Roberto Fancellu

Cognitive and affective status in mild hypothyroidism and interactions with L-thyroxine treatment.

Objectives – While clinical hypothyroidism is associated with frank neuropsychological and affective alterations and is considered one of the causes of reversible dementia, the occurrence of these alterations and their treatment in mild hypothyroidism (MH) remains a controversial issue. Our aim was therefore to evaluate cognitive and psychological functions in a selected population of recently‐diagnosed MH patients with minor subjective symptoms.

An open-label pilot study with high-dose thiamine in Parkinson's disease

Parkinsons disease (PD) is a progressive neurodegenerative disorder clinically characterized by motor symptoms (bradykinesia, tremor, rigidity, postural instability) and non-motor symptoms (hyposmia, sleep disorders, autonomic and sphincteric dysfunctions, fatigue, pain, depression, and cognitive disorders) (Sprenger and Poewe, 2013). The neuropathological hallmark of PD is the degeneration of the pigmented dopaminergic neurons in the substantia nigra; other nuclei involved in neurodegeneration are locus coeruleus, reticular nuclei of brain stem, dorsal motor nucleus of vagus, basal nucleus of Meynert, amygdala, CA2 area of hippocampus, and frontal cortex. At the onset of parkinsonian symptoms, the neuronal loss is quite 70% in the lateral ventral part and 50% in the caudal part of the substantia nigra (Kordower et al., 2013). For this reason, and for the long time between the cellular onset and the clinical onset of the disease, it is mandatory to develop new therapies with disease-modifying and neuroprotective actions. The gold standard therapy for PD is always levodopa, while other currently validated treatments are dopamine agonists, cathecol-O-methyltransferase inhibitors, monoamine-oxidase-B inhibitors, and amantadine (Poewe et al., 2010; Sprenger and Poewe, 2013).

Sphingomyelin as a myelin biomarker in CSF of acquired demyelinating neuropathies

Fast, accurate and reliable methods to quantify the amount of myelin still lack, both in humans and experimental models. The overall objective of the present study was to demonstrate that sphingomyelin (SM) in the cerebrospinal fluid (CSF) of patients affected by demyelinating neuropathies is a myelin biomarker. We found that SM levels mirror both peripheral myelination during development and small myelin rearrangements in experimental models. As in acquired demyelinating peripheral neuropathies myelin breakdown occurs, SM amount in the CSF of these patients might detect the myelin loss. Indeed, quantification of SM in 262 neurological patients showed a significant increase in patients with peripheral demyelination (p = 3.81 * 10 − 8) compared to subjects affected by non-demyelinating disorders. Interestingly, SM alone was able to distinguish demyelinating from axonal neuropathies and differs from the principal CSF indexes, confirming the novelty of this potential CSF index. In conclusion, SM is a specific and sensitive biomarker to monitor myelin pathology in the CSF of peripheral neuropathies. Most importantly, SM assay is simple, fast, inexpensive, and promising to be used in clinical practice and drug development.

Serial magnetic resonance study in super refractory status epilepticus: progressive involvement of striatum and pallidus is a possible predictive marker of negative outcome

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.

Can long-term thiamine treatment improve the clinical outcomes of myotonic dystrophy type 1?

Myotonic dystrophy type 1, also known as Steinerts disease, is an autosomal dominant disorder with multisystemic clinical features affecting the skeletal and cardiac muscles, the eyes, and the endocrine system. Thiamine (vitamin B1) is a cofactor of fundamental enzymes involved in the energetic cell metabolism; recent studies described its role in oxidative stress, protein processing, peroxisomal function, and gene expression. Thiamine deficiency is critical mainly in the central and peripheral nervous system, as well as in the muscular cells. Our aim was to investigate the potential therapeutical effects of long-term treatment with thiamine in myotonic dystrophy type 1 in an observational open-label pilot study. We described two patients with myotonic dystrophy type 1 treated with intramuscular thiamine 100 mg twice a week for 12 or 11 months. We evaluated the patients using the grading of muscle strength according to Medical Research Council (MRC), the Muscular Impairment Rating Scale (MIRS), and the Modified Barthel index. High-dose thiamine treatment was well tolerated and effective in improving the motor symptomatology, particularly the muscle strength evaluated with the MRC scale, and the patients’ activities of daily living using the Modified Barthel Index. At the end of treatment, the MRC score was 5 in the proximal muscles and 2–4 in the distal muscles (the MRC score before the treatment was 3–4 and 1–3, respectively). The MIRS grade improved by 25% compared to baseline for both patients. In patient #1, the Modified Barthel Index improved by 44%, and in patient #2 by 29%. These findings suggest that clinical outcomes are improved by long-term thiamine treatment.

