Use of the TIMI frame count in the assessment of coronary artery blood flow and microvascular function over the past 15 years (original) (raw)

References

1. Gibson CM, Cannon CP, Daley WL, Dodge JT Jr, Alexander B Jr, Marble SJ, McCabe CH, Raymond L, Fortin T, Poole WK, Braunwald E (1996) TIMI frame count: a quantitative method of assessing coronary artery flow. Circulation 93:879–888
   PubMed CAS Google Scholar
2. Gibson CM, Safian RD (1991) Measurement of arterial dimensions: review of visual and quantitative angiographic techniques. J Invasive Cardiol 3:66–74
   PubMed CAS Google Scholar
3. Gibson CM, Sandor T, Stone PH, Pasternak RC, Rosner B, Sacks FM (1992) Quantitative angiographic and statistical methods to assess serial changes in coronary luminal diameter and implications for atherosclerosis regression trials. Am J Cardiol 69:1286–1290
   Article PubMed CAS Google Scholar
4. The TIMI study group (1985) Thrombolysis in Myocardial Infarction (TIMI) trial. New Engl J Med 312:932–936
   Google Scholar
5. Ross A, Neuhaus K, Ellis S (1995) Frequent lack of correspondence among core laboratories in assessing TIMI flow grade after reperfusion therapy. Circulation 92(suppl 1):I-345
   Google Scholar
6. Gibson CM, Ryan KA, Murphy SA, Mesley R, Marble SJ, Giugliano RP, Cannon CP, Antman EM, Braunwald E (1999) Impaired coronary blood flow in nonculprit arteries in the setting of acute myocardial infarction. The TIMI study group. Thrombolysis in myocardial infarction. J Am Coll Cardiol 34:974–982
   Article PubMed CAS Google Scholar
7. Tanedo J, Kelly R, Marquez M, Burns D, Klein L, Costanzo M, Parrillo J, Hollenberg S (2001) Assessing coronary blood flow dynamics with the TIMI frame count method: comparison with simultaneous intracoronary Doppler and ultrasound. Catheter Cardio Inte 53:459–463
   Article CAS Google Scholar
8. Stoel M, Zijlstra F, Visser C (2003) Frame count reserve. Circulation 107:3034–3039
   Article PubMed Google Scholar
9. Vijayalakshmi K, Ashton V, Wright R, Hall J, Stewart M, Davies A, de Belder M (2004) Corrected TIMI frame count: applicability in modern digital catheter laboratories when different frame acquisition rates are used. Catheter Cardio Inte 63:426–432
   Article Google Scholar
10. Al-Mousa EN, Dodge JT Jr, Rizzo M, McLean C, Ryan K, Moynihan J, Kelley M, Marble SJ, Goel M, Daley WL, Gibson CM (1998) Thrombolysis in myocardial infarction frame count in saphenous vein grafts. Am Heart J 135:323–328
    Article PubMed CAS Google Scholar
11. Abaci A, Oguzhan A, Eryol N, Ergin A (1999) Effect of potential confounding factors on the Thrombolysis in Myocardial Infarction (TIMI) trial frame count and its reproducibility. Circulation 100:2219–2223
    PubMed CAS Google Scholar
12. Vijayalakshmi K, Kunadian B, Whittaker VJ, Wright RA, Hall JA, Somasundram U, Stewart MJ, Sutton A, Davies A, de Belder MA (2007) Impact of catheter sizes and intracoronary glyceryl trinitrate on the TIMI frame count when digital angiograms are acquired at lower frame rates during elective angiography and PCI. Acute Card Care 9(4):231–238
    Google Scholar
13. Faile B, Guzzo J, Tate D, Nichols T, Smith S, Dehmer G (2000) Effect of sex, hemodynamics, body size, and other clinical variables on the corrected thrombolysis in myocardial infarction frame count used as an assessment of coronary blood flow. Am Heart J 140:308–314
    Article PubMed CAS Google Scholar
