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1. Calculation of Apparent Diffusion Coefficients in Prostate Cancer Using Deep Learning Algorithms: A Pilot Study

Author

Lei Hu, Da Wei Zhou, Cai Xia Fu, Thomas Benkert, Yun Feng Xiao, Li Ming Wei, and Jun Gong Zhao

Subjects
apparent diffusion coefficient, diffusion magnetic resonance imaging, deep learning, prostatic neoplasms, supervised machine learning, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Abstract

BackgroundApparent diffusion coefficients (ADCs) obtained with diffusion-weighted imaging (DWI) are highly valuable for the detection and staging of prostate cancer and for assessing the response to treatment. However, DWI suffers from significant anatomic distortions and susceptibility artifacts, resulting in reduced accuracy and reproducibility of the ADC calculations. The current methods for improving the DWI quality are heavily dependent on software, hardware, and additional scan time. Therefore, their clinical application is limited. An accelerated ADC generation method that maintains calculation accuracy and repeatability without heavy dependence on magnetic resonance imaging scanners is of great clinical value.ObjectivesWe aimed to establish and evaluate a supervised learning framework for synthesizing ADC images using generative adversarial networks.MethodsThis prospective study included 200 patients with suspected prostate cancer (training set: 150 patients; test set #1: 50 patients) and 10 healthy volunteers (test set #2) who underwent both full field-of-view (FOV) diffusion-weighted imaging (f-DWI) and zoomed-FOV DWI (z-DWI) with b-values of 50, 1,000, and 1,500 s/mm2. ADC values based on f-DWI and z-DWI (f-ADC and z-ADC) were calculated. Herein we propose an ADC synthesis method based on generative adversarial networks that uses f-DWI with a single b-value to generate synthesized ADC (s-ADC) values using z-ADC as a reference. The image quality of the s-ADC sets was evaluated using the peak signal-to-noise ratio (PSNR), root mean squared error (RMSE), structural similarity (SSIM), and feature similarity (FSIM). The distortions of each ADC set were evaluated using the T2-weighted image reference. The calculation reproducibility of the different ADC sets was compared using the intraclass correlation coefficient. The tumor detection and classification abilities of each ADC set were evaluated using a receiver operating characteristic curve analysis and a Spearman correlation coefficient.ResultsThe s-ADCb1000 had a significantly lower RMSE score and higher PSNR, SSIM, and FSIM scores than the s-ADCb50 and s-ADCb1500 (all P < 0.001). Both z-ADC and s-ADCb1000 had less distortion and better quantitative ADC value reproducibility for all the evaluated tissues, and they demonstrated better tumor detection and classification performance than f-ADC.ConclusionThe deep learning algorithm might be a feasible method for generating ADC maps, as an alternative to z-ADC maps, without depending on hardware systems and additional scan time requirements.

Published
2021
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3. The SM expected branching ratio for $h \to \gamma \gamma$ and an excess for $h \to Z \gamma$

Author

He, Xiao-Gang, Huang, Zhong-Lv, Li, Ming-Wei, and Liu, Chia-Wei

Subjects
High Energy Physics - Phenomenology, High Energy Physics - Experiment
Abstract

The recent measurements of $h \to Z \gamma$ from ATLAS and CMS show an excess of the signal strength $\mu_Z = (\sigma\cdot{\cal B})_{\mathrm{obs}}/(\sigma\cdot{\cal B})_{\mathrm{SM}}=2.2\pm 0.7$, normalized as 1 in the standard model~(SM). If confirmed, it would be a signal of new physics (NP) beyond the SM. We study NP explanation for this excess. In general, for a given model, it also affects the process $h \to \gamma \gamma$. Since the measured branching ratio for this process agrees well with the SM prediction, the model is severely constrained. We find that a minimally fermion singlets and doublet extended NP model can explain simultaneously the current data for $h \to Z \gamma$ and $h\to \gamma\gamma$. There are two solutions. Although both solutions enhance the amplitude of $h \to Z \gamma$ to the observed one, in one of the solutions the amplitude of $h \to \gamma \gamma$ flips sign to give the observ ed branching ratio. This seems to be a contrived solution although cannot be ruled out simply using branching ratio measurements alone. However, we find another solution that naturally enhances $h \to Z \gamma$ to the measured value, but keeps the amplitude of $h \to \gamma\gamma$ close to its SM prediction. We also comment on the phenomenology associated with these new fermions., Comment: 8 pages, 7 figures

