Theodore P Abraham

Publications (60)399.81 Total impact

• Article: The Relationship of Delayed Enhancement by Magnetic Resonance to Myocardial Perfusion by Positron Emission Tomography in Hypertrophic Cardiomyopathy.

  Paco E Bravo, Stefan L Zimmerman, Hong-Chang Luo, Iraklis Pozios, Mahadevan Rajaram, Aurélio Pinheiro, Charles Steenbergen, Ihab R Kamel, Richard L Wahl, David A Bluemke, Frank M Bengel, M Roselle Abraham, Theodore P Abraham
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  ABSTRACT: BACKGROUND: -Presence of delayed enhancement (DE) on magnetic resonance (CMR) is associated with worse clinical outcomes in hypertrophic cardiomyopathy (HCM). We investigated the relationship between DE on CMR, and myocardial ischemia in HCM. METHODS AND RESULTS: -HCM patients (n=47) underwent CMR for assessment of DE and vasodilator stress ammonia positron emission tomography (PET) to quantify myocardial blood flow (MBF) and coronary flow reserve (CFR). The summed difference score (SDS) for regional myocardial perfusion (rMP) was also assessed. Patients in the DE-group (n=35) had greater LV wall thickness (2.09 ± 0.44 vs. 1.78 ± 0.34 cm; P 0.03). Stress MBF (2.25 ± 0.46 vs. 1.78 ± 0.43 ml/min/g, P = 0.01), and CFR (2.78 ± 0.32 vs. 2.01 ± 0.52, P < 0.001) were significantly lower in DE-positive patients. SDS (7.3 ± 6.6 vs. 0.9 ± 1.4, P < 0.0001) was significantly higher in patients with DE. A CFR < 2.00 was seen in 18 patients (51%) with DE, but in none of the DE-negative patients (P <0.0001). CMR and PET showed visually concordant DE and rMP abnormalities in 31 patients and absence of DE and perfusion defects in 9 patients. Four DE-positive patients demonstrated normal rMP, and 3 DE-negative patients had (apical) rMP abnormalities. CONCLUSIONS: -We found a close relationship between DE by CMR and microvascular function in the majority of the patients studied. However, a small proportion of patients had DE in the absence of perfusion abnormalities, suggesting that microvascular dysfunction and ischemia are not the sole causes of DE in HCM patients.
  Circulation Cardiovascular Imaging 02/2013; · 5.94 Impact Factor
• Article: Hyaluronic acid-human blood hydrogels for stem cell transplantation.

  Connie Y Chang, Angel T Chan, Patrick A Armstrong, Hong-Chang Luo, Takahiro Higuchi, Iossif A Strehin, Styliani Vakrou, Xiaoping Lin, Sophia N Brown, Brian O'Rourke, Theodore P Abraham, Richard L Wahl, Charles J Steenbergen, Jennifer H Elisseeff, M Roselle Abraham
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  ABSTRACT: Tissue engineering-based approaches have the potential to improve stem cell engraftment by increasing cell delivery to the myocardium. Our objective was to develop and characterize a naturally-derived, autologous, biodegradable hydrogel in order to improve acute stem cell retention in the myocardium. HA-blood hydrogels (HA-BL) were synthesized by mixing in a 1:1(v/v) ratio, lysed whole blood and hyaluronic acid (HA), whose carboxyl groups were functionalized with N-hydroxysuccinimide (NHS) to yield HA succinimidyl succinate (HA-NHS). We performed physical characterization and measured survival/proliferation of cardiosphere-derived cells (CDCs) encapsulated in the hydrogels. Hydrogels were injected intra-myocardially or applied epicardially in rats. NHS-activated carboxyl groups in HA react with primary amines present in blood and myocardium to form amide bonds, resulting in a 3D hydrogel bound to tissue. HA-blood hydrogels had a gelation time of 58±12 s, swelling ratio of 10±0.5, compressive and elastic modulus of 14±3 and 1.75±0.6 kPa respectively. These hydrogels were not degraded at 4 wks by hydrolysis alone. CDC encapsulation promoted their survival and proliferation. Intra-myocardial injection of CDCs encapsulated in these hydrogels greatly increased acute myocardial retention (p=0.001). Epicardial application of HA-blood hydrogels improved left ventricular ejection fraction following myocardial infarction (p=0.01). HA-blood hydrogels are highly adhesive, biodegradable, promote CDC survival and increase cardiac function following epicardial application after myocardial infarction.
  Biomaterials 08/2012; 33(32):8026-33. · 7.40 Impact Factor
• Article: New approach to intracardiac hemodynamic measurements in small animals: echo-guided percutaneous apical puncture.