14. Dodge JT Jr, Rizzo M, Nykiel M, Altmann J, Hobkirk K, Brennan M, Gibson CM (1998) Impact of injection rate on the Thrombolysis in Myocardial Infarction (TIMI) trial frame count. Am J Cardiol 81:1268–1270
    Article PubMed Google Scholar
15. Gibson CM, Anshelevich M, Murphy S, Luu L, Hynes C, Kliris J, Kermgard S, Otten MH, Antman EM, Cannon CP, Braunwald E (2000) Impact of injections during diagnostic coronary arteriography on coronary patency in the setting of acute myocardial infarction from the TIMI trials. Thrombolysis in myocardial infarction. Am J Cardiol 86:1378–1379, A5
    Article PubMed CAS Google Scholar
16. Gibson CM, Kirtane AJ, Murphy SA, Marble SJ, de Lemos JA, Antman EM, Braunwald E (2001) Impact of contrast agent type (ionic versus nonionic) used for coronary angiography on angiographic, electrocardiographic, and clinical outcomes following thrombolytic administration in acute myocardial infarction. Catheter Cardiovasc Interv 53:6–11
    Article PubMed CAS Google Scholar
17. Gould K, Lipscomb K, Hamilton G (1974) Physiologic basis for assessing critical coronary stenosis: instantaneous flow response and regional distribution during coronary hyperaemia as measure of coronary flow reserve. Am J Cardiol 33:87–94
    Article PubMed CAS Google Scholar
18. Doucette J, Corl P, Payne H (1992) Validation of Doppler guide wire for intravascular measurements of coronary artery flow velocity. Circulation 85:1899–1891
    PubMed CAS Google Scholar
19. Hartley C (1989) Review of intracoronary Doppler catheters. Int J Cardiac Imag 4:159–168
    Article CAS Google Scholar
20. Manginas AM, Gatzov PM, Chasikidis CM, Voudris VM, Pavlides GM, Cokkinos D (1999) Estimation of coronary flow reserve using the Thrombolysis In Myocardial Infarction (TIMI) frame count method.[report]. Am J Cardiol 83:1562–1565
    Article PubMed CAS Google Scholar
21. Gibson CM, Dodge JT Jr, Goel M, Al-Mousa EN, Rizzo M, McLean C, Ryan K, Sparano A, Marble SJ, Daley WL, Cannon CP, Antman EM (1997) Angioplasty guidewire velocity: a new simple method to calculate absolute coronary blood velocity and flow. Am J Cardiol 80:1536–1539
    Article PubMed CAS Google Scholar
22. Wong GC, Frisch D, Murphy SA, Sabatine MS, Pai R, James D, Kraimer N, Katsiyiannis PT, Marble SJ, DiBattiste PM, Demopoulos LA, Gourlay SG, Barron HV, Cannon CP, Gibson CM (2003) Time for contrast material to traverse the epicardial artery and the myocardium in ST-segment elevation acute myocardial infarction versus unstable angina pectoris/non-ST-elevation acute myocardial infarction. Am J Cardiol 91:1163–1167
    Article PubMed Google Scholar
23. Perez de PA, Fernandez-Vazquez F, Cuellas-Ramon JC, Iglesias-Garriz I (2005) Coronary clearance frame count: a new index of microvascular perfusion. J Thromb Thrombolysis 19:97–100
    Article Google Scholar
24. Gibson CM, Murphy SA, Rizzo MJ, Ryan KA, Marble SJ, McCabe CH, Cannon CP, Van de Werf F, Braunwald E (1999) Relationship between TIMI frame count and clinical outcomes after thrombolytic administration. Thrombolysis In Myocardial Infarction (TIMI) study group. Circulation 99:1945–1950
    PubMed CAS Google Scholar
25. Hamada S, Nishiue T, Nakamura S, Sugiura T, Kamihata H, Miyoshi H, Imuro Y, Iwasaka T (2001) TIMI frame count immediately after primary coronary angioplasty as a predictor of functional recovery in patients with TIMI 3 reperfused acute myocardial infarction. J Am Coll Cardiol 38:666–671
    Article PubMed CAS Google Scholar
