应用组织速度成像技术评价慢性心力衰竭患者左室收缩同步性
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摘要
第一部分慢性心力衰竭患者左室收缩后收缩的初步研究
目的研究慢性心力衰竭(chronic heart failure,CHF)患者在等容舒张期出现的左心室壁收缩后收缩(post–systolic shortening,PSS)现象和临床意义。
方法利用组织速度成像技术(tissue velocity imaging,TVI)检测60例CHF患者及30例正常对照组的心肌运动,应用QLAB分析软件测量左心室各壁基底段和中段心肌收缩期峰值速度(systolic peak velocity,Vs)、持续时间(regional systolic time,Ts)及PSS峰值速度(post-systolic shortening velocity,Vpss)、持续时间(post-systolic shortening time,Tpss)。
结果CHF组基底段和中间段在等容舒张期PSS的发生率均为34%,其中病理性PSS的发生率分别为29%、30%。对照组基底段和中间段在等容舒张期PSS的发生率分别为27%、21%,无一例发生病理性PSS。与对照组的生理性PSS相比CHF组的病理性PSS峰值速度增高、持续时间延长(P <0.05~0.01)。
结论CHF患者的病理性PSS与对照组的生理性PSS有明显差别,病理性PSS峰值速度高、持续时间长,可能是导致CHF患者左心室不同步运动的原因之一。
第二部分应用组织速度成像技术评价不同QRS间期慢性心力衰竭患者左室收缩同步性
目的应用组织速度成像(Tissue velocity imaging,TVI)技术评价不同QRS时限慢性心力衰竭患者(chronic heart failure,CHF)左室收缩的同步性。
方法选择40例纽约心脏病学会(NYHA)分级心功能Ⅲ~Ⅳ级的慢性心力衰竭患者,其中QRS时限<120ms者17例,QRS时限≥120ms者23例,以及30例正常人,均接受组织多普勒检查。TVI模式下测量12个节段从QRS波群起始部到射血期峰值的时间(time to peak systolic,Ts),计算标准差(Ts-SD-12)。将左室Ts-SD-12>32.6ms作为左室内收缩不同步的指标。统计各组收缩不同步性的发生率。
结果本研究发现不同QRS间期心力衰竭患者均存在不同程度的左室收缩运动的不同步,其中QRS时限<120ms的心力衰竭患者中有29.41%患者存在收缩不同步,而QRS时限≥120ms者中有78.26%患者存在收缩不同步,二者差异有统计学意义( P<0.01)。
结论心力衰竭患者无论QRS时限长短均存在一定比例的左室收缩运动不同步,QRS时限长者,不同步的发生率高。组织速度成像技术可比QRS时限更敏感地反映心脏运动的同步性,可为心脏再同步化治疗(CRT)选择合适的人群。
PART one Preliminary study of the post-systolic shortening of left ventricular wall in chronic heart failure patients
Objective To study the post-systolic shortening (PSS) during isovolumic relaxation phase and its clinical meanings in regional myocardium in chronic heart failure (CHF) patients.
Methods Left ventricular regional myocardium movement in 60 CHF patients (CHF group) and 30 normal persons (control group) were assessed by Tissue Velocity Imaging (TVI). Qlab software was used to measure the systolic peak velocity (Vs), regional systolic time (Ts), post-systolic shortening velocity (Vpss) and post-systolic shortening time (Tpss) at the basal and middle levels of left ventricle.
Results In CHF group, the rate of isovolumic relaxation phase PSS was 34% both in basal and mid segments, the rates of pathological PSS were 29% and 30% respectively. The rates of isovolumic relaxation phase PSS in basal and mid segments in normal persons were 27% and 21%, none of them was pathological. Compared with the physiological PSS of control group, the pathological PSS of CHF group had a higher peak velocity and a longer time(P<0.05-0.01).
Conclusion The pathological PSS of CHF group is obviously different from the physiological PSS of control group. The peak velocities of pathological PSS is higher and the duration is longer, it may be one of causes which lead to the asynchronous movement of left ventricle in CHF group.
PART two Assessment of left ventricular systolic synchrony in heart failure patients with normal and wide QRS duration using tissue velocity imaging
Objective To evaluate the prevalence of Synchrony in heart failure patients with difference QRS duration using tissue velocity imaging.
Methods Forty heart failure patients with idiopathic dilated cardiomyopathy (23 with wide QRS complex , 17 with normal QRS complex) underwent standard tissue velocity imaging examinations. TVI was used to measure the standard deviation of the time to regional peak systolic velocity (Ts) of 12 LV segments in ejection phase (Ts-SD-12- ejection). Intraventricular dyssynchrony was defined as a delay of 32.6ms of Ts-SD-12.The incidence of dyssynchrony between two groups was compared.
Results The study found that all the patients with different QRS duration had synchronized left ventricular systolic movement.Dyssynchrony was observed in 29.41% heart failure patients with normal QRS complex versus 78.26% patients with wide QRS complex.There was a significant difference between the prevalence of dyssynchrony derived from echo criteria in two groups ( P<0.05-0.01).
Conclusion Dyssynchrony is commonly seen in patients with chronic heart failure regardless of QRS duration. The prevalence of dyssynchrony is significantly related to QRS duration. Tissue velocity imaging technique is more sensitive than the QRS duration to evaluate the dyssynchrony,and could be used to choose suitable patients for CRT.
目的研究慢性心力衰竭(chronic heart failure,CHF)患者在等容舒张期出现的左心室壁收缩后收缩(post–systolic shortening,PSS)现象和临床意义。
方法利用组织速度成像技术(tissue velocity imaging,TVI)检测60例CHF患者及30例正常对照组的心肌运动,应用QLAB分析软件测量左心室各壁基底段和中段心肌收缩期峰值速度(systolic peak velocity,Vs)、持续时间(regional systolic time,Ts)及PSS峰值速度(post-systolic shortening velocity,Vpss)、持续时间(post-systolic shortening time,Tpss)。
结果CHF组基底段和中间段在等容舒张期PSS的发生率均为34%,其中病理性PSS的发生率分别为29%、30%。对照组基底段和中间段在等容舒张期PSS的发生率分别为27%、21%,无一例发生病理性PSS。与对照组的生理性PSS相比CHF组的病理性PSS峰值速度增高、持续时间延长(P <0.05~0.01)。
结论CHF患者的病理性PSS与对照组的生理性PSS有明显差别,病理性PSS峰值速度高、持续时间长,可能是导致CHF患者左心室不同步运动的原因之一。
第二部分应用组织速度成像技术评价不同QRS间期慢性心力衰竭患者左室收缩同步性
目的应用组织速度成像(Tissue velocity imaging,TVI)技术评价不同QRS时限慢性心力衰竭患者(chronic heart failure,CHF)左室收缩的同步性。
方法选择40例纽约心脏病学会(NYHA)分级心功能Ⅲ~Ⅳ级的慢性心力衰竭患者,其中QRS时限<120ms者17例,QRS时限≥120ms者23例,以及30例正常人,均接受组织多普勒检查。TVI模式下测量12个节段从QRS波群起始部到射血期峰值的时间(time to peak systolic,Ts),计算标准差(Ts-SD-12)。将左室Ts-SD-12>32.6ms作为左室内收缩不同步的指标。统计各组收缩不同步性的发生率。
结果本研究发现不同QRS间期心力衰竭患者均存在不同程度的左室收缩运动的不同步,其中QRS时限<120ms的心力衰竭患者中有29.41%患者存在收缩不同步,而QRS时限≥120ms者中有78.26%患者存在收缩不同步,二者差异有统计学意义( P<0.01)。
结论心力衰竭患者无论QRS时限长短均存在一定比例的左室收缩运动不同步,QRS时限长者,不同步的发生率高。组织速度成像技术可比QRS时限更敏感地反映心脏运动的同步性,可为心脏再同步化治疗(CRT)选择合适的人群。
PART one Preliminary study of the post-systolic shortening of left ventricular wall in chronic heart failure patients
Objective To study the post-systolic shortening (PSS) during isovolumic relaxation phase and its clinical meanings in regional myocardium in chronic heart failure (CHF) patients.
Methods Left ventricular regional myocardium movement in 60 CHF patients (CHF group) and 30 normal persons (control group) were assessed by Tissue Velocity Imaging (TVI). Qlab software was used to measure the systolic peak velocity (Vs), regional systolic time (Ts), post-systolic shortening velocity (Vpss) and post-systolic shortening time (Tpss) at the basal and middle levels of left ventricle.
