Qiqiong Cui scite author profile

SummaryBackground: Sequential analysis of atrial electromechanical coupling (P-A) by Doppler tissue imaging (DTI) might provide important insight into the mechanisms of paroxysmal atrial fibrillation (PAF).Hypothesis: The purpose of this study was to evaluate P-A and the dispersion of P-A, and to analyze the influential factors of P-A.Methods: One hundred and ten patients with PAF and 87 normal controls were enrolled. Using DTI, the time intervals from the beginning of P-wave to the onset of atrioventricular ring motion related to atrial contraction were measured.Results: Atrial electromechanical coupling at the interventricular septum atrioventricular annulus (P-A1), left lateral mitral annulus (P-A2) and right lateral tricuspid annulus (P-A3) in PAF group were significantly longer than those in control (p<0.001). The difference between P-A2 and P-A1 (T1), P-A2 and P-A3 (T3) in PAF group were greater than those in control before age correction (p<0.05). The linear regression analysis showed that the

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Mutations in NEXN, a Z-Disc Gene, Are Associated with Hypertrophic Cardiomyopathy

Wang

et al. 2010

The American Journal of Human Genetics

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Hypertrophic cardiomyopathy (HCM), the most common inherited cardiac disorder, is characterized by increased ventricular wall thickness that cannot be explained by underlying conditions, cadiomyocyte hypertrophy and disarray, and increased myocardial fibrosis. In as many as 50% of HCM cases, the genetic cause remains unknown, suggesting that more genes may be involved. Nexilin, encoded by NEXN, is a cardiac Z-disc protein recently identified as a crucial protein that functions to protect cardiac Z-discs from forces generated within the sarcomere. We screened NEXN in 121 unrelated HCM patients who did not carry any mutation in eight genes commonly mutated in myofilament disease. Two missense mutations, c.391C>G (p.Q131E) and c.835C>T (p.R279C), were identified in exons 5 and 8 of NEXN, respectively, in two probands. Each of the two mutations segregated with the HCM phenotype in the family and was absent in 384 control chromosomes. In silico analysis revealed that both of the mutations affect highly conserved amino acid residues, which are predicted to be functionally deleterious. Cellular transfection studies showed that the two mutations resulted in local accumulations of nexilin and that the expressed fragment of actin-binding domain containing p.Q131E completely lost the ability to bind F-actin in C2C12 cells. Coimmunoprecipitation assay indicated that the p.Q131E mutation decreased the binding of full-length NEXN to α-actin and abolished the interaction between the fragment of actin-binding domain and α-actin. Therefore, the mutations in NEXN that we describe here may further expand the knowledge of Z-disc genes in the pathogenesis of HCM.

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Abnormal Myocardial Strain Indices in Children Receiving Anthracycline Chemotherapy

et al. 2015

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Anthracycline chemotherapy (AC) is associated with impaired left ventricular (LV) systolic function. LV ejection fraction (EF %) obtained by two-dimensional echocardiography is the current gold standard for detection and monitoring of LV systolic function. However, dependence on LVEF has been shown to be unreliable due to its inherent limitations. Speckle tracking echocardiography (STE) measures myocardial strain and is a sensitive method to detect LV systolic dysfunction with demonstrated utility in such detection in adult and pediatric cohort studies. Compare myocardial strain indices derived by STE with LVEF to detect ACT-induced LV systolic dysfunction. Prospective, cross-sectional measurements of LV myocardial strain indices derived from STE with LVEF. Pediatric cohort of 25 patients (pts): 17 females, eight males with a mean age 9.8 ± 5.8 years, who received anthracyclines (AC); median cumulative dose ≥150 ± 124.4 mg/m(2), range 60-450 mg/m(2) showing normal LV end-diastolic diameter (mm) and normal LVEF (≥55 %) underwent STE to obtain LV myocardial strain indices: strain and strain rate. The inter- and intraobserver variability for the strain indices was 5 %. Fifteen of 25 pts (60 %) showed abnormal global longitudinal peak systolic strain (GLPSS) and 19/25 pts (76 %) showed abnormal peak circumferential strain (PCS) compared to age-matched controls (p = 0.005). In contrast, no significant differences was observed in either indices with the dose of AC. Likewise, no significant changes in the systolic or diastolic strain rate were noted with the dose of AC (r (2) = 0.0076 for peak E, r (2) = 0.072 for peak A, p = NS). GLPSS and PCS were diminished and, however, correlated poorly with the cumulative dose of AC. These observations indicate an early onset of LV systolic dysfunction by the strain indices in pts who continue to show a normal LVEF implying presence of occult LV systolic dysfunction. These novel strain indices may assist in early detection of LV systolic dysfunction with implications for monitoring and prevention of AC-induced LV systolic dysfunction.

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Qiqiong Cui

Assessment of Atrial Electromechanical Coupling and Influential Factors in Nonrheumatic Paroxysmal Atrial Fibrillation

Mutations in NEXN, a Z-Disc Gene, Are Associated with Hypertrophic Cardiomyopathy

Abnormal Myocardial Strain Indices in Children Receiving Anthracycline Chemotherapy

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