26. Gibson CM, Dotani MI, Murphy SA, Marble SJ, Dauterman KW, Michaels AD, Dodge JT Jr (2002) Correlates of coronary blood flow before and after percutaneous coronary intervention and their relationship to angiographic and clinical outcomes in the RESTORE trial. Randomized Efficacy Study of Tirofiban for Outcomes and REstenosis. Am Heart J 144:130–135
    Article PubMed Google Scholar
27. Vijayalakshmi K, Kunadian B, Whittaker VJ, Williams D, Wright RA, Sutton AG, Hall JA, de Belder MA (2007) The impact of chronically diseased coronary arteries and stenting on the corrected TIMI frame count in elective coronary angiography and percutaneous coronary intervention procedures. Catheter Cardiovasc Interv 70:691–700
    Article PubMed Google Scholar
28. Stankovic G, Manginas A, Voudris V, Pavlides G, Athanassopoulos G, Ostojic M, Cokkinos D (2000) Prediction of restenosis after coronary angioplasty by use of a new index: TIMI frame count/minimal luminal diameter ratio. Circulation 101:962–968
    PubMed CAS Google Scholar
29. Sahin M, Basoglu T, Canbaz F, Elcik M, Kosus A (2002) The value of the TIMI frame count method in the diagnosis of coronary no-reflow: a comparison with myocardial perfusion SPECT in patients with acute myocardial infarction. Nucl Med Commun 23:1205–1210
    Article PubMed CAS Google Scholar
30. Umman B, Nisanci Y, Sezer M, Umman S, Yilmaz E, Oflaz H, Ozsaruhan O (2002) The relationship between corrected TIMI frame count and myocardial fractional flow reserve. J Invasive Cardiol 14:125–128
    PubMed Google Scholar
31. Lee S, Otsuji Y, Minagoe S, Hamasaki S, Toyonaga K, Obata H, Takumi T, Arimura H, Miyata M, Biro S, Toda H, Tei C (2005) Correlation between distal left anterior descending artery flow velocity by transthoracic Doppler echocardiography and corrected TIMI frame count before mechanical reperfusion in patients with anterior acute myocardial infarction. Circ J 69:1022–1028
    Article PubMed Google Scholar
32. Mavrogeni SI, Manginas A, Papadakis E, Douskou M, Cokkinos D, Katsiva V, Foussas S, Voudris V, Giakoumelos A, Seimenis I, Baras P, Cokkinos DV (2005) Coronary flow evaluation by TIMI frame count and magnetic resonance flow velocity in patients with coronary artery ectasia. J Cardiovasc Magn Reson 7:545–550
    Article PubMed Google Scholar
33. Ozdemir N, Kaymaz C, Kirma C, Akcay M, Yuce M, Turan F, Ozkan M (2003) Intravascular ultrasound correlates of corrected TIMI framecount. Jpn Heart J 44:213–224
    Article PubMed Google Scholar
34. Yilmaz R, Demirbag R (2005) P-wave dispersion in patients with stable coronary artery disease and its relationship with severity of the disease. J Electrocardiol 38:279–284
    Article PubMed Google Scholar
35. Dilaveris PE, Andrikopoulos GK, Metaxas G, Richter DJ, Avgeropoulou CK, Androulakis AM, Gialafos EJ, Michaelides AP, Toutouzas PK, Gialafos JE (1999) Effects of ischemia on P wave dispersion and maximum P wave duration during spontaneous anginal episodes. Pacing Clin Electrophysiol 22:1640–1647
    Article PubMed CAS Google Scholar
36. Dogan SM, Yildirim N, Gursurer M, Aydin M, Kalaycioglu E, Cam F (2006) P-wave duration and dispersion in patients with coronary slow flow and its relationship with thrombolysis in myocardial infarction frame count. J Electrocardiol 41(1):55–59
    Google Scholar
37. Lee SG, Cheong JP, Shin JK, Kim JW, Park JH (2002) Persistent ST-segment elevation after primary stenting for acute myocardial infarction: its relation to left ventricular recovery. Clin Cardiol 25:372–377