  Kristian Eskesen, Niels T Olsen, Veronica L Dimaano, Aurelio Pinheiro, Peter Sogaard, Thomas Fritz-Hansen, Lars L Sorensen, Theodore P Abraham
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  ABSTRACT: Invasive measurements of intracardiac hemodynamics in animal models have allowed important advances in the understanding of cardiac disease. Currently they are performed either through a carotid arteriotomy or via a thoracotomy and apical insertion. Both of these techniques have disadvantages and are not conducive to repeated measurements. Therefore, the purpose of this study was to develop a new technique for measuring intracardiac hemodynamics. In 13 male rats, hemodynamic measurements were performed using a new echocardiographically guided percutaneous apical technique. An intravenous catheter was percutaneously inserted into the left ventricle (LV) in the direction of the LV long axis. Through this catheter, a micromanometer-tipped pressure catheter was inserted, and invasive hemodynamic traces were recorded. After LV recordings, the pressure catheter was advanced into the aorta where pressures were obtained. In 11 rats, measurements were repeated after 1 week (n = 2), 2 weeks (n = 4), 3 weeks (n = 4), or 4 weeks (n = 1). In 3 rats, invasive measurements were performed using a carotid arteriotomy before the percutaneous technique. Among the 13 rats subjected to the procedure, the survival rate was 85%. Of the 11 rats that had the procedure repeated, 3 died (27%). The mean differences ± SD when comparing the two techniques were 10 ± 4 mm Hg for the LV end-systolic pressure and 1 ± 1 mm Hg for the LV end-diastolic pressure. The mean procedure times were 21 ± 3 and 6 ± 1 minutes for the carotid and percutaneous techniques, respectively. We have successfully developed a percutaneous technique for insertion of LV microtip catheters in rats.
  Journal of ultrasound in medicine: official journal of the American Institute of Ultrasound in Medicine 08/2012; 31(8):1233-8. · 1.25 Impact Factor
• Article: Comparison and effectiveness of regadenoson versus dipyridamole on stress electrocardiographic changes during positron emission tomography evaluation of patients with hypertrophic cardiomyopathy.

  Paco E Bravo, Iraklis Pozios, Aurélio Pinheiro, Jennifer Merrill, Benjamin M W Tsui, Richard L Wahl, Frank M Bengel, M Roselle Abraham, Theodore P Abraham
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  ABSTRACT: Dipyridamole is the most common vasodilator used with positron emission tomography for the evaluation of patients with hypertrophic cardiomyopathy (HC). The aim of this study was to evaluate whether positron emission tomographic quantification of regional myocardial perfusion (rMP), myocardial blood flow (MBF), and coronary flow reserve are comparable between dipyridamole and the newer vasodilator regadenoson in HC. An additional aim was to evaluate the association between vasodilator-induced ST-segment depression on electrocardiography and myocardial flow in HC. Nitrogen-13 ammonia positron emission tomography was performed in 57 patients with symptomatic HC at rest and during vasodilator stress (peak) with either dipyridamole (0.56 mg/kg during 4-minute infusion) or regadenoson (0.4 mg fixed bolus dose) for assessment of electrocardiographic findings, rMP (17-segment American Heart Association summed difference score), MBF, and coronary flow reserve. The dipyridamole and regadenoson groups consisted of 28 and 29 patients respectively. Baseline characteristics, including rest MBF (0.92 ± 0.22 vs 0.89 ± 0.23 ml/min/g, p = 0.60), were similar between the 2 groups. During stress, the presence and severity of abnormal rMP (summed difference score 5.5 ± 5.5 vs 5.8 ± 6.7, p = 0.80), peak MBF (1.81 ± 0.44 vs 1.82 ± 0.50 ml/min/g, p = 0.90), and coronary flow reserve (2.02 ± 0.53 vs 2.12 ± 0.12, p = 0.50) were comparable between the dipyridamole and regadenoson groups. Fewer patients exhibited side effects with regadenoson (2 vs 7, p = 0.06). Vasodilator-induced ST-segment depression showed high specificity (about 92%) but low sensitivity (about 34%) to predict abnormal rMP (summed difference score ≥2). In conclusion, measurement of rMP and quantitative flow with positron emission tomography is similar between regadenoson and dipyridamole in patients with symptomatic HC. Regadenoson is tolerated better than dipyridamole and is easier to administer. Vasodilator-induced ST-segment depression is a specific but nonsensitive marker for the prediction of abnormal rMP in patients with HC.
  The American journal of cardiology 06/2012; 110(7):1033-9. · 3.58 Impact Factor
• Article: PET/CT assessment of symptomatic individuals with obstructive and nonobstructive hypertrophic cardiomyopathy.

