Cortical deficits in multiple sclerosis on the basis of subcortical lesions

Interferon-β Decreases the Hypermetabolic State of Red Blood Cells from Patients with Multiple Sclerosis

Multiple sclerosis (MS) is an inflammatory disease characterized by damage to the myelin sheath surrounding axons in the central nervous system. While the exact mechanism of this destruction is unknown, excess nitric oxide (NO) and adenosine triphosphate (ATP) have been measured in tissues and fluids obtained from people with MS. Here, incubation of interferon-beta (IFN-β), an MS drug with an unknown mechanism of action, with red blood cells (RBCs) obtained from people with MS provide evidence of a potential hypermetabolic state in the MS RBC that is decreased with IFN-β intervention. Specifically, binding of all three components of an albumin/C-peptide/Zn²⁺ complex to MS RBCs was significantly increased in comparison to control RBCs. For example, the binding of C-peptide to MS RBCs was significantly increased (3.4 ± 0.1 nM) compared to control RBCs (1.6 ± 0.2 nM). However, C-peptide binding to MS RBCs was reduced to a value (1.6 ± 0.3 nM) statistically equal to that of control RBCs in the presence of 2 nM IFN-β. Similar trends were measured for albumin and Zn²⁺ binding to RBCs when in the presence of IFN-β. RBC function was also affected by incubation of cells with IFN-β. Specifically, RBC-derived ATP and measurable membrane GLUT1 were both significantly decreased (56 and 24%, respectively) in the presence of IFN-β. Collectively, our results suggest that IFN-β inhibits albumin binding to the RBC, thereby reducing its ability to deliver ligands such as C-peptide and Zn²⁺ to the cell and normalizing the basal hypermetabolic state.

A cute verbal dyspraxia, a rare presentation in multiple sclerosis: a case report with MRI localization

C ortical speech disorders rarely occur in multiple sclerosis (MS). We report a patient with relapsing-remitting MS, who presented with acute verbal dyspraxia. Magnetic resonance imaging (MRI) demonstrated an acute T2/Flair hyperintense, primarily white matter lesion underlying the middle third of the inferior frontal gyrus. The verbal dyspraxia cleared beginning 48 hours after the initiation of iv dexamethasone. Follow-up MRI demonstrated qualitative and quantitative diminution of the hyperintensity. This is the first report of a clinically definite MS patient with acute verbal dyspraxia. Moreover, there was a suggestive localization of verbal praxis to Brodmann areas 44/45.

Multiple sclerosis with predominant, severe cognitive impairment

OBJECTIVE

To describe the characteristics of multiple sclerosis (MS) presenting with severe cognitive impairment as its primary disabling manifestation.

DESIGN

Retrospective case series.

SETTING

Tertiary referral center. Patients Patients were identified through the Mayo Clinic data retrieval system (1996-2008) with definite MS (McDonald criteria) and severe cognitive impairment as their primary neurological symptom without accompanying significant MS-related impairment or alternative diagnosis for cognitive dysfunction. Twenty-three patients meeting inclusion criteria were compared regarding demographics, clinical course, and radiological features.

MAIN OUTCOME MEASURES

Demographic, clinical, and radiological characteristics of the disease.

RESULTS

Twelve patients were men. The median age of the first clinical symptom suggestive of central nervous system demyelination was 33 years, and severe MS-related cognitive impairment developed at a median age of 39 years. Cognitive impairment could be dichotomized as subacute fulminant (n = 9) or chronic progressive (n = 14) in presentation, which corresponded to subsequent relapsing or progressive MS courses. Study patients commonly exhibited psychiatric (65%), mild cerebellar (57%), and cortical symptoms and signs (eg, seizure, aphasia, apraxia) (39%). Fourteen of 21 (67%), where documented, smoked cigarettes. Brain magnetic resonance imaging demonstrated diffuse cerebral atrophy in 16 and gadolinium-enhancing lesions in 11. Asymptomatic spinal cord magnetic resonance imaging lesions were present in 12 of 16 patients (75%). Immunomodulatory therapies were generally ineffective in improving these patients.