    Article PubMed CAS Google Scholar
38. Gardner GS, Frisch DR, Murphy SA, Kirtane AJ, Giugliano RP, Antman EM, Braunwald E, Gibson CM (2004) Effect of rescue or adjunctive percutaneous coronary intervention of the culprit artery after fibrinolytic administration on epicardial flow in nonculprit arteries. Am J Cardiol 94:178–181
    Article PubMed Google Scholar
39. Gibson CM, Goel M, Murphy SA, Dotani I, Marble SJ, Deckelbaum LI, Dodge JT, King SB III (2000) Global impairment of coronary blood flow in the setting of acute coronary syndromes (a RESTORE substudy). Randomized Efficacy Study of Tirofiban for Outcomes and REstenosis. Am J Cardiol 86:1375–1377, A5
    Article PubMed CAS Google Scholar
40. Gibson CM, Chen M, Angeja BG, Murphy SA, Marble SJ, Barron HV, Cannon CP (2002) Precordial ST-segment depression in inferior myocardial infarction is associated with slow flow in the non-culprit left anterior descending artery. J Thromb Thrombolysis 13:9–12
    Article PubMed Google Scholar
41. Murphy SA, Chen C, Gourlay SG, Gibbons RJ, Barron HV, Gibson CM (2003) Impairment of myocardial perfusion in both culprit and nonculprit arteries in acute myocardial infarction: a LIMIT AMI substudy. Am J Cardiol 91:325–328
    Article PubMed Google Scholar
42. Heusch G (1990) Alpha-adrenergic mechanisms in myocardial ischemia. Circulation 81:1–13
    PubMed CAS Google Scholar
43. Gregorini LM, Marco JM, Kozakova MM, Palombo CM, Anguissola GBM, Marco IM, Bernies MM, Cassagneau BM, Distante AM, Bossi I (1999) Alpha-adrenergic blockade improves recovery of myocardial perfusion and function after coronary stenting in patients with acute myocardial infarction.[article]. Circulation 99:482–490
    PubMed CAS Google Scholar
44. Gregorini L, Marco J, Farah B, Bernies M, Palombo C, Kozakova M, Bossi IM, Cassagneau B, Fajadet J, Di MC, Albiero R, Cugno M, Grossi A, Heusch G (2002) Effects of selective alpha1- and alpha2-adrenergic blockade on coronary flow reserve after coronary stenting. Circulation 106:2901–2907
    Article PubMed CAS Google Scholar
45. Yetkin E, Turhan H, Erbay AR, Aksoy Y, Senen K (2005) Increased thrombolysis in myocardial infarction frame count in patients with myocardial infarction and normal coronary arteriogram: a possible link between slow coronary flow and myocardial infarction. Atherosclerosis 181:193–199
    Article PubMed CAS Google Scholar
46. Barutcu I, Turkmen M, Sezgin AT, Gullu H, Esen AM, Karakaya O, Saglam M, Basaran Y (2005) Increased thrombolysis in myocardial infarction (TIMI) frame count in patients with aortic stenosis but normal coronary arteries. Heart Vessels 20:108–111
    Article PubMed Google Scholar
47. Turhan H, Erbay AR, Yasar AS, Bicer A, Sasmaz H, Yetkin E (2004) Impaired coronary blood flow in patients with metabolic syndrome: documented by Thrombolysis in Myocardial Infarction (TIMI) frame count method. Am Heart J 148:789–794
    Article PubMed Google Scholar
48. Papadakis MC, Manginas A, Cotileas P, Demopoulos V, Voudris V, Pavlides G, Foussas SG, Cokkinos DV (2001) Documentation of slow coronary flow by the TIMI frame count in patients with coronary ectasia. Am J Cardiol 88:1030–1032
    Article PubMed CAS Google Scholar
49. Baris N, Sipahi I, Kapadia SR, Nicholls SJ, Erinc K, Gulel O, Crowe TD, Hobbs R, Yamani MH, Taylor DO, Smedira N, Starling RC, Nissen SE, Tuzcu EM (2007) Coronary angiography for follow-up of heart transplant recipients: insights from TIMI frame count and TIMI myocardial perfusion grade. J Heart Lung Transplant 26:593–597
