombolysis. Z Kardiol 87 (suppl 2):145–151
Lewis FT (1904) The question of sinusoids. Anat Anzeiger 25:261–279
Lolley DM, Hewitt RL (1980) Myocardial distribution of asanguineous solutions retroperfused under low pressure through the coronary sinus. J Cardiovasc Surg Torino 21:287–294
Lutter G, Schwarzkopf J, Lutz C, Martin J, Beyersdorf F (1998) Histologic findings of transmyocardial laser channels after two hours. Ann Thorac Surg 65:1437–1439
Lutter G, Yoshitake M, Takahashi N, Nitzsche E, Martin J, Sarai K, Lutz C, Beyersdorf F (1998) Transmyocardial laser-revascularization: experimental studies on prolonged acute regional ischemia. Eur J Cardiothorac Surg 13:694–701
Mack CA, Magovern CJ (1996) Channel patency and neovascularization following transmyocardial laser revascularization using an eximer laser: results and comparisons to non-lased channels. Circulation 94:I-294–295
Maisch B, Funck R, Schonian U, Moosdorf R (1996) Indications for transmyocardial laser therapy. Z Kardiol 85 (Suppl 6):269–279
Malekan R, Reynolds C, Narula N, Kelley ST, Suzuki Y, Bridges CR (1998) Angiogenesis in trans-myocardial laser revascularization. A nonspecific response to injury. Circulation 98:II-62–65
Mannheimer C, Eliasson T, Augustinsson LE, Blomstrand C, Emanuelsson H, Larsson S, Norrsell H, Hjalmarsson A (1998) Electrical stimulation versus coronary artery bypass surgery in severe angina pectoris - the ESBY study. Circulation 97:1157–1163
March RJ (1997) Transmyocardial laser revascularization: current experience and future direction. J Clin Laser Med Surg 15:301–306
March RJ, Guynn T (1995) Cardiac allograft vasculopathy: the potential role for transmyocardial laser revascularization. J Heart Lung Transplant 14:S242–246
March RJ, Boyce S, Cooly DA (1997) Improved event survival following transmyocardial laser revascularization versus medical management in patients with unreconstructed coronary artery disease. The 77th Annual Meeting of the American Association of Thoracic Surgery: 94
Massimo C, Boffi L (1957) Myocardial revascularization by a new method of carrying blood directly from the left ventricular cavity into the coronary circulation. Thoracic Surg 34:257–264
McFadden PM, Robbins RJ, Ochsner JL, Van Meter CH, Majorie S (1998) Transmyocardial revascularization for cardiac transplantation allograft vasculopathy. J Thorac Cardiovasc Surg 115:1385–1388
Melzack R, Wall PD (1965) Pain mechanisms: a new theory. Science 150:971–979
Mirhoseini M, Cayton MM (1981) Revascularization of the heart by laser. J Micro Surg 2:253–260
Mirhoseini M, Cayton MM (1997) Transmyocardial laser revascularization: historical background and future directions. J Clin Laser Med Surg 15: 245–253
Mirhoseini M, Muckerheide M, Cayton MM (1982) Transventricular revascularisation by laser. Lasers Surg Med 2:187–198.
Mirhoseini M, Shelgikar S, Cayton MM (1988) New concepts in revascularization of the myocardium. Ann Thorac Surg 45:415–420
Mirhoseini M, Shelgikar D, Cayton MM (1993) Transmyocardial laser revascularization: a review. J Clin Laser Surg Med 11:15–19
Misfeld M, Szabo K, Kraatz EG, Grossherr M, Schmidtke C, Pilgrim M, Kuhnel W, Sievers HH (1998) Electron-microscopic findings after trans-myocardial laser revascularization in an acute ischemic pig model. Eur J Cardiothorac Surg 13: 398–403
Mueller XM, Tevaearai HH, Genton CY, Bettex D, von Segesser LK (1998) Transmyocardial laser revascularisation in acutely ischaemic myocardium Eur J Cardiothorac Surg 13:170–175
Müller GJ, Dorschel K, Schladach B (1998) Trans-myocardial laser revascularization: a matter of right wavelength. In: Klein M, Schulte HD, Gams E (eds) TMLR: Management of Coronary Artery Disease. Springer, Berlin pp 123–129
Murphy DF, Giles KE (1987) Dorsal column stimulation for pain relief from intractable angina pectoris Pain 28(3):365–368
Nagele HN, Stubbe HM, Nienaber C, Rodiger W (1998) Results of transmyocardial laser revascularization in non-revascularizable coronary artery disease after 3 years follow-up. Eur Heart J 19: 1525–1530