CONCLUSIONS

We describe patients with MS whose clinical phenotype is characterized by severe cognitive dysfunction and prominent cortical and psychiatric signs presenting as a subacute fulminant or chronic progressive clinical course. Cigarette smokers may be overrepresented in this phenotype.

Intravenous mitoxantrone and cyclophosphamide as second-line therapy in multiple sclerosis: An open-label comparative study of efficacy and safety

The study's aim was to compare the efficacy and safety of intravenous cyclophosphamide (CTX) and mitoxantrone (MITO) as second-line therapy in a clinical sample of active relapsing-remitting (RR) or secondary-progressive (SP) multiple sclerosis subjects. MITO was administered at a dosage of 8 mg/m(2) monthly for 3 months, then every 3 months, until a dosage of 120 mg/m(2) was reached. CTX was administered at a dosage of 700 mg/m(2) monthly for 12 months, then bimonthly for another 24 months. We used the Kaplan-Meier curves to assess time to the first relapse in RR and SP patients with relapses, and time to progression on the Expanded Disability Status Scale (EDSS) in all the patients. MRI was assessed at baseline and after 12 months. Moreover, side effects were recorded. Seventy-five patients received MITO (31 RR, 44 SP) and 78 CTX (15 RR, 63 SP). The two groups differ only in terms of a significantly higher proportion of RR patients in the MITO group. After a mean follow-up of 3.6 years there was no significant difference in terms of time to the first relapse (MITO 2.6 years, CTX 2.5 years; p=0.50), whereas time to disease progression was slightly shorter in MITO than in CTX group (MITO 3.8 years, CTX 3.6 years; p=0.04). After 12 months of treatment, active MRI scans were reduced by 69% in MITO and 63% in CTX patients (p=0.10). Discontinuation due to side effects was more frequent in CTX patients. However, the overall tolerability profile was acceptable in both groups.

Therapy-induced plasticity of cognitive functions in MS patients: insights from fMRI

Multiple sclerosis (MS) is an inflammatory disease of the central nervous system whose pathological mechanisms are still not completely understood. Physical as well as cognitive deterioration are consequences within the disease process that have an extensive impact on the patient's quality of life. Therefore, understanding the functional background of spontaneous as well as induced remission is of high relevance. Studies on visualization of therapeutic effects of pharmacological or cognitive treatment by functional magnetic resonance imaging (fMRI) are still rare. From fMRI studies on focal brain lesions hypotheses on mechanisms of brain reorganization can be derived. This contribution will first give an overview of the existing studies using fMRI in MS, on cognitive decline, on cognitive treatment studies and its therapeutic effects on behavioural readouts in MS, and on therapy-induced brain plasticity and its possible visualization by fMRI. Results of a study on correlating the effects of cognitive training with changes in brain organization in patients with mild to severe cognitive impairment will be reported.

The role of nitric oxide in multiple sclerosis

Nitric oxide (NO) is a free radical found at higher than normal concentrations within inflammatory multiple sclerosis (MS) lesions. These high concentrations are due to the appearance of the inducible form of nitric oxide synthase (iNOS) in cells such as macrophages and astrocytes. Indeed, the concentrations of markers of NO production (eg, nitrate and nitrite) are raised in the CSF, blood, and urine of patients with MS. Circumstantial evidence suggests that NO has a role in several features of the disease, including disruption of the blood-brain barrier, oligodendrocyte injury and demyelination, axonal degeneration, and that it contributes to the loss of function by impairment of axonal conduction. However, despite these considerations, the net effect of NO production in MS is not necessarily deleterious because it also has several beneficial immunomodulatory effects. These dual effects may help to explain why iNOS inhibition has not provided reliable and encouraging results in animal models of MS, but alternative approaches based on the inhibition of superoxide production, partial sodium-channel blockade, or the replacement of lost immunomodulatory function, may prove beneficial.