  Paco E Bravo, Aurélio Pinheiro, Takahiro Higuchi, Christoph Rischpler, Jennifer Merrill, Miguel Santaularia-Tomas, M Roselle Abraham, Richard L Wahl, Theodore P Abraham, Frank M Bengel
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  ABSTRACT: Patients with obstructive hypertrophic cardiomyopathy (HCM) exhibit elevated left ventricular outflow tract gradients (LVOTGs) and appear to have a worse prognosis than those with nonobstructive HCM. The aim of this study was to evaluate whether patients with obstruction, compared with nonobstructive HCM, demonstrate significant differences in PET parameters of microvascular function. PET was performed in 33 symptomatic HCM patients at rest and during dipyridamole stress (peak) for the assessment of regional myocardial perfusion (rMP), left ventricular ejection fraction (LVEF), myocardial blood flow (MBF), and myocardial flow reserve (MFR). Myocardial wall thickness and LVOTG were measured with an echocardiogram. Patients were divided into the following 3 groups: nonobstructive (LVOTG < 30 mm Hg at rest and after provocation test with amyl nitrite), obstructive (LVOTG ≥ 30 mm Hg at rest and with provocation), and latent HCM (LVOTG < 30 at rest but ≥ 30 mm Hg with provocation). Eleven patients were classified as nonobstructive (group 1), 12 as obstructive (group 2), and 10 as latent HCM (group 3). Except for age (42 ± 18 y for group 1, 58 ± 7 y for group 2, and 58 ± 12 y for group 3; P = 0.01), all 3 groups had similar baseline characteristics, including maximal wall thickness (2.3 ± 0.5 cm for group 1, 2.2 ± 0.4 cm for group 2, and 2.1 ± 0.7 cm for group 3; P = 0.7). During peak flow, most patients in groups 1 and 2, but fewer in group 3, exhibited rMP defects (73% for group 1, 100% for group 2, and 40% for group 3; P = 0.007) and a drop in LVEF (73% for group 1, 92% for group 2, and 50% for group 3; P = 0.09). Peak MBF (1.58 ± 0.49 mL/min/g for group 1, 1.72 ± 0.46 mL/min/g for group 2, and 1.97 ± 0.32 mL/min/g for group 3; P = 0.14) and MFR (1.62 ± 0.57 for group 1, 1.90 ± 0.31 for group 2, and 2.27 ± 0.51 for group 3; P = 0.01) were lower in the nonobstructive and higher in the latent HCM group. LVOTGs demonstrated no significant correlation with any flow dynamics. In a multivariate regression analysis, maximal wall thickness was the only significant predictor for reduced peak MBF (β = -0.45, P = 0.003) and MFR (β = -0.63, P = 0.0001). Maximal wall thickness was identified as the strongest predictor of impaired dipyridamole-induced hyperemia and flow reserve in our study, whereas outflow tract obstruction was not an independent determinant.
  Journal of Nuclear Medicine 03/2012; 53(3):407-14. · 6.38 Impact Factor
• Article: Galphas-biased beta2-adrenergic receptor signaling from restoring synchronous contraction in the failing heart.

  Khalid Chakir, Charlene Depry, Veronica L Dimaano, Wei-Zhong Zhu, Marc Vanderheyden, Jozef Bartunek, Theodore P Abraham, Gordon F Tomaselli, Shu-bai Liu, Yang K Xiang, Manling Zhang, Eiki Takimoto, Nickolai Dulin, Rui Ping Xiao, Jin Zhang, David A Kass
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  ABSTRACT: Cardiac resynchronization therapy (CRT), in which both ventricles are paced to recoordinate contraction in hearts that are dyssynchronous from conduction delay, is the only heart failure (HF) therapy to date to clinically improve acute and chronic function while also lowering mortality. CRT acutely enhances chamber mechanical efficiency but chronically alters myocyte signaling, including improving β-adrenergic receptor reserve. We speculated that the latter would identify unique CRT effects that might themselves be effective for HF more generally. HF was induced in dogs by 6 weeks of atrial rapid pacing with (HFdys, left bundle ablated) or without (HFsyn) dyssynchrony. We used dyssynchronous followed by resynchronized tachypacing (each 3 weeks) for CRT. Both HFdys and HFsyn myocytes had similarly depressed rest and β-adrenergic receptor sarcomere and calcium responses, particularly the β2-adrenergic response, whereas cells subjected to CRT behaved similarly to those from healthy controls. CRT myocytes exhibited suppressed Gαi signaling linked to increased regulator of G protein (heterotrimeric guanine nucleotide-binding protein) signaling (RGS2, RGS3), yielding Gαs-biased β2-adrenergic responses. This included increased adenosine cyclic AMP responsiveness and activation of sarcoplasmic reticulum-localized protein kinase A. Human CRT responders also showed up-regulated myocardial RGS2 and RGS3. Inhibition of Gαi (with pertussis toxin, RGS3, or RGS2 transfection), stimulation with a Gαs-biased β2 agonist (fenoterol), or transient (2-week) exposure to dyssynchrony restored β-adrenergic receptor responses in HFsyn to the values obtained after CRT. These results identify a key pathway that is triggered by restoring contractile synchrony and that may represent a new therapeutic approach for a broad population of HF patients.
  Science translational medicine 09/2011; 3(100):100ra88. · 7.80 Impact Factor
• Article: Influence of atrial function and mechanical synchrony on LV hemodynamic status in heart failure patients on resynchronization therapy.