Wernicke Encephalopathy Challenges in Diagnosis and Treatment: Report of 2 Cases

BACKGROUND Wernicke encephalopathy (WE) is a medical emergency caused by thiamine deficiency, characterized by cerebellar ataxia, ophthalmoplegia, and cognitive disturbances that may progress to Korsakoff amnesia. We describe 2 patients with WE who needed high-dose and long-term treatment with thiamine to obtain neurological improvement and recovery. CASE DESCRIPTION The first patient was a woman diagnosed with non-Hodgkin lymphoma. After a gastrointestinal infection, she developed depression, memory loss, disorientation, behavioral changes, and ataxic paraplegia. Brain magnetic resonance imaging (MRI) showed bilateral alterations in thalamic, frontal, and periaqueductal regions, suggestive of WE. The second patient was a man who lost 10 kg after surgical gastrectomy; he developed diplopia, ophthalmoplegia, cerebellar ataxia, lower limb paresthesias, and amnesia. A brain MRI demonstrated contrast enhancement of mammillary bodies, compatible with WE. OUTCOME The patients were treated with intramuscular (IM) thiamine (1200 mg/d for 2 months and 900 mg/d for a month, respectively) with gradual cognitive and behavioral improvement and brain MRI normalization, while ataxia and oculomotion improved in following months. In both patients, thiamine was gradually reduced to IM 200 mg/d and continued for a year, without clinical relapses. CONCLUSIONS There is no consensus about dosage, frequency, route, and duration of thiamine administration in WE treatment. Based on our cases, we recommend treating patients with WE with higher doses of IM thiamine for a longer time than suggested (900-1200 mg/d for 1-2 months, in our cases) and to gradually reduce dosage after clinical and radiological improvement, maintaining IM 200 mg/d dosage for at least 1 year.

Challenges in Diagnosis and Treatment of Wernicke Encephalopathy

BACKGROUND Wernicke encephalopathy (WE) is a medical emergency caused by thiamine deficiency, characterized by cerebellar ataxia, ophthalmoplegia, and cognitive disturbances that may progress to Korsakoff amnesia. We describe 2 patients with WE who needed high-dose and long-term treatment with thiamine to obtain neurological improvement and recovery. CASE DESCRIPTION The first patient was a woman diagnosed with non-Hodgkin lymphoma. After a gastrointestinal infection, she developed depression, memory loss, disorientation, behavioral changes, and ataxic paraplegia. Brain magnetic resonance imaging (MRI) showed bilateral alterations in thalamic, frontal, and periaqueductal regions, suggestive of WE. The second patient was a man who lost 10 kg after surgical gastrectomy; he developed diplopia, ophthalmoplegia, cerebellar ataxia, lower limb paresthesias, and amnesia. A brain MRI demonstrated contrast enhancement of mammillary bodies, compatible with WE. OUTCOME The patients were treated with intramuscular (IM) thiamine (1200 mg/d for 2 months and 900 mg/d for a month, respectively) with gradual cognitive and behavioral improvement and brain MRI normalization, while ataxia and oculomotion improved in following months. In both patients, thiamine was gradually reduced to IM 200 mg/d and continued for a year, without clinical relapses. CONCLUSIONS There is no consensus about dosage, frequency, route, and duration of thiamine administration in WE treatment. Based on our cases, we recommend treating patients with WE with higher doses of IM thiamine for a longer time than suggested (900-1200 mg/d for 1-2 months, in our cases) and to gradually reduce dosage after clinical and radiological improvement, maintaining IM 200 mg/d dosage for at least 1 year.

Challenges in Diagnosis and Treatment of Wernicke Encephalopathy Report of 2 Cases

BACKGROUND Wernicke encephalopathy (WE) is a medical emergency caused by thiamine deficiency, characterized by cerebellar ataxia, ophthalmoplegia, and cognitive disturbances that may progress to Korsakoff amnesia. We describe 2 patients with WE who needed high-dose and long-term treatment with thiamine to obtain neurological improvement and recovery. CASE DESCRIPTION The first patient was a woman diagnosed with non-Hodgkin lymphoma. After a gastrointestinal infection, she developed depression, memory loss, disorientation, behavioral changes, and ataxic paraplegia. Brain magnetic resonance imaging (MRI) showed bilateral alterations in thalamic, frontal, and periaqueductal regions, suggestive of WE. The second patient was a man who lost 10 kg after surgical gastrectomy; he developed diplopia, ophthalmoplegia, cerebellar ataxia, lower limb paresthesias, and amnesia. A brain MRI demonstrated contrast enhancement of mammillary bodies, compatible with WE. OUTCOME The patients were treated with intramuscular (IM) thiamine (1200 mg/d for 2 months and 900 mg/d for a month, respectively) with gradual cognitive and behavioral improvement and brain MRI normalization, while ataxia and oculomotion improved in following months. In both patients, thiamine was gradually reduced to IM 200 mg/d and continued for a year, without clinical relapses. CONCLUSIONS There is no consensus about dosage, frequency, route, and duration of thiamine administration in WE treatment. Based on our cases, we recommend treating patients with WE with higher doses of IM thiamine for a longer time than suggested (900-1200 mg/d for 1-2 months, in our cases) and to gradually reduce dosage after clinical and radiological improvement, maintaining IM 200 mg/d dosage for at least 1 year.