Background-Sildenafil was recently approved for the treatment of pulmonary arterial hypertension. The beneficial effects of phosphodiesterase type 5 (PDE5) inhibitors in pulmonary arterial hypertension are thought to result from relatively selective vasodilatory and antiproliferative effects on the pulmonary vasculature and, on the basis of early data showing lack of significant PDE5 expression in the normal heart, are thought to spare the myocardium. Methods and Results-We studied surgical specimens from 9 patients and show here for the first time that although PDE5is not expressed in the myocardium of the normal human right ventricle (RV), mRNA and protein are markedly upregulated in hypertrophied RV (RVH) myocardium. PDE5 also is upregulated in rat RVH. PDE5 inhibition (with either MY-5445 or sildenafil) significantly increases contractility, measured in the perfused heart (modified Langendorff preparation) and isolated cardiomyocytes, in RVH but not normal RV. PDE5 inhibition leads to increases in both cGMP and cAMP in RVH but not normal RV. Protein kinase G activity is suppressed in RVH, explaining why the PDE5 inhibitor-induced increase in cGMP does not lead to inhibition of contractility. Rather, it leads to inhibition of the cGMP-sensitive PDE3, explaining the increase in cAMP and contractility. This is further supported by our findings that, in RVH protein kinase A, inhibition completely inhibits PDE5-induced inotropy, whereas protein kinase G inhibition does not. Conclusions-The ability of PDE5 inhibitors to increase RV inotropy and to decrease RV afterload without significantly affecting systemic hemodynamics makes them ideal for the treatment of diseases affecting the RV, including pulmonary arterial hypertension. (Circulation. 2007;116:238-248.)
Background—
Glutaraldehyde fixation (G-F) decreases but likely does not eliminate the antigenicity of bioprosthetic heart valves. Rejection (with secondary dystrophic calcification) may be why G-F xenograft valves fail, especially in young patients, who are more immunocompetent than the elderly. Therefore, we sought to determine whether rejection of G-F xenograft occurs and to correlate this with graft calcification.
Methods and Results—
Ascending aortas/valves (from rats [syngeneic] or guinea pigs [xenogeneic]) were transplanted (fresh or after 48 hour of G-F) into the infrarenal aortas of young rat recipients for 20 days. A xenogeneic group was also treated with steroids until graft harvest. The valves and media/adventitia were scored blindly for inflammation (0 to 4). Percent graft infiltration by T cells/macrophages was determined (immunohistochemistry), and rat IgG ELISAs were performed. There was >3 times more valve inflammation, >10 times more valve T-cell/macrophage infiltrate, and >3 times antibody rise in the G-F xenogeneic groups compared with the fresh syngeneic or the G-F syngeneic groups (
P
<0.05). There was >2 times more adventitial inflammation and T-cell/macrophage infiltrate in the xenogeneic groups (
P
<0.05). Steroid treatment decreased inflammation and antibody rise in the xenogeneic groups (
P
<0.05). Correlation analysis revealed media/adventitia inflammation (
P
=0.02) and percent macrophage (
P
=0.01) infiltration to be predictors of calcification.
Conclusions—
G-F xenografts have cellular/humoral rejection and calcify secondarily.
Rodent models have been essential to understanding the immune-mediated failure of aortic valve allografts (AVAs). Decellularization has been proposed to reduce the immunogenicity of AVAs. The objective of this study was to determine the most effective method to decellularize AVAs for use in a rat model. Three different decellularization techniques were compared in Lewis aortic valves. Detergent decellularization involved a series of hypotonic and hypertonic Tris buffers at 4 degrees C for 48 h/buffer containing 0.5% Triton X-100 followed by a 72 h washout in phosphate-buffered saline. Osmotic decellularization was performed in similar manner to the detergent-based technique except without the addition of Triton X-100. Enzymatic decellularization consisted of trypsin/EDTA at 37 degrees C for 48 h. Assessment was performed with light microscopy (H&E, Movat's pentachrome), immunohistochemistry for residual cellular elements, and hydroxyproline assays. Detergent-based methodology effected near-complete decellularization of both the leaflets and aortic wall in addition to preservation of the extracellular matrix (ECM). Osmotic lysis was associated with preservation of ECM and moderate decellularization. Enzymatic decellularization resulted in complete decellularization but extensive degeneration and fragmentation of the ECM. When implanted into the infrarenal aorta of allogeneic rats for 1 week, valves decellularized with detergent-based and osmotic methodology failed to stimulate an allogeneic immune response as evidenced by an absence of T cell infiltrates. Osmotic lysis protocols with low dose detergent appear to be most effective at both removing antigenic cellular elements and preserving ECM.
The U.S. Department of Veterans Affairs (VA) is the nation's largest care provider for hepatitis C virus (HCV)-infected patients and is uniquely suited to inform national efforts to eliminate HCV. An extensive array of delivery of services, policy guidance, outreach efforts, and funding has broadened the reach and capacity of the VA to deliver direct-acting antiviral (DAA) HCV therapy, supported by an infrastructure to effectively implement change and informed by extensive population health data analysis. The VA has treated more than 92 000 HCV-infected veterans since all-oral DAAs became available in January 2014, with cure rates exceeding 90%; only 51 000 veterans in VA care are known to remain potentially eligible for treatment. Key actions advancing the VA's aggressive treatment of HCV infection that are germane to non-VA settings include expansion of treatment capacity through the use of nonphysician providers, video telehealth, and electronic technologies; expansion of integrated care to address psychiatric and substance use comorbidities; and electronic data tools for patient tracking and outreach. A critical component of effective implementation has been building infrastructure through the creation of regional multidisciplinary HCV Innovation Teams, whose system redesign efforts have produced innovative HCV practice models addressing gaps in care while providing more efficient and effective HCV management for the populations they serve. Financing for HCV treatment and infrastructure resources coupled with reduced drug prices has been paramount to the VA's success in curing HCV infection. The VA is poised to share and extend best practices to other health care organizations and providers delivering HCV care, contributing to a concerted effort to reduce the overall burden of HCV infection.
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