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BACKGROUND: Diabetic striatopathy is defined as a state of hyperglycemia associated with chorea/ballism, striatal hyperdensity at CT, or hyperintensity at T1-weighted MRI. It is considered a rare complication of uncontrolled diabetes but prevalence data are scarce. OBJECTIVES: Characterize diabetic striatopathy prevalence in the population afferent to the largest teaching hospital in Genova (Liguria, Italy) and investigate the role of glycated hemoglobin level in predicting the risk. METHODS: Data were retrospectively obtained from general population undergoing blood sampling for glycated hemoglobin and resulting with HbA1c values ≥ 8%, from January 2014 to June 2017. Brain neuroimaging of those who underwent at least a brain CT or MRI was examined in search of findings compatible with diabetic striatopathy and clinical information was collected. Logistic regression was used to predict the risk of diabetic striatopathy based on age and HbA1c values. RESULTS: Subjects with uncontrolled diabetes were 4603. Brain neuroimaging was available in 1806 subjects and three patients with diabetic striatopathy were identified, all of them reporting choreic movements. The prevalence of hemichorea due to diabetic striatopathy was therefore 3 cases out of 1806 (0.16%) in our population. Hepatic and hypoxic encephalopathies were the conditions most frequently mimicking diabetic striatopathy. Odds ratio of diabetic striatopathy and HbA1c level was significantly correlated (p = 0.0009). CONCLUSIONS: To the best of our knowledge, this study is the first to evaluate the prevalence of diabetic striatopathy in Italy. High HbA1c values may have a role in predicting diabetic striatopathy.
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Coreia , Complicações do Diabetes , Diabetes Mellitus , Hemoglobinas Glicadas , Humanos , Prevalência , Estudos RetrospectivosRESUMO
ABSTRACT: The most effective treatment for orbital fractures is still under debate and different strategies are proposed in the literature. All such strategies focus on reconstruction of the orbital structure, neglecting the main function of the medial and inferior walls, these latter being constructed so as to break during high energy trauma. The aim of the authors is to highlight the difference between different reconstructive techniques in an orbital fracture restoration, being inclined to favor repair over reconstruction of the orbital floor, assuming that a second trauma could happen and reconstructive material left in the orbit may damage the visual apparatus in such a scenario. Following this theme, the authors propose a reconstruction strategy using a custom made stereolithographic model and resorbable plate made of polylactic acid mesh molded onto it. The mesh is used alone or in combination with bone graft, to obtain a better reparative result. At present, this approach is best suited to sports people and the young. Even if a deeper evaluation of the method would be useful, the series of case studies presented could be of stimulus for future discussion.
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Fraturas Orbitárias , Procedimentos de Cirurgia Plástica , Placas Ósseas , Humanos , Órbita/cirurgia , Fraturas Orbitárias/cirurgia , Resultado do TratamentoRESUMO
Super refractory status epilepticus (SRSE) is a life-threatening condition in which seizures do not respond to third-line anticonvulsant drug therapy. SRSE is associated with high mortality. How often SRSE occurs, what are the risk factors leading to this condition, and what is the effect on clinical outcome of failure to control seizures are poorly defined. Several studies have evaluated magnetic resonance imaging (MRI) findings in status epilepticus (SE), confirming that SE may directly cause selective neuronal necrosis due to excitotoxic mechanisms, as described in clinical case reports and experimental models. The aim of our study is to illustrate, in a case of SRSE, MRI signal changes during time and to describe which cerebral structures are early involved in this difficult clinical condition. We investigated with serial MRI study a patient affected by childhood generalized epilepsy who developed SRSE of unknown etiology during adulthood. MRI scans showed brain signal changes according to progressive electro-clinical worsening, particularly an early involvement of striatum/pallidus. An extended literature exists about transient MRI changes in SE, but not enough about SRSE, because of the difficulties in executing serial MRI studies in patients with such risky condition. MRI findings in SRSE must be investigated with particular care in order to detect early changes in basal ganglia that could suggest severe prognosis.