Published
2024
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4. Majorana Phase And Matter Effects In Neutrino Chiral Oscillation

Author

Li, Ming-Wei, Huang, Zhong-Lv, and He, Xiao-Gang

Subjects
High Energy Physics - Phenomenology, High Energy Physics - Experiment
Abstract

Due to finite masses and mixing, for neutrinos propagation in space-time, there is a chiral oscillation between left- and right- chiral neutrinos, besides the usual oscillation between different generations. The probability of chiral oscillation is suppressed by a factor of $m^2/E^2$ making the effect small for relativistic neutrinos. However, for non-relativistic neutrinos, this effect can be significant. In matter, the equation of motion is modified. When neutrinos produced in weak interaction pass through the matter, the eigen-energies are split into two different ones depending on the helicity of the neutrino. This results in different oscillation behavior for neutrinos with different helicity, in particular there is a new resonant effect related to the helicity state of neutrino different than the usual MSW effect. For Majorana neutrinos, chiral oscillation also depends on Majorana phases., Comment: 7 pages, 3 figures, published version

Published
2023
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5. Topological momentum gap in PT-symmetric photonic crystals

Author

Li, Ming-Wei, Liu, Jian-Wei, Chen, Wen-Jie, and Dong, Jian-Wen

Subjects
Physics - Optics
Abstract

In a periodic system with parity-time (PT) symmetry, spontaneous breaking of PT symmetry occurs when non-Hermiticity exceeds a critical value, thereby dividing the Bloch bands into PT-exact phase and PT-broken phase in two momentum regimes.From another perspective, PT-broken momentum regime can be deemed as a momentum gap if we consider Bloch k as eigenvalue of the problem instead.The topological aspects of such a type of momentum gap (PT-broken regime) remain unexplored. Here, we study the topological properties of momentum bandgap in one-dimensional (1D) PT-symmetric photonic crystals (PCs).k*p analysis shows that reversing the system's non-Hermiticity would lead to a topological phase transition, which is manifested as a local geometric phase along the momentum band.As a consequence of such geometric phase, a temporal boundary state (TBS) exists in the middle of momentum gap. Its robustness against perturbations and disorders is numerically verified by temporal simulations.

Published
2023

7. Developing an entrustable professional activity for providing health education and consultation in occupational therapy and examining its validity

Author

Fu, Chung-Pei, Huang, Ching-Kai, Yang, Yi-Chiun, Liao, Wei-Sheng, Huang, Shih-Min, Chang, Wei-Di, Chen, Yi-Ju, Li, Ming-Wei, Lin, Yi-Ju, Wu, Chin-Lung, Chi, Hsin-Yu, Lee, Chia-Yi, Chiang, Fu-Mei, Chen, Yu-Lan, Tsou, Ching-Fen, Liu, Tzu-Hung, Su, Chia-Ting, Yang, Ai-Lun, Kuo, Nung-Chen, and Chang, Wan-Ying

Published
2024
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9. Type-II Seesaw Triplet Scalar Effects on Neutrino Trident Scattering

