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Purpose@#This study aimed to evaluate the diagnostic value of combined fine-needle aspiration (FNA) with core needle biopsy (CNB) in thyroid nodules. @*Methods@#FNA and CNB were performed simultaneously on 703 nodules. We compared the proportions of inconclusive results and the diagnostic performance for malignancy among FNA, CNB, and combined FNA/CNB for different nodule sizes. @*Results@#Combined FNA/CNB showed lower proportions of inconclusive results than CNB for all nodules (2.8% vs. 5.7%, P1.0 cm (2.0% vs. 5.0 %, P1.5 cm (2.1% vs. 3.9 %, P=0.016). The sensitivity of combined FNA/CNB in predicting malignancy was significantly higher than that of CNB (89.0% vs. 80.0%, P1.5 cm, the difference between combined FNA/CNB and CNB was not significant (84.2% vs. 78.9%, P=0.500). @*Conclusion@#Regardless of nodule size, combined FNA/CNB tended to yield lower proportions of inconclusive results than CNB or FNA alone and exhibited higher performance in diagnosing malignancy. The combined FNA/CNB technique may be a more valuable diagnostic method for nodules ≤1.5 cm and nodules with a risk of malignancy than CNB and FNA alone.
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Objective To investigate the effect of transient receptor potential vanilloid 4 (TRPV4) inhibitor HC067047 on anxiety-like behavior in mice induced by lipopolysaccharide (LPS). Methods Totally 48 male C57BL/6 mice were randomly divided into control group (NS), model group (LPS) and drug intervention group (HC + LPS). Anxiety mouse model was established by intraperitoneal injection of 0.83 mg/kg LPS. The HC + LPS group was intraperitoneally injected with HC067047 (10 mg/kg) 30 minutes before LPS injection, and the NS group and LPS group were injected with equal volume of normal saline. Open field test and social interaction experiments were used to detect anxiety-like behaviors in each group of mice; Immunohistochemical chemistry and Western blotting were used to detect the expression of TRPV4, inducible nitric oxide synthase (iNOS), neuronal nitric oxide synthase (nNOS) and endothelial nitric oxide synthase (eNOS) in the hippocampus. Results Immunohistochemical and Western blotting experiments showed that, compared with the NS group, the expression of TRPV4 in the hippocampus of the LPS group was significantly up-regulated (P<0.0001); In the open field test, compared with the NS group, the total distance (P < 0.0001), the distance in the central area (P<0.01) and the time of in the central area mice in the LPS group reduced significantly (P< 0.01). HC067047 intervention reversed the activities of LPS model mice total distance (P < 0.05), the distance of activities in the central area (P < 0.001) and the time of in the central area (P < 0.01); In the social interaction test, compared with the NS group, the interaction time the unfamiliar mice reduced significantly in LPS group (P<0.01), which was reversed by HC067047 treatment (P< 0.01); Western blotting detection revealed that the expression of hippocampal iNOS (P<0.05), nNOS (P < 0.001), and eNOS (P < 0.001) in the LPS group were significantly higher than the NS group, which reduced remarkably by HC067047 treatment (iNOS P < 0.05, nNOS P < 0.01 and eNOS P < 0.01). Conclusion Inhibiting the expression of TRPV4 can improve the anxiety-like behavior, and this process may be related to anti-oxidative stress.
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Objective To investigate the role of rho-associated coiled-coil containing protein kinase 1 (ROCK1) and the relative signal molecules in sensing the mechanical stimulation from tensile strain and regulating the proliferation of vascular smooth muscle cells (VSMCs). Methods Physiological cyclic strain with magnitude of 10% and at frequency of 1.25 Hz was applied to VSMCs in vitro by using strain loading system. The proliferation level of VSMCs was analyzed by BrdU ELISA; the expression level of ROCK1, phosphorylations of protein kinase C (PKC) α/β II, protein kinase D (PKD) and extracellular regulated protein kinase (ERK) in VSMCs modulated by cyclic strain were detected with Western blotting; the expression of ROCK1 was specifically repressed by using RNA interference (RNAi). Results Compared with the static control, 10% cyclic strain significantly decreased the expression of ROCK1 and phosphorylations of PKD and ERK. The phosphorylation of PKCα/βII was decreased significantly under 10% cyclic strain for 12 h, but returned to normal level after 24 h-loading. Repressed expression of ROCK1 with RNAi significantly down-regulated VSMC proliferation, suppressed phosphorylations of PKCα/βII and PKD, but no obvious change was found in phosphorylation of ERK. Conclusions Physiological cyclic strain with magnitude of 10% may repress the phosphorylation of PKCα/βII and PKD via inhibiting the expression of ROCK1, which subsequently affect VSMC proliferation and maintain vascular hemostasis. The investigation on intracellular mechanotransduction network of VSMCs under mechanical stimulation of cyclic strain may contribute to the physiological and pathological mechanisms of cardiovascular diseases.
