Kernohan-Woltman notch phenomenon: an exceptional neurological picture?

INTRODUCTION: Ipsilateral hemiparesis (IH) can be defined as a paradoxical dysfunction of the first motor neuron involving the extremities on the opposite side to that expected, given the location of the triggering intracranial pathology. Compression of the corticospinal tract (CSt) along its course through the contralateral cerebral peduncle against the free edge of the tentorium, known as the Kernohan-Woltman notch phenomenon (KWNP), represents the main cause of IH. METHODS: This retrospective study analyses a series of 12 patients diagnosed with IH secondary to KWNP treated at our institution, including a descriptive study of epidemiological, clinical, radiological, neurophysiological, and prognostic variables. RESULTS: In 75% of the cases, symptoms had an acute or subacute onset. Initial imaging studies showed signs of significant mass effect in half of the patients, whereas magnetic resonance imaging (MRI) identified a structural lesion in the contralateral cerebral peduncle in two thirds of them. Impairment of the motor evoked potentials (MEP) was verified in 4 patients. During follow-up 7 patients experienced improvement in motor activity, and near half of the cases were classified in the first three categories of the modified Rankin scale. CONCLUSIONS: In contrast to prior historical series, most of our patients developed a KWNP secondary to a traumatic mechanism. MRI represents the optimal method to identify both the classic cerebral peduncle notch and the underlying structural lesion of the CSt. The use of MEP can help to establish the diagnosis, especially in those cases lacking definite radiological findings.

[Quantitative gait analysis in patients with advanced Parkinson's disease]. / Analisis cuantitativo de la marcha en pacientes con enfermedad de Parkinson avanzada.

AIM: To describe the gait disorders and postural instability in a group of patients with advanced Parkinson's disease (PD). PATIENTS AND METHODS: Gait was analysed in patients in advanced stages of PD on medication. Using a computerised analysis system, we studied the kinematic variables: cadence, number of correct gait cycles (HFPS cycles), total number of cycles, duration of the phases of the cycle, electromyography and a goniometric study of the knee and the ankle. The clinical appraisal of balance and postural instability was completed with the Tinetti and Timed Up and Go tests. RESULTS: The analysis showed alterations in the spatio-temporal parameters with respect to the ranges considered to be normal: reduction of the HFPS cycles, increase in the total number of cycles and alteration of the cadence in many patients. It also revealed that the mean cadence was kept within the limits of normal values, an increase in the duration of the contact phase, reduction of monopodal support and alteration of the joint range of motion of the knee and the ankle. Likewise, changes are also observed in the scores obtained on the clinical scales, which show an increase in the risk factor for falls and mild dependence. CONCLUSION: Quantification by objective analysis of the kinetic and kinematic variables in patients with PD can be used as a tool to establish the influence of the different therapeutic alternatives in gait disorders.

TITLE: Analisis cuantitativo de la marcha en pacientes con enfermedad de Parkinson avanzada.Objetivo. Describir las alteraciones de la marcha e inestabilidad postural en un grupo de pacientes con enfermedad de Parkinson (EP) avanzada. Pacientes y metodos. Se analizo la marcha de pacientes con EP en estadio avanzado on medicacion. Por medio de un sistema de analisis computarizado del movimiento, se estudiaron las variables cinematicas: cadencia, numero de ciclos con apoyo correcto (ciclos HFPS), numero de ciclos totales, duracion de las fases del ciclo, electromiografia, y goniometria de rodilla y tobillo. La valoracion clinica del equilibrio y la inestabilidad postural se completo con los tests Tinetti y Timed Up and Go. Resultados. El analisis mostro alteraciones en los parametros espaciotemporales con respecto a los rangos de normalidad: disminucion de los ciclos HFPS, aumento del numero total de ciclos y alteracion de la cadencia en muchos pacientes, y conservacion de la cadencia media dentro de los limites de la normalidad, aumento de la duracion de la fase de apoyo, disminucion del apoyo monopodal y alteracion del rango articular de la rodilla y el tobillo. Asimismo, se observo una alteracion en las puntuaciones obtenidas en las escalas clinicas, que mostraban un aumento del factor de riesgo de caidas y dependencia leve. Conclusion. La cuantificacion mediante analisis objetivo de las variables cineticas y cinematicas en los pacientes con EP puede emplearse como herramienta para establecer la influencia de las distintas alternativas terapeuticas en el trastorno de la marcha.