Author

Cheng, Yu, He, Xiao-Gang, Huang, Zhong-Lv, and Li, Ming-Wei

Subjects
High Energy Physics - Phenomenology
Abstract

In Type-II seesaw model, an electroweak triplet scalar field $\Delta$ with a non-zero vacuum expectation value (vev) $v_\Delta$ is introduced to facilitate the generation of small neutrino masses. A non-zero $v_\Delta$ also affects the W mass through the electroweak $\rho$ parameter, making it to be less than 1 as predicted by standard model (SM). The component fields in $\Delta$ come along introduce additional contributions to reduce the SM rare neutrino trident scattering cross section. These fields also induce new processes not existed in SM, such as $l_i \to \overline{ l_j} l_k l_l$ and $l_i \to l_j \gamma$. There are severe constraints on these processes which limit the effects on neutrino trident scattering and the $\rho$ parameter and therefore the W mass. The newly measured W mass by CDF makes the central value of $\rho$ parameter to be larger than 1, even larger than previously expected. Combining neutrinoless double beta decay, direct neutrino mass and oscillation data, we find a lower limit for $v_\Delta$ as a function of the triplet scalar mass $m_\Delta$, $v_\Delta > (6.3 \sim 8.4) \mathrm{eV} (100 \mathrm{GeV}/m_\Delta)$. To have significant effect on $\rho$ in this model, $v_\Delta$ needs to be in the range of a GeV or so. However this implies a very small $m_\Delta$ which is ruled out by data. We conclude that the effect of triplet vev $v_\Delta$ on the W mass can be neglected. We also find that at 3$\sigma$ level, the deviation of the ratio for Type-II Seesaw to SM neutrino trident scattering cross section predictions is reduced to be below 1, but is restricted to be larger than 0.98., Comment: 9 pages, 5 figures, match the published version in PLB

Published
2022
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13. Magnetic moments and transition magnetic moments of $P_c$ and $P_{cs}$ states

Author

Li, Ming-Wei, Liu, Zhan-Wei, Sun, Zhi-Feng, and Chen, Rui

Subjects
High Energy Physics - Phenomenology
Abstract

We study the magnetic moments and transition magnetic moments of $P_c$ and $P_{cs}$ states in the molecular picture. We first revisit the magnetic moments of $P_c$ states as the $S$ wave molecular states without coupled channel effects. The coupled channel effects and the $D$ wave contributions are then investigated carefully. The coupled channel effects contribute to the change of $0.1\sim 0.4$ nuclear magneton $\mu_N$ for most cases while the $D$ wave only induces the variation of less than $0.03 ~\mu_N$. In addition, we obtain the transition magnetic moments between different $P_c$ states and the related electromagnetic decay widths of $P_c'\to P_c\gamma$. The magnetic moments of $P_{cs}$ are much different for the assumption of spin being 1/2 and 3/2. The study of electromagnetic properties will help us disclose further the structure of these unconventional states., Comment: 8 pages, 5 tables; version appeared in Phys. Rev. D

Published
2021
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15. Multiple Code Hashing for Efficient Image Retrieval

Author

Li, Ming-Wei, Jiang, Qing-Yuan, and Li, Wu-Jun

Subjects
Computer Science - Machine Learning, Computer Science - Computer Vision and Pattern Recognition, Statistics - Machine Learning
Abstract

Due to its low storage cost and fast query speed, hashing has been widely used in large-scale image retrieval tasks. Hash bucket search returns data points within a given Hamming radius to each query, which can enable search at a constant or sub-linear time cost. However, existing hashing methods cannot achieve satisfactory retrieval performance for hash bucket search in complex scenarios, since they learn only one hash code for each image. More specifically, by using one hash code to represent one image, existing methods might fail to put similar image pairs to the buckets with a small Hamming distance to the query when the semantic information of images is complex. As a result, a large number of hash buckets need to be visited for retrieving similar images, based on the learned codes. This will deteriorate the efficiency of hash bucket search. In this paper, we propose a novel hashing framework, called multiple code hashing (MCH), to improve the performance of hash bucket search. The main idea of MCH is to learn multiple hash codes for each image, with each code representing a different region of the image. Furthermore, we propose a deep reinforcement learning algorithm to learn the parameters in MCH. To the best of our knowledge, this is the first work that proposes to learn multiple hash codes for each image in image retrieval. Experiments demonstrate that MCH can achieve a significant improvement in hash bucket search, compared with existing methods that learn only one hash code for each image., Comment: 12 pages, 9 figures, 3 tables

