Regional remodeling strain and its association with myocardial apoptosis after myocardial infarction in an ovine model

ObjectiveProgressive left ventricular remodeling after myocardial infarction has been viewed as an important contributor to progressive heart failure. The objective of this study was to investigate the relationship between myocardial apoptosis and strain during progressive cardiac remodeling.MethodsBefore creation of an anterolateral left ventricular infarction by ligation of diagonal arteries, 16 sonomicrometry transducers were placed in the left ventricular free wall of 8 sheep to assess regional deformation in the infarct, adjacent, and normally perfused remote myocardial regions over 8 weeks' duration. Hemodynamic, echocardiographic and sonomicrometric data were collected before infarction and then 30 minutes and 2, 6, and 8 weeks after infarction. At the end of the study, regional myocardial tissues were collected for apoptotic signaling proteins.ResultsAt terminal study, an increase in left ventricular end-diastolic pressure of 8.1 ± 0.1 mm Hg, a decrease in ejection fraction from 54.19% ± 5.68% to 30.55% ± 2.72%, and an end-diastolic volume increase of 46.08 ± 5.02 mL as compared with the preinfarct values were observed. The fractional contraction at terminal study correlated with the relative abundance of apoptotic protein expressions: cytochrome c (r2 = 0.02, P < .05), mitochondrial Bax (r2 = 0.27, P < .05), caspase-3 (r2 = 0.31, P < .05), and poly (adenosine diphosphate–ribose) polymerase (r2 = 0.30, P < .05). These myocardial apoptotic activities also correlated with remodeling strain: cytochrome c (r2 = 0.02, P < .05), mitochondrial Bax (r2 = 0.28, P < .05), caspase-3 (r2 = 0.43, P < .05), and poly (adenosine diphosphate–ribose) polymerase (r2 = 0.37, P < .05).ConclusionIncrease in regional remodeling strain led to an increase in myocardial apoptosis and regional contractile dysfunction in heart failure

Surgical treatment of ischemic mitral regurgitation might not influence ventricular remodeling

ObjectivesSurgical treatment for ischemic mitral regurgitation has become more aggressive. However, no clinical study has demonstrated that surgical correction of chronic ischemic mitral regurgitation improves survival. We used 4 well-developed ovine models of postinfarction left ventricular remodeling to test the hypothesis that ischemic mitral regurgitation does not significantly contribute to postinfarction left ventricular remodeling.MethodsInfarction of 21% to 24% of the left ventricular mass was induced by means of coronary ligation in 77 sheep. Infarctions varied only by anatomic location in the left ventricle: anteroapical, n = 26; anterobasal, n = 16; laterobasal, n = 9; and posterobasal, n = 20. Six additional sheep had ring annuloplasty before posterobasal infarction. End-systolic and end-diastolic left ventricular volume, end-systolic muscle-to-cavity area ratio, left ventricular sphericity, ejection fraction, and degree of ischemic mitral regurgitation, as determined by means of quantitative echocardiography, were assessed before infarction and at 2, 5, and 8 weeks after infarction.ResultsAll infarcts resulted in significant postinfarction remodeling and decreased ejection fraction. Anteroapical infarcts lead to left ventricular aneurysms. Only posterobasal infarcts caused severe and progressive ischemic mitral regurgitation. Remodeling because of posterobasal infarcts was not more severe than that caused by infarcts at other locations. Furthermore, prophylactic annuloplasty prevented the development of mitral regurgitation after posterobasal infarction but had no effect on remodeling.ConclusionThe extent of postinfarction remodeling is determined on the basis of infarct size and location. The development of ischemic mitral regurgitation might not contribute significantly to adverse remodeling. Ischemic mitral regurgitation is likely a manifestation rather than an important impetus for postinfarction remodeling

Influence of inotropy and chronotropy on the mitral valve sphincter mechanism.

BACKGROUND: This study was designed to isolate and quantify the effects of ventricular inotropic and chronotropic state on the normal mitral valve annular sphincter mechanism. METHODS: Sonomicrometry tansducers were placed around the mitral annulus in six sheep; atrial pacing wires were also placed. One week later, esmolol was titrated to produce a baseline hemodynamic state with a heart rate of 90 bpm; hemodynamic and sonomicrometry data were recorded. Then animals were paced at 120 bpm and 150 bpm; data were recorded at each heart rate. Isoproterenol infusion was titrated to achieve a heart rate, without pacing, of 120 and 150 bpm; again, data were recorded. Annular area was calculated at end diastole (ED) and end systole (ES) for all experiments using sonomicrometry array localization. Analysis of variance was used to assess the independent effects of heart rate and inotropic state on annular area. RESULTS: Atrial pacing at 120 bpm produced ES and ED annular areas of 777 +/- 150 mm(2) and 748.8 +/- 140.1 mm(2), respectively. At the same heart rate, isoproterenol-treatment resulted in significantly smaller ES and ED areas: 699 +/- 160 mm(2) and 641.9 +/- 156.5 mm(2), respectively. Atrial pacing at 150 bpm produced ES and ED annular areas of 745.2 +/- 131.3 mm(2) and 723.7 +/- 141.3 mm(2), respectively. At the same heart rate, isoproterenol-treatment resulted in significantly smaller ES and ED areas: 652.8 +/- 146.4 mm(2) and 569.7 +/- 155.9 mm(2), respectively. CONCLUSIONS: The inotropic state of the left ventricle directly affects the mitral valve annular orifice area, independent of heart rate. This inotropic effect on valve size is more pronounced at ED than at ES in the sheep

Border zone geometry increases wall stress after myocardial infarction: contrast echocardiographic assessment.

