1.MRI diagnosis of single lesion in the corpus callosum department
Guoli BI ; Xiarong GONG ; Kunhua WU ; Ying ZHAO ; Maoping RUI ; Lixiang REN ; Yuhui CHEN
Journal of Practical Radiology 2016;(2):185-187
Objective To evaluate MRI diagnostic value for single lesion characteristics in the splenium of corpus callosum.Methods MRI features,clinical data,and parts of follow-up results of 9 cases with single lesion in the splenium of corpus callosum were analyzed retrospectively.Results (1)Clinical manifestations:headache and dizziness occurred in 4 cases,syncope in 3 cases,fever in 2 cases, physical activity barriers in 2 cases.(2)Clinical diagnosis:hypoglycemic encephalopathy were rescaned one month later in 3 cases, in which the previous lesion completely disappeared.Clinical experience of encephalitis were improved after treatment in 2 cases. Cerebral infarction,epilepsy,brain injury and degeneration were diagnosed respectively in each one case,in which lesion still existed after treatmented.(3)Image findings:despite the different clinical manifestations,image features of all cases were quite similar. Round or foliated like lesions of slightly long T1 and long T2 signals in the splenium of corpus callosum were presented in all cases. High signals on diffusion weighted imaging and low signals on the ADC were showed with same lesions,andno obvious enhancement after contract media injected was seen.Conclusion Single lesions in the splenium of corpus callosum are showed in many diseases. The image features of hypoglycemic encephalopathy or encephalitis have certain characteristics (single lesion is reversible).Accurate diagnosis need to combine with clinical data and medical history.
2.The research of age-related iron deposition in the brain using T2 * value
Bo WANG ; Lixiang REN ; Xiarong GONG ; Yuhui CHEN ; Kunhua WU ; Jie ZHANG
Journal of Practical Radiology 2016;32(4):497-501
Objective To analyze quantitatively the iron deposition in deep brain gray nucleus and frontal white matter in healthy population and to explore its correlation with age using ESWAN with 3.0 Tesla scanner.Methods 157 healthy subjects (age 20 to 85)had been manned with routine sequences and ESWAN sequences.The subjects were divided into 6 groups according to their ages:Group A (age 20-29),Group B (age 30-39),Group C (age 40-49),Group D (age 50-59),Group E (age 60-69)and Group F (age ≥70).T2 ?value was measured in both sides of the frontal white matter,red nucleus,substantia nigra pars reticulate,substantia nigra pars compacta,putamen,globus pallidus,head of caudate nucleus and thalamus,and the correlations between the T2 ? value and age were also analyzed.Results The T2 ? value of globus pallidus and substantia nigra pars reticulata were the lowest.The highest T2 ?value was observed in the frontal white matter.The difference of T2 ? value among some age groups had statistical significance in red nucleus putamen,globus pallidus,head of caudate nucleus and thalamus (P <0.05).Obvious negative correlations between age and T2 ? value was shown in red nucleus (r=-0.258),substantia nigra pars reticulate (r=-0.229),substantia nigra pars compacta (r=-0.231), putamen(r=-0.584),globus pallidus (r=-0.320),and head of caudate nucleus (r=-0.437,P <0.001),while positive correlation was displayed in thalamus (r=0.31 9),frontal white matter (r=0.161,P <0.05 ).Conclusion ESWAN can clearly display the morphology of cerebral nuclei,evaluate the brain iron content accurately and present the age-related iron concentration changes.
3.Study of Psychosis Associated with Parkinson Disease by Diffusion Tensor Imaging
Ying ZHAO ; Shaoyuan WU ; Kunhua WU ; Jingmei ZHONG ; Yunyong WANG ; Xiarong GONG ; Maoping RUI
Journal of Kunming Medical University 2014;(1):63-67
Objective Using 3.0T magnetic resonance imaging and diffusion tensor magnetic resonance imaging, quantitative analysis of nerve fibers in region of interest was conducted in patients with psychosis associated with parkinson disease (PDPsy), PD patients without psychotic symptoms and normal control group, then investigate the relationship between FA value change in the region of interest and PDPsy, and the pathogenesis of PDPsy. Methods Sixteen patients with PDPsy, 24 PD patients without psychotic symptoms and 20 healthy persons with the corresponding age and sex (normal control group) were enrolled in this study. The patients with PDPsy and patients without psychotic symptoms have the matched gender, age and disease duration. All patients were underwent routine MR plain scan and DTI scan. The FA graph was reestablished, and the FA values of the bilateral substantia nigra-striatum fiber loop through the site (substantia nigra, red nucleus, nucleus, globus pallidus), frontal, occipital lobe and cingulate associated with schizophrenia were statistical analyzed. Results The nigral FA values in PDPsy and PD groups were significantly lower than that in control group. The frontal lobe and occipital lobe FA values in PDPsy group were significantly lower than those in control group. The frontal lobe, occipital lobe and cingulate FA values in PDPsy group were lower than those in PD group, but there were no significant differences between the two groups. The frontal lobe and occipital lobe FA values in PD group were lower than those in the control group, but there were no significant differences between the two groups. Conclusion DTI is a noninvasive and quantitative measurement for FA values of various brain regions in patients with PDPsy. It can reveal the PDPsy corresponding neural loop changes at the molecular imaging level, and can provide more information for the pathogenesis and clinical manifestations of PDPsy.
