ABSTRACT
We describe a woman who presented with syncopal episodes and unilateral hypoglossal paresis in association with a highly infiltrative retropharyngeal mass. After an extensive malignancy workup, the patient was found to have Wegener granulomatosis (WG), an autoimmune necrotizing vasculitis that presents with inflammatory lesions anywhere in the respiratory tract and variable renal involvement. The archetypal presentation in the head and neck is erosive sinonasal crusting, though otologic, pharyngeal, and laryngeal findings are common. Highly uncharacteristic lesions are occasionally encountered and may contribute to significant diagnostic dilemmas. Neurologic involvement is not uncommon, but few reports of hypoglossal paresis and no reports of syncope as a result of WG are found in a review of the literature. Given the variability of presentation of WG in the head and neck, the otolaryngologist must maintain a high degree of suspicion for this disease in the evaluation of airway lesions.
Subject(s)
Granulomatosis with Polyangiitis/complications , Hypoglossal Nerve Diseases/etiology , Paresis/etiology , Syncope/etiology , Adult , Biopsy , Female , Granulomatosis with Polyangiitis/diagnosis , Humans , Magnetic Resonance Imaging , Pharynx/pathology , Tomography, X-Ray ComputedABSTRACT
We hypothesized that individual differences in autonomic responses to psychological, physiological, or environmental stresses are inherited, and exaggerated autonomic responsiveness may represent an intermediate phenotype that can contribute to the development of essential hypertension in humans over time. alpha(2)-Adrenergic receptors (alpha(2)-ARs), encoded by a gene on chromosome 10, are found in the central nervous system and also mediate release of norepinephrine from the presynaptic nerve terminals of the peripheral sympathetic nervous system and the exocytosis of epinephrine from the adrenal medulla. We postulated that, because this receptor mediates central and peripheral autonomic responsiveness to stress, genetic mutations in the gene encoding this receptor may explain contrasting activity of the autonomic nervous system among individuals. The restriction enzyme Dra I identifies a polymorphic site in the 3'-transcribed, but not translated, portion of the gene encoding the chromosome 10 alpha(2)-AR. Southern blotting of genomic DNA with a cDNA probe after restriction enzyme digestion results in fragments that are either 6.7 kb or 6.3 kb in size. Transfection studies of these two genotypes resulted in contrasting expression of a reporter gene, and it is suggested from these findings that this is a functional polymorphism. In a study of 194 healthy subjects, we measured autonomic responses to provocative motion, a fall in blood pressure induced by decreasing venous return and cardiac output, or exercise. Specifically, we measured reactions to 1) Coriolis stress, a strong stimulus that induces motion sickness in man; 2) heart rate responses to the fall in blood pressure induced by the application of graded lower body negative pressure; and 3) exercise-induced sweat secretion. In all of these paradigms of stress, subjective and objective evidence of increased autonomic responsiveness was found in those individuals harboring the 6.3-kb allele. Specifically, volunteers with the 6.3-kb allele had greater signs and symptoms of motion sickness mediated by the autonomic nervous system after off-axis rotation at increasing velocity (number of head movements a subject could complete during rotation before emesis +/- SE: 295 +/- 18 vs. 365 +/- 11; P = 0.001). They also had greater increases in heart rate in responses to the lower body negative pressure-induced fall in blood pressure (increase in heart rate +/- SE: 3.0 +/- 0.4 vs. 1.8 +/- 0.3; P = 0.012), and the 6.3-kb group had higher sweat sodium concentrations during exercise (mean sweat sodium concentration in meq/l over 30 min of exercise +/- SE: 43.2 +/- 7.1 vs. 27.6 +/- 3.4; P < 0.05). This single-nucleotide polymorphism may contribute to contrasting individual differences in autonomic responsiveness among healthy individuals.