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Corpo Estriado/diagnóstico por imagem , Globo Pálido/diagnóstico por imagem , Imageamento por Ressonância Magnética , Estado Epiléptico/diagnóstico por imagem , Estado Epiléptico/patologia , Adulto , Ondas Encefálicas/fisiologia , Eletroencefalografia , Humanos , Processamento de Imagem Assistida por Computador , MasculinoRESUMO
BACKGROUND: Lateralized involuntary movements consistent with hemichorea-hemiballism (HCHB) may appear following the development of contralateral haemorrhagic or ischaemic lesions of the basal ganglia, particularly the striatum (caudate nucleus and putamen). This condition is called vascular HCHB, but the same symptoms can be caused by a completely different striatal lesion. Glycaemic HCHB may occur in patients with uncontrolled hyperglycaemia: basal ganglia hyperdensity is seen on brain CT, while increased T1 signal intensity and reduced susceptibility-weighted imaging (SWI) and gradient-echo sequences (T2*-GRE) are detected on MRI. CASE DESCRIPTION: An 83-year-old man with multiple vascular risk factors and uncontrolled chronic hyperglycaemia was admitted for ischaemic stroke presenting with dysarthria and mild left hemiparesis. No involuntary movements were reported at admission. The emergent brain CT scan was negative for vascular acute lesions, while a mild bilateral hyperdensity of the striata was detectable. Involuntary movements on the left side of the body, consistent with HCHB, appeared 27 days later. The alterations on brain CT completely disappeared after 3 months. On brain MRI, the T1 signal alterations resolved after 10 months, while SWI and T2*-GRE sequences showed persisting alterations after 2 years. DISCUSSION: Detailed brain imaging demonstrated evolution of striatal alterations of glycaemic HCHB before the appearance of involuntary movements and during the following 2 years. The association between ischaemic stroke and glycaemic HCHB favours the hypothesis that chronic hyperglycaemia more likely determines striatal alterations and the clinical picture of HCHB when vascular hypoperfusion also occurs. LEARNING POINTS: Hemichorea-hemiballism (HCHB) may appear in patients with uncontrolled hyperglycaemia accompanied by typical neuroradiological features consisting of striatal alterations detectable on brain CT and MRI, often bilaterally.Unusually, striatal alterations can be detected before the appearance of involuntary movements and are fully reversible on brain CT and T1-MRI sequences.Brain hypoperfusion may facilitate the appearance of typical HCHB in patients with chronic hyperglycaemia.
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Lesion area measurement in multiple sclerosis (MS) is one of the key points in evaluating the natural history and in monitoring the efficacy of treatments. This study was performed to check the intra- and inter-observer agreement variability of a locally developed Growing Region Segmentation Software (GRES), comparing them to those obtained using manual contouring (MC). From routine 1.5-T MRI study of clinically definite multiple sclerosis patients, 36 lesions seen on proton-density-weighted images (PDWI) and 36 enhancing lesion on Gd-DTPA-BMA-enhanced T1-weighted images (Gd-T1WI) were randomly chosen and were evaluated by three observers. The mean range of lesion size was 9.9-536.0 mm(2) on PDWI and 3.6-57.2 mm(2) on Gd-T1WI. The median intra- and inter-observer agreement were, respectively, 97.1 and 90.0% using GRES on PDWI, 81.0 and 70.0% using MC on PDWI, 88.8 and 80.0% using GRES on Gd-T1WI, and 85.8 and 70.0% using MC on Gd-T1WI. The intra- and inter-observer agreements were significantly greater for GRES compared with MC ( P<0.0001 and P=0.0023, respectively) for PDWI, while no difference was found between GRES an MC for Gd-T1WI. The intra-observer variability for GRES was significantly lower on both PDWI ( P=0.0001) and Gd-T1WI ( P=0.0067), whereas for MC the same result was found only for PDWI ( P=0.0147). These data indicate that GRES reduces both the intra- and the inter-observer variability in assessing the area of MS lesions on PDWI and may prove useful in multicentre studies.