Full-field analysis of epicardial strain in an in vitro porcine heart platform.

The quantitative assessment of cardiac strain is increasingly performed to provide valuable insights on heart function. Currently, the most frequently used technique in the clinic is ultrasound-based speckle tracking echocardiography (STE). However, verification and validation of this modality are still under investigation and further reference measurements are required to support this activity. The aim of this work was to enable these reference measurements using a dynamic beating heart simulator to ensure reproducible, controlled, and realistic haemodynamic conditions and to validate the reliability of optical-based three-dimensional digital image correlation (3D-DIC) for a dynamic full-field analysis of epicardial strain. Specifically, performance assessment of 3D-DIC was carried out by evaluating the accuracy and repeatability of the strain measurements across multiple cardiac cycles in a single heart and between five hearts. Moreover, the ability of this optical method to differentiate strain variations when different haemodynamic conditions were imposed in the same heart was examined. Strain measurements were successfully accomplished in a region of the lateral left ventricle surface. Results were highly repeatable over heartbeats and across hearts (intraclass correlation coefficient = 0.99), whilst strain magnitude was significantly different between hearts, due to change in anatomy and wall thickness. Within an individual heart, strain variations between different haemodynamic scenarios were greater than the estimated error of the measurement technique. This study demonstrated the feasibility of applying 3D-DIC in a dynamic passive heart simulator. Most importantly, non-contact measurements were obtained at a high spatial resolution (~ 1.5 mm) allowing resolution of local variation of strain on the epicardial surface during ventricular filling. The experimental framework developed in this paper provides detailed measurement of cardiac strains under controlled conditions, as a reference for validation of clinical cardiac strain imaging modalities

Analysis of Speckle Pattern Quality and Uncertainty for Cardiac Strain Measurements Using 3D Digital Image Correlation

Measurement of full-field cardiac strain using optical methods has potential application to validate ultrasound measurements ex vivo, confirming their suitability for accurate in vivo strain imaging. This study describes the use of an effective technique to create a speckle pattern over the surface of a porcine heart for ex vivo experiments with the 3D digital image correlation (DIC) method. We characterised the quality of the speckle pattern applied on the cardiac surface by analysis of speckle size and evaluated the baseline uncertainty of 3D-DIC technique using a zero-strain test, applying rigid-body motion to position the marked sample at four locations. Strain errors were reported at a high spatial resolution (~128 µm) and were evaluated over a range of subset sizes. For subset size greater than 29 pixels the strain error was less than 1% making the baseline uncertainty of the 3D-DIC system acceptable to measure strains on the cardiac surface of the order 10%

Validated risk score for predicting 6-month mortality in infective endocarditis

Background-Host factors and complications have been associated with higher mortality in infective endocarditis (IE). We sought to develop and validate a model of clinical characteristics to predict 6-month mortality in IE. Methods and Results-Using a large multinational prospective registry of definite IE (International Collaboration on Endocarditis [ICE]-Prospective Cohort Study [PCS], 2000-2006, n=4049), a model to predict 6-month survival was developed by Cox proportional hazards modeling with inverse probability weighting for surgery treatment and was internally validated by the bootstrapping method. This model was externally validated in an independent prospective registry (ICE-PLUS, 2008-2012, n=1197). The 6-month mortality was 971 of 4049 (24.0%) in the ICE-PCS cohort and 342 of 1197 (28.6%) in the ICE-PLUS cohort. Surgery during the index hospitalization was performed in 48.1% and 54.0% of the cohorts, respectively. In the derivation model, variables related to host factors (age, dialysis), IE characteristics (prosthetic or nosocomial IE, causative organism, left-sided valve vegetation), and IE complications (severe heart failure, stroke, paravalvular complication, and persistent bacteremia) were independently associated with 6-month mortality, and surgery was associated with a lower risk of mortality (Harrell's C statistic 0.715). In the validation model, these variables had similar hazard ratios (Harrell's C statistic 0.682), with a similar, independent benefit of surgery (hazard ratio 0.74, 95% CI 0.62-0.89). A simplified risk model was developed by weight adjustment of these variables. Conclusions-Six-month mortality after IE is 25% and is predicted by host factors, IE characteristics, and IE complications. Surgery during the index hospitalization is associated with lower mortality but is performed less frequently in the highest risk patients. A simplified risk model may be used to identify specific risk subgroups in IE

