Litcius/Paper detail

Head/neck paragangliomas: focus on tumor location, mutational status and plasma methoxytyramine

Susan Richter, Bei Qiu, Mirthe Ghering, Carola Kunath, Georgiana Constantinescu, Charlotte Luths, Christina Pamporaki, Nicole Bechmann, Leah Meuter, Aleksandra Kwapiszewska, Timo Deutschbein, Svenja Nölting, Mirko Peitzsch, Mercedes Robledo, Aleksander Prejbisz, Karel Pacák, Volker Gudziol, Henri Timmers, Graeme Eisenhofer

2022Zurich Open Repository and Archive (University of Zurich)37 citationsDOI

Abstract

Head and neck paragangliomas (HNPGLs) are tumors of parasympathetic origin that occur at variable locations and are often secondary to germline mutations in succinate dehydrogenase (SDH) subunit genes. Occasionally, these tumors produce catecholamines. Here, we assessed whether different locations of HNPGLs relate to the presence of SDHx mutations, catecholamine production and other presentations. In this multicenter study, we collected clinical and biochemical data from 244 patients with HNPGLs and 71 patients without HNPGLs. We clarified that jugulotympanic HNPGLs have distinct features. In particular, 88% of jugulotympanic HNPGLs arose in women, among whom only 24% occurred due to SDHx mutations compared to 55% in men. Jugulotympanic HNPGLs were also rarely bilateral, were of a smaller size and were less often metastatic compared to carotid body and vagal HNPGLs. Furthermore, we showed that plasma concentrations of methoxytyramine (MTY) were higher (P < 0.0001) in patients with HNPGL than without HNPGL, whereas plasma normetanephrine did not differ. Only 3.7% of patients showed strong increases in plasma normetanephrine. Plasma MTY was positively related to tumor size but did not relate to the presence of SDHx mutations or tumor location. Our findings confirm that increases in plasma MTY represent the main catecholamine-related biochemical feature of patients with HNPGLs. We expect that more sensitive analytical methods will make biochemical testing of HNPGLs more practical in the future and enable more than the current 30% of patients to be identified with dopamine-producing HNPGLs. The sex-dependent differences in the development of HNPGLs may have relevance to the diagnosis, management and outcomes of these tumors. Keywords: biochemical phenotype; methoxytyramine; normetanephrine; sex-related differences; succinate dehydrogenase mutations; tumor size.

Topics & Concepts

NormetanephrineGermlineParagangliomaPheochromocytomaCatecholamineInternal medicineBiomarkerHead and neckMetanephrineClinical significanceHead and neck cancerMedicineGermline mutationEndocrinologyGeneMutationBiologyPathologyCancerGeneticsSurgeryAdrenal and Paraganglionic TumorsPituitary Gland Disorders and TreatmentsCancer, Hypoxia, and Metabolism