  Hsin-Yueh Liang, Alan Cheng, Kuan-Cheng Chang, Ronald D Berger, Kunal Agarwal, Patrick Eulitt, Mary Corretti, Gordon Tomaselli, Hugh Calkins, David A Kass, Theodore P Abraham
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  ABSTRACT: The aim of this study was to evaluate atrial and ventricular function in patients undergoing cardiac resynchronization therapy (CRT). Right atrial pacing (AP) in CRT induces delays in electrical and mechanical activation of the left atrium. The influence of atrial sensing (AS) versus AP on ventricular performance in CRT and the mechanisms underlying the differences between AS and AP in CRT have not been fully elucidated. Fifty-five patients with heart failure undergoing CRT for 9 ± 12.5 months and 22 control subjects without heart failure were enrolled. Conventional and tissue Doppler echocardiography was performed to examine atrial and ventricular mechanics and hemodynamic status. The optimal atrioventricular interval was shorter in AS compared with AP mode (126 ± 19 ms vs. 155 ± 20 ms, p < 0.0001). Left ventricular (LV) outflow tract time-velocity integral (22 ± 7 cm vs. 20 ± 7 cm, p < 0.001), diastolic filling period (468 ± 124 ms vs. 380 ± 93 ms, p < 0.001), and global strain (-32 ± 24% vs. -27 ± 22%, p = 0.001) were greater in AS compared with AP mode. Atrial strain was higher in AS compared with AP mode in the right atrium (-28.2 ± 8.6% vs. -22.6 ± 7.6%, p = 0.0007), interatrial septum (-17.1 ± 6.5% vs. -13.2 ± 5.4%, p = 0.002), and left atrium (-16.4 ± 11.0% vs. -13.6 ± 8.5%, p = 0.02). There was no difference in intraventricular dyssynchrony but significantly lower atrial dyssynchrony in AS compared with AP mode (31 ± 19 ms vs. 42 ± 24 ms, p = 0.0002). AS is associated with preserved atrial contractility and atrial synchrony, resulting in optimal LV diastolic filling, stroke volume, and LV systolic mechanics. This pacing mode maximizes LV performance and the hemodynamic benefit of CRT in patients with heart failure.
  JACC. Cardiovascular imaging 07/2011; 4(7):691-8. · 14.29 Impact Factor
• Article: Cardiac resynchronization by cardiosphere-derived stem cell transplantation in an experimental model of myocardial infarction.

  Michael Bonios, Connie Y Chang, Aurelio Pinheiro, Veronica Lea Dimaano, Takahiro Higuchi, Christina Melexopoulou, Frank Bengel, John Terrovitis, Theodore P Abraham, M Roselle Abraham
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  ABSTRACT: Cardiosphere-derived stem cell (CDC) transplantation can improve global left ventricular ejection fraction (LVEF) after myocardial infarction (MI). The aim of this study was to examine the effects of CDC transplantation on regional function and dyssynchrony after MI. Two million rat CDCs (n = 7) or phosphate-buffered saline (n = 7) was injected into the infarct regions of Wistar Kyoto rats. Infarct size and CDC localization were evaluated by positron emission tomography (n = 7). Two-dimensional and strain echocardiography were performed at 1 and 4 weeks after MI. LVEF, circumferential strain, and time to peak circumferential strain were measured in the basal and apical short-axis views. Dyssynchrony was defined as the maximal difference of time to peak circumferential strain of opposing segments in each short-axis view. Engraftment was measured by quantitative polymerase chain reaction. Positron emission tomography revealed that infarct size was 15.4 ± 3.6% of the left ventricle and that CDCs were localized to the infarct and border zone. CDC transplantation improved mean LVEF (45 ± 8% to 52 ± 7%, P = .02), mean circumferential strain (-7 ± 2% to -10 ± 1%, P = .02), and mean dyssynchrony (45 ± 10 to 28 ± 11 m sec, P = .04) of the infarct/peri-infarct zone from 1 to 4 weeks after MI, despite CDC engraftment of only 2.4 ± 3%. In contrast, mean LVEF (48 ± 5% to 40 ± 4%, P = .03) and mean circumferential strain (-8 ± 2% to -7 ± 1%, P = .02) of the infarcted region deteriorated, with no significant change in dyssynchrony (42 ± 12 vs 46 ± 13 m sec, P = .60) in the saline group during the same time period. Change in LVEF was correlated with change in circumferential strain (r = -0.8, P = .002) and dyssynchrony (r = 0.6, P = .02) of the infarct/peri-infarct region at 4 weeks after MI. CDC therapy enhanced LVEF by improving circumferential strain and decreasing dyssynchrony of the infarct/peri-infarct region at 4 weeks, but not 1 week, after MI. Cellular resynchronization therapy using CDCs may be an alternative to traditional electrical cellular resynchronization therapy in post-MI dyssynchrony.
  Journal of the American Society of Echocardiography: official publication of the American Society of Echocardiography 07/2011; 24(7):808-14. · 2.98 Impact Factor
• Article: Constitutive HIF-1α expression blunts the beneficial effects of cardiosphere-derived cell therapy in the heart by altering paracrine factor balance.

