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微电极阵列芯片技术研究48h房颤犬左、右心耳电生理特性
引用本文:张玲,孙娟,马嵋,周祁娜,王凌鹏,王欢,侯月梅. 微电极阵列芯片技术研究48h房颤犬左、右心耳电生理特性[J]. 中国实验动物学报, 2012, 0(6): 38-42,100
作者姓名:张玲  孙娟  马嵋  周祁娜  王凌鹏  王欢  侯月梅
作者单位:新疆医科大学第一附属医院心律失常实验室;新疆医科大学第一附属医院医学动物模型研究实验室
基金项目:国家国际科技合作专项项目(2011DFA32860);国家自然科学资助基金项目(30960132)
摘    要:目的应用微电极阵列芯片(microelectrode arrays chip,MEA)技术评价48 h房颤(atrial fibrillation,AF)犬左、右心耳(LAA、RAA)的电生理特性。方法随意来源犬12只,以600次/分起搏右心房建立AF模型,分为48 h AF组(n=6)和对照组(n=6)。造模成功后迅速开胸剪取LAA、RAA,置于盛有台式液的MEA中,分别记录AF组及对照组LAA、RAA场电位(field action potential,FAP)形态、振幅、放电频率及激动传导情况。结果 AF组LAA、RAA组织FAP节律绝对不齐,LAA(185.22±25.62)次/分,较对照组(156.44±8.88)次/分增加15.67%(P〈0.01),RAA(102.39±16)次/分,较对照组(156.44±8.88)次/分减慢34.62%(P〈0.01)。48 h AF组LAA组织电压(458.33±26.73)μV较对照组(740.55±18.93)μV降低38.11%(P〈0.01),RAA(504.83±39.93)μV较对照组(840.56±18.93)μV明显降低(P〈0.01),48 h房颤组LAA组织FAP时程(45.28±8.59)ms较对照组(70.77±6.98)ms缩短15 ms(P〈0.01)。RAA(61.78±7.1)ms较对照组(75.83±7.63)ms缩短14 ms(P〈0.01)。48 h AF组LAA、RAA FAP传导异质性增加。结论应用MEA技术可反映心肌组织片场电位电生理特性,48 h AF后LAA放电频率增加,频率绝对不齐,LAA、RAA电压降低,场电位时程延长。

关 键 词:心房颤动  微电极阵列  场电位  电生理学  左心耳  右心耳  随意来源犬

Electrophysiological characteristics of the right and left atrial appendages in 48-h atrial fibrillation canine detected by microelectrode arrays chip
ZHANG Ling,SUN Juan,MA Mei,ZHOU Qina,WANG Ling-peng,WANG Huan,HOU Yue-mei. Electrophysiological characteristics of the right and left atrial appendages in 48-h atrial fibrillation canine detected by microelectrode arrays chip[J]. Acta Laboratorium Animalis Scientia Sinica, 2012, 0(6): 38-42,100
Authors:ZHANG Ling  SUN Juan  MA Mei  ZHOU Qina  WANG Ling-peng  WANG Huan  HOU Yue-mei
Affiliation:1(1.Cardiac Arrhythmia Laboratory;2.Research Laboratory of Medical Animal Models,the First Affiliated Hospital of Xinjiang Medical University,Urumqi 830054,China)
Abstract:Objective To explore the electrophysiological characteristics of right atrial appendage (RAA) and left atrial appendage (LAA) in 48-h atrial fibrillation (AF) canine detected by microeleetrode array (MEA) chip tech- nique. Methods Twelve adult healthy mongrel canine were randomly divided into two groups:48-h pacing group and con- trol group. The 48-h AF model was established by rapid pacing the right atrium. The RAA and LAA were quickly removed and immersed into Tyrode' s solution in MEA chip dish. The morphology, duration, voltage, discharge frequency and con- duction of field action potential were recorded. Results In the AF group, the rhythms of LAA and RAA tissue field poten- tial were irregular. The frequency of LAA ( 185.22 ± 25.62 beats/min) was increased by 15.67% ( 156. 44 ± 8.88 beats/ min) ( P 〈 0. 01 ), and the frequency of RAA ( 102.39±16 beats/min) was decreased by 34. 62% than that in the control group (156. 44 ± 8.88 beats/min) (P 〈 0. O1 ). The voltages of LAA (458.33 ± 26.73 ) μV and RAA (504. 83 ±39.93 )μV were decreased than those of the control group (740. 55 ± 18.93)μV and (840. 56 ±18.93 )μV, respectively, (P 〈 0. 01 ). The durations of field potential of LAA (45.28± 8.59) ms and RAA (61.78 ± 7.1 ) ms were significantly shortened than those of the control group (70. 77 ±6. 98)ms (P 〈 0. 01 ). The electric impulse presented anisotropic alteration. Conclusions MEA is a sensitive, long-lasting and stable technique, and local tissue action potential can be used to assess the electrophysiological characteristics of field potential in animal heart slices using multiple-channel recording mapping sys- tem. The discharge frequency of left atrial appendage is increased and frequency irregularity occurs after 48 h atrial fibrilla- tion, the voltage of field potential is decreased in the atrial appendage, and the field potential duration is prolonged.
Keywords:Atrial fibrillation  Microelectrode arrays chip  Field action potential  Electrophysiology  Left atrial appendage  Right atrial appendage  Canine, Random source dogs
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