    Article PubMed Google Scholar
50. Fang JC, Kinlay S, Wexberg P, Amirzadeh A, Gibson CM, Selwyn AP, Ganz P (2000) Use of the thrombolysis in myocardial infarction frame count for the quantitative assessment of transplant-associated arteriosclerosis. Am J Cardiol 86:890–892
    Article PubMed CAS Google Scholar
51. Kelly RF, Sompalli V, Sattar P, Khankari K (2003) Increased TIMI frame counts in cocaine users: a case for increased microvascular resistance in the absence of epicardial coronary disease or spasm. Clin Cardiol 26:319–322
    Article PubMed Google Scholar
52. Weber JE, Hollander JE, Murphy SA, Braunwald E, Gibson CM (2002) Quantitative comparison of coronary artery flow and myocardial perfusion in patients with acute myocardial infarction in the presence and absence of recent cocaine use. J Thromb Thrombolysis 14:239–245
    Article PubMed Google Scholar
53. Erbay AR, Turhan H, Senen K, Yetkin O, Yasar AS, Sezgin AT, Atak R, Cehreli S, Yetkin E (2004) Documentation of slow coronary flow by the thrombolysis in myocardial infarction frame count in habitual smokers with angiographically normal coronary arteries. Heart Vessels 19:271–274
    Article PubMed Google Scholar
54. Barutcu I, Sezgin AT, Gullu H, Turkmen M, Esen AM (2007) Assessing coronary blood flow with TIMI frame count method in isolated myocardial bridging. Angiology 58:283–288
    Article PubMed Google Scholar
55. Yasar AS, Turhan H, Erbay AR, Karabal O, Bicer A, Sasmaz H, Yetkin E (2005) Assessment of coronary blood flow in hypertrophic cardiomyopathy using thrombolysis in myocardial infarction frame count method. J Invasive Cardiol 17:73–76
    PubMed Google Scholar
56. Zalewski J, Zmudka K, Musialek P, Zajdel W, Pieniazek P, Kadzielski A, Przewlocki T (2004) Detection of microvascular injury by evaluating epicardial blood flow in early reperfusion following primary angioplasty. Int J Cardiol 96:389–396
    Article PubMed Google Scholar
57. Sun H, Fukumoto Y, Ito A, Shimokawa H, Sunagawa K (2005) Coronary microvascular dysfunction in patients with microvascular angina: analysis by TIMI frame count. J Cardiovasc Pharmacol 46:622–626
    Article PubMed CAS Google Scholar
58. Sezgin AT, Sigirci A, Barutcu I, Topal E, Sezgin N, Ozdemir R, Yetkin E, Tandogan I, Kosar F, Ermis N, Yologlu S, Bariskaner E, Cehreli S (2003) Vascular endothelial function in patients with slow coronary flow. Coron Artery Dis 14:155–161
    Article PubMed Google Scholar
59. Pekdemir H, Cicek D, Camsari A, Akkus MN, Cin VG, Doven O, Parmaksiz HT, Katircibasi MT, Ozcan IT (2004) The relationship between plasma endothelin-1, nitric oxide levels, and heart rate variability in patients with coronary slow flow. Ann Noninvasive Electrocardiol 9:24–33
    Article PubMed Google Scholar
60. Turhan H, Saydam GS, Erbay AR, Ayaz S, Yasar AS, Aksoy Y, Basar N, Yetkin E (2006) Increased plasma soluble adhesion molecules; ICAM-1, VCAM-1, and E-selectin levels in patients with slow coronary flow. Int J Cardiol 108:224–230
    Article PubMed Google Scholar
61. Barutcu I, Sezgin AT, Sezgin N, Gullu H, Esen AM, Topal E, Ozdemir R (2005) Elevated plasma homocysteine level in slow coronary flow. Int J Cardiol 101:143–145
    Article PubMed Google Scholar
62. Selcuk MT, Selcuk H, Temizhan A, Maden O, Ulupinar H, Baysal E, Ozeke O, Sasmaz A (2007) Asymmetric dimethylarginine plasma concentrations and L-arginine/asymmetric dimethylarginine ratio in patients with slow coronary flow. Coron Artery Dis 18:545–551