Results In CHF group, the rate of isovolumic relaxation phase PSS was 34% both in basal and mid segments, the rates of pathological PSS were 29% and 30% respectively. The rates of isovolumic relaxation phase PSS in basal and mid segments in normal persons were 27% and 21%, none of them was pathological. Compared with the physiological PSS of control group, the pathological PSS of CHF group had a higher peak velocity and a longer time(P<0.05-0.01).
Conclusion The pathological PSS of CHF group is obviously different from the physiological PSS of control group. The peak velocities of pathological PSS is higher and the duration is longer, it may be one of causes which lead to the asynchronous movement of left ventricle in CHF group.
PART two Assessment of left ventricular systolic synchrony in heart failure patients with normal and wide QRS duration using tissue velocity imaging
Objective To evaluate the prevalence of Synchrony in heart failure patients with difference QRS duration using tissue velocity imaging.
Methods Forty heart failure patients with idiopathic dilated cardiomyopathy (23 with wide QRS complex , 17 with normal QRS complex) underwent standard tissue velocity imaging examinations. TVI was used to measure the standard deviation of the time to regional peak systolic velocity (Ts) of 12 LV segments in ejection phase (Ts-SD-12- ejection). Intraventricular dyssynchrony was defined as a delay of 32.6ms of Ts-SD-12.The incidence of dyssynchrony between two groups was compared.
Results The study found that all the patients with different QRS duration had synchronized left ventricular systolic movement.Dyssynchrony was observed in 29.41% heart failure patients with normal QRS complex versus 78.26% patients with wide QRS complex.There was a significant difference between the prevalence of dyssynchrony derived from echo criteria in two groups ( P<0.05-0.01).
Conclusion Dyssynchrony is commonly seen in patients with chronic heart failure regardless of QRS duration. The prevalence of dyssynchrony is significantly related to QRS duration. Tissue velocity imaging technique is more sensitive than the QRS duration to evaluate the dyssynchrony,and could be used to choose suitable patients for CRT.
引文
1. Cho GY, Song JK, ParkWJ. Mechanical dyssynchrony assessed by tissue Doppler imaging is a powerful predictor of mortality in congestive heart failure with normal QRS duration[ J ]. J Am Coll Cardiol, 2005, 46: 2237-2243.
2 .Cleland J G, Daubert J G, Erdmann E , et al . The effect of cardiac resynchronization on morbidity and mortalily in heart failure. N Engl J Med , 2005 ,352 (15) :1539-1549.
3 .Yu CM,L in H, ZhangQ. High p revalence of left ventricular systolic and diastolic asynchrony in patients with congestive heart failure and normal QRS duration [ J ]. Heart, 2003, 89 (1) : 54-60.
4. Leclercq C, Kass DA. Retiming the failing heart: p rincip les and current clinical status of cardiac resynchronization [ J ]. J Am Coll Cardiol , 2002, 39: 194
5.B irnie DH, Tang AS. The p roblem of non-response to cardiac resynchronization therapy[ J ]. CurrOp in Cardiol, 2006, 21 (1) : 20-26.
6.Perry R, de Pasquale CG, Chew DP, et al. QRS duration alone misses cardiac dyssynchrony in a substantial p roportion of patients with chronic heart failure [ J ]. J Am Soc Echocardiogram, 2006, 19 (10) : 1257-1263.
7.蔡彬妮,黄卫斌.组织多普勒指导心脏再同步化治疗[ J ].中国心脏起搏与心电生理杂志. , 2006, 20 (4) : 294-296.
8.张晓红,张君良,王静芳.充血性心力衰竭患者左心室心肌收缩性及非同步性组织速度成像研究.影像诊断与介入放射学,2006,15(4):169-172.
9.顾东风,黄广勇,何江,吴锡桂,段秀芳,MacMahon S,Whelton PK.中国心力衰竭流行病学调查及其患病率[J].中华心血管病杂志,2003,31:3-6.
10.王龙,朱天刚,权欣,阎小娣,郭继鸿.组织多普勒成像评价正常成年人心室壁运动的同步性,中华超声影像学杂志2005,14:17-20.
11.中华医学会心电生理和起搏分会心脏再同步治疗专家工作组.心脏再同步治疗慢性心力衰竭的建议[ J ].中华心律失常学杂志, 2006, 10 (2) :90-102.
12. Doshi RN,Daoud EG, Fellows C, et al. Left ventricular2based cardiac stimulation post AV nodal ablation evaluation ( the PAVE study) [ J ]. J Cardiovasc Electrophysiol, 2005, 16 ( 11 ) :1160-1165.
13. AchilliA, SassaraM, Ficili S, et al. Long2term effectiveness of cardiac resynchro- nization therapy in patientswith refractory heart failure and " narrow" QRS[ J ]. J Am Coll Cardiol, 2003, 42 (12) : 2117-2124.
14.Ghio S,Constantin C,Klersy C,Serio A,Fontana A,Campana C,Tavazzi L.Interventricular and intraventricular dyssynchrony are common in heart failure patients,regardless of QRS duration.Eur Heart J,2004,25:571-578.
15. Wiggers CJ.The muscular reactions of the mammalian ventricles to artificial surface stimuli[J]. Am J Physiol 1925(73):346-78.
16. Venkateshawar K,Gottipaty VK,Krelis SP,Lu F,Spencer EP,Shusterman V,Weiss R,Brode S,White A,Anderson KP,White BG,Feldman AM.The resting electrocardiogram provides a sensitive and inexpensive market of prognosis in patients with chronic congestive heart failure[J]. J Am Coll Cardiol 1999,33:145A
17. Khan N.The Euro heart failure survey ;the ECG in the evaluation of heart failure[J]. Eur Heart J,2002,23:36-37.
18. Khan N,Eamugh J,Freemanlle N,Goode K,Komajda M,Follath F,Swedberg K,Clark A,Cleland J.Influence of QRS width on the clinical features of heart failure;data from the Euro Heart Failure Study[ J]. Eur Heart J,2003,2:905
19.刘冰冰,邓又斌.超声心动图在心脏再同步化治疗中的应用[ J ].中国医学影像技术,2005, 21 (3) : 481-483.
20. Brecker SJ , Xiao HB , Sparrow J , et al .Effect s of dualchamber pacing wit h short atriovent ricular delay in dilated cardiomyopat hy [ J ] . Lancet , 1992 , 340 ( 8831 ) :1308-1312.
21. Prinzen FW, Augustijn CH , Art s T , et al . Redist ribution of myocardial fiber strain and blood flow by asynchronous activation [ J ] . Am J Physiol , 1990 , 259 (2Pt2) : H300-308.
22. Nel son GS , Curry CW, Wyman BT , et al . Predictors of systolic augmentation from left vent ricular preexcitation in patient s wit h dilated cardiomyopat hy and in-travent ricular conduction delay[J ] . Circulation , 2000 , 101 (23) :2703-2709.
23.Park RC , Little WC , O’Rourke RA.Effect of alteration of left vent ricular acti- vation sequence on t he left vent ricular end-systolic pressure-volume relation in closedchest dogs [ J ] . Circ Res , 1985 , 57 ( 5) :706-717.
24. Heyndrickx GR , Vant rimpont PJ , Rousseau MF , et al . Effect s of asynchrony on myocardial relaxation at rest and during exercise in conscious dogs[J ] . Am J Physiol , 1988 , 254 (5Pt2) : H817-822.
25. Kawabata M,Fantoni C,Regoli F,et al. Activity monitoring in heart failure patients with cardiac resynchronization therapy [J]. Circ J,2007,71(12):1885- 1892.
26.邱春光,黄振文.心脏再同步化治疗心力衰竭的现状及存在的问题[ J ].中国心脏起搏与电生理杂志, 2006, 20 (1) : 88-91.
27. Sun JP, Chinchoy E, Donal E, et al. Evaluation of ventricular synchrony using novel Doppler echocardiographic indices in patientswith heart failure receiving cardiac resynchronization therapy[ J ]. J Am Soc Echocardiogr, 2004, 17 ( 8 ) : 845-850.
28.Ansalone G, Giannantoni P, Ricci R, et al. Dopp lermyocardial imaging to eval- uate the effectiveness of pacing sites in patients receiving biventricular pacing [ J ]. J Am Coll Cardiol, 2002, 39: 489-499.
29. Leon AR.New tools for the effective delivery of cardiac resynchronization therapy[J]. J Cardiovasc Electrophysiol,2005,16(Suppl1):S48-S51.