  Michael Bonios, Connie Yachan Chang, John Terrovitis, Aurelio Pinheiro, Andreas Barth, Peihong Dong, Miguel Santaularia, D Brian Foster, Venu Raman, Theodore P Abraham, Maria Roselle Abraham
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  ABSTRACT: Hypoxia-inducible factor-1alpha (HIF-1α) expression promotes angiogenesis and can influence stem cell engraftment. We investigated the effect of stable over-expression of constitutively active HIF-1α on cardiosphere-derived cell (CDC) engraftment and left ventricular function. CDCs were transduced with a lentivirus expressing a constitutively active mutant of human HIF-1α (LVHIF-1α). Two million male rat CDCs were injected into the infarct following ligation of the mid-LAD in female syngeneic rats. Left ventricular ejection fraction (EF) and circumferential strain were measured by echocardiography at 1 and 4 weeks post-MI in the following groups: PBS group (n = 7), CELL group (n = 7), and CELL-HIF group (n = 7). HIF-1α, VEGF, endothelin-1 expression, and CDC engraftment were measured by quantitative PCR. At 30 days, EF was unchanged in the CELL-HIF group (p = NS), increased in the CELL group (p = 0.025), and decreased in the PBS group (p = 0.021), but engraftment was similar (2.4% ± 3.3% vs 1.7% ± 0.8%, p = NS). Mean circumferential strain of the infarcted region was unchanged in the CELL-HIF group, but improved in the CELL group (p = 0.02). Endothelin-1 and VEGF expression were higher in HIF-CDCs exposed to hypoxia, compared with non-transduced CDCs. HIF-1α expression in CDCs blunted the beneficial functional effects of CDC transplantation, suggesting that paracrine factor balance may play an important role in cardiac regeneration.
  Journal of Cardiovascular Translational Research 06/2011; 4(3):363-72. · 2.61 Impact Factor
• Article: Utility of Doppler myocardial imaging, cardiac biomarkers, and clonal immunoglobulin genes to assess left ventricular performance and stratify risk following peripheral blood stem cell transplantation in patients with systemic light chain amyloidosis (Al).

  Diego Bellavia, Roshini S Abraham, Patricia A Pellikka, Angela Dispenzieri, John C Burnett, Ghormallah B Al-Zahrani, Tammy D Green, Michelle K Manske, Morie A Gertz, Fletcher A Miller, Theodore P Abraham
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  ABSTRACT: Cardiac dysfunction is a well-recognized complication of light chain amyloidosis (AL). Autologous stem cell transplant (auto-SCT) has emerged as a successful treatment modality for AL patients. In this study, we examined the effect of clonal immunoglobulin light chain genes (VL), which encodes the immunoglobulin light chain protein that ultimately forms amyloid, on cardiac function, in the context of auto-SCT and its impact on overall survival. Longitudinal Doppler myocardial imaging parameters along with cardiac biomarkers were used to assess for cardiac function pre and post auto-SCT. VL gene analysis revealed that Vl genes, in particular VlVI, were associated with worse cardiac function parameters than Vk genes. Clonal VL genes appeared to have an impact on left ventricular (LV) function post-transplant and also influenced mortality, with specific VL gene families associated with lower survival. Another key predictor of mortality in this report was change in tricuspid regurgitant flow velocity following auto-SCT. Correlations were also observed between systolic strain rate, systolic strain and VL genes associated with amyloid formation. Clonal VL gene usage influences global cardiac function in AL, with patients having VlVI and VlII-III-associated amyloid more severely affected than those having Vk or VlI amyloid. Pulsed wave tissue Doppler imaging along with immunoglobulin gene analysis offers novel insights into prediction of mortality and cardiac dysfunction in AL after auto-SCT.
  Journal of the American Society of Echocardiography: official publication of the American Society of Echocardiography 02/2011; 24(4):444-54. · 2.98 Impact Factor
• Article: Independent predictors of survival in primary systemic (Al) amyloidosis, including cardiac biomarkers and left ventricular strain imaging: an observational cohort study.