Infective Endocarditis in Patients on Chronic Hemodialysis

295sinoneBackground: Infective endocarditis (IE) is a common and serious complication in patients receiving chronic hemodialysis (HD). Objectives: This study sought to investigate whether there are significant differences in complications, cardiac surgery, relapses, and mortality between IE cases in HD and non-HD patients. Methods: Prospective cohort study (International Collaboration on Endocarditis databases, encompassing 7,715 IE episodes from 2000 to 2006 and from 2008 to 2012). Descriptive analysis of baseline characteristics, epidemiological and etiological features, complications and outcomes, and their comparison between HD and non-HD patients was performed. Risk factors for major embolic events, cardiac surgery, relapses, and in-hospital and 6-month mortality were investigated in HD-patients using multivariable logistic regression. Results: A total of 6,691 patients were included and 553 (8.3%) received HD. North America had a higher HD-IE proportion than the other regions. The predominant microorganism was Staphylococcus aureus (47.8%), followed by enterococci (15.4%). Both in-hospital and 6-month mortality were significantly higher in HD versus non–HD-IE patients (30.4% vs. 17% and 39.8% vs. 20.7%, respectively; p < 0.001). Cardiac surgery was less frequently performed among HD patients (30.6% vs. 46.2%; p < 0.001), whereas relapses were higher (9.4% vs. 2.7%; p < 0.001). Risk factors for 6-month mortality included Charlson score (hazard ratio [HR]: 1.26; 95% confidence interval [CI]: 1.11 to 1.44; p = 0.001), CNS emboli and other emboli (HR: 3.11; 95% CI: 1.84 to 5.27; p < 0.001; and HR: 1.73; 95% CI: 1.02 to 2.93; p = 0.04, respectively), persistent bacteremia (HR: 1.79; 95% CI: 1.11 to 2.88; p = 0.02), and acute onset heart failure (HR: 2.37; 95% CI: 1.49 to 3.78; p < 0.001). Conclusions: HD-IE is a health care–associated infection chiefly caused by S. aureus, with increasing rates of enterococcal IE. Mortality and relapses are very high and significantly larger than in non–HD-IE patients, whereas cardiac surgery is less frequently performed.nonePericas J.M.; Llopis J.; Jimenez-Exposito M.J.; Kourany W.M.; Almirante B.; Carosi G.; Durante-Mangoni E.; Fortes C.Q.; Giannitsioti E.; Lerakis S.; Montagna-Mella R.; Ambrosioni J.; Tan R.-S.; Mestres C.A.; Wray D.; Pachirat O.; Moreno A.; Chu V.H.; de Lazzari E.; Fowler V.G.; Miro J.M.; Clara L.; Sanchez M.; Casabe J.; Cortes C.; Nacinovich F.; Oses P.F.; Ronderos R.; Sucari A.; Thierer J.; Altclas J.; Kogan S.; Spelman D.; Athan E.; Harris O.; Kennedy K.; Tan R.; Gordon D.; Papanicolas L.; Korman T.; Kotsanas D.; Dever R.; Jones P.; Konecny P.; Lawrence R.; Rees D.; Ryan S.; Feneley M.P.; Harkness J.; Post J.; Reinbott P.; Gattringer R.; Wiesbauer F.; Andrade A.R.; Passos de Brito A.C.; Guimaraes A.C.; Grinberg M.; Mansur A.J.; Siciliano R.F.; Varejao Strabelli T.M.; Campos Vieira M.L.; de Medeiros Tranchesi R.A.; Paiva M.G.; de Oliveira Ramos A.; Weksler C.; Ferraiuoli G.; Golebiovski W.; Lamas C.; Karlowsky J.A.; Keynan Y.; Morris A.M.; Rubinstein E.; Jones S.B.; Garcia P.; Cereceda M.; Fica A.; Mella R.M.; Fernandez R.; Franco L.; Gonzalez J.; Jaramillo A.N.; Barsic B.; Bukovski S.; Krajinovic V.; Pangercic A.; Rudez I.; Vincelj J.; Freiberger T.; Pol J.; Zaloudikova B.; Ashour Z.; El Kholy A.; Mishaal M.; Osama D.; Rizk H.; Aissa N.; Alauzet C.; Alla F.; Campagnac C.C.; Doco-Lecompte T.; Selton-Suty C.; Casalta J.