30. BaxJJ ,Abraham T,Barold SS et al . Cardiac resynchronization therapy :part 1 - issues before device implantation and unresolved questions. J Am Coll Cardiol ,2005 ,46 (12) :2168
31. Kindermann M, Frolhig G, Doerr T, et al. Optimizing the AV delay in DDD pacemaker patients with high degree AV block: mitral valve Dopp ler versus impedance cardiography[ J ]. Pacing Clin Electrophysiol, 1997, 20: 2453-2462.
32.刘卫星,骆志玲,李春伶.超声心电图在心脏再同步化治疗优化起搏中的应用[ J ].武警医学, 2008, 19 (5) : 461-463.
33. Anemieke HM,Jansen MD ,Brack F et al . optimization of pulsed wave tissueDoppler to predict left ventricular reserve remodeling after cardiac resynchronization therapy . J Am Soc Echocardiogr ,2006 ,19 :185
34. Sogaard P, Egeblad H, KimWY, et al. Tissue Dopp ler imaging p redicts improved systolic performance and reversed left ventricular remodeling during long-term cardiac resynchronization therapy [ J ]. J Am Coll Cardiol, 2002, 40 ( 4 ) : 723-730.
35. Stellbrink C,B reithardtOA, Franke A, et al. PATH2CHF impact of cardiac re- synchronization therapy using hemodynamically optimized pacing on left ventric- ular remodeling in patientswith congestive heart failure and ventricular conduc- tion disturbances[ J ]. J Am Coll Cardiol, 2001, 38: 1957-1965.
36. Soggard P ,Egeblad H ,Pedersen AK et al . Sequential versus simultaneous biventricular resynchronization for severe heart failure evaluation by tissue Doppler imaging. Circulation ,2002 ,93 :1 500
37.Porciani MC ,Dondina C ,Macioce R et al . Echocariographic examination of atrioventrivular and interventricular delay optimization in cardiac resynchronization therapy. AmJ Cardiol ,2005 ,95 :1108
38. Kass DA,Chen CH,Currv C,Talbot M,Berger R,Fetica B,Nevo E.Improves left ventricular mechanics from acute VDD pacing in patients with dilated cardiomyopathy and ventricular conduction delay[J]. Circulation,1999,99:1567-1573.
39.Toussaint JF,Lavergne T,Ollilraut J.Biventricular pacing in severe heart failure patients reverses electromechanical desynchronization from apex to base[J]. Pacing Clin Electrophysiol,2002,23:1731-1734.
40.Nelson GS,Berger RD,Felics BJ,Talbot M,Spinelli JC,Hare JM,Kass DA.Left ventricular or biventricular pacing improves cardiac function at diminished energy cost in patients with dilated cardiomyopathy and left bundle-branch block[J]. Circulation,2000,102:3053-3059.
41. McAlister F,Ezekowitz J,Wiebe N.Cardiac resynchronization therapy for congestive heart failure[J]. Evid Rep Technol Assess(Sum),2004,11,106:1-8.
42.Abraham WT,Fisher WG,Smith AL,Delurgio DB,Leon AR,Loh E,KocovicDZ,Packer M,Clavell AL,Hayes DL,Ellestad M,Trupp RJ,Underwood J,Pickering F,Truex C,McAtee P,Messenger J.Cardiac resynchronization in chronic heart failure[J]. N Engl J Med,2002,346:1902-1905.
43.Bristow MR,Saxon LA,Boehmer J,Krueger S,Carson P,DiCarlo L,DeMets D,White BG,DeVries DW,Feldman AM.Cardiac-resynchronization therapy with or without an implantable defibrillator in advanced chronic heart failure[J]. N Engl J Med,2004,350:2140-2150.
44. Cleland JC,Daubert JC,Erdmann E,Freemantle N,Gras D,Kappenberger L,Tavazzi L,Landolina M.The effect of cardiac resynchronization on morbidity and mortality in heart failure[J]. N Engl J Med,2005,352:1539-1549.
45. B irnie DH, Tang AS. The p roblem of non2response to cardiac resynchronization therapy[ J ]. CurrOp in Cardiol, 2006, 21 (1) : 20-26.
46.Ghio S,Constantin C,Klersy C,Serio A,Fontana A,Campana C,Tavazzi L.Interventricular and intraventricular dyssynchrony are common in heart failure patients,regardless of QRS duration.Eur Heart J,2004,25:571-578.
47.王方正,张澎,黄德嘉,华伟,孙宝贵,沈法荣,吴书林,王建安,方全,吴立群,王景峰,王冬梅,郭涛,陈新,Wang FZ,Zhang S,Huang DJ.心脏再同步治疗治疗慢性心力衰竭的建议[J]。中华心律失常学杂志,2006, 10,2: 90-102.
48. Garrigue S, Bordachar P, Reuter S, et al. Comparison of permanent left ventricular and biventricular pacing in patientswith heart failure and chronic atrial fibrillation: Prospective haemodynamic study[ J ].Heart, 2002, 87: 529
49. Maurizio G, Paola G, Stefano S, et al. Long term results of cardiac resynchronization therapy in patients with permanent atrial fibrillation[ J ]. Heart Rhythm, 2004, 1S (1) : S31
50. Molhoek SG, Bax JJ, Bleeker GB, et al. Comparison of response to cardiac resynchronization therapy in patients with sinus rhythm versus chronic atrial fibrillation [ J ]. Am J Cardiol, 2004, 94 ( 12 ) : 1506
51. Bleeker GB, SchalijMJ, Molhoek SG, et al. Relationship between QRS duration and left ventricular dyssynchrony in patientswith endstage heart failure [ J ]. JCardiovasc Electrophysiol, 2004, 15 ( 5 ) :544
52. Molhoek SG,Bax JJ,Bleeker GB, et al. Long2term follow-up of cardiac resynchronization therapy in patientswith end2stage heart failure[ J ]. J Cardiovasc Electrophysiol, 2005, 16 (7) : 701-707.
53. Garrigue S, Reuter S, Labeque JN, et al. Usefulness of biventricular pacing in patients with congestive heart failure and right bundle branch block[ J ]. Am J Cardiol, 2001, 88: 1 426
54. Wilkoff BL. Dual Chamber and VV I Imp lantable Defibrillator trial investigators. The Dual Chamber and VV I Imp lantable Defibrillator(DAV ID) Trial: rationale, design, results, clinical imp lications and lessons for future trials [ J ]. Card Electrophysiol Rev, 2003, 7(4) : 468
55. Bradley DJ,Bradley EA,Baughman KL,Berger RD,Calkins H,Goodman SN,Kass DA,Powe NR.Cardiac resynchronization and death from progressive heart failure:A meta-analysis of randomized controlled trials[J]. JAMA,2003,289:730-740.
56. OezatalayD, PatelAG, SinghA. Resynchronization therapy p roduces greater imp- rovement in left ventricular function in patientswith pacer induced compared to those with intrinsic left bundle branch block[ J ]. J Am Coll Cardiol, 2003, 41 (Supp l A) : 113A. Abstract 1138
57. Rosanio S,Schwarz ER,Ahmad M,Jammula P,Vitarelli A,Uretsky B,Birnbaum Y,Ware D,Atar S,Saeed M.Benefits,unresolved questions,and technical issues of cardiac resynchronization therapy for heart failure[J]. Am J Cardiol,2005, 96,5: 710-717.
58. Pitzalis MV , Iacoviello M, Romito R et al . Cardiac resynchronization therapy tailored by echocardiographic evaluation of ventricular asynchrony. J Am Coll Cardiol ,2002 ,40 :1615
59. Flachskampf FA, Voigt JU. Echocardiographic methods to select candidates for cardiac resynchronisation therapy[ J ]. Heart, 2006,92: 424
60.Pitzalis MV,Iacoviello M,Romito R,Luzzi G,Anaclerio M,Forleo C.Role of septal to posterior wall motion delay in cardiac resynchronization therapy[J]. J Am Coll Cardiol.2006 Aug1;48,3:596-597.
61. Marcus GM,Rose E,Viloria EM,Schafer Jill,DeMarco T,Saxon LA,Foster E; VENTAK CHF/CONTAK-CD Biventricular Pacing Study Investigators. Septal to posterior wall motion delay fails to predict reverse remodeling or clinical improvement in patients undergoing cardiac resynchronization therapy[J]. J Am Coll Cardiol.2005 Dec 20;46(12):2208-2214.