O’Connor WN, Cash JB, Cottrill CM, Johnnson GL, Noonan JA (1982) Ventriculocoronary connections in hypoplastic left hearts: an autopsy microscopic study. Circulation 66:1078–1086
O’Connor NJ, Morton JR, Birkmeyer JD, Olmstead EM, O’Connor GT (1996) Effect of coronary artery diameter in patients undergoing coronary bypass surgery. Northern New England Cardiovascular Disease Study Group. Circulation 93: 652–655
Oesterle SN, Reifart NJ, Meier B, Lauer B, Schuler GC (1998) Initial results of laser-based percutaneous myocardial revascularization for angina pectoris. Am J Cardiol 82:659–662, A6
Oh BH, Volpini M, Kambayashi M, Murata K, Rockman HA, Kassab GS, Ross J Jr (1992) Myocardial function and transmural blood flow during coronary venous retroperfusion in pigs. Circulation 86:1265–1279
Okada M, Shimizu K, Ikuta H, Horii H, Nakamura K (1991) A new method of myocardial revascularization by laser. Thorac Cardiovasc Surg 39:1–4
Pelletier MP, Giaid A, Sivaraman S, Dorfman J, Li CM, Philip A, Chiu RC (1998) Angiogenesis and growth factor expression in a model of transmyocardial revascularization. Ann Thorac Surg 66: 12–18
Przyklenk K, Vivaldi MT, Arnold JM, Schoen FJ, Kloner RA (1986) Capillary anastomoses between the left anterior descending and circumflex circulations in the canine heart: possible importance during coronary artery occlusion. Microvasc Res 31:54–65
Ratajczyk Pakalska E, Bloch P, Kulig A (1990) Angioarchitectonics of the venous vessels in the normal human myocardium. Folia Morphol Warsz 49:25–33
Rosinia FA, Low FN (1986) Scanning electron microscopy of Thebesian ostia (microdissection by ultrasonication:enzymatic digestion). Scan Electron Microsc 4:1363–1369
Sakariassen KS, Bolhuis PA, Sixma JJ (1979) Human blood platelet adhesion to artery subendothelium is mediated by factor VIII-von Wille-brand factor bound to the subendothelium. Nature 279:636–638
Schoebel FC, Jax TW, Fischer Y, Strauer BE, Leschke M (1997) Antithrombotic treatment in stable coronary syndromes: long-term intermittent urokinase therapy in end-stage coronary artery disease and refractory angina pectoris. Heart 77:13–17
Schweitzer W, Schneider J, Maass D, Hardmeier T (1997) Transmyocardial laser revascularization. Histopathology of laser channels in 10 postoperatively deceased patients 1 to 18 days after treatment with a CO2laser. Pathologe 18:374–384
Schweitzer W, Maass D, Schaepman M, Wagen M, Ranson D, Hardmeier T (1998) Digital 3D image reconstruction of ventriculocapillary communication as revealed in one case after transmyocardial laser revascularization. Pathol Res Pract 194:65–71
Sellke FW, Wang SY, Friedman M, Harada K, Edelman ER, Grossman W, Simons M (1994) Basic FGF enhances endothelium-dependent relaxation of the collateral-perfused coronary microcirculation. Am J Physiol 267:H1303–1311
Sellke FW, Li J, Stamler A, Lopez JJ, Thomas KA, Simons M (1996) Angiogenesis induced by acidic fibroblast growth factor as an alternative method of revascularization for chronic myocardial ischemia. Surgery 120:182–188
Sellke FW, Wang SY, Stamler A, Lopez JJ, Li J, Li J, Simons M (1996) Enhanced microvascular relaxations to VEGF and bFGF in chronically ischemic porcine myocardium. Am J Physiol 271:H713–720
Sen PK, Daulatram J, Kinare SG, Udwadia TE, Parulkar GB (1968) Further studies in multiple transmyocardial acupuncture as a method of myocardial revascularization. Surgery 64:861–870
Shofield PM, Scharples LD, Caine N (1999) Transmyocardial laser revascularization in patients with refractory angina: a randomized controlled trial. Lancet 353:519–524
Sigel JE, Abramovich CM, Lytle BW, Ratliff NB (1998) Transmyocardial laser revascularization: three sequential autopsy cases. J Thorac Cardiovasc Surg 115:1381–1385
Smith JA, Dunning JJ, Parry AJ, Large SR, Wallwork J (1995) Transmyocardial laser revascularization. J Card Surg 10:569–572
Stephan WJ, O’Keefe JH J, Piehler JM, McCallister BD, Dahiya RS, Shimshak TM, Ligon RW, Hartzler GO (1996) Coronary angioplasty versus repeat coronary artery bypass grafting for patients with previous bypass surgery. J Am Coll Cardiol 28:1140–1146