Published
2020

17. Deep Multi-Index Hashing for Person Re-Identification

Author

Li, Ming-Wei, Jiang, Qing-Yuan, and Li, Wu-Jun

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Traditional person re-identification (ReID) methods typically represent person images as real-valued features, which makes ReID inefficient when the gallery set is extremely large. Recently, some hashing methods have been proposed to make ReID more efficient. However, these hashing methods will deteriorate the accuracy in general, and the efficiency of them is still not high enough. In this paper, we propose a novel hashing method, called deep multi-index hashing (DMIH), to improve both efficiency and accuracy for ReID. DMIH seamlessly integrates multi-index hashing and multi-branch based networks into the same framework. Furthermore, a novel block-wise multi-index hashing table construction approach and a search-aware multi-index (SAMI) loss are proposed in DMIH to improve the search efficiency. Experiments on three widely used datasets show that DMIH can outperform other state-of-the-art baselines, including both hashing methods and real-valued methods, in terms of both efficiency and accuracy., Comment: 10 pages, 6 figures, 2 tables

Published
2019

18. On the Evaluation Metric for Hashing

Author

Jiang, Qing-Yuan, Li, Ming-Wei, and Li, Wu-Jun

Subjects
Computer Science - Information Retrieval
Abstract

Due to its low storage cost and fast query speed, hashing has been widely used for large-scale approximate nearest neighbor (ANN) search. Bucket search, also called hash lookup, can achieve fast query speed with a sub-linear time cost based on the inverted index table constructed from hash codes. Many metrics have been adopted to evaluate hashing algorithms. However, all existing metrics are improper to evaluate the hash codes for bucket search. On one hand, all existing metrics ignore the retrieval time cost which is an important factor reflecting the performance of search. On the other hand, some of them, such as mean average precision (MAP), suffer from the uncertainty problem as the ranked list is based on integer-valued Hamming distance, and are insensitive to Hamming radius as these metrics only depend on relative Hamming distance. Other metrics, such as precision at Hamming radius R, fail to evaluate global performance as these metrics only depend on one specific Hamming radius. In this paper, we first point out the problems of existing metrics which have been ignored by the hashing community, and then propose a novel evaluation metric called radius aware mean average precision (RAMAP) to evaluate hash codes for bucket search. Furthermore, two coding strategies are also proposed to qualitatively show the problems of existing metrics. Experiments demonstrate that our proposed RAMAP can provide more proper evaluation than existing metrics.

Published
2019

23. Proximal SCOPE for Distributed Sparse Learning: Better Data Partition Implies Faster Convergence Rate

Author

Zhao, Shen-Yi, Zhang, Gong-Duo, Li, Ming-Wei, and Li, Wu-Jun

Subjects
Statistics - Machine Learning, Computer Science - Machine Learning
Abstract

Distributed sparse learning with a cluster of multiple machines has attracted much attention in machine learning, especially for large-scale applications with high-dimensional data. One popular way to implement sparse learning is to use $L_1$ regularization. In this paper, we propose a novel method, called proximal \mbox{SCOPE}~(\mbox{pSCOPE}), for distributed sparse learning with $L_1$ regularization. pSCOPE is based on a \underline{c}ooperative \underline{a}utonomous \underline{l}ocal \underline{l}earning~(\mbox{CALL}) framework. In the \mbox{CALL} framework of \mbox{pSCOPE}, we find that the data partition affects the convergence of the learning procedure, and subsequently we define a metric to measure the goodness of a data partition. Based on the defined metric, we theoretically prove that pSCOPE is convergent with a linear convergence rate if the data partition is good enough. We also prove that better data partition implies faster convergence rate. Furthermore, pSCOPE is also communication efficient. Experimental results on real data sets show that pSCOPE can outperform other state-of-the-art distributed methods for sparse learning.

Published
2018

28. Electroencephalogram Alpha Oscillations in Stroke Recovery: Insights into Neural Mechanisms from Combined Transcranial Direct Current Stimulation and Mirror Therapy in Relation to Activities of Daily Life.

