Pulmonary artery banding is a valid experimental model that produces comparable maladaptive right ventricular remodeling and dysfunction to standard PAH models, allowing for the study of RV pathophysiology independent of pulmonary vascular effects.
Right ventricular (RV) dysfunction determines mortality in patients with pulmonary arterial hypertension (PAH) and RV pressure loading. Experimental models commonly use Sugen hypoxia (SuHx)-induced PAH, monocrotaline (MCT)-induced PAH, or pulmonary artery banding (PAB). Because PAH models cannot interrogate RV effects or therapies independent of pulmonary vascular effects, we aimed to compare RV function and fibrosis in experimental PAB vs. PAH. Thirty rats were randomized to either sham controls, PAB, SuHx-, or MCT-induced PAH. RV pressures and function were assessed by high-fidelity pressure-tipped catheters and by echocardiography. RV myocyte hypertrophy, fibrosis, and capillary density were quantified from hematoxylin-eosin, picrosirius red-stained, and CD31-immunostained RV sections, respectively. RV pressures and the RV-to-left ventricular pressure ratio were significantly increased in all three groups to a similar degree (PAB 65 ± 17 mmHg, SuHx 72 ± 16 mmHg, and MCT 70 ± 12 mmHg) vs. controls (23 ± 2 mmHg, all P P NEW & NOTEWORTHY Although animal models of pulmonary arterial hypertension and pressure loading are important to study right ventricular (RV) pathophysiology, pulmonary arterial hypertension models cannot interrogate RV responses independent of pulmonary vascular effects. Comparing three commonly used rat models under similar elevated RV pressure, we found that all models resulted in comparable maladaptive RV remodeling and dysfunction. Thus, these findings suggest that the pulmonary artery banding model can be used to investigate mechanisms of RV dysfunction in RV pressure overload and the effect of potential therapies.
Akazawa et al. (Thu,) studied this question.
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