RESUMO
Introducción: en la actualidad, se reconocen cuadros vestibulares periféricos y centrales que pueden ser diagnosticados mediante la videonistagmografía (VNG). Los avances en la tecnología han provocado en los profesionales una constante actualización en el uso e interpretación de las distintas pruebas que conlleven, en su lectura cruzada, un diagnóstico acertado y a tratamientos de rehabilitación exitosos. El objetivo fue describir las interpretaciones de los resultados de las pruebas oculomotoras, posicionales y calóricas de la VNG para lograr un diagnóstico detallado de las disfunciones vestibulares. Materiales y métodos: revisión documental obtenida de 40 fuentes reportadas en la literatura científica entre 2010 a 2020 tomadas de bases de datos, tesis de grado y libros. Discusión: dentro de la revisión se encontraron tres categorías (pruebas oculomotoras, posicionales y calóricas) y siete subcategorías (nistagmo espontáneo, nistagmo evocado por la mirada, rastreo, sacadas, optocinético, Dix-Hallpike y roll test). Conclusión: los diversos elementos encontrados en la presente revisión son relevantes ya que precisan no solo el tipo de vértigo, sino también su localización topográfica, lo que favorece el proceso de evaluacióndiagnóstico en la población en general.
Introduction: At present, peripheral and central vestibular frames are recognized that can be diagnosed by videonystagmography (VNG). Advances in technology have caused professionals to constantly update the use and interpretation of the different tests that lead, in their cross-reading, to an accurate diagnosis and successful rehabilitation treatments. The objective was to describe the interpretations of the results of the oculomotor, positional and caloric tests of the VNG, for a detailed diagnosis of the vestibular dysfunctions. Materials and method: Documentary review obtained from 40 sources reported in the scientific literature between 2010 and 2020, taken from databases, thesis and books. Discussion: Within the review, three categories were found (oculomotor, positional and caloric tests) and seven subcategories (spontaneous nystagmus, gaze-evoked nystagmus, tracking, saccades, optokinetic, Dix-Hallpike and roll test). Conclusion: The various elements found in this review are relevant in that they specify not only the type of vertigo but also its topographic location, favoring the evaluation-diagnosis process in the general population.
Assuntos
Humanos , Nistagmo Patológico , Testes Calóricos , Eletronistagmografia , Movimentos OcularesRESUMO
OBJECTIVE: The objective was to find a way to estimate the value of inter-ear difference (IED) through monothermal caloric screening testing (MCST) that can be used at any laboratory, controlling and minimising the resulting error. METHODS: We retrospectively included in this study 2304 patients from our department to whom a videonystagmography with caloric testing was performed between 2003 and 2011. The IED was calculated in 3 different ways: Using the values of the 4 caloric stimulations (bithermal form) and using only the 2 same-temperature values (warm monothermal and cool monothermal forms). We studied 3 strategies to improve the accuracy of MCST: Analysis of variables that could impair the prediction, delimitation of a grey area of insufficient prediction and location of a maximum utility cut-off point. RESULTS: Correcting Jongkees' formula with the value for spontaneous nystagmus makes it possible to include subjects with spontaneous nystagmus or nystagmus inversion. Establishing 2 cut-off points to classify the subjects avoids approximately 38% of bithermal stimulations performed with a sensitivity and specificity of 95%. Maximum utility was obtained diagnosing as healthy those subjects with IED values lesser than or equal to 16% in warm MCST when the pathological IED was set as greater than 20%. CONCLUSION: New statistical tools help clinicians to make decisions that affect their patients based on the results of MCST.