Author

Liu, Chia-Lun, Tu, Ya-Wen, Li, Ming-Wei, Chang, Ku-Chou, Chang, Chih-Hung, Chen, Chih-Kuang, and Wu, Ching-Yi

Subjects
TRANSCRANIAL direct current stimulation, PREMOTOR cortex, TEMPORAL lobe, STROKE rehabilitation, STROKE patients, ALPHA rhythm, TRANSCRANIAL magnetic stimulation
Abstract

The goal of stroke rehabilitation is to establish a robust protocol for patients to live independently in community. Firstly, we examined the impact of 3 hybridized transcranial direct current stimulation (tDCS)-mirror therapy interventions on activities of daily life (ADL) in stroke patients. Secondly, we explored the underlying therapeutic mechanisms with theory-driven electroencephalography (EEG) indexes in the alpha band. This was achieved by identifying the unique contributions of alpha power in motor production to ADL in relation to the premotor cortex (PMC), primary cortex (M1), and Sham tDCS with mirror therapy. The results showed that, although post-intervention ADL improvement was comparable among the three tDCS groups, one of the EEG indexes differentiated the interventions. Neural-behavioral correlation analyses revealed that different types of ADL improvements consistently corresponded with alpha power in the temporal lobe exclusively in the PMC tDCS group (all rs > 0.39). By contrast, alterations in alpha power in the central-frontal region were found to vary, with ADL primarily in the M1 tDCS group (r = −0.6 or 0.7), with the benefit depending on the complexity of the ADL. In conclusion, this research suggested two potential therapeutic mechanisms and demonstrated the additive benefits of introducing theory-driven neural indexes in explaining ADL. [ABSTRACT FROM AUTHOR]

Published
2024
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32. AcornHRD: an HRD algorithm highly associated with anthracycline-based neoadjuvant chemotherapy in breast cancer in China

Author

Pan, Jia-Ni, primary, Li, Pu-Chun, additional, Wang, Meng, additional, Li, Ming-Wei, additional, Ding, Xiao-Wen, additional, Zhou, Tao, additional, Wang, Hui-Na, additional, Wang, Yun-Kai, additional, Chen, Li-Bin, additional, Wang, Rong, additional, Ye, Wei-Wu, additional, Wu, Wei-Zhu, additional, Lou, Feng, additional, Wang, Xiao-Jia, additional, and Cao, Wen-Ming, additional

Published
2023
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35. Short-Term Load Forecasting by Artificial Intelligent Technologies

Author

Fan, Guo-Feng, Li, Ming-Wei, and Hong, Wei-Chiang

Abstract

In last few decades, short-term load forecasting (STLF) has been one of the most important research issues for achieving higher efficiency and reliability in power system operation, to facilitate the minimization of its operation cost by providing accurate input to day-ahead scheduling, contingency analysis, load flow analysis, planning, and maintenance of power systems. There are lots of forecasting models proposed for STLF, including traditional statistical models (such as ARIMA, SARIMA, ARMAX, multi-variate regression, Kalman filter, exponential smoothing, and so on) and artificial-intelligence-based models (such as artificial neural networks (ANNs), knowledge-based expert systems, fuzzy theory and fuzzy inference systems, evolutionary computation models, support vector regression, and so on). Recently, due to the great development of evolutionary algorithms (EA) and novel computing concepts (e.g., quantum computing concepts, chaotic mapping functions, and cloud mapping process, and so on), many advanced hybrids with those artificial-intelligence-based models are also proposed to achieve satisfactory forecasting accuracy levels. In addition, combining some superior mechanisms with an existing model could empower that model to solve problems it could not deal with before; for example, the seasonal mechanism from the ARIMA model is a good component to be combined with any forecasting models to help them to deal with seasonal problems.

Published
2019

37. CARM1 Methylates GAPDH to Regulate Glucose Metabolism and Is Suppressed in Liver Cancer

Author

Xing-Yu Zhong, Xiu-Ming Yuan, Ying-Ying Xu, Miao Yin, Wei-Wei Yan, Shao-Wu Zou, Li-Ming Wei, Hao-Jie Lu, Yi-Ping Wang, and Qun-Ying Lei

