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Background and Objective: Although multiple sclerosis is a disease affecting white matter of brain and spinal cord, but involvement of basal ganglions in some studies demonstrated a decrease in T2 sequence signals. This study was done to assess signal intensity of basal ganglions in T2 magnetic resonance imaging (MRI) in multiple sclerosis Materials and Methods: This case – control study was done on 30 multiple sclerosis patients and 30 controls in Imam Reza hospital, Kermanshah, Iran, during 2010. MRI images of multiple sclerosis of patients and control group were matched according to age and sex. The basal ganglia signals were identified based on involvement areas, number of plaques, and brain atrophy in T2 and flair sequences. Data were analyzed using SPSS-16, Chi-Square, Fisher exact test and independent t-tests. Results: Among the case group, 10 patients (33.3%) demonstrated low signals in right thalamus and 14 patients (46.7%) in left thalamus, which was statistically significant compared with control group (P<0.001). The presence of plaques in right and left globus pallidus was observed in 4 (13.3%) and 7 patients (23.3%) respectively. The presence of plaques in right and left thalamus was observed in 10 patients (33.3%) and 14 patients (46.7%) respectively, which was significant compared with control group (P<0.001). The presence of brain atrophy was observed in 18 patients (60%) in case groups and in one patient (3.3%) in control group (P<0.001). Conclusion: This study indicated that reduction of T2 signals in thalamus is a valuable finding in multiple sclerosis patients and it may facilitate the diagnosis of multiple sclerosis.

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Background and Objective: The vertebra is the most common site of bone metastases. Diagnosis of metastases particularly in the early stages can improve patients’ prognosis and therapy. This study was done to compare the diagnostic value of magnetic resonance imaging and bone scan for the diagnosis of vertebral metastases. Methods: This descriptive study was done on 43 patients with any types of primary cancer. Patients underwent spinal magnetic resonance imaging and nuclear scan. Bone scan results were considered as the gold standard. The sensitivity and specificity were calculated for magnetic resonance imaging and nuclear scan. Results: The magnetic resonance imaging diagnosed 19 cases of thoracic vertebral metastases which previously diagnosed as negative by bone scan. Sensitivity and specificity of magnetic resonance imaging compared to bone scan was 90.7% and 95.6%, respectively. The magnetic resonance imaging diagnosed 4 cases of lumbar vertebral metastases which were reported negative in bone scan. Sensitivity, specificity and accuracy of magnetic resonance imaging in compare to bone scan were 97.6%, 97% and 97.2%, respectively. Conclusion: In diagnosis of vertebral metastases, the magnetic resonance imaging is more sensitive than bone scan.