Cerebral blood flow velocity changes to visual stimuli in patients with multiple sclerosis

We assessed the blood flow velocity (BFv) changes to visual stimuli using transcranial Doppler (TCD) in patients with multiple sclerosis (MS) during an exacerbation period by means of vasoneuronal coupling. Eighty-four patients (19 men, 75 women) and 45 healthy subjects (14 men, 31 women) were studied. Both posterior cerebral arteries (PCAs) were simultaneously monitored by TCD sonography during 10 cycles of 20 s eyes open observing complex moving visual images, and 20 s eyes closed at the end of every cycle. TCD sonography was performed at least at the first 2 days of exacerbation. Mean cerebral BFv throughout the procedure (p=0.003, p=0.001; right and left sides, respectively), velocity at rest (p=0.001, p<0.001), and velocity at stimulation (p=0.021, p=0.01) on both PCAs were significantly lower in patients than controls. However, BFv changes to visual stimulation on both sides were significantly higher in patients (p=0.01, p=0.031) compared to controls. There were negative correlations between P100 latencies and relative blood flow changes on both sides, but it was not significant on the left side. These results may suggest that patients with MS during exacerbation have more reactive vessels in the posterior circulation and! or more reactive neurons in the occipital cortex.

Cognitive impairments in multiple sclerosis: a review

Multiple sclerosis (MS) is an inflammatory demyelinating disease of the central nervous system (CNS). Cognitive impairment (CI) may develop at any time during the course of the disease in the presence or absence of neurological disability. On the basis of comprehensive neuropsychological studies, there is now a consensus among investigators that 45 percent to 65 percent of MS patients suffer from some degree and form of cognitive difficulty. Features of CI include bradyphrenia; impaired attention, concentration and abstract reasoning; reduced manual speed and dexterity; deficits in memory retrieval; and language deficits in both the relapsing-remitting and progressive forms of MS. Impairments in all cognitive domains may result from the diffuse spread of microscopic pathology, although a preferential lobar distribution of plaques can present with a predominant deficit in the corresponding cognitive function. Nevertheless, the severity of CI best correlates with total microscopic and macroscopic disease burden of the brain as defined by recently developed magnetic resonance imaging (MRI) sequences. A disruption of connecting intercortical and subcortical pathways is likely to be the main cause of metabolic and functional abnormalities in neurons. However a direct toxic effect of soluble inflammatory products may also compromise neuronal function and survival. Early treatment of MS with interferons and copaxone can prevent or delay the onset of both neurological and cognitive disabilities by reducing the inflammatory activity and damage in the CNS. Until more powerful neuroprotective agents become available, simple neuropsychological screening and cognitive rehabilitation for memory and language impairments will remain important components in the care of MS patients.

Multiple sclerosis: recent developments in neuropathology, pathogenesis, magnetic resonance imaging studies and treatment

The cause of multiple sclerosis is generally considered to be entirely T cell mediated. However, recent reports of studies in a variety of animal models of inflammatory demyelinating disease, coupled with detailed pathological analysis and neuroimaging studies of multiple sclerosis patients, indicate that the events involved in the formation of the multiple sclerosis lesion may be more complicated. This complex pathogenesis is reflected in the variable response of multiple sclerosis patients to immunomodulatory therapy.

Factors directly affecting impulse transmission in inflammatory demyelinating disease: recent advances in our understanding

Demyelination and inflammation both contribute to the neurological deficits characteristic of multiple sclerosis and Guillain-Barré syndrome. Conduction deficits attributable to demyelination are well known, but it is becoming clear that factors such as nitric oxide, endocaine, cytokines, and antiganglioside antibodies also play significant roles. Demyelination directly affects conduction and also causes changes in both the distribution and repertoire of expressed axolemmal ion channels, which in turn affect impulse propagation and can promote hyperexcitability. In conducting axons, sustained trains of impulses can produce intermittent conduction failure, and, in the presence of nitric oxide exposure, can also cause axonal degeneration. Other factors impairing impulse transmission include nodal widening, glutamate toxicity, and disturbances of both the blood-brain barrier and synaptic transmission.