Subjects
Biology (General), QH301-705.5
Abstract

Summary: Increased aerobic glycolysis is a hallmark of cancer metabolism. How cancer cells coordinate glucose metabolism with extracellular glucose levels remains largely unknown. Here, we report that coactivator-associated arginine methyltransferase 1 (CARM1 or PRMT4) signals glucose availability to glyceraldehyde-3-phosphate dehydrogenase (GAPDH) and suppresses glycolysis in liver cancer cells. CARM1 methylates GAPDH at arginine 234 (R234), inhibiting its catalytic activity. Glucose starvation leads to CARM1 upregulation, further inducing R234 hypermethylation and GAPDH inhibition. The re-expression of wild-type GAPDH, but not of its methylation-mimetic mutant, sustains glycolytic levels. CARM1 inhibition increases glycolytic flux and glycolysis. R234 methylation delays tumor cell proliferation in vitro and in vivo. Compared with normal tissues, R234 is hypomethylated in malignant clinical hepatocellular carcinoma samples. Notably, R234 methylation positively correlates with CARM1 expression in these liver cancer samples. Our findings thus reveal that CARM1-mediated GAPDH methylation is a key regulatory mechanism of glucose metabolism in liver cancer. : GAPDH is a critical enzyme in glycolysis. Zhong et al. find that CARM1 methylates GAPDH at R234 and inhibits its activity in an AMPK-dependent manner. R234 methylation inhibits glycolysis and proliferation of liver cancer cell lines. In hepatocellular carcinoma patient samples, GADPH R234 is hypomethylated, and there is a positive correlation between CARM1 levels and R234 methylation. Keywords: GAPDH, CARM1, arginine methylation, coenzyme affinity, glycolysis, AMPK, nutrient sensing, Warburg effect, metabolic reprogramming, liver cancer

Published
2018
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41. Biallelic truncating TTN variants in M‐band encoding exons cause a fetal lethal titinopathy.

Author

Li, Ming‐wei, Li, Fan, Cheng, Zhen‐xing, Cheng, Jin, Wu, Quan, Wang, Zhi‐xin, Wang, Fei, and Zhou, Ping

Abstract

To report two novel TTN variants associated with fetal recessive titinopathy, thereby broadening the range of TTN variants that can lead to titinopathy. Clinical information on the fetus and parents was gathered, and genomic DNAs were extracted from the fetal tissue and family members' peripheral blood samples. Exome sequencing on fetal DNA was performed and following bioinformatics analysis, the suspected pathogenic variants were confirmed through Sanger sequencing. Prenatal ultrasound performed at 29 weeks of gestation revealed hydrops fetalis, decreased fetal movements, multiple joint contractures and polyhydramnios. Intrauterine fetal death was noted in the third trimester. Exome sequencing revealed compound heterozygous variants in the TTN gene: a paternally inherited allele c.101227C>T (p.Arg33743Ter) and a maternally inherited c.104254C>T (p.Gln34752Ter) allele. These variants have not been previously reported and are evaluated to be likely pathogenic according to the American College of Medical Genetics and Genomics guidelines. We report a fetus with hydrops fetalis and arthrogryposis multiplex congenita associated with a compound heterozygote in the TTN gene. Our report broadens the clinical and genetic spectrum associated with the TTN‐related conditions. Key points: What is already known about this topic? Fetal hydrops, fetal hypokinesia/akinesia and cardiac dysfunction can be associated with biallelic truncating variants in exons encoding the M‐band region of titin. What does this study add? We describe a case of fetal recessive titinopathy associated with a compound heterozygote in the TTN gene.This broadens the clinical and genetic spectrum of TTN‐related conditions. [ABSTRACT FROM AUTHOR]

Published
2024
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43. Adversarial training for prostate cancer classification using magnetic resonance imaging

