Parkes Weber Syndrome: Contribution of the Genotype to the Diagnosis

Abstract

Objectives: Parkes Weber syndrome (PWS) is a rare disorder that combines overgrowth, capillary malformations, and arteriovenous malformations (AVM)/arteriovenous fistulas, for which underlying activating mutations in the ras/mitogen-activated protein kinase/extracellular-signal-regulated kinase signaling pathway have been described. The clinical overlap with Klippel-Trenauny syndrome, associated with mutations in PIK3CA, is significant. This case series aimed to elaborate on the phenotypic description of PWS, to underline its clinical overlap with Klippel-Trenauny syndrome and nonsyndromic AVM, and to evaluate the contribution of genotypic characterization to the diagnosis. Methods: All patients diagnosed with PWS upon enrollment in the Bernese VAScular COngenital Malformations (VASCOM) cohort were included. The diagnostic criteria of PWS were retrospectively reviewed. A next-generation sequencing (NGS) gene panel (TSO500, Illumina) was used on tissue biopsy samples. Results: Overall, 10/559 patients of the VAScular COngenital Malformations cohort were initially diagnosed with PWS. Three patients were reclassified as nonsyndromic AVM (Kristen Rat Sarcoma Viral oncogene homolog [KRAS], KRAS+tumor protein p53, and protein tyrosine phosphatase non-receptor type 11). Finally, 7 patients fulfilled all clinical diagnostic criteria of PWS. Genetic testing was available in 5 PWS patients. Only 1 patient had the classic RASA1 mutation; another patient had mutations in G protein subunit alpha q (GNAQ) and phosphatase and tensin homolog. In a third case, a PIK3CA mutation was detected. In 2 patients, no mutations were identified. Conclusion: Overgrowth syndromes with vascular malformations are rare and their clinical overlap hampers the classification of individual phenotypes under specific syndrome labels, sometimes even despite genetic testing. To provide optimal patient care, an accurate phenotypic description combined with the identification of molecular targets for precision medicine may be more meaningful than the syndrome classification itself.