Clinical Neuroscience

[DIFFUSION TENSOR AND FUNCTIONAL MR IMAGING OF SEVERE TRAUMATIC BRAIN INJURY AT LOW MAGNETIC FIELD]

AUER Tibor, SCHWARCZ Attila, EZER Erzsébet, CZEITER Endre, ARADI Mihály, HUDVÁGNER Sándor, JANSZKY József, BÜKI András, DÓCZI Tamás

NOVEMBER 30, 2007

Clinical Neuroscience - 2007;60(11-12)

[Aim of the study - Presentation of diffusion tensor imaging (DTI) performed at low magnetic field (1 Tesla) in the algorithm of work-up of a patient suffering from severe traumatic brain injury (TBI). Method - DTI and functional MRI (fMRI) were applied at 1 Tesla for visualization of neural pathways and examination of sensory functions of a patient with severe TBI. DTI-measurement was also performed on a healthy patient for comparison. Results - DTI acquired at low magnetic field yielded appropriate visualization of neural pathways. DTI confirmed the results of the clinical and fMRI examinations in the patient suffering from severe TBI. Conclusion - An optimized DTI can be useful in the examination of patients with TBI, moreover, it may also help in the establishment of diagnoses of other central nervous system diseases affecting neuronal pathways. The presented results suggest that DTI of appropriate quality can be performed at low magnetic field.]

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Clinical Neuroscience

[BILATERAL “OVER THE TOP” DECOMPRESSION THROUGH UNILATERAL LAMINOTOMY FOR LUMBAR AND THORACIC SPINAL CANAL STENOSIS]

BANCZEROWSKI Péter, LIPÓTH László, VERES Róbert

[Objective - The standard surgical procedures used in degenerative thoracic and lumbar spinal canal stenosis allows decompression of the neural structures by unroofing the spinal canal, often resulted in destruction or insufficiency of facet joints, sacrifice the interspinosus/supraspinosus ligament complexes and stripping of the paraspinal muscles altering an already pathologic biomechanical milieu causing segmental instability. Various less invasive techniques exists to save the integrity and prevent the instability of the spine and allow decompression of neural structures located in the spinal canal. The authors discusses the experiences with technique of unilateral laminotomy for bilateral decompression. Methods - The unilateral laminotomy for bilateral decompression technique was performed at 60 levels in 51 patients to decompress the symptomatic degenerative stenosis of the thoracic and lumbar spinal canal. The inclusion criteria were used as follows: symptoms of neurogenic claudication and/or radiculopathy, myelopathy, neuroimaging evidence of degenerative stenosis and absence of instability. Symptoms were considered refractory to nonsurgical conservative management or myelopathy was detected. Results - The distribution of mostly affected segments were the L 4-5 (45%) and L3-4 (28.4%). Neurogenic claudication and walking distance improved during the follow up period in all patients. Seven patients (13.73%) reported excellent, 32 (62.74%) good, 12 (23.53%) fair outcome and no patient a poor overall outcome. The low back pain was the major residual postoperative complaint. 25 (49%) patients were very satisfied with their outcome, 23 (45.1%) were fairly satisfied, 2 (3.9%) were not very satisfied and 1 (2%) patients was dissatisfied. Conclusion - The unilateral laminotomy for bilateral microdecompression technique minimizes resection of and injury to tissues not directly involved in the pathologic process, while affording a safe and through decompression of neural structures located in a degeneratively stenotic spinal canal.]