  Diego Bellavia, Patricia A Pellikka, Ghormallah B Al-Zahrani, Theodore P Abraham, Angela Dispenzieri, Chinami Miyazaki, Martha Lacy, Christopher G Scott, Jae K Oh, Fletcher A Miller
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  ABSTRACT: The prognostic value of Doppler myocardial imaging, including myocardial velocity imaging, strain, and strain rate imaging, in patients with primary (AL) amyloidosis is uncertain. The aim of this longitudinal study was to identify independent predictors of survival, comparing clinical data, hematologic and cardiac biomarkers, and standard echocardiographic and Doppler myocardial imaging measures in a cohort of patients with AL amyloidosis. A total of 249 consecutive patients with AL amyloidosis were prospectively enrolled. The primary end point was all-cause mortality, and during a median follow-up period of 18 months, 75 patients (30%) died. Clinical and electrocardiographic data, biomarkers (brain natriuretic peptide and cardiac troponin T) and standard echocardiographic and longitudinal systolic and diastolic Doppler myocardial imaging measurements for 16 left ventricular segments were tested as potential independent predictors of survival. Age (hazard ratio [HR], 1.03; P = .03), New York Heart Association class III or IV (HR, 2.47; P = .01), the presence of pleural effusion (HR, 1.79; P = .08), brain natriuretic peptide level (HR, 1.29; P = .01), ejection time (HR, 0.99; P = .13), and peak longitudinal systolic strain of the basal anteroseptal segment (HR, 1.05; P = .02) were independent predictors in the final model. Multivariate survival analysis identified independent predictors of clinical outcome in patients with AL amyloidosis: New York Heart Association class III or IV, presence of pleural effusion, brain natriuretic peptide level > 493 pg/mL, ejection time < 273 ms, and peak longitudinal systolic basal anteroseptal strain less negative than or equal to -7.5% defined a high-risk group of patients.
  Journal of the American Society of Echocardiography: official publication of the American Society of Echocardiography 06/2010; 23(6):643-52. · 2.98 Impact Factor
• Article: QRS width and mechanical dyssynchrony for selection of patients for cardiac resynchronization therapy: one can't do without the other.

  Theodore P Abraham, Niels Thue Olsen
  JACC. Cardiovascular imaging 02/2010; 3(2):141-3. · 14.29 Impact Factor
• Article: Mitral regurgitation in cardiac resynchronization: solving another piece of the puzzle.

  Kristian Eskesen, Sivajothi Kanagalingam, Theodore P Abraham
  Circulation Cardiovascular Imaging 11/2009; 2(6):427-8. · 5.94 Impact Factor
• Article: Pathophysiological mechanisms underlying ventricular dyssynchrony.

  Alan Cheng, Robert H Helm, Theodore P Abraham
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  ABSTRACT: Left ventricular dyssynchrony due to conduction system disease creates cardiac inefficiency even in normal hearts. Dyssynchrony in the failing heart results in the development of a discrete heart failure phenotype as it induces chamber heterogeneity at the cellular and molecular levels that leads to impaired excitation-contraction coupling, increased arrhythmia susceptibility, and decreased myocyte survival among other pathologic changes. Recent research has demonstrated that these biomolecular changes are amazingly reversed with cardiac resynchronization therapy, providing insight into how to target the therapy.
  Europace 11/2009; 11 Suppl 5:v10-14. · 1.98 Impact Factor
• Article: Criteria predicting response to CRT: is more better?

  Miguel Santaularia-Tomas, Theodore P Abraham
  European Heart Journal 10/2009; 30(23):2835-7. · 10.48 Impact Factor
• Article: Prevalence and pathophysiologic attributes of ventricular dyssynchrony in arrhythmogenic right ventricular dysplasia/cardiomyopathy.