62. Bax JJ, Ansalone G, BreithardtOA, et al. Echocardiographic evaluation of cardiac resynchronization therapy: Ready for routine clinical use? A critical app raisal[ J ]. J Am Coll Cardiol, 2004, 44 (1) :189.
63. JOHN SUTTON MG, PLAPPERT T, ABRAHAMWT,et al. Effect of cardiac resynchronization therapy on left ventricular size and function in chronic heart failure [J]. Circulation,2003, 107: 1985- 1990.
64. DAUBERT JC, ERDMANN E, FREEMANTLE N, et al . The effect of cardiac resynchronization on morbidity and mortality in heart failure [J]. N Engl J Med, 2005, 352: 1539- 1549.
65. Gerber TC,Nishimura RA,Holmes DR,Paul S.Left ventricular and biventricular pacing in congestive heart failure[J]. Mayo Clin Proc 2001,76:803-812.
66. Ansalone G, Giannantoni P , Ricci R et al . Doppler myocardial imaging in patients with heart failure receiving biventricular pacing treatment. Am Heart J ,2001 ,142 :881
67.Yu CM, Fung WH , Lin H et al . Predictors of left ventricular reverse remodeling after cardiac resynchronization therapy for heart failure secondary to idiopathic dilated or ischemic cardiomyopathy. Am J Cardiol ,2003 , 91(6) :684
68.Penicka M, Baruunek J , De Bruyne B et al . Improvement of left ventricular function after cardiac resynchronization therapy is predicted by tissue Doppler imaging echocardiography. Circulation ,2004 ,109(8) :978
69.Yu CM, Chau E , Sanderson J E et al . Tissue Doppler echocardiographic evidence of reverse remodeling and improved synchronicity by simultaneously delaying regional contraction after biventricular pacing therapy for heart failure. Circulation ,2002 , 105(4) :438
70.Garcia- Fernandez MA,Bermejo J,Perez- David E,et al.New techniques for theassessment of regional left ventricular wall motion[J].Echocardiography, 2003 ,20 :659-672.
71. BAX JJ, MARWICK TH, MOLHOEK SG, et al . Left ventricular dyssynchrony predicts benefit of cardiac resynchronization therapy in patients with end- stage heart failure before pacemaker implantation [J]. Am J Cardiol,2003, 92: 1238- 1240.
72. BAX JJ, BLEEKER GB, MARWICK TH, et al . Left ventricular dyssynchrony predicts response and prognosis after cardiac resynchronization therapy [J]. J Am Coll Cardiol,2004, 44: 1834- 1840.
73. YU CM, FUNG JW, CHAN CK, et al. Comparison of efficacy of reverse remodeling and clinical improvement for relatively narrow and wide QRS complexes after cardiac resynchronization therapy for heart failure [J]. J Cardiovasc Electrophysiol, 2004, 15: 1058- 1065.
74. NOTABARTOLO D, MERLINO JD, SMITH AL, et al.Usefulness of the peak velocity difference by tissue Doppler imaging technique as an effective predictor of response to cardiac resynchronization therapy [J]. Am J Cardiol,2004, 94: 817- 820.
75. Yu CM, Fung WH , Zhang Q et al . Tissue Doppler Imaging is superior to strain rate imaging and postsystolic shortening in the prediction of reverse remodeling in both ischemic and nonischemic heart failure after cardiac resynchronization therapy. Circulation , 2004 , 110(1) :66-73.
76. ANNEMIEKE HM, JANSEN MD, BRACK F, et al .Optimization of pulsed wave tissue Doppler to predict left ventricular reserve remodeling after cardiac resynchronization therapy [J]. J AM Soc Echocardiogr,2006, 19: 185- 191.
77. Yu CM, Zhang Q , Chan YS et al . Tissue doppler velocity is superior to displacement and strain mapping in predicting left ventricular reverse remodeling response after cardiac resynchronization therapy. Heart ,2006 ,92(10) :1452
78. Porciani MC,Macioce R,Demarchi G,Chiostri M,Musilli N,Cappelli F,Lilli A,Ricciardi G,Padeletti L.Effects of cardiac resynchronization therapy on the mechanisms underlying functional mitral regurgitation in congestive heart failure[J]. Eur J Echocardiogr.2006 Jan;7(l):31-39.
79.Soyama A,Kono T,Kitaura Y.Intraventricular dyssynchrony may play a role in the development of mitral regurgitation in dilated cardiomyopathy[J]. J Card Fail.2005 Oct;11(8):631-637.
80.Gorcsan J,Kanzaki H,Bazaz R,Dohi K,Schwartzaman D.Usefulness of echocardiographic tissue synchronization imaging to predict acute response to cardiac resynchronization therapy[J]. Am J Cardiol.2004 May 1;93(9):1178-1181.
81.史浩颖,潘翠珍,舒先红等.组织多普勒技术评价双心室同步起搏即刻疗效.中华心血管病杂志,2005 ,33(1) :26-29.
82. Yu CM, Lin H , Fung WH et al . Comparison of acute changes in left ventricular volume , systolic and diastolic functions , and intraventricular synchronicity after biventricular and right ventricular pacing for heart failure. Am Heart J ,2003 ,145(5) :E18
83.李治安张烨.超声评价心脏机械同步性的方法及进展.心血管病学进展.2007; 28 (6):840-844.
84.张烨,李治安,何怡华,等.组织同步成像评价严重心力衰竭患者心脏非同步性运动[ J ].中华医学超声杂志(电子版) , 2007, 4 (2) : 79-82.
85. Murphy RT,Sigurdsson G,Mulamalla S,Agler D,Popovic Z,Starling R,Wilkoff B,Thomas J,Grimm R.Tissue synchronization imaging and optimal left ventricular pacing site in cardiac resynchronization therapy[J]. Am J Cardiol.2006,11:1615-1621.
86. Sogaard P, Egeblad H, KimWY, et al. Tissue Dopp ler imaging p redicts imp- roved systolic performance and reversed left ventricular remodeling during long-term cardiac resynchronization therapy[ J ]. J Am Coll Cardiol, 2002, 40: 723-730.
87. Breithardt OA ,Stellbrink C ,Herbotds L et al . Cardiac resynchronization therapy can reverse abnormal myocardial strain distribution in patents with heart failure and left bundle branch block . J Am Coll Cardiol ,2003 ,42 :486
88. DOHI K, SUFFOLETTO MS, SCHWARTZMAN D, et al. Utility of echocardiographic radial strain imaging to quantify left ventricular dyssynchrony and predict acute response to cardiac resynchronization therapy [J]. Am J Cardiol,2005, 96: 112-116.
89. B reithardtOA, Stellbrink C, Kramer AP, et al. Echocardiographic quantification of left ventricular asynchrony p redicts an acute hemodynamic benefit of cardiac resynchronization therapy[ J ]. J Am Coll Cardiol, 2002, 40: 536-545.
90. Pham PP,Balaji S,Shen I,Ungerleider R,Li X,Sahn DJ.Impact of conventional versus biventricular pacing on hemodynamics and tissue Doppler imaging indexes of resynchronization postoperatively in children with congenital heart disease[J]. J Am Coll Cardiol.2005,46(12):2284-2289.
91. Dohi K,Suffoletto M,Ganz L,Zenati M,Gorcsan J.Utility of echocardiographic tissue synchronization imaging to redirect left ventricular lead placement for improved cardiac resynchronization therapy[J]. Pacing Clin Electrophysiol. 2005,28(5) :461-465.
92. Suffoletto MS,Dohi K,Cannesson M,Saba S,Gorcsan J.Novel speckle-tracking radial strain from routine black-and-white echocardiographic images to quantify dyssynchrony and predict response to cardiac resynchronization therapy[J]. Circulation.2006,113(7):960-968.
93. Modesto KM, Cauduro S,DispenzieriA, et, al. Two-dimensional acoustic pattern derived strain parameters closely correlate with one2dimensional tissue Doppler derived strain measurements[ J ]. Eur J Echocardiogr, 2006, 7 (4) : 315-321.
94.张烨,李治安,杨娅,等.二维应变超声心动图定量评价左心室整体和局部心肌应变的价值[ J ].中华超声影像学杂志, 2007, 16 (7) : 564-567.
95.舒先红,潘翠珍,施月芳等.实时三维超声心动图评价左心室心肌收缩同步性的初步临床研究.中华超声影像学杂志,2005 ,14(9) :645-648.