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Objective To investigate the role of Rho-associated coiled-coil containing protein kinase 1 (ROCK1) and the relative signal molecules in sensing the mechanical stimulation from tensile strain and regulating the proliferation of vascular smooth muscle cells (VSMCs).Methods Physiological cyclic strain with magnitude of 10% and at frequency of 1.25 Hz was applied to VSMCs in vitro by using the strain loading system.The proliferation level of VSMCs was analyzed by BrdU ELISA;the expression level of ROCK1,phosphorylations of protein kinase C (PKC) α/β Ⅱ,protein kinase D (PKD) and extracellular regulated protein kinase (ERK) in VSMCs modulated by cyclic strain were detected with Western blotting;the expression of ROCK1 was specifically repressed by using RNA interference (RNAi).Results Compared with the static control,10% cyclic strain significantly decreased the expression of ROCK1 and phosphorylations of PKD and ERK.The phosphorylation of PKCα/βⅡ decreased significantly under 10% cyclic strain for 12 h,but returned to normal level after loading for 24 h.Repressed expression of ROCK1 with RNAi significantly down-regulated VSMC proliferation,suppressed phosphorylations of PKCα/βⅡ and PKD,but no obvious changes were found in phosphorylation of ERK.Conclusions Physiological cyclic strain with magnitude of 10% may repress the phosphorylation of PKCα/βⅡ and PKD via inhibiting the expression of ROCK1,and subsequently affects VSMC proliferation and maintains vascular hemostasis.The investigation on intracellular mechanotransduction network of VSMCs under mechanical stimulation of cyclic strain may contribute to studying the physiological and pathological mechanisms of cardiovascular diseases.
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Objective To investigate the role of Rho-associated coiled-coil containing protein kinase 1 (ROCK1) and the relative signal molecules in sensing the mechanical stimulation from tensile strain and regulating the proliferation of vascular smooth muscle cells (VSMCs).Methods Physiological cyclic strain with magnitude of 10% and at frequency of 1.25 Hz was applied to VSMCs in vitro by using the strain loading system.The proliferation level of VSMCs was analyzed by BrdU ELISA;the expression level of ROCK1,phosphorylations of protein kinase C (PKC) α/β Ⅱ,protein kinase D (PKD) and extracellular regulated protein kinase (ERK) in VSMCs modulated by cyclic strain were detected with Western blotting;the expression of ROCK1 was specifically repressed by using RNA interference (RNAi).Results Compared with the static control,10% cyclic strain significantly decreased the expression of ROCK1 and phosphorylations of PKD and ERK.The phosphorylation of PKCα/βⅡ decreased significantly under 10% cyclic strain for 12 h,but returned to normal level after loading for 24 h.Repressed expression of ROCK1 with RNAi significantly down-regulated VSMC proliferation,suppressed phosphorylations of PKCα/βⅡ and PKD,but no obvious changes were found in phosphorylation of ERK.Conclusions Physiological cyclic strain with magnitude of 10% may repress the phosphorylation of PKCα/βⅡ and PKD via inhibiting the expression of ROCK1,and subsequently affects VSMC proliferation and maintains vascular hemostasis.The investigation on intracellular mechanotransduction network of VSMCs under mechanical stimulation of cyclic strain may contribute to studying the physiological and pathological mechanisms of cardiovascular diseases.