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CT Findings of Persistent Pure Ground Glass Opacity: Can We Predict the Invasiveness?
Liu, Li-Heng,Liu, Ming,Wei, Ran,Jin, Er-Hu,Liu, Yu-Hui,Xu, Liang,Li, Wen-Wu,Huang, Yong Asian Pacific Journal of Cancer Prevention 2015 Asian Pacific journal of cancer prevention Vol.16 No.5
Background: To investigate whether CT findings can predict the invasiveness of persistent cancerous pure ground glass opacity (pGGO) by correlating the CT imaging features of persistent pGGO with pathological changes. Materials and Methods: Ninety five patients with persistent pGGOs were included. Three radiologists evaluated the morphologic features of these pGGOs at high resolution CT (HRCT). Binary logistic regression was used to assess the association between CT findings and histopathological classification (pre-invasive and invasive groups). Receiver operating characteristic (ROC) curve analysis was performed to evaluate the diagnostic performance of diameters. Results: A total of 105 pGGOs were identified. Between pre-invasive (atypical adenomatous hyperplasia, AAH, and adenocarcinoma in situ, AIS) and invasive group (minimally invasive adenocarcinoma, MIA and invasive lung adenocarcinomas, ILA), there were significant differences in diameter, spiculation and vessel dilatation (p<0.05). No difference was found in air-bronchogram, bubble-lucency, lobulated-margin, pleural indentation or vascular convergence (p>0.05). The optimal threshold value of the diameters to predict the invasiveness of pGGO was 12.50mm. Conclusions: HRCT features can predict the invasiveness of persistent pGGO. The pGGO with a diameter more than 12.50mm, presences of spiculation and vessel dilatation are important factors to differentiate invasive adenocarcinoma from pre-invasive cancerous lesions.
A Fully Integrated SoC for Smart Capsule Providing In-Body Continuous pH and Temperature Monitoring
Heng Liu,Hanjun Jiang,Jingpei Xia,Zhexiang Chi,Fule Li,Zhihua Wang 대한전자공학회 2016 Journal of semiconductor technology and science Vol.16 No.5
This paper presents a SoC (System-on-a-Chip) dedicated for a single-chip smart capsule which can be used to continuously monitor human alimentary canal pH and temperature values. The SoC is composed of the pH and temperature sensor interface circuit, a wireless transceiver, the power management circuit and the flow control logic. Fabricated in 0.18 μm standard CMOS technology, the SoC occupies a die area of ~9 mm². The SoC consumes 6.15 mW from a 3 V power supply, guaranteeing the smart capsule battery life is no less than 24 hours when using 50 mAh coin batteries. The experimental results show that measurement accuracy of the smart capsule is ±0.1 pH and ±0.2°C for pH and temperature sensing, respectively, which meets the requirement of in-body pH and temperature monitoring in clinical practice.
Heng Liu,Xin Wang,Xinrong Yang,Xiaona Yang 제어·로봇·시스템학회 2022 International Journal of Control, Automation, and Vol.20 No.1
This paper investigates the problem of robust fault-tolerant containment control for a class of multiagent systems in which multiple active leaders and linear heterogeneous follower subsystems with mismatched affine uncertainties and actuator faults are distributed on a communication network. It first introduces a group of distributed adaptive intermediate estimators, based on which each following agent can estimate the desired containment trajectory objective. Then, by utilizing adaptive parameter estimation approach and S-procedure technique, a decentralized fault-tolerant tracking control algorithm is designed to guarantee all practical states of followers asymptotically track the desired containment trajectory even in the case of actuator faults and heterogeneous affine uncertainties. Interestingly, the main advantage of proposed fault-tolerant containment strategy is that, not only the faulty information from follower subsystems cannot affect neighbor agents, but also both actuator faults and heterogeneous affine uncertainties can be compensated in local subsystem. Finally, a numerical example is given to illustrate the effectiveness of the designed containment control protocol.
A Fully Integrated SoC for Smart Capsule Providing In-Body Continuous pH and Temperature Monitoring
Liu, Heng,Jiang, Hanjun,Xia, Jingpei,Chi, Zhexiang,Li, Fule,Wang, Zhihua The Institute of Electronics and Information Engin 2016 Journal of semiconductor technology and science Vol.16 No.5
This paper presents a SoC (System-on-a-Chip) dedicated for a single-chip smart capsule which can be used to continuously monitor human alimentary canal pH and temperature values. The SoC is composed of the pH and temperature sensor interface circuit, a wireless transceiver, the power management circuit and the flow control logic. Fabricated in $0.18{\mu}m$ standard CMOS technology, the SoC occupies a die area of ${\sim}9 mm^2$. The SoC consumes 6.15 mW from a 3 V power supply, guaranteeing the smart capsule battery life is no less than 24 hours when using 50 mAh coin batteries. The experimental results show that measurement accuracy of the smart capsule is ${\pm}0.1$ pH and ${\pm}0.2^{\circ}C$ for pH and temperature sensing, respectively, which meets the requirement of in-body pH and temperature monitoring in clinical practice.