-P.; Fournier P.-E.; Habib G.; Raoult D.; Thuny F.; Delahaye F.; Delahaye A.; Vandenesch F.; Donal E.; Donnio P.Y.; Flecher E.; Michelet C.; Revest M.; Tattevin P.; Chevalier F.; Jeu A.; Remadi J.P.; Rusinaru D.; Tribouilloy C.; Bernard Y.; Chirouze C.; Hoen B.; Leroy J.; Plesiat P.; Naber C.; Neuerburg C.; Mazaheri B.; Sophia Athanasia C.N.; Deliolanis I.; Giamarellou H.; Thomas T.; Mylona E.; Paniara O.; Papanicolaou K.; Pyros J.; Skoutelis A.; Papanikolaou K.; Sharma G.; Francis J.; Nair L.; Thomas V.; Venugopal K.; Hannan M.M.; Hurley J.P.; Wanounou M.; Gilon D.; Israel S.; Korem M.; Strahilevitz J.; Iossa D.; Orlando S.; Ursi M.P.; Pafundi P.C.; D'Amico F.; Bernardo M.; Cuccurullo S.; Dialetto G.; Covino F.E.; Manduca S.; Della Corte A.; De Feo M.; Tripodi M.F.; Cecchi E.; De Rosa F.; Forno D.; Imazio M.; Trinchero R.; Grossi P.; Lattanzio M.; Toniolo A.; Goglio A.; Raglio A.; Ravasio V.; Rizzi M.; Suter F.; Magri S.; Signorini L.; Kanafani Z.; Kanj S.S.; Sharif-Yakan A.; Abidin I.; Tamin S.S.; Martinez E.R.; Soto Nieto G.I.; van der Meer J.T.M.; Chambers S.; Holland D.; Morris A.; Raymond N.; Read K.; Murdoch D.R.; Dragulescu S.; Ionac A.; Mornos C.; Butkevich O.M.; Chipigina N.; Kirill O.; Vadim K.; Vinogradova T.; Edathodu J.; Halim M.; Liew Y.-Y.; Lejko-Zupanc T.; Logar M.; Mueller-Premru M.; Commerford P.; Commerford A.; Deetlefs E.; Hansa C.; Ntsekhe M.; Almela M.; Azqueta M.; Brunet M.; Castro P.; Falces C.; Fuster D.; Fita G.; Garcia- de- la- Maria C.; Garcia-Gonzalez J.; Gatell J.M.; Marco F.; Miro J.M.; Ortiz J.; Ninot S.; Pare J.C.; Pericas J.M.; Quintana E.; Ramirez J.; Rovira I.; Sandoval E.; Sitges M.; Tellez A.; Tolosana J.M.; Vidal B.; Vila J.; Anguera I.; Font B.; Guma J.R.; Bermejo J.; Bouza E.; Garcia Fernandez M.A.; Gonzalez-Ramallo V.; Marin M.; Munoz P.; Pedromingo M.; Roda J.; Rodriguez-Creixems M.; Solis J.; Fernandez-Hidalgo N.; Tornos P.; de Alarcon A.; Parra R.; Alestig E.; Johansson M.; Olaison L.; Snygg-Martin U.; Pachirat P.; Pussadhamma B.; Senthong V.; Casey A.; Elliott T.; Lambert P.; Watkin R.; Eyton C.; Klein J.L.; Bradley S.; Kauffman C.; Bedimo R.; Corey G.R.; Crowley A.L.; Douglas P.; Drew L.; Holland T.; Lalani T.; Mudrick D.; Samad Z.; Sexton D.; Stryjewski M.; Wang A.; Woods C.W.; Cantey R.; Steed L.; Dickerman S.A.; Bonilla H.; DiPersio J.; Salstrom S.-J.; Baddley J.; Patel M.; Peterson G.; Stancoven A.; Levine D.; Riddle J.; Rybak M.; Cabell C.H.Pericas, J. M.; Llopis, J.; Jimenez-Exposito, M. J.; Kourany, W. M.; Almirante, B.; Carosi, G.; Durante-Mangoni, E.; Fortes, C. Q.; Giannitsioti, E.; Lerakis, S.; Montagna-Mella, R.; Ambrosioni, J.; Tan, R. -S.; Mestres, C. A.; Wray, D.; Pachirat, O.; Moreno, A.; Chu, V. H.; de Lazzari, E.; Fowler, V. G.; Miro, J. M.; Clara, L.; Sanchez, M.; Casabe, J.; Cortes, C.; Nacinovich, F.; Oses, P. F.; Ronderos, R.; Sucari, A.; Thierer, J.; Altclas, J.; Kogan, S.; Spelman, D.; Athan, E.; Harris, O.; Kennedy, K.; Tan, R.; Gordon, D.; Papanicolas, L.; Korman, T.; Kotsanas, D.; Dever, R.; Jones, P.; Konecny, P.; Lawrence, R.; Rees, D.; Ryan, S.; Feneley, M. P.; Harkness, J.; Post, J.; Reinbott, P.; Gattringer, R.; Wiesbauer, F.; Andrade, A. R.; Passos de