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Objective:To explore the adjunctive diagnostic value of transcranial sonography (TCS) combined with olfactory test in early Parkinson′s disease (PD) and the clinical value of both in the cognitive function of PD patients.Methods:TCS and olfactory test were performed in 157 early PD patients(PD group) and 157 healthy controls(control group) in the Second Affiliated Hospital of Soochow University from January 2018 to January 2022. The differences in clinical characteristics, TCS, and olfactory test results between the two groups were analyzed. The values of TCS, olfactory test, and their combination in diagnosing early PD were evaluated using clinical diagnosis as the gold standard. The correlations of the midbrain area, the midbrain substantia nigra hyperechoic area, and the third ventricle width in TCS examination with the cognitive score were analyzed in the PD group. According to the olfactory test scores, 157 patients with early PD were divided into two groups: 110 cases of PD with olfactory dysfunction (PD-OD) and 47 cases of PD without olfactory dysfunction (PD-NOD). The differences in clinical scores and TCS results between the two groups were compared.Results:The midbrain substantia nigra hyperechoic area, substantia nigra hyperechoic positivity rate, third ventricle width, and olfactory dysfunction rate were higher in the PD group compared to the control group, while the midbrain area and olfactory test scores were lower than those in the control group (all P<0.001). The sensitivity and the coincidence rate of TCS combined with the olfactory test for early PD diagnosis (90.0%, 77.1%) were higher than those of TCS alone (60.0%, 71.3%) and olfactory test alone (70.1%, 72.3%), but the specificity (63.7%) was lower than that of both alone (82.8% for TCS and 75.2% for olfactory test), (all P<0.001). MoCA score, visual space and executive ability, memory, attention, and language were positively correlated with the area of the midbrain ( rs=0.38, 0.32, 0.27, 0.25, 0.23; all P<0.05) and negatively correlated with the width of the third ventricle ( rs=-0.39, -0.22, -0.39, -0.22, -0.32; all P<0.05), and orientation was negatively correlated only with the width of the third ventricle ( rs=-0.24, P<0.05). The MoCA score of PD-OD group[22(18, 25)] was lower than that of PD-NOD group[24(20, 26)]( P=0.040). Conclusions:The combination of TCS and olfactory test can enhance the sensitivity and diagnostic agreement rate for early PD diagnosis, providing some auxiliary value. The cognitive function of PD patients is positively correlated with the midbrain area and negatively correlated with the width of the third ventricle. The cognitive function of PD patients with olfactory dysfunction is lower than that of PD patients without olfactory dysfunction. TCS and olfactory test may help assess cognitive function in PD patients.
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Objective To analyze the differences in immune system between Npc1 gene mutant (Npc1-/ -) and wild-type (Npc1+/ +) mice for better understanding the pathogenesis of Niemann-Pick disease type C1 (NPC1) from an immunological perspective and providing reference for NPC1 treatment in clinic.Methods Body, thymus and spleen weight of Npc1-/ -and Npc1+/ + mice aged (14±2) days, (42±2) days and (63±2) days (Day14±2 , Day42±2 and Day63±2 ) were recorded and the associated organ index were calcu-lated. White blood cell count in peripheral blood of mice aged Day42±2 was examined by routine blood test. Expression of cytokines at mRNA level in mouse peripheral blood was detected by qPCR. Percentages of CD4+, CD8+ and CD19+ lymphocytes in peripheral blood and spleen of mice aged Day42±2 were measured by flow cytometry. Apoptosis and senescence of spleen in mice aged Day63±2 were examined by immunofluores-cence and β-galactosidase staining. Results Compared with Npc1+/ + mice, there was no significant differ-ence in the weight of spleen and thymus in Npc1-/ - mice aged Day14±2; the weight of spleen in Npc1-/ - mice aged Day42±2 significantly increased, but the weight of thymus showed a significant decrease; furthermore, both the weight of spleen and thymus in Npc1-/ - mice aged Day63±2 significantly decreased; and the body weight of Npc1-/ - mice of each age group significantly decreased. Moreover, compared with Npc1+/ + mice, the absolute number of lymphocytes in the peripheral blood of Npc1-/ - mice aged Day42±2 showed no signifi-cant difference, but the percentage in whole white blood cells significantly decreased due to the significantly increased neutrophils. Expression of cytokines ( IL-1, IL-2, IFN-γ, TNF-α, IL-4, granzyme A and granzyme B) at mRNA level in the peripheral blood leukocytes of Npc1-/ - mice aged Day42±2 was abnormal as compared with that in Npc1+/ + mice. The number of T (CD4+ and CD8+) lymphocytes in Npc1-/ - mice aged Day42±2 significantly decreased, while the number of B (CD19+) lymphocytes increased significantly as com-pared with those in the Npc1+/ + mice. Compared with Npc1+/ + mice, apoptosis and senescence of the spleen in Npc1-/ - mice aged Day63±2 aggravated significantly. Conclusion The abnormal lipid metabolism triggered by Npc1 gene mutation causes severe immune dysfunction in Npc1-/ - mice. Therefore, immune dysfunction should be taken into full consideration when treating patients with NPC1, which might help improve the life quality and prolong the survival time.