BACKGROUND: Constrictive pericarditis represents a serious hemodynamic syndrome that may lead to heart failure. Studies of its pathophysiological mechanisms have been impeded by the lack of an animal model. METHODS AND RESULTS: Cardiac myosin-induced experimental autoimmune myocarditis in interferon (IFN)-gamma-knockout (KO) mice results in increased cardiac inflammation and development of severe grossly detectable pericarditis. Using in vivo pressure-volume studies, we found that the acute phase of experimental autoimmune myocarditis in IFN-gamma-KO mice was characterized by reduced left ventricular (LV) volumes compared with wild-type mice. The KO mice exhibited a classic restrictive/constrictive phenotype with decreased cardiac output, increased chamber stiffness, preserved ejection fraction, and impaired diastolic filling, characterized by reduced deceleration time and pressure tracings showing the square root sign similar to that observed in clinical cases of constrictive pericarditis. This phenotype was not associated with the severity of myocarditis but correlated with the presence of grossly detectable adhesive pericarditis present only in the KO group and characterized by increased pericardial inflammation and fibrosis. Comparison of IFN-gamma-KO and wild-type mice matched for the severity of myocardial disease further confirmed that pericarditis, and not myocarditis, was responsible for smaller LV volumes, reduced cardiac output, increased cardiac stiffness, and increased peak filling rate adjusted for end-diastolic volumes in KO mice. CONCLUSIONS: Autoimmune heart disease in IFN-gamma-KO mice results in increased pericardial inflammation and fibrosis, leading to constrictive phenotype during the acute phase of disease. It represents a novel animal model of constrictive pericarditis.
BACKGROUND:Constrictive pericarditis represents a serious hemodynamic syndrome that may lead to heart failure. Studies of its pathophysiological mechanisms have been impeded by the lack of an animal model. METHODS AND RESULTS: Cardiac myosin-induced experimental autoimmune myocarditis in interferon (IFN)-gamma-knockout (KO) mice results in increased cardiac inflammation and development of severe grossly detectable pericarditis. Using in vivo pressure-volume studies, we found that the acute phase of experimental autoimmune myocarditis in IFN-gamma-KO mice was characterized by reduced left ventricular (LV) volumes compared with wild-type mice. The KO mice exhibited a classic restrictive/constrictive phenotype with decreased cardiac output, increased chamber stiffness, preserved ejection fraction, and impaired diastolic filling, characterized by reduced deceleration time and pressure tracings showing the square root sign similar to that observed in clinical cases of constrictive pericarditis. This phenotype was not associated with the severity of myocarditis but correlated with the presence of grossly detectable adhesive pericarditis present only in the KO group and characterized by increased pericardial inflammation and fibrosis. Comparison of IFN-gamma-KO and wild-type mice matched for the severity of myocardial disease further confirmed that pericarditis, and not myocarditis, was responsible for smaller LV volumes, reduced cardiac output, increased cardiac stiffness, and increased peak filling rate adjusted for end-diastolic volumes in KO mice. CONCLUSIONS:Autoimmune heart disease in IFN-gamma-KO mice results in increased pericardial inflammation and fibrosis, leading to constrictive phenotype during the acute phase of disease. It represents a novel animal model of constrictive pericarditis.
Authors: Eric D Abston; Jobert G Barin; Daniela Cihakova; Adriana Bucek; Michael J Coronado; Jessica E Brandt; Djahida Bedja; Joseph B Kim; Dimitrios Georgakopoulos; Kathleen L Gabrielson; Wayne Mitzner; DeLisa Fairweather Journal: Circ Heart Fail Date: 2012-03-27 Impact factor: 8.790
Authors: Eric D Abston; Michael J Coronado; Adriana Bucek; Jennifer A Onyimba; Jessica E Brandt; J Augusto Frisancho; Eunyong Kim; Djahida Bedja; Yoon-kyu Sung; Andrea J Radtke; Kathleen L Gabrielson; Wayne Mitzner; DeLisa Fairweather Journal: Am J Physiol Regul Integr Comp Physiol Date: 2012-12-19 Impact factor: 3.619
Authors: Daniela Cihakova; Jobert G Barin; G Christian Baldeviano; Miho Kimura; Monica V Talor; Daniel H Zimmerman; Eyal Talor; Noel R Rose Journal: Int Immunopharmacol Date: 2008-01-29 Impact factor: 4.932
Authors: Daniela Cihakova; Jobert G Barin; Marina Afanasyeva; Miho Kimura; DeLisa Fairweather; Michael Berg; Monica V Talor; G Christian Baldeviano; Sylvia Frisancho; Kathleen Gabrielson; Djahida Bedja; Noel R Rose Journal: Am J Pathol Date: 2008-04-10 Impact factor: 4.307