96.智光,阎国辉.超声心动图在心脏再同步化中的应用[ J ].武警医学,2006, 17 (12) : 883-886.
97.曾欣,舒先红,潘翠珍,等.实时三维超声心动图定量评价扩张型心肌病患者心室内收缩同步性的研究[ J ].中华超声影像学杂志, 2007, 16 ( 2) :97-100.
98. Kapetanakis S, KearneyMT, Siva A, et al. Real2time three-dimensional echocardiography a novel technique to quantify global left ventricularmechanical dyssynchrony[ J ]. Circulation, 2005, 112 (7) : 992-1000.
99. Kim WY, Sogaard P , Mortensen PT et al . Three dimensional echocardiography documents haemodynamic improvement by biventricular pacing in patients with severe heart failure. Heart ,2001 , 85(5) :514
100. Swedberg K,Andersson B,Leclerq CH, et al. Management of chronic heart failure[M ]. In: Camm JA,Luscher TF, Serruys PW, editors. The ESC Textbook of CardiovascularMedicine. Malden: B lackwell Publishing Co, 2006. 721-757.
101. GoldMR,Auricchio A, Hummel JD, et a1. Comparison of stimulation sites with- in left ventricular veins on the acute hemodynamic effects of cardiac resynchro- nization therapy[ J ]. Heart Rhythm, 2005, 2 (4) : 376-381.
102. Yu CM, Zhang Q, Fung JW, et a1. A novel tool to assess systolic asynchrony and identify responders of cardiac resynchronization therapy by tissue synchro- nization imaging [ J ]. J Am Coll Cardiol, 2005, 45 (5) : 6772-684.
103. Bordachar P,Lafitte S, Reuter S, et al. Echocardiographic parameters of ventric- ular dyssynchrony validation in patients with heart failure using sequential biventricular pacing[ J ]. J Am Coll Cardiol, 2004, 44 (11) : 2157-2165.
104. O’DonnellD,Nadurata V, HamerA, et al. Long2term variations in op timal pro- gramming of cardiac resynchronization therapy devices[ J ]. Pacing Clin Electro- physiol, 2005, 28 ( supp l 1) : S24-S26.
105. Yu CM,Bleeker GB, Fung JWH, et al. Left ventricular reverse remodeling but not clinical improvement predicts long-term survival after cardiac resynchronization therapy[ J ]. Circulation, 2005, 112: 1580
106. Kanzaki H, JacquesD, Sade LE, et al. Regional correlation by color-coded tissue Doppler to quantify imp rovements in mechanical left ventricular synchrony after biventricular pacing therapy [ J ]. Am J Cardiol, 2003, 92: 752
107. Sogaard P, Egeblad H, Pedersen AK, et al. Sequential versus simultaneous biventricular resynchronization for severe heart failure evaluation by tissue Doppler imaging[ J ]. Circulation, 2002, 106: 2078
108. Sogaard P, Egeblad H, KimWY, et al. Tissue Dopp ler imaging predicts imp- roved systolic performance and reversed left ventricular remodeling during long-term cardiac resynchronization therapy[ J ]. J Am Coll Cardiol, 2002, 40: 723
109. Bristow MR, Saxon LA,Boehmer J,et al.Cardiac Resynchroniza tion therapy with or without an implantable defibrillator in advanced chronic heart failure[J].N Engl J Med,2004,350:2140
110. Salukhe TV,Francis DP,Sutton R.Comparison of medical therapy pacing and defibrillation in heart failure (COMPANION)trial terminated early:combined biventricular pacemaker defibrillators reduce all-cause mortality and hospitalization.Int J Cardiol,2003, 87:119-120.
111.华伟,王方正,张澍,牛红霞,陈柯萍,陈新.CRT-D在慢性心力衰竭患者的临床应用, 2006,10:103-106.
112. Voigt J U,Exner B, Lindenmeier G,et al.Incidence and characteristics of segmental postsystolic longitudinal shortening in normal,acutely ischemic, and scarred myocardium.J Am Soc Echocardiogr, 2003,16(5):415-423.
113. Skulstad H,Edvardsen T,Urheim S, et al. Post–systolic shortening in ischemic myocardium active contraction or passive recoil. Circulation, 2002,106(6):718-724.
114.张涓闫慧张新春等,组织多普勒超声评价急性心肌梗死患者的收缩后收缩,中华超声影像学杂志,2006,15(2):84-87.
115.黄猛张新书王玲等.定量组织速度成像技术评价肥厚型心肌病患者的收缩后收缩,中国超声医学杂志, 2008,24(3):240-244.
116. Pislaru C, Anagnostopoulos PC, Seward JB, et al. Higher myocardial Strain rates during isvolumic relaxation phase than during ejection characterize acutely ischemic myocardium. J Am Coll Cardiol, 2002,40(8):1487-1494.
117.张涓,吴雅峰,曾定尹,等.定量组织速度成像技术评价心肌梗死局部心肌的收缩后收缩.中华超声影像学杂志,2003,12(10):585-589.
118.Hosokawa H, H,Sheehan FH,S Suzuki T,Measurement of post–systolic shortening to assess viability and predict recovery of left ventricular function after acute myocardial infarction. J Am Coll Cardiol,2000,35(7),1842-1849.
119.Yu CM, Yang H , Lau CP , et al . Regional left ventricle mechanical asynchrony in patients with heart disease and normal QRS duration :implication for biventricular pacing therapy. PACE , 2003 ,26 : 562-570.
2 .Cleland J G, Daubert J G, Erdmann E , et al . The effect of cardiac resynchronization on morbidity and mortalily in heart failure. N Engl J Med , 2005 ,352 (15) :1539-1549.
3 .Yu CM,L in H, ZhangQ. High p revalence of left ventricular systolic and diastolic asynchrony in patients with congestive heart failure and normal QRS duration [ J ]. Heart, 2003, 89 (1) : 54-60.
4. Leclercq C, Kass DA. Retiming the failing heart: p rincip les and current clinical status of cardiac resynchronization [ J ]. J Am Coll Cardiol , 2002, 39: 194
5.B irnie DH, Tang AS. The p roblem of non-response to cardiac resynchronization therapy[ J ]. CurrOp in Cardiol, 2006, 21 (1) : 20-26.
6.Perry R, de Pasquale CG, Chew DP, et al. QRS duration alone misses cardiac dyssynchrony in a substantial p roportion of patients with chronic heart failure [ J ]. J Am Soc Echocardiogram, 2006, 19 (10) : 1257-1263.
7.蔡彬妮,黄卫斌.组织多普勒指导心脏再同步化治疗[ J ].中国心脏起搏与心电生理杂志. , 2006, 20 (4) : 294-296.
8.张晓红,张君良,王静芳.充血性心力衰竭患者左心室心肌收缩性及非同步性组织速度成像研究.影像诊断与介入放射学,2006,15(4):169-172.
9.顾东风,黄广勇,何江,吴锡桂,段秀芳,MacMahon S,Whelton PK.中国心力衰竭流行病学调查及其患病率[J].中华心血管病杂志,2003,31:3-6.
10.王龙,朱天刚,权欣,阎小娣,郭继鸿.组织多普勒成像评价正常成年人心室壁运动的同步性,中华超声影像学杂志2005,14:17-20.
11.中华医学会心电生理和起搏分会心脏再同步治疗专家工作组.心脏再同步治疗慢性心力衰竭的建议[ J ].中华心律失常学杂志, 2006, 10 (2) :90-102.
12. Doshi RN,Daoud EG, Fellows C, et al. Left ventricular2based cardiac stimulation post AV nodal ablation evaluation ( the PAVE study) [ J ]. J Cardiovasc Electrophysiol, 2005, 16 ( 11 ) :1160-1165.
13. AchilliA, SassaraM, Ficili S, et al. Long2term effectiveness of cardiac resynchro- nization therapy in patientswith refractory heart failure and " narrow" QRS[ J ]. J Am Coll Cardiol, 2003, 42 (12) : 2117-2124.
14.Ghio S,Constantin C,Klersy C,Serio A,Fontana A,Campana C,Tavazzi L.Interventricular and intraventricular dyssynchrony are common in heart failure patients,regardless of QRS duration.Eur Heart J,2004,25:571-578.
15. Wiggers CJ.The muscular reactions of the mammalian ventricles to artificial surface stimuli[J]. Am J Physiol 1925(73):346-78.