Clinical Neuroscience

[UNALTERED MRNA EXPRESSION OF CALCITONIN-LIKE RECEPTOR AND RECEPTOR ACTIVITY MODIFYING PROTEINS IN HUMAN ARTERIES IN STROKE AND MYOCARDIAL INFARCTION]

KAREN Eskesen, TAJTI János, HORTOBÁGYI Tibor, SZOK Délia, VÉCSEI László, LARS Edvinsson

[Calcitonin-like receptor (CL-R) is a functional CGRP1- receptor when complexed with RAMP1 or an adrenomedullin-receptor or when complexed with RAMP2 or RAMP3. This study was carried out 1. to set up a method to examine the relative quantity of mRNA of CL-R, RAMP1, RAMP2 and RAMP3 in human coronary (CA), pulmonary (PA) and middle cerebral arteries (MCA), and 2. to examine the level of mRNA expression in cerebro- and cardiovascular diseases. The method was validated with respect to the use of postmortem tissue and we compared β-actin and GAPDH as housekeeping genes. There was no time-dependent change in total RNA and level of mRNA for β-actin or GAPDH could be detected in vessels removed from 1 and 5 days post mortem. The expression of β-actin appears lower in coronary artery than in pulmonary artery and middle cerebral artery with no significant difference for GAPDH; both worked well. There were some differences in mRNA expression for CL-R (higher) and RAMP3 (lower) in middle cerebral artery compared to coronary artery and pulmonary artery. There was no significant difference in mRNA for RAMP1 and RAMP2 in the three types of arteries. We did not observe any difference in mRNA for CL-R and RAMPs in arteries from patients with hemorrhagic stroke, arteriosclerosis and acute myocardial infarction when compared to patients without these diagnoses. Thus the mRNA expression seems to be unaltered in these disorders.]

Clinical Neuroscience

[ONE-AND-A-HALF SYNDROME - TWO CASES]

ILNICZKY Sándor, KAMONDI Anita, VÁRALLYAY György, GAAL Barbara, PALÁSTI Ágnes, GULYÁS Szilvia, SZIRMAI Imre

[One-and-a-half syndrome is characterized by combination of the clinical features of unilateral horizontal gaze palsy and internuclear ophthalmoplegia. The common symptoms are double vision and oscillopsia. The lesion is located in the paramedian pontine reticular formation, involving the centre of horizontal gaze and medial longitudinal fasciculus. More extensive brainstem damage may result in additional neurological signs. The most frequent underlying diseases are vascular insults, multiple sclerosis, and brainstem tumor. We present two cases of one-and-a-half syndrome. Both patients had lacunar infarction in the paramedian pontine tegmentum, revealed by MRI. The first patient had isolated eye movement disorder, while the second had additional nuclear-type facial paresis. In the first case brainstem evoked potentials indicated brainstem damage, in the second patient it was normal. Ocular symptoms improved within some days in both patients.]

Clinical Neuroscience

[CONGRESS CALENDAR]

Clinical Neuroscience

[Professor Béla Halász is 80 years old]

VÉCSEI László

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Clinical Neuroscience

Syndrome of trephined-underestimated and poorly understood complication after decompressive craniectomy

LÁNG József, GANAU Mario, PRISCO Lara, BOZSIK Krisztina, BANCZEROWSKI Péter

Decompressive craniectomy (DC) is still a matter of debate, with a numerous complications as expansion of haemorrhagic contusions, external cerebral herniation, subdural hygromas, post-traumatic hydrocephalus (HC). The often overlooked “syndrome of the trephined” (ST) as a delayed complication of DC also known as sinking skin flap sy initially described in 1939.ST is characterised by the neurological changes associated with alteration of the pressure/volume relationship between intracranial pressure (ICP), volume of cerebrospinal fluid (CSF), blood, and brain tissue in patients with large bone defects. This review aims at elucidating the mechanisms responsible for the development of ST, and providing useful tips and red-flag signs for healthcare professionals involved with care of post DC patients. Symptoms identified on time could help to develop appropriate treatment strategies for this suddenly deteriorating, but possible reversible condition. Although the treatment strategy is straightforward, calling for a prompt cranioplasty, the correction of HC through CSF diversion devices might require a lengthy optimisation period. Continuous changes in the setting of the shunting systems or spinal tap might lead to dangerous swinging of the midline structures causing further neurological deterioration. Thus, finding the right balance in terms of clinical management often represents a significant challenge.