After myocardial infarction (MI), the border zone expands chronically, causing ventricular dilatation and congestive heart failure (CHF). In an ovine model (n = 4) of anteroapical MI that results in CHF, contrast echocardiography was used to image short-axis left ventricular (LV) cross sections and identify border zone myocardium before and after coronary artery ligation. In the border zone at end systole, the LV endocardial curvature (K) decreased from 0.86 +/- 0.33 cm(-1) at baseline to 0.35 +/- 0.19 cm(-1) at 1 h (P \u3c 0.05), corresponding to a mean decrease of 55%. Also in the border zone, the wall thickness (h) decreased from 1.14 +/- 0.26 cm at baseline to 1.01 +/- 0.25 cm at 1 h (P \u3c 0.05), corresponding to a mean decrease of 11%. By Laplace\u27s law, wall stress is inversely proportional to the product K. h. Therefore, a 55% decrease in K results in a 122% increase in circumferential stress; a 11% decrease in h results in a 12% increase in circumferential stress. These findings indicate that after MI, geometric changes cause increased dynamic wall stress, which likely contributes to border zone expansion and remodeling

One-Year Results with a Low-Profile Endograft in Subjects with Thoracic Aortic Aneurysm and Ulcer Pathologies

Objective Evaluate safety and effectiveness of the second generation, low-profile RelayPro thoracic endograft for the treatment of descending thoracic aortic aneurysm or penetrating atherosclerotic ulcer (PAU). Method A prospective, international, non-blinded, non-randomized, pivotal trial analyzed a primary safety endpoint of major adverse events (MAE) at 30 days (death, myocardial infarction, stroke, renal/respiratory failure, paralysis, bowel ischemia, procedural blood loss), and a primary effectiveness endpoint of treatment success at one year (technical success, patency, absence of aneurysm rupture, type I/III endoleaks, stent fractures, reinterventions, aneurysm expansion, and migration) compared to performance goals from the previous generation Relay pivotal study. The study was conducted in 36 centers in the US and Japan and enrolled between 2017 and 2019. Results The study population of 110 patients had a median (IQR) age of 76 (70 – 81) years, n=69 (62.7%) were male, n=43 (39.1%) were Asian, and were treated for 76 fusiform aneurysms (69%), 24 saccular aneurysms (22%), and 10 PAUs (9%). Most patients (82.7%) were treated with a non-bare stent (NBS) configuration. Technical success was 100%: median (IQR) procedure time was 91 (64 – 131) min, deployment time was 16 (10 – 25) min; 50 patients (73.5%) of the US cohort had percutaneous access, while centers in Japan used only surgical cutdown. The 30-day composite MAE rate was 6.4% (95% upper CI 11.6%, p=.0002): 2 strokes, 2 procedural blood losses >1000 mL requiring transfusion, 2 paralysis events, and 1 renal failure. Primary effectiveness was 89.2% (lower 95% CI 81.8%, p=.0185): 9 subjects experienced 11 events (1 aneurysm expansion, 6 secondary interventions, 4 type I endoleaks). There was no loss of stent-graft patency, no rupture, no fractures, and no migration. Conclusions The low-profile RelayPro thoracic endograft met the study primary endpoints and demonstrated satisfactory 30-day safety and 1-year effectiveness for the treatment of patients with aneurysms of the descending thoracic aorta or PAUs. Follow-up is ongoing to evaluate longer term outcomes and durability

Prevention of ischemic mitral regurgitation does not influence the outcome of remodeling after posterolateral myocardial infarction.

OBJECTIVES: This study was designed to test the hypothesis that ischemic mitral regurgitation (IMR) results from, but does not influence, the progression of left ventricular (LV) remodeling after posterolateral infarction. BACKGROUND: Surgical correction of chronic IMR is being increasingly recommended. METHODS: Three groups of sheep had coronary snares placed around the second and third obtuse marginal coronary arteries. Occlusion of these vessels in the control group resulted in progressive IMR over eight weeks. In a second group, Merseline mesh was fitted to cover the exposed LV before infarction. In a third group, a ring annuloplasty was placed before infarction to prevent IMR. Remodeling and degree of IMR were assessed with echocardiography at baseline and at 30 min and two, five, and eight weeks after infarction. RESULTS: Eight weeks after infarction, mean IMR grade was significantly higher in control animals than mesh and annuloplasty animals. At eight weeks, LV end-systolic volume and end-systolic muscle-to-cavity-area ratio (ESMCAR) were significantly better in mesh-treated sheep than in control sheep; also, at eight weeks, ESMCAR and akinetic segment length were significantly better in mesh-treated sheep than in annuloplasty sheep. Ejection fraction was significantly higher in the mesh than the annuloplasty group. There was no significant difference in any measure of remodeling between the annuloplasty and control groups. CONCLUSIONS: Prophylactic ventricular restraint reduces infarct expansion, attenuates adverse remodeling, and reduces IMR severity. Prevention of IMR by prophylactic ring annuloplasty does not influence remodeling. Ischemic mitral regurgitation is a consequence, not a cause, of postinfarction remodeling; infarct expansion is the more important therapeutic target