16. Venkateshawar K,Gottipaty VK,Krelis SP,Lu F,Spencer EP,Shusterman V,Weiss R,Brode S,White A,Anderson KP,White BG,Feldman AM.The resting electrocardiogram provides a sensitive and inexpensive market of prognosis in patients with chronic congestive heart failure[J]. J Am Coll Cardiol 1999,33:145A
17. Khan N.The Euro heart failure survey ;the ECG in the evaluation of heart failure[J]. Eur Heart J,2002,23:36-37.
18. Khan N,Eamugh J,Freemanlle N,Goode K,Komajda M,Follath F,Swedberg K,Clark A,Cleland J.Influence of QRS width on the clinical features of heart failure;data from the Euro Heart Failure Study[ J]. Eur Heart J,2003,2:905
19.刘冰冰,邓又斌.超声心动图在心脏再同步化治疗中的应用[ J ].中国医学影像技术,2005, 21 (3) : 481-483.
20. Brecker SJ , Xiao HB , Sparrow J , et al .Effect s of dualchamber pacing wit h short atriovent ricular delay in dilated cardiomyopat hy [ J ] . Lancet , 1992 , 340 ( 8831 ) :1308-1312.
21. Prinzen FW, Augustijn CH , Art s T , et al . Redist ribution of myocardial fiber strain and blood flow by asynchronous activation [ J ] . Am J Physiol , 1990 , 259 (2Pt2) : H300-308.
22. Nel son GS , Curry CW, Wyman BT , et al . Predictors of systolic augmentation from left vent ricular preexcitation in patient s wit h dilated cardiomyopat hy and in-travent ricular conduction delay[J ] . Circulation , 2000 , 101 (23) :2703-2709.
23.Park RC , Little WC , O’Rourke RA.Effect of alteration of left vent ricular acti- vation sequence on t he left vent ricular end-systolic pressure-volume relation in closedchest dogs [ J ] . Circ Res , 1985 , 57 ( 5) :706-717.
24. Heyndrickx GR , Vant rimpont PJ , Rousseau MF , et al . Effect s of asynchrony on myocardial relaxation at rest and during exercise in conscious dogs[J ] . Am J Physiol , 1988 , 254 (5Pt2) : H817-822.
25. Kawabata M,Fantoni C,Regoli F,et al. Activity monitoring in heart failure patients with cardiac resynchronization therapy [J]. Circ J,2007,71(12):1885- 1892.
26.邱春光,黄振文.心脏再同步化治疗心力衰竭的现状及存在的问题[ J ].中国心脏起搏与电生理杂志, 2006, 20 (1) : 88-91.
27. Sun JP, Chinchoy E, Donal E, et al. Evaluation of ventricular synchrony using novel Doppler echocardiographic indices in patientswith heart failure receiving cardiac resynchronization therapy[ J ]. J Am Soc Echocardiogr, 2004, 17 ( 8 ) : 845-850.
28.Ansalone G, Giannantoni P, Ricci R, et al. Dopp lermyocardial imaging to eval- uate the effectiveness of pacing sites in patients receiving biventricular pacing [ J ]. J Am Coll Cardiol, 2002, 39: 489-499.
29. Leon AR.New tools for the effective delivery of cardiac resynchronization therapy[J]. J Cardiovasc Electrophysiol,2005,16(Suppl1):S48-S51.
30. BaxJJ ,Abraham T,Barold SS et al . Cardiac resynchronization therapy :part 1 - issues before device implantation and unresolved questions. J Am Coll Cardiol ,2005 ,46 (12) :2168
31. Kindermann M, Frolhig G, Doerr T, et al. Optimizing the AV delay in DDD pacemaker patients with high degree AV block: mitral valve Dopp ler versus impedance cardiography[ J ]. Pacing Clin Electrophysiol, 1997, 20: 2453-2462.
32.刘卫星,骆志玲,李春伶.超声心电图在心脏再同步化治疗优化起搏中的应用[ J ].武警医学, 2008, 19 (5) : 461-463.
33. Anemieke HM,Jansen MD ,Brack F et al . optimization of pulsed wave tissueDoppler to predict left ventricular reserve remodeling after cardiac resynchronization therapy . J Am Soc Echocardiogr ,2006 ,19 :185
34. Sogaard P, Egeblad H, KimWY, et al. Tissue Dopp ler imaging p redicts improved systolic performance and reversed left ventricular remodeling during long-term cardiac resynchronization therapy [ J ]. J Am Coll Cardiol, 2002, 40 ( 4 ) : 723-730.
35. Stellbrink C,B reithardtOA, Franke A, et al. PATH2CHF impact of cardiac re- synchronization therapy using hemodynamically optimized pacing on left ventric- ular remodeling in patientswith congestive heart failure and ventricular conduc- tion disturbances[ J ]. J Am Coll Cardiol, 2001, 38: 1957-1965.
36. Soggard P ,Egeblad H ,Pedersen AK et al . Sequential versus simultaneous biventricular resynchronization for severe heart failure evaluation by tissue Doppler imaging. Circulation ,2002 ,93 :1 500
37.Porciani MC ,Dondina C ,Macioce R et al . Echocariographic examination of atrioventrivular and interventricular delay optimization in cardiac resynchronization therapy. AmJ Cardiol ,2005 ,95 :1108
38. Kass DA,Chen CH,Currv C,Talbot M,Berger R,Fetica B,Nevo E.Improves left ventricular mechanics from acute VDD pacing in patients with dilated cardiomyopathy and ventricular conduction delay[J]. Circulation,1999,99:1567-1573.
39.Toussaint JF,Lavergne T,Ollilraut J.Biventricular pacing in severe heart failure patients reverses electromechanical desynchronization from apex to base[J]. Pacing Clin Electrophysiol,2002,23:1731-1734.
40.Nelson GS,Berger RD,Felics BJ,Talbot M,Spinelli JC,Hare JM,Kass DA.Left ventricular or biventricular pacing improves cardiac function at diminished energy cost in patients with dilated cardiomyopathy and left bundle-branch block[J]. Circulation,2000,102:3053-3059.
41. McAlister F,Ezekowitz J,Wiebe N.Cardiac resynchronization therapy for congestive heart failure[J]. Evid Rep Technol Assess(Sum),2004,11,106:1-8.
42.Abraham WT,Fisher WG,Smith AL,Delurgio DB,Leon AR,Loh E,KocovicDZ,Packer M,Clavell AL,Hayes DL,Ellestad M,Trupp RJ,Underwood J,Pickering F,Truex C,McAtee P,Messenger J.Cardiac resynchronization in chronic heart failure[J]. N Engl J Med,2002,346:1902-1905.
43.Bristow MR,Saxon LA,Boehmer J,Krueger S,Carson P,DiCarlo L,DeMets D,White BG,DeVries DW,Feldman AM.Cardiac-resynchronization therapy with or without an implantable defibrillator in advanced chronic heart failure[J]. N Engl J Med,2004,350:2140-2150.
44. Cleland JC,Daubert JC,Erdmann E,Freemantle N,Gras D,Kappenberger L,Tavazzi L,Landolina M.The effect of cardiac resynchronization on morbidity and mortality in heart failure[J]. N Engl J Med,2005,352:1539-1549.
45. B irnie DH, Tang AS. The p roblem of non2response to cardiac resynchronization therapy[ J ]. CurrOp in Cardiol, 2006, 21 (1) : 20-26.
46.Ghio S,Constantin C,Klersy C,Serio A,Fontana A,Campana C,Tavazzi L.Interventricular and intraventricular dyssynchrony are common in heart failure patients,regardless of QRS duration.Eur Heart J,2004,25:571-578.
47.王方正,张澎,黄德嘉,华伟,孙宝贵,沈法荣,吴书林,王建安,方全,吴立群,王景峰,王冬梅,郭涛,陈新,Wang FZ,Zhang S,Huang DJ.心脏再同步治疗治疗慢性心力衰竭的建议[J]。中华心律失常学杂志,2006, 10,2: 90-102.
48. Garrigue S, Bordachar P, Reuter S, et al. Comparison of permanent left ventricular and biventricular pacing in patientswith heart failure and chronic atrial fibrillation: Prospective haemodynamic study[ J ].Heart, 2002, 87: 529
49. Maurizio G, Paola G, Stefano S, et al. Long term results of cardiac resynchronization therapy in patients with permanent atrial fibrillation[ J ]. Heart Rhythm, 2004, 1S (1) : S31
50. Molhoek SG, Bax JJ, Bleeker GB, et al. Comparison of response to cardiac resynchronization therapy in patients with sinus rhythm versus chronic atrial fibrillation [ J ]. Am J Cardiol, 2004, 94 ( 12 ) : 1506
51. Bleeker GB, SchalijMJ, Molhoek SG, et al. Relationship between QRS duration and left ventricular dyssynchrony in patientswith endstage heart failure [ J ]. JCardiovasc Electrophysiol, 2004, 15 ( 5 ) :544
52. Molhoek SG,Bax JJ,Bleeker GB, et al. Long2term follow-up of cardiac resynchronization therapy in patientswith end2stage heart failure[ J ]. J Cardiovasc Electrophysiol, 2005, 16 (7) : 701-707.