Brito, A. C.; Guimaraes, A. C.; Grinberg, M.; Mansur, A. J.; Siciliano, R. F.; Varejao Strabelli, T. M.; Campos Vieira, M. L.; de Medeiros Tranchesi, R. A.; Paiva, M. G.; de Oliveira Ramos, A.; Weksler, C.; Ferraiuoli, G.; Golebiovski, W.; Lamas, C.; Karlowsky, J. A.; Keynan, Y.; Morris, A. M.; Rubinstein, E.; Jones, S. B.; Garcia, P.; Cereceda, M.; Fica, A.; Mella, R. M.; Fernandez, R.; Franco, L.; Gonzalez, J.; Jaramillo, A. N.; Barsic, B.; Bukovski, S.; Krajinovic, V.; Pangercic, A.; Rudez, I.; Vincelj, J.; Freiberger, T.; Pol, J.; Zaloudikova, B.; Ashour, Z.; El Kholy, A.; Mishaal, M.; Osama, D.; Rizk, H.; Aissa, N.; Alauzet, C.; Alla, F.; Campagnac, C. C.; Doco-Lecompte, T.; Selton-Suty, C.; Casalta, J. -P.; Fournier, P. -E.; Habib, G.; Raoult, D.; Thuny, F.; Delahaye, F.; Delahaye, A.; Vandenesch, F.; Donal, E.; Donnio, P. Y.; Flecher, E.; Michelet, C.; Revest, M.; Tattevin, P.; Chevalier, F.; Jeu, A.; Remadi, J. P.; Rusinaru, D.; Tribouilloy, C.; Bernard, Y.; Chirouze, C.; Hoen, B.; Leroy, J.; Plesiat, P.; Naber, C.; Neuerburg, C.; Mazaheri, B.; Sophia Athanasia, C. N.; Deliolanis, I.; Giamarellou, H.; Thomas, T.; Mylona, E.; Paniara, O.; Papanicolaou, K.; Pyros, J.; Skoutelis, A.; Papanikolaou, K.; Sharma, G.; Francis, J.; Nair, L.; Thomas, V.; Venugopal, K.; Hannan, M. M.; Hurley, J. P.; Wanounou, M.; Gilon, D.; Israel, S.; Korem, M.; Strahilevitz, J.; Iossa, D.; Orlando, S.; Ursi, M. P.; Pafundi, P. C.; D'Amico, F.; Bernardo, M.; Cuccurullo, S.; Dialetto, G.; Covino, F. E.; Manduca, S.; Della Corte, A.; De Feo, M.; Tripodi, M. F.; Cecchi, E.; De Rosa, F.; Forno, D.; Imazio, M.; Trinchero, R.; Grossi, P.; Lattanzio, M.; Toniolo, A.; Goglio, A.; Raglio, A.; Ravasio, V.; Rizzi, M.; Suter, F.; Magri, S.; Signorini, L.; Kanafani, Z.; Kanj, S. S.; Sharif-Yakan, A.; Abidin, I.; Tamin, S. S.; Martinez, E. R.; Soto Nieto, G. I.; van der Meer, J. T. M.; Chambers, S.; Holland, D.; Morris, A.; Raymond, N.; Read, K.; Murdoch, D. R.; Dragulescu, S.; Ionac, A.; Mornos, C.; Butkevich, O. M.; Chipigina, N.; Kirill, O.; Vadim, K.; Vinogradova, T.; Edathodu, J.; Halim, M.; Liew, Y. -Y.; Lejko-Zupanc, T.; Logar, M.; Mueller-Premru, M.; Commerford, P.; Commerford, A.; Deetlefs, E.; Hansa, C.; Ntsekhe, M.; Almela, M.; Azqueta, M.; Brunet, M.; Castro, P.; Falces, C.; Fuster, D.; Fita, G.; Garcia- de- la- Maria, C.; Garcia-Gonzalez, J.; Gatell, J. M.; Marco, F.; Miro, J. M.; Ortiz, J.; Ninot, S.; Pare, J. C.; Pericas, J. M.; Quintana, E.; Ramirez, J.; Rovira, I.; Sandoval, E.; Sitges, M.; Tellez, A.; Tolosana, J. M.; Vidal, B.; Vila, J.; Anguera, I.; Font, B.; Guma, J. R.; Bermejo, J.; Bouza, E.; Garcia Fernandez, M. A.; Gonzalez-Ramallo, V.; Marin, M.; Munoz, P.; Pedromingo, M.; Roda, J.; Rodriguez-Creixems, M.; Solis, J.; Fernandez-Hidalgo, N.; Tornos, P.; de Alarcon, A.; Parra, R.; Alestig, E.; Johansson, M.; Olaison, L.; Snygg-Martin, U.; Pachirat, P.; Pussadhamma, B.; Senthong, V.; Casey, A.; Elliott, T.; Lambert, P.; Watkin, R.; Eyton, C.; Klein, J. L.; Bradley, S.; Kauffman, C.; Bedimo, R.; Corey, G. R.; Crowley, A. L.; Douglas, P.; Drew, L.; Holland, T.; Lalani, T.; Mudrick, D.; Samad, Z.; Sexton, D.; Stryjewski, M.; Wang, A.; Woods, C. W.; Cantey, R.; Steed, L.; Dickerman, S. A.; Bonilla, H.; Dipersio, J.; Salstrom, S. -J.; Baddley, J.; Patel, M.; Peterson, G.; Stancoven, A.; Levine, D.; Riddle, J.; Rybak, M.; Cabell, C. H

