Wall shear stress measured by phase contrast cardiovascular magnetic resonance in children and adolescents with pulmonary arterial hypertension

Although the pathobiology of atherosclerosis is a complex multifactorial process, blood flow-induced shear stress has emerged as an essential feature of atherogenesis. This fluid drag force acting on the vessel wall is mechanotransduced into a biochemical signal that results in changes in vascular behavior. Maintenance of a physiologic, laminar shear stress is known to be crucial for normal vascular functioning, which includes the regulation of vascular caliber as well as inhibition of proliferation, thrombosis and inflammation of the vessel wall. Thus, shear stress is atheroprotective. It is also recognized that disturbed or oscillatory flows near arterial bifurcations, branch ostia and curvatures are associated with atheroma formation. Additionally, vascular endothelium has been shown to have different behavioral responses to altered flow patterns both at the molecular and cellular levels and these reactions are proposed to promote atherosclerosis in synergy with other well-defined systemic risk factors. Nonlaminar flow promotes changes to endothelial gene expression, cytoskeletal arrangement, wound repair, leukocyte adhesion as well as to the vasoreactive, oxidative and inflammatory states of the artery wall. Disturbed shear stress also influences the site selectivity of atherosclerotic plaque formation as well as its associated vessel wall remodeling, which can affect plaque vulnerability, stent restenosis and smooth muscle cell intimal hyperplasia in venous bypass grafts. Thus, shear stress is critically important in regulating the atheroprotective, normal physiology as well as the pathobiology and dysfunction of the vessel wall through complex molecular mechanisms that promote atherogenesis.

Pulmonary arterial hypertension (PAH) is a rare but important cause of morbidity and mortality in children. We analyzed data from 216 patients ≤18 years of age at diagnosis who were enrolled in the Registry to Evaluate Early and Long-Term PAH Disease Management (REVEAL). Median age at diagnosis and enrollment was 7 and 15 years, respectively. The most frequent presenting symptom was dyspnea (idiopathic/familial PAH, 53%; PAH associated with congenital heart disease, 30%). Presyncope/syncope was more frequent in patients with idiopathic PAH/familial PAH (36%) than in those with PAH associated with congenital heart disease (4%). At diagnosis, mean pulmonary artery pressure and pulmonary vascular resistance index were 56 mm Hg and 17 Wood units · m(2), respectively. Five-year survival from diagnosis for the overall cohort was 74±6%, with no significant difference between the idiopathic PAH/familial PAH (n=122, 75±7%) and PAH associated with congenital heart disease (n=77, 71±13%) cohorts (P=0.53). Older age at diagnosis was the only variable significantly associated with decreased survival from diagnosis. Variables at enrollment that were significantly associated with decreased survival from enrollment included higher pulmonary vascular resistance index, lower-weight z scores, and familial PAH. Additional variables at enrollment, identified in a secondary analysis, that were marginally associated with increased survival from enrollment included acute vasoreactivity (adaptation of conventional pediatric definition; P=0.087) and lower brain natriuretic peptide (P=0.060). None of the 22 patients who were acute responders treated with high-dose calcium channel blockade as monotherapy or combination therapy died within 5 years of diagnosis. Using REVEAL, we identified key predictors of survival in childhood PAH. Refining these prognostic parameters should help clinicians improve outcomes. URL: www.clinicaltrials.gov. Unique identifier: NCT00370214.

Decreased total compliance of the pulmonary vascular bed is associated with increased mortality in patients with pulmonary arterial hypertension (PAH). We investigated whether proximal pulmonary artery stiffness, in terms of area distensibility and noninvasively assessed relative area change (RAC), calculated as relative cross-sectional area change, predicts mortality in patients with PAH. Eighty-six subjects underwent right-heart catheterization and MRI to assess area distensibility and RAC. Patients were followed up to 48 months. Kaplan-Meier plot and Cox proportional hazards regression analyses assessed the predictive value of area distensibility and RAC. In 70 patients, the diagnosis PAH was confirmed, and 16 subjects served as control subjects. In comparison with control subjects, proximal pulmonary arteries of patients were distended (685 +/- 214 mm2 vs 411 +/- 153 mm2, p 16% (log-rank p < 0.001). RAC predicted mortality better than area distensibility. Noninvasively measured pulmonary artery RAC predicts mortality in patients with PAH.