4.MR imaging manifestations of acute Li-pilocarpine induced epilepsy rats
Xiarong GONG ; Kunhua WU ; Ying ZHAO ; Lixiang REN ; Jie ZHANG ; Hongjiang ZHANG
Chinese Journal of Neuromedicine 2019;18(10):1035-1037
Objective To investigate the MR imaging findings of Li-pilocarpine-induced acute epilepsy rats and explore the pathophysiological changes of acute epilepsy rats.Methods Twenty-two SD rats were randomly divided into control group (n=9) and model group (n=13). Rats in the model group were intraperitoneally injected with lithium chloride and pilocarpine, while rats in the control group were given equal volume normal saline. All rats were given MR imaging plain scan and diffusion weighted imaging (DWI). The images of rats of the two groups were compared, and the differences of apparent diffusion coefficient (ADC) of the hippocampus, piriform cortex, entorhinal cortex and sensory cortex were compared.Results Four rats in the model group show hyperintensity in T2 weighted imaging and 6 rats in the model group showed hyperintensity in DWI; as compared with T2 weighted imaging, DWI has wider display ranges, mainly distributed in the sensory cortex, and piriform cortex+entorhinal cortex. As compared with those in the control group, the ADC values in sensory cortex and piriform cortex+entorhinal cortex of model group significantly decreased (P<0.05). There were no statistical differences of ADC values in the hippocampus between two groups (P>0.05).Conclusion Multiple regions are involved in acute epilepsy rats, which maybe shown by MR imaging; changes in the somatosensory cortex and piriform cortex+entorhinal cortex may occur before those in the hippocampus.
5.Diffusion kurtosis imaging characteristics of brain gray matter nucleus microstructure in Parkinson's disease with different movement disorder subtypes
Bo WANG ; Sha MA ; Xiarong GONG ; Jie ZHANG ; Lixiang REN ; Yuhui CHEN ; Hongfei AN ; Yuejia LUO
Chinese Journal of Behavioral Medicine and Brain Science 2019;28(10):875-880
Objective To investigate the difference in the microstructure of gray matter nucleus in different movement subtypes of Parkinson’s disease (PD) by diffusion kurtosis imaging ( DKI) technique, and to analyze the correlation with clinical manifestations. Methods Ninety-seven patients with PD and 83 healthy controls performed conventional MRI sequence and DKI sequence scan. The PD patients were classi-fied into gait disorder subtype (PIGD,n=57) and tremor dominant subtype (TD,n=40)subtypes according to motor symptoms. Fractional anisotropy (FA),mean diffusivity (MD),axial diffusivity (Da),radial diffu-sivity(Dr),mean kurtosis (MK),axial kurtosis (Ka) and radial kurtosis (Dr) maps and data were genera-ted by software after processing. DKI was performed for all subjects and data was collected from different brain regions in both hemispheres,including red nucleus(RN),substantia nigra pars reticulate( SNr),sub-stantia nigra pars compacta(SNc),putamen(PUT),globus pallidus(GP),head of caudate nucleus (CN)and thalamus(THA). Results TD showed a higher MMSE score(P=0. 019),but lower modified Hoehn-Yahr score than that in PIGD (P<0. 001),there was no significant difference of age of onset,sex,limbs of onset or disease duration between two PD subgroups. Compared with healthy controls, both TD and PIGD showed down-regulated MD,Da and Dr and up-regulated Ka values(P<0. 001); MK(0. 83±0. 26,0. 80±0. 18) was increased in SNr both in TD and PIGD,while SNc,PUT and GP (0. 84± 0. 20,0. 75± 0. 07,0. 81± 0. 14) were decreased only in TD (P=0. 017,P=0. 010,P=0. 020,P<0. 001,P=0. 002). The Kr values of PUT and CN(0. 71±0. 17,0. 72±0. 14) were reduced in PIGD,while CN(0. 70±0. 14) were reduced in TD re-spectively (P=0. 002,P=0. 031,P=0. 007). The MK was lower in TD than that in PIGD (t=-2. 214,P=0. 029),and no significant difference was found in other grey matter nuclei between TD and PIGD ( P>0. 05). Moreover,there was no significant correlation between DKI value and disease duration,MMSE score or Hoehn-Yahr scale (P>0. 05) in TD and PIGD. Conclusion There is heterogeneity of clinical symptoms between these two subgroups of PD. DKI can quantify the microstructural changes of grey matter nucleus in different type PD patient.
6. Diffusion kurtosis imaging characteristics of brain gray matter nucleus microstructure in Parkinson's disease with different movement disorder subtypes
Bo WANG ; Sha MA ; Xiarong GONG ; Jie ZHANG ; Lixiang REN ; Yuhui CHEN ; Hongfei AN ; Yuejia LUO
Chinese Journal of Behavioral Medicine and Brain Science 2019;28(10):875-880
Objective:
To investigate the difference in the microstructure of gray matter nucleus in different movement subtypes of Parkinson’s disease (PD) by diffusion kurtosis imaging (DKI) technique, and to analyze the correlation with clinical manifestations.
Methods:
Ninety-seven patients with PD and 83 healthy controls performed conventional MRI sequence and DKI sequence scan. The PD patients were classified into gait disorder subtype (PIGD,