Clinical Neuroscience

[Mentalizing deficit in neurological disorders: a review article]

HEROLD Róbert, VARGA Eszter, MIKE Andrea, TÉNYI Tamás, SIMON Mária, HAJNAL András, FEKETE Sándor, ILLÉS Zsolt

[Introduction – Mentalization is the ability to attribute mental states (intentions, desires, thoughts, emotions) to others, and hence to predict their behaviour. This ability fundamentally determines our participation in social relationships and adaptation to society. A significant proportion of the disorders of the central nervous system (CNS) affects those brain structures and neurotransmitter systems that play a role in the mentalizing processes. Accordingly, a number of CNS disorders may be associated with mentalizing deficits, which may affect the outcome of these diseases. Here, we review recent research on mentalizing abilities in neurological diseases. Methods – An internet database search was performed to identify publications on the subject. Results – Sixty-two publications in English corresponded to the search criteria. These publications reported impaired mentalization in several neurological disorders (e.g. epilepsy, Parkinson’s disease, multiple sclerosis, dementias, traumatic brain injury). Discussion – The results indicate that a number of neurological disorders associate with mentalizing deficit. This deficit is often present in the early stages of the diseases and has a prognostic value, which in turn emphasizes the importance of the early detection and adequate rehabilitation.]

Clinical Neuroscience

[Guidelines for the treatment of traumatic brain injury - 2017]

BÜKI András, BARZÓ Pál, DEMETER Béla, KANIZSAI Péter, EZER Erzsébet, TÓTH Péter, HORVÁTH Péter, VARGA Csaba

[Traumatic brain injury (TBI) is recognized to be the main cause of death and disability in the first four decades representing a major socio-economical problem worldwide. Recent communications revealed a particularly worrying image about the quality of care for TBI in Hungary. For any improvement a systematic approach characterized by utilization of scientific evidence based guidelines forming the basis for close monitoring of the actual care are considered a prerequisite. In Hungary the first evidence based guidelines in the field of TBI have been issued by the National Society for Anesthesiology and Intensive Care more than two decades ago followed by joint guidelines of the Hungarian Neurosurgical Society and the Hungarian College of Neurosurgeons. These publications were primarily based on the work of the European Brain Injury Consortium as well as guidelines issued by the Brain Trauma Foundation. Recent renewal of the latter and a need to refresh the outdated national guidelines was met by a call from regulatory authorities to issue the updated version of the Hungarian TBI-guidelines. The present review is aimed to briefly summarize the most fundamental elements of the national head injury guidelines that would hopefully be officially issued in a far more detailed format soon.]

Clinical Neuroscience

[APPLICATION OF FUNCTIONAL MR-IMAGES ACQUIRED AT LOW FIELD IN PLANNING OF NEUROSURGICAL OPERATION CLOSE TO AN ELOQUENT BRAIN AREA]

AUER Tibor, SCHWARCZ Attila, JANSZKY József, HORVÁTH Zsolt, KOSZTOLÁNYI Péter, DÓCZI Tamás

[Aim of the study - Presentation of functional MRI performed at low magnetic field (1 Tesla) for planning microsurgical operation in a patient suffering from tumor close to an eloquent brain area. Methods - Microsurgical removal navigated by frameless stereotaxy of an intrinsic tumor located in eloquent area is indicated if speech function is not damaged, i.e. exact localisation and relationship of the tumor and speech area can be defined. Before operation an optimized EPI based 2D sequence was applied to yield functional MR images. At the planning of the operation the paradigm used for the localization of the sensory language cortex contained passive listening to a text. Control investigations were performed one month postoperatively. A specific psychological test, as an additional investigation to estimate the accurate level of the sensory language function, was also conducted. Results - Low resolution (matrix of 64×64) functional MR images visualized sensory speech center and auditory cortex satisfactorily. The scans showed clearly that the Wernicke's region was situated just above the tumor (WHO grade II glioma), and this finding increased the safety of intraoperative localization and reduced the risk of morbidity. Control examinations revealed minimal decrease in sensory language function, however, it was not noticeable for either the patient or her surroundings. Conclusion - Optimized functional MR imaging performed at low magnetic field can support planning of neurosurgical operations and reduce the morbidity of microsurgical interventions.]