  Laurens F Tops, Kalpana Prakasa, Harikrishna Tandri, Darshan Dalal, Rahul Jain, Veronica L Dimaano, David Dombroski, Cynthia James, Crystal Tichnell, Amy Daly, Frank Marcus, Martin J Schalij, Jeroen J Bax, David Bluemke, Hugh Calkins, Theodore P Abraham
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  ABSTRACT: This study sought to investigate the prevalence and mechanisms underlying right ventricular (RV) dyssynchrony in arrhythmogenic right ventricular dysplasia/cardiomyopathy (ARVD/C) using tissue Doppler echocardiography (TDE). An ARVD/C is characterized by fibrofatty replacement of RV myocardium and RV dilation. These pathologic changes may result in electromechanical dyssynchrony. Echocardiography, both conventional and TDE, was performed in 52 ARVD/C patients fulfilling Task Force criteria and 25 control subjects. The RV end-diastolic and -systolic areas, right ventricular fractional area change (RVFAC), and left ventricular (LV) volumes and function were assessed. Mechanical synchrony was assessed by measuring differences in time-to-peak systolic velocity (T(SV)) between the RV free wall, ventricular septum, and LV lateral wall. An RV dyssynchrony was defined as the difference in T(SV) between the RV free wall and the ventricular septum, >2 SD above the mean value for control subjects. The mean difference in RV T(SV) was higher in ARVD/C compared with control subjects (55 +/- 34 ms vs. 26 +/- 15 ms, p < 0.001). Significant RV dyssynchrony was not noted in any of the control subjects. Based on a cutoff value of 56 ms, significant RV dyssynchrony was present in 26 ARVD/C patients (50%). Patients with RV dyssynchrony had a larger RV end-diastolic area (22 +/- 5 cm(2) vs. 19 +/- 4 cm(2), p = 0.02), and lower RVFAC (29 +/- 8% vs. 34 +/- 8%, p = 0.03) compared with ARVD/C patients without RV dyssynchrony. No differences in QRS duration, LV volumes, or function were present between the 2 groups. An RV dyssynchrony may occur in up to 50% of ARVD/C patients, and is associated with RV remodeling. This finding may have therapeutic and prognostic implications in ARVD/C.
  Journal of the American College of Cardiology 08/2009; 54(5):445-51. · 14.16 Impact Factor
• Article: Cardiac resynchronization therapy corrects dyssynchrony-induced regional gene expression changes on a genomic level.

  Andreas S Barth, Takeshi Aiba, Victoria Halperin, Deborah DiSilvestre, Khalid Chakir, Carlo Colantuoni, Richard S Tunin, Victoria Lea Dimaano, Wayne Yu, Theodore P Abraham, David A Kass, Gordon F Tomaselli
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  ABSTRACT: Cardiac electromechanical dyssynchrony causes regional disparities in workload, oxygen consumption, and myocardial perfusion within the left ventricle. We hypothesized that such dyssynchrony also induces region-specific alterations in the myocardial transcriptome that are corrected by cardiac resynchronization therapy (CRT). Adult dogs underwent left bundle branch ablation and right atrial pacing at 200 bpm for either 6 weeks (dyssynchronous heart failure, n=12) or 3 weeks, followed by 3 weeks of resynchronization by biventricular pacing at the same pacing rate (CRT, n=10). Control animals without left bundle branch block were not paced (n=13). At 6 weeks, RNA was isolated from the anterior and lateral left ventricular (LV) walls and hybridized onto canine-specific 44K microarrays. Echocardiographically, CRT led to a significant decrease in the dyssynchrony index, while dyssynchronous heart failure and CRT animals had a comparable degree of LV dysfunction. In dyssynchronous heart failure, changes in gene expression were primarily observed in the anterior LV, resulting in increased regional heterogeneity of gene expression within the LV. Dyssynchrony-induced expression changes in 1050 transcripts were reversed by CRT to levels of nonpaced hearts (false discovery rate <5%). CRT remodeled transcripts with metabolic and cell signaling function and greatly reduced regional heterogeneity of gene expression as compared with dyssynchronous heart failure. Our results demonstrate a profound effect of electromechanical dyssynchrony on the regional cardiac transcriptome, causing gene expression changes primarily in the anterior LV wall. CRT corrected the alterations in gene expression in the anterior wall, supporting a global effect of biventricular pacing on the ventricular transcriptome that extends beyond the pacing site in the lateral wall.
  Circulation Cardiovascular Genetics 08/2009; 2(4):371-8. · 6.11 Impact Factor
• Article: The role of echocardiography in hemodynamic assessment in heart failure.

  Jacob Abraham, Theodore P Abraham
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  ABSTRACT: Echocardiography now is recommended as the most useful diagnostic test for routine evaluation and management of heart failure. This article reviews the role of echocardiography (M-mode, two-dimensional, spectral, and tissue Doppler) for qualitative and quantitative hemodynamic assessment of the patient who has heart failure. It highlights the echocardiographic parameters that have the most diagnostic and/or prognostic relevance for patients who have advanced heart failure. The importance of right heart failure and heart failure with preserved ejection fraction is increasingly recognized, and therefore the echocardiographic evaluation of these conditions is emphasized also.
  Heart Failure Clinics 05/2009; 5(2):191-208.
• Article: Mechanisms of enhanced beta-adrenergic reserve from cardiac resynchronization therapy.