Thoma R (1911) Ober die Histomechanik des Gefäßsystems and die Pathogenese der Angiosklerose. Virch Arch Pathol Anat 204:1
Tomanek RJ (1996) Formation of the coronary vasculature: a brief review. Cardiovasc Res 31:E46–51
van Leeuwen TG, Borst C (1996) Fundamental laser-tissue interactions Semin Intery Cardiol 1:121–128
Vineberg AM (1954) Clinical and experimental studies in the treatment of coronary artery insufficiency by internal mammary artery implant. J Int Coll Surg 22:503–508
Vineberg AM, Baichwal KS, Myers J (1964) Treatment of acute myocardial infarction by epicardiectomy and free omental graft. Surgery 57:836–838
von Ludinghausen M, Ohmachi N, Besch S, Mettenleiter A (1995) Atrial veins of the human heart. Clin Anat 8:169–189
Wakabayashi A, Little ST Jr, Connolly JE (1967) Myocardial boring for the ischemic heart. Arch Surg 95:743–752
Walter P, Hundeshagen H, Borst HG (1971) Treatment of acute myocardial infarction by transmural blood supply from the ventricular cavity. Eur Surg Res 3:130–138
Wearn JT (1928) The role of the Thebesian vessels in the circulation of the heart. J Exp Med 47:293–316
Wearn JT, Mettier SR, Klumpp TG, Zschiesche IJ (1933) The nature of the vascular communications between the coronary arteries and the chambers of the heart. Am Heart J 9:143–164
Weber HP, Heinze A, Richter U, Ruprecht L, Zhuang S, Unsold E (1998) Transcatheter endomyocardial laser revascularization: a feasibility test. Thorac Cardiovasc Surg 46:74–76
White M, Hershey JE (1968) Multiple transmyocardial acupuncture revascularization in refrac-tory ventricular fibrillation due to myocardial ischemia. Ann Thorac Surg 6:557–563
White RA, Kopchok GE, Donayre CE, Peng SK, Fujitani RM, White GH, Uitto J (1988) Mechanism of tissue fusion in argon laser-welded vein-artery anastomoses. Lasers Surg Med 8:83–89
Whitlow PL, Knopf WD, O’Neill WW, Kaul L, Landero H, Shawl FA, Park T (1998) Percutaneous transmyocardial revascularization in patients with refractory angina. Circulation 98 (Suppl I):87
Whittaker P (1999) Transmyocardial revascularization: the fate of myocardial channels. Ann Thorac Surg 68:2376–2382
Whittaker P, Kloner RA, Przyklenk K (1993) Laser-mediated transmural myocardial channels do not salvage acutely ischemic myocardium. J Am Coll Cardiol 22:302–309
Whittaker P, Rakusan K, Kloner RA (1996) Transmural channels can protect ischemic tissue. Assessment of long-term myocardial response to laser-and needle-made channels. Circulation 93:143–152
Whittaker P, Spariosu K, Ho ZZ (1999) Success of transmyocardial laser revascularization is determined by the amount and organization of scar tissue produced in response to initial injury: results of ultraviolet laser treatment. Lasers Surg Med 24:253–260
Wittkampf FH, Hauer RN, Robles de Medina EO (1989) Control of radiofrequency lesion size by power regulation. Circulation 80:962–968
Yamamoto N, Kohmoto T, Gu A, DeRosa C, Smith CR, Burkhoff D (1998) Angiogenesis is enhanced in ischemic canine myocardium by trans-myocardial laser revascularization. J Am Coll Cardiol 31:1426–1433
Yano OJ, Bielefeld MR, Jeevanandam V, Treat MR, Marboe CC, Spotnitz HM, Smith CR (1993) Prevention of acute regional ischemia with endocardial laser channels. Ann Thorac Surg 56:46–53
Ziada AM, Hudlicka O, Tyler KR, Wright AI (1984) The effect of long-term vasodilatation on capillary growth and performance in rabbit heart and skeletal muscle. Cardiovasc Res 18:724
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 2002 Springer-Verlag Berlin Heidelberg
About this chapter
Cite this chapter
Dietz, U., Eick, O., Darius, H. (2002). Entwicklungsmöglichkeiten. In: Vallbracht, C., Roth, FJ., Strauss, A.L. (eds) Interventionelle Gefäßtherapie. Steinkopff, Heidelberg. https://doi.org/10.1007/978-3-642-57540-2_29
Download citation
DOI: https://doi.org/10.1007/978-3-642-57540-2_29
Publisher Name: Steinkopff, Heidelberg
Print ISBN: 978-3-642-63296-9
Online ISBN: 978-3-642-57540-2
eBook Packages: Springer Book Archive