Author

Lei Hu, Da-Wei Zhou, Xiang-Yu Guo, Wen-Hao Xu, Li-Ming Wei, and Jun-Gong Zhao

Subjects
Original Article, Radiology, Nuclear Medicine and imaging
Abstract

BACKGROUND: To use adversarial training to increase the generalizability and diagnostic accuracy of deep learning models for prostate cancer diagnosis. METHODS: This multicenter study retrospectively included 396 prostate cancer patients who underwent magnetic resonance imaging (development set, 297 patients from Shanghai Jiao Tong University Affiliated Sixth People’s Hospital and Eighth People’s Hospital; test set, 99 patients from Renmin Hospital of Wuhan University). Two binary classification deep learning models for clinically significant prostate cancer classification [PM1, pretraining Visual Geometry Group network (VGGNet)-16-based model 1; PM2, pretraining residual network (ResNet)-50-based model 2] and two multiclass classification deep learning models for prostate cancer grading (PM3, pretraining VGGNet-16-based model 3; PM4: pretraining ResNet-50-based model 4) were built using apparent diffusion coefficient and T2-weighted images. These models were then retrained with adversarial examples starting from the initial random model parameters (AM1, adversarial training VGGNet-16 model 1; AM2, adversarial training ResNet-50 model 2; AM3, adversarial training VGGNet-16 model 3; AM4, adversarial training ResNet-50 model 4, respectively). To verify whether adversarial training can improve the diagnostic model’s effectiveness, we compared the diagnostic performance of the deep learning methods before and after adversarial training. Receiver operating characteristic curve analysis was performed to evaluate significant prostate cancer classification models. Differences in areas under the curve (AUCs) were compared using Delong’s tests. The quadratic weighted kappa score was used to verify the PCa grading models. RESULTS: AM1 and AM2 had significantly higher AUCs than PM1 and PM2 in the internal validation dataset (0.84 vs. 0.89 and 0.83 vs. 0.87) and test dataset (0.73 vs. 0.86 and 0.72 vs. 0.82). AM3 and AM4 showed higher κ values than PM3 and PM4 in the internal validation dataset {0.266 [95% confidence interval (CI): 0.152–0.379] vs. 0.292 (95% CI: 0.178–0.405) and 0.254 (95% CI: 0.159–0.390) vs. 0.279 (95% CI: 0.163−0.396)} and test set [0.196 (95% CI: 0.029–0.362) vs. 0.268 (95% CI: 0.109–0.427) and 0.183 (95% CI: 0.015–0.351) vs. 0.228 (95% CI: 0.068−0.389)]. CONCLUSIONS: Using adversarial examples to train prostate cancer classification deep learning models can improve their generalizability and classification abilities.

Published
2022

50. Silicone-covered biodegradable magnesium-stent insertion in the esophagus: a comparison with plastic stents

Author

Yue-Qi Zhu, Kai Yang, Laura Edmonds, Li-Ming Wei, Reila Zheng, Ruo-Yu Cheng, Wen-Guo Cui, and Ying-Sheng Cheng

Subjects
Diseases of the digestive system. Gastroenterology, RC799-869
Abstract

Background: We determined the feasibility of, and tissue response to silicone-covered biodegradable magnesium- and plastic-stent insertion into the esophagus in rabbits. Methods: The mechanical compression–recovery characteristics and degradation behaviors of the magnesium stent were investigated in vitro . A total of 45 rabbits were randomly divided into a magnesium- ( n = 15) and a plastic- ( n = 15) stent group, and underwent stent insertion into the lower third of the esophagus under fluoroscopic guidance; a control group ( n = 15) did not undergo the intervention. Esophagography was performed at 1, 2, and 4 weeks. Five rabbits in each group were euthanized at each time point for histological examination. Results: Silicone-covered magnesium stents showed similar radial force to plastic stents ( p > 0.05). The magnesium stents degraded rapidly in an acidic solution, but 90.2% ± 3.1% of the residual mass was maintained after a 2-week degradation in a solution with a pH of 4.0. All stent insertions were well tolerated. Magnesium stents migrated in six rabbits (one at 1 week, one at 2 weeks and four at 4 weeks), and plastic stents migrated in three rabbits (one at 2 weeks and two at 4 weeks; p > 0.05). Esophageal wall remodeling (thinner epithelial and smooth muscle layers) was similar in both stented groups ( p > 0.05), and the esophagus wall was found to be significantly thinner in the stented groups than in the control group ( p < 0.05). Esophageal injury and collagen deposition following stent insertion were similar and did not differ from the control group ( p > 0.05). Conclusions: Esophageal silicone-covered magnesium stents provided reliable support for at least 2 weeks, with acceptable migration rates and without causing severe injury or tissue reaction compared with plastic stents.

Published
2017
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