    Article PubMed Google Scholar
63. Li JJ, Qin XW, Li ZC, Zeng HS, Gao Z, Xu B, Zhang CY, Li J (2007) Increased plasma C-reactive protein and interleukin-6 concentrations in patients with slow coronary flow. Clin Chim Acta 385:43–47
    Article PubMed CAS Google Scholar
64. Schafer U, Kurz T, Jain D, Hartmann F, Dendorfer A, Tolg R, Raasch W, Dominiak P, Katus H, Richardt G (2002) Impaired coronary flow and left ventricular dysfunction after mechanical recanalization in acute myocardial infarction: role of neurohumoral activation? Basic Res Cardiol 97:399–408
    Article PubMed Google Scholar
65. Yazici M, Demircan S, Durna K, Sahin M (2007) The role of adrenergic activity in slow coronary flow and its relationship to TIMI frame count. Angiology 58:393–400
    Article PubMed CAS Google Scholar
66. Edep M, Guarneri E, Teirstein P, Brown D (1999) Differences in TIMI frame count following successful reperfusion with stenting or percutaneous transluminal coronary angioplasty for acute myocardial infarction. Am J Cardiol 83:1326–1329
    Article PubMed CAS Google Scholar
67. Ozdemir R, Sezgin AT, Barutcu I, Topal E, Gullu H, Acikgoz N (2006) Comparison of direct stenting versus conventional stent implantation on blood flow in patients with ST-segment elevation myocardial infarction. Angiology 57:453–458
    Article PubMed Google Scholar
68. Capozzolo C, Piscione F, De Luca G, Cioppa A, Mazzarotto P, Leosco D, Golino P, Indolfi C, Chiariello M (2001) Direct coronary stenting: effect on coronary blood flow, immediate and late clinical results. Catheter Cardiovasc Interv 53:464–473
    Article PubMed CAS Google Scholar
69. Loubeyre C, Morice MC, Lefevre T, Piechaud JF, Louvard Y, Dumas P (2002) A randomized comparison of direct stenting with conventional stent implantation in selected patients with acute myocardial infarction. J Am Coll Cardiol 39:15–21
    Article PubMed Google Scholar
70. Beran GM, Lang IM, Schreiber WM, Denk SM, Stefenelli TM, Syeda BM, Maurer GM, Glogar DMF, Siostrzonek PM (2002) Intracoronary thrombectomy with the X-Sizer catheter system improves epicardial flow and accelerates ST-segment resolution in patients with acute coronary syndrome: a prospective, randomized, controlled study.[report]. Circulation 105:2355–2360
    Article PubMed Google Scholar
71. Margheri M, Vittori G, Chechi T, Falchetti E, Cosgrave J, Spaziani G, Ricceri I, Giglioli C, Valente S, Gensini GF (2007) Thrombus aspiration with export catheter in ST elevation myocardial infarction. J Interv Cardiol 20:38–43
    Article PubMed Google Scholar
72. Bartorelli AL, Koh TH, Di Pede F, Reimers B, Thuesen L, Amann FW, Fabbiocchi F, Suryapranata H (2006) Distal embolic protection during percutaneous coronary intervention in patients with acute coronary syndromes: the RUBY study. Acute Card Care 8:148–154
    PubMed Google Scholar
73. Stone G, Webb J, Cox D, Brodie B, Quereshi M, Lalynych A, Turco M, Schultheiss H, Dulas D, Rutherford B, Antoniucci D, Krucoff M, Gibbons R, Jones D, Lansky A, Mehran R, for the Enhanced Myocardial Efficacy, Recovery by Aspiration of Liberated Debris (EMERALD) Investigators (2005) Distal Microcirculatory protection during percutaneous coronary intervention in acute ST-segment elevation myocardial infarction. JAMA 293:1063–1072