Impact of early valve surgery on outcome of Staphylococcus aureus prosthetic valve infective endocarditis: analysis in the international collaboration of Endocarditis-Prospective Cohort Study

Background. The impact of early valve surgery (EVS) on the outcome of Staphylococcus aureus (SA) prosthetic valve infective endocarditis (PVIE) is unresolved. The objective of this study was to evaluate the association between EVS, performed within the first 60 days of hospitalization, and outcome of SA PVIE within the International Collaboration on Endocarditis–Prospective Cohort Study. Methods. Participants were enrolled between June 2000 and December 2006. Cox proportional hazards modeling that included surgery as a time-dependent covariate and propensity adjustment for likelihood to receive cardiac surgery was used to evaluate the impact of EVS and 1-year all-cause mortality on patients with definite left-sided S. aureus PVIE and no history of injection drug use. Results. EVS was performed in 74 of the 168 (44.3%) patients. One-year mortality was significantly higher among patients with S. aureus PVIE than in patients with non–S. aureus PVIE (48.2% vs 32.9%; P = .003). Staphylococcus aureus PVIE patients who underwent EVS had a significantly lower 1-year mortality rate (33.8% vs 59.1%; P = .001). In multivariate, propensity-adjusted models, EVS was not associated with 1-year mortality (risk ratio, 0.67 [95% confidence interval, .39–1.15]; P = .15). Conclusions. In this prospective, multinational cohort of patients with S. aureus PVIE, EVS was not associated with reduced 1-year mortality. The decision to pursue EVS should be individualized for each patient, based upon infection-specific characteristics rather than solely upon the microbiology of the infection causing PVIE