1.The Long-term effect of augmentation rhinoplasty with silicone
Anke SUN ; Fei XU ; Wenzhong LIU ; Weidong DONG
Journal of Clinical Otorhinolaryngology Head and Neck Surgery 2000;(11):501-502
Objective:To evaluate the long-term effect of augmentation rhinoplasty with silicone. Method:360 patients underwent augmentation rhinoplasty with silicone. Improved L shaped implants were used in 343patients. Result: Among 360 patients, 334 cases were successful enough (92.83 %0 ). Conclusion: The key to themaintenance of the long-term effect is to use properly improvedL-shaped implant,to choose a suitable tunnel,to prevent various complications and to ask patient's opinions for implant design.
2.Application of MRI histogram analysis in assessment risk of medulloblastoma recurrence
Chendi ZHU ; Yong ZHANG ; Jingliang CHENG ; Ya LI ; Anke DONG ; Ruiping ZHENG
Chinese Journal of Interventional Imaging and Therapy 2017;14(8):480-483
Objective To explore the value of MRI histogram analysis in the risk assessment of medulloblastoma recur rence.Methods The data of 28 patients pathologically confirmed of medulloblastoma was analyzed retrospectively.All patients were divided into recurrent group and the non recurrent group (each n=14).The ROIs were drawn on the maximum level of enhanced MR sagittal images,and the histogram analysis were performed using the software named Mazda.The statistical analysis was performed on the histogram parameters to find out the different characteristics between the two groups,and the ROC curve was drawn to evaluate its diagnostic efficacy for recurrence of medulloblastoma.Results In all of the 9 parameters which are extracted from histogram,kurtosis had statistical significance between the 2 groups (P=0.018).The area under the ROC curve was 0.776 (P=0.018),and the sensitivity and specificity of kurtosis in the risk assessment of medulloblastoma recurrence were 64.3% and 71.4%,respectively.Conclusion MRI histogram analysis can be an important method to assess the risk of medulloblastoma recurrence.
3.Key technologies in digital breast tomosynthesis system:theory, design, and optimization.
Mingqiang LI ; Kun MA ; Xi TAO ; Yongbo WANG ; Ji HE ; Ziquan WEI ; Geofeng CHEN ; Sui LI ; Dong ZENG ; Zhaoying BIAN ; Guohui WU ; Shan LIAO ; Jianhua MA
Journal of Southern Medical University 2019;39(2):192-200
OBJECTIVE:
To develop a digital breast tomosynthesis (DBT) imaging system with optimizes imaging chain.
METHODS:
Based on 3D tomography and DBT imaging scanning, we analyzed the methods for projection data correction, geometric correction, projection enhancement, filter modulation, and image reconstruction, and established a hardware testing platform. In the experiment, the standard ACR phantom and high-resolution phantom were used to evaluate the system stability and noise level. The patient projection data of commercial equipment was used to test the effect of the imaging algorithm.
RESULTS:
In the high-resolution phantom study, the line pairs were clear without confusing artifacts in the images reconstructed with the geometric correction parameters. In ACR phantom study, the calcified foci, cysts, and fibrous structures were more clearly defined in the reconstructed images after filtering and modulation. The patient data study showed a high contrast between tissues, and the lesions were more clearly displayed in the reconstructed image.
CONCLUSIONS
This DBT imaging system can be used for mammary tomography with an image quality comparable to that of commercial DBT systems to facilitate imaging diagnosis of breast diseases.
Algorithms
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Artifacts
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Breast
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diagnostic imaging
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Female
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Humans
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Mammography
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methods
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Phantoms, Imaging
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Radiographic Image Enhancement
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methods
4.Multisensory Conflict Impairs Cortico-Muscular Network Connectivity and Postural Stability: Insights from Partial Directed Coherence Analysis.
Guozheng WANG ; Yi YANG ; Kangli DONG ; Anke HUA ; Jian WANG ; Jun LIU
Neuroscience Bulletin 2024;40(1):79-89
Sensory conflict impacts postural control, yet its effect on cortico-muscular interaction remains underexplored. We aimed to investigate sensory conflict's influence on the cortico-muscular network and postural stability. We used a rotating platform and virtual reality to present subjects with congruent and incongruent sensory input, recorded EEG (electroencephalogram) and EMG (electromyogram) data, and constructed a directed connectivity network. The results suggest that, compared to sensory congruence, during sensory conflict: (1) connectivity among the sensorimotor, visual, and posterior parietal cortex generally decreases, (2) cortical control over the muscles is weakened, (3) feedback from muscles to the cortex is strengthened, and (4) the range of body sway increases and its complexity decreases. These results underline the intricate effects of sensory conflict on cortico-muscular networks. During the sensory conflict, the brain adaptively decreases the integration of conflicting information. Without this integrated information, cortical control over muscles may be lessened, whereas the muscle feedback may be enhanced in compensation.
Humans
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Muscle, Skeletal
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Electromyography/methods*
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Electroencephalography/methods*
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Brain
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Brain Mapping