74. Dudek D, Mielecki W, Legutko J, Chyrchel M, Sorysz D, Bartus S, Rzeszutko L, Dubiel JS (2004) Percutaneous thrombectomy with the RESCUE system in acute myocardial infarction. Kardiol Pol 61:523–533
    PubMed Google Scholar
75. Vijayalakshmi K, Kunadian B, Wright RA, Sutton AG, Hall JA, de Belder MA (2006) Successful thrombus extraction with the rescue thrombus management system during acute percutaneous coronary intervention improves flow but does not necessarily restore optimal myocardial tissue perfusion. Catheter Cardiovasc Interv 67:879–886
    Article PubMed Google Scholar
76. Limbruno U, Micheli A, De Carlo M, Amoroso G, Rossini R, Palagi C, Di Bello V, Petronio AS, Fontanini G, Mariani M (2003) Mechanical prevention of distal embolization during primary angioplasty: safety, feasibility, and impact on myocardial reperfusion. Circulation 108:171–176
    Article PubMed Google Scholar
77. Silva-Orrego P, Colombo P, Bigi R, Gregori D, Delgado A, Salvade P, Oreglia J, Orrico P, de Biase A, Piccalo G, Bossi I, Klugmann S (2006) Thrombus aspiration before primary angioplasty improves myocardial reperfusion in acute myocardial infarction: the DEAR-MI (Dethrombosis to Enhance Acute Reperfusion in Myocardial Infarction) study. J Am Coll Cardiol 48:1552–1559
    Article PubMed Google Scholar
78. Dorr M, Vogelgesang D, Hummel A, Staudt A, Robinson DM, Felix SB, Dahm JB (2007) Excimer laser thrombus elimination for prevention of distal embolization and no-reflow in patients with acute ST elevation myocardial infarction: results from the randomized LaserAMI study. Int J Cardiol 116:20–26
    Article PubMed Google Scholar
79. Vijayalakshmi K, Kunadian B, Whittaker VJ, Wright RA, Hall JA, Sutton A, Muir D, de Belder MA (2007) Intra-aortic counterpulsation does not improve coronary flow early after PCI in a high-risk group of patients: observations from a randomized trial to explore its mode of action. J Invasive Cardiol 19:339–346
    PubMed Google Scholar
80. Petronio AS, Rovai D, Musumeci G, Baglini R, Nardi C, Limbruno U, Palagi C, Volterrani D, Mariani M (2003) Effects of abciximab on microvascular integrity and left ventricular functional recovery in patients with acute infarction treated by primary coronary angioplasty. Eur Heart J 24:67–76
    Article PubMed CAS Google Scholar
81. Gabriel HM, Oliveira JA, da Silva PC, da Costa JM, da Cunha JA (2006) Early administration of abciximab bolus in the emergency department improves angiographic outcome after primary PCI as assessed by TIMI frame count: results of the early ReoPro administration in myocardial infarction (ERAMI) trial. Catheter Cardiovasc Interv 68:218–224
    Article PubMed Google Scholar
82. Gibson CM, Morrow DA, Murphy SA, Palabrica TM, Jennings LK, Stone PH, Lui HH, Bulle T, Lakkis N, Kovach R, Cohen DJ, Fish P, McCabe CH, Braunwald E (2006) A randomized trial to evaluate the relative protection against post-percutaneous coronary intervention microvascular dysfunction, ischemia, and inflammation among antiplatelet and antithrombotic agents: the PROTECT-TIMI-30 trial. J Am Coll Cardiol 47:2364–2373
    Article PubMed CAS Google Scholar
83. Gibson CM, Cohen DJ, Cohen EA, Lui HK, Murphy SA, Marble SJ, Kitt M, Lorenz T, Tcheng JE (2001) Effect of eptifibatide on coronary flow reserve following coronary stent implantation (an ESPRIT substudy). Enhanced suppression of the platelet IIb/IIIa receptor with integrilin therapy. Am J Cardiol 87:1293–1295
    Article PubMed CAS Google Scholar