53. Garrigue S, Reuter S, Labeque JN, et al. Usefulness of biventricular pacing in patients with congestive heart failure and right bundle branch block[ J ]. Am J Cardiol, 2001, 88: 1 426
54. Wilkoff BL. Dual Chamber and VV I Imp lantable Defibrillator trial investigators. The Dual Chamber and VV I Imp lantable Defibrillator(DAV ID) Trial: rationale, design, results, clinical imp lications and lessons for future trials [ J ]. Card Electrophysiol Rev, 2003, 7(4) : 468
55. Bradley DJ,Bradley EA,Baughman KL,Berger RD,Calkins H,Goodman SN,Kass DA,Powe NR.Cardiac resynchronization and death from progressive heart failure:A meta-analysis of randomized controlled trials[J]. JAMA,2003,289:730-740.
56. OezatalayD, PatelAG, SinghA. Resynchronization therapy p roduces greater imp- rovement in left ventricular function in patientswith pacer induced compared to those with intrinsic left bundle branch block[ J ]. J Am Coll Cardiol, 2003, 41 (Supp l A) : 113A. Abstract 1138
57. Rosanio S,Schwarz ER,Ahmad M,Jammula P,Vitarelli A,Uretsky B,Birnbaum Y,Ware D,Atar S,Saeed M.Benefits,unresolved questions,and technical issues of cardiac resynchronization therapy for heart failure[J]. Am J Cardiol,2005, 96,5: 710-717.
58. Pitzalis MV , Iacoviello M, Romito R et al . Cardiac resynchronization therapy tailored by echocardiographic evaluation of ventricular asynchrony. J Am Coll Cardiol ,2002 ,40 :1615
59. Flachskampf FA, Voigt JU. Echocardiographic methods to select candidates for cardiac resynchronisation therapy[ J ]. Heart, 2006,92: 424
60.Pitzalis MV,Iacoviello M,Romito R,Luzzi G,Anaclerio M,Forleo C.Role of septal to posterior wall motion delay in cardiac resynchronization therapy[J]. J Am Coll Cardiol.2006 Aug1;48,3:596-597.
61. Marcus GM,Rose E,Viloria EM,Schafer Jill,DeMarco T,Saxon LA,Foster E; VENTAK CHF/CONTAK-CD Biventricular Pacing Study Investigators. Septal to posterior wall motion delay fails to predict reverse remodeling or clinical improvement in patients undergoing cardiac resynchronization therapy[J]. J Am Coll Cardiol.2005 Dec 20;46(12):2208-2214.
62. Bax JJ, Ansalone G, BreithardtOA, et al. Echocardiographic evaluation of cardiac resynchronization therapy: Ready for routine clinical use? A critical app raisal[ J ]. J Am Coll Cardiol, 2004, 44 (1) :189.
63. JOHN SUTTON MG, PLAPPERT T, ABRAHAMWT,et al. Effect of cardiac resynchronization therapy on left ventricular size and function in chronic heart failure [J]. Circulation,2003, 107: 1985- 1990.
64. DAUBERT JC, ERDMANN E, FREEMANTLE N, et al . The effect of cardiac resynchronization on morbidity and mortality in heart failure [J]. N Engl J Med, 2005, 352: 1539- 1549.
65. Gerber TC,Nishimura RA,Holmes DR,Paul S.Left ventricular and biventricular pacing in congestive heart failure[J]. Mayo Clin Proc 2001,76:803-812.
66. Ansalone G, Giannantoni P , Ricci R et al . Doppler myocardial imaging in patients with heart failure receiving biventricular pacing treatment. Am Heart J ,2001 ,142 :881
67.Yu CM, Fung WH , Lin H et al . Predictors of left ventricular reverse remodeling after cardiac resynchronization therapy for heart failure secondary to idiopathic dilated or ischemic cardiomyopathy. Am J Cardiol ,2003 , 91(6) :684
68.Penicka M, Baruunek J , De Bruyne B et al . Improvement of left ventricular function after cardiac resynchronization therapy is predicted by tissue Doppler imaging echocardiography. Circulation ,2004 ,109(8) :978
69.Yu CM, Chau E , Sanderson J E et al . Tissue Doppler echocardiographic evidence of reverse remodeling and improved synchronicity by simultaneously delaying regional contraction after biventricular pacing therapy for heart failure. Circulation ,2002 , 105(4) :438
70.Garcia- Fernandez MA,Bermejo J,Perez- David E,et al.New techniques for theassessment of regional left ventricular wall motion[J].Echocardiography, 2003 ,20 :659-672.
71. BAX JJ, MARWICK TH, MOLHOEK SG, et al . Left ventricular dyssynchrony predicts benefit of cardiac resynchronization therapy in patients with end- stage heart failure before pacemaker implantation [J]. Am J Cardiol,2003, 92: 1238- 1240.
72. BAX JJ, BLEEKER GB, MARWICK TH, et al . Left ventricular dyssynchrony predicts response and prognosis after cardiac resynchronization therapy [J]. J Am Coll Cardiol,2004, 44: 1834- 1840.
73. YU CM, FUNG JW, CHAN CK, et al. Comparison of efficacy of reverse remodeling and clinical improvement for relatively narrow and wide QRS complexes after cardiac resynchronization therapy for heart failure [J]. J Cardiovasc Electrophysiol, 2004, 15: 1058- 1065.
74. NOTABARTOLO D, MERLINO JD, SMITH AL, et al.Usefulness of the peak velocity difference by tissue Doppler imaging technique as an effective predictor of response to cardiac resynchronization therapy [J]. Am J Cardiol,2004, 94: 817- 820.
75. Yu CM, Fung WH , Zhang Q et al . Tissue Doppler Imaging is superior to strain rate imaging and postsystolic shortening in the prediction of reverse remodeling in both ischemic and nonischemic heart failure after cardiac resynchronization therapy. Circulation , 2004 , 110(1) :66-73.
76. ANNEMIEKE HM, JANSEN MD, BRACK F, et al .Optimization of pulsed wave tissue Doppler to predict left ventricular reserve remodeling after cardiac resynchronization therapy [J]. J AM Soc Echocardiogr,2006, 19: 185- 191.
77. Yu CM, Zhang Q , Chan YS et al . Tissue doppler velocity is superior to displacement and strain mapping in predicting left ventricular reverse remodeling response after cardiac resynchronization therapy. Heart ,2006 ,92(10) :1452
78. Porciani MC,Macioce R,Demarchi G,Chiostri M,Musilli N,Cappelli F,Lilli A,Ricciardi G,Padeletti L.Effects of cardiac resynchronization therapy on the mechanisms underlying functional mitral regurgitation in congestive heart failure[J]. Eur J Echocardiogr.2006 Jan;7(l):31-39.
79.Soyama A,Kono T,Kitaura Y.Intraventricular dyssynchrony may play a role in the development of mitral regurgitation in dilated cardiomyopathy[J]. J Card Fail.2005 Oct;11(8):631-637.
80.Gorcsan J,Kanzaki H,Bazaz R,Dohi K,Schwartzaman D.Usefulness of echocardiographic tissue synchronization imaging to predict acute response to cardiac resynchronization therapy[J]. Am J Cardiol.2004 May 1;93(9):1178-1181.
81.史浩颖,潘翠珍,舒先红等.组织多普勒技术评价双心室同步起搏即刻疗效.中华心血管病杂志,2005 ,33(1) :26-29.
82. Yu CM, Lin H , Fung WH et al . Comparison of acute changes in left ventricular volume , systolic and diastolic functions , and intraventricular synchronicity after biventricular and right ventricular pacing for heart failure. Am Heart J ,2003 ,145(5) :E18
83.李治安张烨.超声评价心脏机械同步性的方法及进展.心血管病学进展.2007; 28 (6):840-844.