  Khalid Chakir, Samantapudi K Daya, Takeshi Aiba, Richard S Tunin, Veronica L Dimaano, Theodore P Abraham, Kathryn M Jaques-Robinson, Kathryn Jacques, Edwin W Lai, Karel Pacak, Wei-Zhong Zhu, Rui-ping Xiao, Gordon F Tomaselli, David A Kass
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  ABSTRACT: Cardiac resynchronization therapy (CRT) is the first clinical heart failure treatment that improves chamber systolic function in both the short-term and long-term yet also reduces mortality. The mechanical impact of CRT is immediate and well documented, yet its long-term influences on myocyte function and adrenergic modulation that may contribute to its sustained benefits are largely unknown. We used a canine model of dyssynchronous heart failure (DHF; left bundle ablation, atrial tachypacing for 6 weeks) and CRT (DHF for 3 weeks, biventricular tachypacing for subsequent 3 weeks), contrasting both to nonfailing controls. CRT restored contractile synchrony and improved systolic function compared with DHF. Myocyte sarcomere shortening and calcium transients were markedly depressed at rest and after isoproterenol stimulation in DHF (both anterior and lateral walls), and CRT substantially improved both. In addition, beta(1) and beta(2) stimulation was enhanced, coupled to increased beta(1) receptor abundance but no change in binding affinity. CRT also augmented adenylate cyclase activity over DHF. Inhibitory G-protein (Galpha(i)) suppression of beta-adrenergic stimulation was greater in DHF and reversed by CRT. Galpha(i) expression itself was unaltered; however, expression of negative regulators of Galpha(i) signaling (particularly RGS3) rose uniquely with CRT over DHF and controls. CRT blunted elevated myocardial catecholamines in DHF, restoring levels toward control. CRT improves rest and beta-adrenergic-stimulated myocyte function and calcium handling, upregulating beta(1) receptors and adenylate cyclase activity and suppressing G(i)-coupled signaling associated with novel RGS upregulation. The result is greater rest and sympathetic reserve despite reduced myocardial neurostimulation as components underlying its net benefit.
  Circulation 03/2009; 119(9):1231-40. · 14.74 Impact Factor
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  Available from: Geoffrey Hesketh

  Article: Electrophysiological consequences of dyssynchronous heart failure and its restoration by resynchronization therapy.

  Takeshi Aiba, Geoffrey G Hesketh, Andreas S Barth, Ting Liu, Samantapudi Daya, Khalid Chakir, Veronica Lea Dimaano, Theodore P Abraham, Brian O'Rourke, Fadi G Akar, David A Kass, Gordon F Tomaselli
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  ABSTRACT: Cardiac resynchronization therapy (CRT) is widely applied in patients with heart failure and dyssynchronous contraction (DHF), but the electrophysiological consequences of CRT in heart failure remain largely unexplored. Adult dogs underwent left bundle-branch ablation and either right atrial pacing (190 to 200 bpm) for 6 weeks (DHF) or 3 weeks of right atrial pacing followed by 3 weeks of resynchronization by biventricular pacing at the same pacing rate (CRT). Isolated left ventricular anterior and lateral myocytes from nonfailing (control), DHF, and CRT dogs were studied with the whole-cell patch clamp. Quantitative polymerase chain reaction and Western blots were performed to measure steady state mRNA and protein levels. DHF significantly reduced the inward rectifier K(+) current (I(K1)), delayed rectifier K(+) current (I(K)), and transient outward K(+) current (I(to)) in both anterior and lateral cells. CRT partially restored the DHF-induced reduction of I(K1) and I(K) but not I(to), consistent with trends in the changes in steady state K(+) channel mRNA and protein levels. DHF reduced the peak inward Ca(2+) current (I(Ca)) density and slowed I(Ca) decay in lateral compared with anterior cells, whereas CRT restored peak I(Ca) amplitude but did not hasten decay in lateral cells. Calcium transient amplitudes were depressed and the decay was slowed in DHF, especially in lateral myocytes. CRT hastened the decay in both regions and increased the calcium transient amplitude in lateral but not anterior cells. No difference was found in Ca(V)1.2 (alpha1C) mRNA or protein expression, but reduced Ca(V)beta2 mRNA was found in DHF cells. DHF reduced phospholamban, ryanodine receptor, and sarcoplasmic reticulum Ca(2+) ATPase and increased Na(+)-Ca(2+) exchanger mRNA and protein. CRT did not restore the DHF-induced molecular remodeling, except for sarcoplasmic reticulum Ca(2+) ATPase. Action potential durations were significantly prolonged in DHF, especially in lateral cells, and CRT abbreviated action potential duration in lateral but not anterior cells. Early afterdepolarizations were more frequent in DHF than in control cells and were reduced with CRT. CRT partially restores DHF-induced ion channel remodeling and abnormal Ca(2+) homeostasis and attenuates the regional heterogeneity of action potential duration. The electrophysiological changes induced by CRT may suppress ventricular arrhythmias, contribute to the survival benefit of this therapy, and improve the mechanical performance of the heart.
  Circulation 03/2009; 119(9):1220-30. · 14.74 Impact Factor