84. Romagnoli E, Burzotta F, Trani C, Mazzari MA, Biondi-Zoccai GG, De VM, Giannico F, Niccoli G, Prati F, Rebuzzi AG, Mongiardo R, Crea F (2005) Angiographic evaluation of the effect of intracoronary abciximab administration in patients undergoing urgent PCI. Int J Cardiol 105:250–255
    Article PubMed Google Scholar
85. Vijayalakshmi K, Whittaker VJ, Kunadian B, Graham J, Wright RA, Hall JA, Sutton A, de Belder MA (2006) Prospective, randomised, controlled trial to study the effect of intracoronary injection of verapamil and adenosine on coronary blood flow during percutaneous coronary intervention in patients with acute coronary syndromes. Heart 92:1278–1284
    Article PubMed CAS Google Scholar
86. Marzilli M, Orsini E, Marraccini P, Testa R (2000) Beneficial effects of intracoronary adenosine as an adjunct to primary angioplasty in acute myocardial infarction. Circulation 101:2154–2159
    PubMed CAS Google Scholar
87. Michaels AD, Appleby M, Otten MH, Dauterman K, Ports TA, Chou TM, Gibson CM (2002) Pretreatment with intragraft verapamil prior to percutaneous coronary intervention of saphenous vein graft lesions: results of the randomized, controlled vasodilator prevention on no-reflow (VAPOR) trial. J Invasive Cardiol 14:299–302
    PubMed Google Scholar
88. Beltrame JF, Turner SP, Leslie SL, Solomon P, Freedman SB, Horowitz JD (2004) The angiographic and clinical benefits of mibefradil in the coronary slow flow phenomenon. J Am Coll Cardiol 44:57–62
    Article PubMed CAS Google Scholar
89. Huang RI, Patel P, Walinsky P, Fischman DL, Ogilby JD, Awar M, Frankil C, Savage MP (2006) Efficacy of intracoronary nicardipine in the treatment of no-reflow during percutaneous coronary intervention. Catheter Cardiovasc Interv 68:671–676
    Article PubMed Google Scholar
90. Ishii H, Ichimiya S, Kanashiro M, Amano T, Imai K, Murohara T, Matsubara T (2005) Impact of a single intravenous administration of nicorandil before reperfusion in patients with ST-segment-elevation myocardial infarction. Circulation 112:1284–1288
    Article PubMed CAS Google Scholar
91. Lim SY, Bae EH, Jeong MH, Kang DG, Lee YS, Kim KH, Lee SH, Yoon KH, Hong SN, Park HW, Hong YJ, Kim JH, Kim W, Ahn YK, Cho JG, Park JC, Kang JC (2004) Effect of combined intracoronary adenosine and nicorandil on no-reflow phenomenon during percutaneous coronary intervention. Circ J 68:928–932
    Article PubMed CAS Google Scholar
92. Cakmak M, Tanriverdi H, Cakmak N, Evrengul H, Cetemen S, Kuru O (2007) Simvastatin may improve myocardial perfusion abnormality in slow coronary flow. Cardiology 110:39–44
    Article PubMed CAS Google Scholar
93. Fearon WF, Balsam LB, Farouque HM, Caffarelli AD, Robbins RC, Fitzgerald PJ, Yock PG, Yeung AC (2003) Novel index for invasively assessing the coronary microcirculation. Circulation 107:3129–3132
    Article PubMed Google Scholar
94. Aarnoudse W, van den Berg P, van de Vosse F, Geven M, Rutten M, Van Turnhout M, Fearon W, de Bruyne B, Pijls N (2004) Myocardial resistance assessed by guidewire-based pressure-temperature measurement: in vitro validation. Catheter Cardiovasc Interv 62(1):56–63
    Article PubMed Google Scholar
95. Siebes M, Verhoeff BJ, Meuwissen M, de Winter RJ, Spaan JA, Piek JJ (2004) Single-wire pressure and flow velocity measurement to quantify coronary stenosis hemodynamics and effects of percutaneous interventions. Circulation 109:756–762
    Article PubMed Google Scholar

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