84.张烨,李治安,何怡华,等.组织同步成像评价严重心力衰竭患者心脏非同步性运动[ J ].中华医学超声杂志(电子版) , 2007, 4 (2) : 79-82.
85. Murphy RT,Sigurdsson G,Mulamalla S,Agler D,Popovic Z,Starling R,Wilkoff B,Thomas J,Grimm R.Tissue synchronization imaging and optimal left ventricular pacing site in cardiac resynchronization therapy[J]. Am J Cardiol.2006,11:1615-1621.
86. Sogaard P, Egeblad H, KimWY, et al. Tissue Dopp ler imaging p redicts imp- roved systolic performance and reversed left ventricular remodeling during long-term cardiac resynchronization therapy[ J ]. J Am Coll Cardiol, 2002, 40: 723-730.
87. Breithardt OA ,Stellbrink C ,Herbotds L et al . Cardiac resynchronization therapy can reverse abnormal myocardial strain distribution in patents with heart failure and left bundle branch block . J Am Coll Cardiol ,2003 ,42 :486
88. DOHI K, SUFFOLETTO MS, SCHWARTZMAN D, et al. Utility of echocardiographic radial strain imaging to quantify left ventricular dyssynchrony and predict acute response to cardiac resynchronization therapy [J]. Am J Cardiol,2005, 96: 112-116.
89. B reithardtOA, Stellbrink C, Kramer AP, et al. Echocardiographic quantification of left ventricular asynchrony p redicts an acute hemodynamic benefit of cardiac resynchronization therapy[ J ]. J Am Coll Cardiol, 2002, 40: 536-545.
90. Pham PP,Balaji S,Shen I,Ungerleider R,Li X,Sahn DJ.Impact of conventional versus biventricular pacing on hemodynamics and tissue Doppler imaging indexes of resynchronization postoperatively in children with congenital heart disease[J]. J Am Coll Cardiol.2005,46(12):2284-2289.
91. Dohi K,Suffoletto M,Ganz L,Zenati M,Gorcsan J.Utility of echocardiographic tissue synchronization imaging to redirect left ventricular lead placement for improved cardiac resynchronization therapy[J]. Pacing Clin Electrophysiol. 2005,28(5) :461-465.
92. Suffoletto MS,Dohi K,Cannesson M,Saba S,Gorcsan J.Novel speckle-tracking radial strain from routine black-and-white echocardiographic images to quantify dyssynchrony and predict response to cardiac resynchronization therapy[J]. Circulation.2006,113(7):960-968.
93. Modesto KM, Cauduro S,DispenzieriA, et, al. Two-dimensional acoustic pattern derived strain parameters closely correlate with one2dimensional tissue Doppler derived strain measurements[ J ]. Eur J Echocardiogr, 2006, 7 (4) : 315-321.
94.张烨,李治安,杨娅,等.二维应变超声心动图定量评价左心室整体和局部心肌应变的价值[ J ].中华超声影像学杂志, 2007, 16 (7) : 564-567.
95.舒先红,潘翠珍,施月芳等.实时三维超声心动图评价左心室心肌收缩同步性的初步临床研究.中华超声影像学杂志,2005 ,14(9) :645-648.
96.智光,阎国辉.超声心动图在心脏再同步化中的应用[ J ].武警医学,2006, 17 (12) : 883-886.
97.曾欣,舒先红,潘翠珍,等.实时三维超声心动图定量评价扩张型心肌病患者心室内收缩同步性的研究[ J ].中华超声影像学杂志, 2007, 16 ( 2) :97-100.
98. Kapetanakis S, KearneyMT, Siva A, et al. Real2time three-dimensional echocardiography a novel technique to quantify global left ventricularmechanical dyssynchrony[ J ]. Circulation, 2005, 112 (7) : 992-1000.
99. Kim WY, Sogaard P , Mortensen PT et al . Three dimensional echocardiography documents haemodynamic improvement by biventricular pacing in patients with severe heart failure. Heart ,2001 , 85(5) :514
100. Swedberg K,Andersson B,Leclerq CH, et al. Management of chronic heart failure[M ]. In: Camm JA,Luscher TF, Serruys PW, editors. The ESC Textbook of CardiovascularMedicine. Malden: B lackwell Publishing Co, 2006. 721-757.
101. GoldMR,Auricchio A, Hummel JD, et a1. Comparison of stimulation sites with- in left ventricular veins on the acute hemodynamic effects of cardiac resynchro- nization therapy[ J ]. Heart Rhythm, 2005, 2 (4) : 376-381.
102. Yu CM, Zhang Q, Fung JW, et a1. A novel tool to assess systolic asynchrony and identify responders of cardiac resynchronization therapy by tissue synchro- nization imaging [ J ]. J Am Coll Cardiol, 2005, 45 (5) : 6772-684.
103. Bordachar P,Lafitte S, Reuter S, et al. Echocardiographic parameters of ventric- ular dyssynchrony validation in patients with heart failure using sequential biventricular pacing[ J ]. J Am Coll Cardiol, 2004, 44 (11) : 2157-2165.
104. O’DonnellD,Nadurata V, HamerA, et al. Long2term variations in op timal pro- gramming of cardiac resynchronization therapy devices[ J ]. Pacing Clin Electro- physiol, 2005, 28 ( supp l 1) : S24-S26.
105. Yu CM,Bleeker GB, Fung JWH, et al. Left ventricular reverse remodeling but not clinical improvement predicts long-term survival after cardiac resynchronization therapy[ J ]. Circulation, 2005, 112: 1580
106. Kanzaki H, JacquesD, Sade LE, et al. Regional correlation by color-coded tissue Doppler to quantify imp rovements in mechanical left ventricular synchrony after biventricular pacing therapy [ J ]. Am J Cardiol, 2003, 92: 752
107. Sogaard P, Egeblad H, Pedersen AK, et al. Sequential versus simultaneous biventricular resynchronization for severe heart failure evaluation by tissue Doppler imaging[ J ]. Circulation, 2002, 106: 2078
108. Sogaard P, Egeblad H, KimWY, et al. Tissue Dopp ler imaging predicts imp- roved systolic performance and reversed left ventricular remodeling during long-term cardiac resynchronization therapy[ J ]. J Am Coll Cardiol, 2002, 40: 723
109. Bristow MR, Saxon LA,Boehmer J,et al.Cardiac Resynchroniza tion therapy with or without an implantable defibrillator in advanced chronic heart failure[J].N Engl J Med,2004,350:2140
110. Salukhe TV,Francis DP,Sutton R.Comparison of medical therapy pacing and defibrillation in heart failure (COMPANION)trial terminated early:combined biventricular pacemaker defibrillators reduce all-cause mortality and hospitalization.Int J Cardiol,2003, 87:119-120.
111.华伟,王方正,张澍,牛红霞,陈柯萍,陈新.CRT-D在慢性心力衰竭患者的临床应用, 2006,10:103-106.
112. Voigt J U,Exner B, Lindenmeier G,et al.Incidence and characteristics of segmental postsystolic longitudinal shortening in normal,acutely ischemic, and scarred myocardium.J Am Soc Echocardiogr, 2003,16(5):415-423.
113. Skulstad H,Edvardsen T,Urheim S, et al. Post–systolic shortening in ischemic myocardium active contraction or passive recoil. Circulation, 2002,106(6):718-724.
114.张涓闫慧张新春等,组织多普勒超声评价急性心肌梗死患者的收缩后收缩,中华超声影像学杂志,2006,15(2):84-87.
115.黄猛张新书王玲等.定量组织速度成像技术评价肥厚型心肌病患者的收缩后收缩,中国超声医学杂志, 2008,24(3):240-244.
116. Pislaru C, Anagnostopoulos PC, Seward JB, et al. Higher myocardial Strain rates during isvolumic relaxation phase than during ejection characterize acutely ischemic myocardium. J Am Coll Cardiol, 2002,40(8):1487-1494.
117.张涓,吴雅峰,曾定尹,等.定量组织速度成像技术评价心肌梗死局部心肌的收缩后收缩.中华超声影像学杂志,2003,12(10):585-589.
118.Hosokawa H, H,Sheehan FH,S Suzuki T,Measurement of post–systolic shortening to assess viability and predict recovery of left ventricular function after acute myocardial infarction. J Am Coll Cardiol,2000,35(7),1842-1849.
119.Yu CM, Yang H , Lau CP , et al . Regional left ventricle mechanical asynchrony in patients with heart disease and normal QRS duration :implication for biventricular pacing therapy. PACE , 2003 ,26 : 562-570.