[Deep brain stimulation: 12 years' experience and 150 patients treated with a follow-up of over a year]. / Estimulación cerebral profunda: 12 años de experiencia y 250 pacientes intervenidos con un seguimiento de más de un año.

INTRODUCTION: Deep brain stimulation (DBS) is a widely accepted clinical technique. The main motor symptoms are significantly reduced. The success of the technique depends on the experience of the neurosurgeon, neurologist and neurophysiologist who carry it out. The presentation of extensive series is needed to confirm and further currently held knowledge. AIM: To demonstrate the clinical benefits of a long series of patients treated by a single group with a minimum follow-up of one year and to report new neurophysiological data. PATIENTS AND METHODS: The study examined a total of 250 patients with different diagnoses: most of them with Parkinson's disease, tremor and dystonia. The nuclei that were chosen were located by magnetic resonance imaging, computerised axial tomography and neurophysiological registers. Neurophysiological exclusion criteria, such as reflex control of heart rate, sympathetic skin response and auditory startle reflex, are employed in order to exclude patients with Parkinson-plus. RESULTS: The motor sub-scale (part III) of the Unified Parkinson's Disease Rating Scale improves by 64% in the off-medication status with sub-thalamic stimulation at one year after surgery. One year after DBS, patients with dystonia show a significant decrease on the Burke-Fahn-Marsden dystonia scale. The improvement on the scales continues, with a mean descent of 65% in the second year after surgery. CONCLUSIONS: DBS is a suitable technique for the treatment of movement disorders. The neuronal activity of the sub-thalamus and the internal globus pallidus presents its own characteristics that reflect the motor symptoms of the patients. Surface electromyography proves to be useful for quantifying the patients' improvement.

Deep brain stimulation in the globus pallidus to treat dystonia: electrophysiological characteristics and 2 years' follow-up in 10 patients.

Deep brain stimulation (DBS) was applied in the internal segment of the globus pallidus (GPi) to treat dystonia in 10 patients. One year after surgery the Burke-Fahn-Marsden movement scores were significantly lower than preoperative values (P=0.01). Two years after surgery the mean decrease reached 65% (P=0.001) with no motor symptoms worsening. Single unity activity was recorded in the operating room: GPi cells discharged with tonic (n=19; 29%), irregular (n=32; 48%), or burst-like activity (n=15; 23%) and fired with a mean discharge rate of 39 Hz+/-22. Some neurons demonstrated an oscillatory activity with periods lasting several seconds. Pairs of pallidal cells (n=8) recorded simultaneously displayed discharge synchronization. Movement modulated 64.4% of the cells tested, with increases in firing in 89% of cells and decreases in firing in 10% of cells. GPi cells responded to flexion and extension movements and to several passive manipulations indicating an important sensory role in dystonia. GPi neurons fired in advance of the electromyography (EMG) when the surface EMG was recorded simultaneously with the neuronal activity. Spectral analysis of the co-contracting muscles during dystonia demonstrated prominent high peaks at a low frequency band (20 Hz) during involuntary and voluntary movements. The high amplitude EMG profile recorded at rest diminished to very low values with GPi stimulation, allowing an ease of voluntary contractions. We conclude that DBS in the GPi is a reliable surgical technique for dystonia. GPi cells discharge with distinct electrophysiological characteristics that may explain some of the symptoms in dystonia. EMG recording in the operating room helps to determine which DBS contacts produce the best benefit.