Heng Zhang,Qi Zhen,Jing-Qiang Cui,Huan-Wei Sun,Rang-Tong Liu,Yi-Feng Zhang,Yong Liu 한국섬유공학회 2021 Fibers and polymers Vol.22 No.1
As a stable chemical material, polypropylene (PP) micro-nanofibrous membranes are widely used in medical andhealth care. However, PP fibrous membranes with single nano scale diameter are conducive to high packing density, whichresults in large flow resistance across the membrane. Therefore, to improve the material’s water and air permeability,polyethylene glycol (PEG), an incompatible polymer with PP, was introduced by blending in a modified method using a meltblowing process. This proposed approach allows large 10 μm diameter fibers to be entangled with fine 300 nm diameterfibers to produce highly porous binary structured fibrous membranes with small pore size. Because of its binary structure, theair permeability in the material reached 569.56 mm/s and the water vertical velocity was 70.15 mm/s. Additionally, the threedimensionalnumerical calculations suggested that the high porosity and binary structure were key to enhancing waterpermeability in the fibrous membranes. These binary structured micro-nanofibrous membranes are expected to be used forfiltration, separation, health care, oil/water separation, medical wound dressings, and other applications.
Liu Xin,Zhang Heng,Liu Qiang,Dong Suzhen,Xiao Changshi 대한조선학회 2021 International Journal of Naval Architecture and Oc Vol.13 No.1
Simulation-based hull form optimization is a typical HEB (high-dimensional, expensive computationally, black-box) problem. Conventional optimization algorithms easily fall into the “curse of dimensionality” when dealing with HEB problems. A recently proposed Cross-Entropy (CE) optimization algorithm is an advanced stochastic optimization algorithm based on a probability model, which has the potential to deal with high-dimensional optimization problems. Currently, the CE algorithm is still in the theoretical research stage and rarely applied to actual engineering optimization. One reason is that the Monte Carlo (MC) method is used to estimate the high-dimensional integrals in parameter update, leading to a large sample size. This paper proposes an improved CE algorithm based on quasi-Monte Carlo (QMC) estimation using high-dimensional truncated Sobol subsequence, referred to as the QMC-CE algorithm. The optimization performance of the proposed algorithm is better than that of the original CE algorithm. With a set of identical control parameters, the tests on six standard test functions and a hull form optimization problem show that the proposed algorithm not only has faster convergence but can also apply to complex simulation optimization problems.
MnO2/graphene supported on Ni foam: an advanced electrode for electrochemical detection of Pb(II)
Liu Rui,Zhang Chao-Jun,Han Xue,Wu Tian-Heng,Liu Ri-Jia,Sun Yuan,Jin Shuang 한국탄소학회 2023 Carbon Letters Vol.33 No.3
Graphene-derived materials are an excellent electrode for electrochemical detection of heavy metals. In this study, a MnO2/graphene supported on Ni foam electrode was prepared via ultrasonic impregnation and electrochemical deposition. The resulting electrode was used to detect Pb(II) in the aquatic environment. The graphene and MnO2 deposited on the Ni foam not only improved active surface area, but also promoted the electron transfer. The electrochemical performance towards Pb(II) was evaluated by cyclic voltammetry (CV) and square wave anodic stripping voltammetry (SWASV). The prepared electrode exhibited lower limit of detection (LOD, 0.2 μM (S/N = 3)) and good sensitivity (59.9 μAμM−1) for Pb(II) detection. Moreover, the prepared electrodes showed good stability and reproducibility. This excellent performance can be attributed to the strong adhesion force between graphene and MnO2, which provides compact structures for the enhancement of the mechanical stability. Thus, these combined results provide some technical considerations and scientific insights for the detection of heavy metal ions using composite electrodes.
( Heng Liu ),( Yan Wang ) 한국인터넷정보학회 2011 KSII Transactions on Internet and Information Syst Vol.5 No.11
Wireless Sensor Network (WSN) is made up of a number of sensor nodes and base stations. Traffic flow in WSN appears self-similar due to its data delivery process, and this impacts queue length greatly and makes queuing delay worse. Active queue management can be designed to improve QoS performance for WSN. In this paper, we propose self-similar traffic rate estimating algorithm named Power-Law Moving Averaging (PLMA) to regulate packet marking probability. This algorithm improves the availability of the rate estimation algorithm under the self-similar traffic condition. Then, we propose an adaptive Proportional Integral algorithm (SSPI) based on the estimation of the Self-Similar traffic rate by PLMA. Simulation results show that SSPI can achieve lower queue length jitter and smaller setting time than PI.
Two New Species in the Family Cunninghamellaceae from China
( Heng Zhao ),( Jing Zhu ),( Tong-kai Zong ),( Xiao-ling Liu ),( Li-ying Ren ),( Qing Lin ),( Min Qiao ),( Yong Nie ),( Zhi-dong Zhang ),( Xiao-yong Liu ) 한국균학회 2021 Mycobiology Vol.49 No.2
The species within the family Cunninghamellaceae are widely distributed and produce important metabolites. Morphological studies along with a molecular phylogeny based on the internal transcribed spacer (ITS) and large subunit (LSU) of ribosomal DNA revealed two new species in this family from soils in China, that is, Absidia ovalispora sp. nov. and Cunninghamella globospora sp. nov. The former is phylogenetically closely related to Absidia koreana, but morphologically differs in sporangiospores, sporangia, sporangiophores, columellae, collars, and rhizoids. The latter is phylogenetically closely related to Cunninghamella intermedia, but morphologically differs in sporangiola and colonies. They were described and illustrated.