Development of an international core outcome set for peripheral vascular malformations: the OVAMA project.

BACKGROUND: An important limitation in vascular malformation research is the heterogeneity in outcome measures used for the evaluation of treatment outcome. OBJECTIVES: To reach international consensus on a core outcome set (COS) for clinical research on peripheral vascular malformations: lymphatic (LM), venous (VM) and arteriovenous malformations (AVM). In this consensus study, we determined what domains should constitute the COS. METHODS: Thirty-six possibly relevant outcome domains were proposed to an international group of physicians, patients and the parents of patients. In a three-round e-Delphi process using online surveys, participants repeatedly rated the importance of these domains on a five-point Likert scale. Participants could also propose other relevant domains. This process was performed for LM, VM and AVM separately. Consensus was predefined as 80% agreement on the importance of a domain among both the physician group and the patient/parent group. Outcomes were then re-evaluated in an online consensus meeting. RESULTS: 167 physicians and 134 patients and parents of patients with LM (n = 50), VM (n = 71) and AVM (n = 29) participated in the study. After three rounds and a consensus meeting, consensus was reached for all three types of vascular malformations on the core domains of radiological assessment, physician-reported location-specific signs, patient-reported severity of symptoms, pain, quality of life, satisfaction and adverse events. Vascular malformation type-specific signs and symptoms were included for LM, VM and AVM, separately. CONCLUSIONS: Our recommendation is that therapeutic-efficacy studies on peripheral vascular malformations should measure at least these core outcome domains.

Diagnosis and management of hemangiomas and vascular malformations of the head and neck.

Vascular anomalies are congenital errors in vascular development. They frequently involve the head, neck, and oral cavity. Subdivided into vascular tumors (hemangiomas) and vascular malformations, vascular anomalies remain poorly understood. However, growing interest and recent advances in the diagnosis, management, and molecular characterization of these lesions are improving treatment strategies. The role of the multidisciplinary team cannot be overstated. This review provides both basic and up-to-date knowledge on the most common vascular anomalies encountered by physicians and practitioners. Because treatment options for vascular anomalies are widely variable and often debated, this report aims to provide a comprehensive approach to these lesions based upon current concepts and practical clinical experience.

Prolonged infusions of estradiol dilate the ovine fetal pulmonary circulation.

Factors mediating both the rapid and sustained fall in pulmonary vascular resistance (PVR) at birth are incompletely understood. Acute or prolonged estrogen treatment causes vasodilation of several vascular beds in adults. Although fetal estrogen levels rise in late gestation, their effects in the fetal pulmonary circulation have not been studied. To determine whether estrogens can cause pulmonary vasodilation in the fetus, we infused 17beta-estradiol (E2) into the left pulmonary artery (LPA) of chronically catheterized fetal lambs, measured pulmonary artery pressure and LPA blood flow, and calculated PVR. Brief E2 administration (1-, 10-, and 100-microg doses) did not change baseline pulmonary hemodynamics and failed to enhance endothelium-dependent vasodilation as assessed by the dilator response to acetylcholine. However, prolonged E2 infusion (2- 8 d) caused a 2.6-fold increase in pulmonary blood flow (73+/-6 versus 188+/-44 mL/min, baseline versus E2 treatment, p<0.05), and the response was sustained for at least several hours. Treatment with the nitric oxide synthase inhibitor nitro-L-arginine (L-NA) reversed the E2-induced fall in PVR (0.15+/-0.05 versus 0.51+/-0.15 mm Hg/mL/min; before versus after L-NA, p<0.05). Endothelial nitric oxide synthase expression and endothelin-1 content were not different in E2-responders and controls, suggesting that altered expression of these mediators did not account for the increased flow. We conclude that prolonged E2 infusion causes an unusual pattern of vasodilation in the ovine fetal lung. On the basis of these observations of exogenous E2 treatment, we speculate that endogenous E2 enhances pulmonary vasodilation at birth.