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Spectrum of Lysosomal Storage Disease Targeted for Newborn Screening in Vietnam
Dung, Vu Chi,Ngoc, Can Thi Bich,Khanh, Nguyen Ngoc,Mai, Do Thi Thanh,Thao, Bui Phuong,Mai, Tran Thi Chi,Ha, Nguyen Thu,Huong, Nguyen Thi Mai,Nam, Nguyen Hoang,Hai, Le Thanh,Tomatsu, Shunji,Yoo, Han-Wo Association for Research of MPS and Rare Diseases 2017 Journal of mucopolysaccharidosis and rare disease Vol.3 No.1
( Nguyen Chi Nghia ),( Do Truong Sinh ),( Nguyen Van Kenh ),( Tong Thanh Tung ),( Dinh Thi Thuong ) 한국수자원공사 2017 저널 물 정책·경제 Vol.28 No.-
베트남에서 수자원은 새로운 분야다. 2003년까지는 농업ㆍ농촌지역개발부(Ministry of Agriculture and Rural Development)가 지표수를 수문학적 관점에서 산정하여 관리하였으며, 지질ㆍ광물자원부터(the General Department of Geology and Minerals)에서 지하수를 조사하고 산정하였다. 이때까지 베트남에서는 `수자원`이라는 개념은 존재하지 않았으며, 물을 자원으로 생각하지 않아서 수자원 정책이나 수자원관리 체계가 마련되지 않은 상황이었다. 2003년 자연자원환경부(Ministry of Natural Resources and Environment) 수립 이후로, 수자원관리 체계가 점차 정립되었다. 2010년부터 베트남의 수자원관리는 크게 발전하였다. 2013년에는 수자원법이 발효되었고, 수자원 관련기관들이 설립되었다. 이후 수자원부문에 대한 투자 가치가 인정되어, 수자원부문에 대한 국가 예산 투자가 상당히 증가하였다. 구체적으로 수자원법수행 및 제도 구축을 위한 투자가 있었는데, 이와 관련하여 5개의 시행령, 22개의 시행규칙 및 20개의 국무총리 고시가 발표되었다. 또한 수자원관리를 위하여 조직 체질개선, 수자원 기초조사 등의 수자원 조사ㆍ감독 역량 강화, 수질오염 제한 및 수자원 보호, 수자원 개발ㆍ이용에 대한 효율적 관리, 국제 협력, 수자원부문의 과학 및 기술 발전, 수자원 법에 대한 선전, 국민의 수자원에 대한 인식 제고 등 다양한 노력이 있었다. 향후 2016-2020년 동안, 베트남 자연자원환경부는 수자원의 계량화, 수자원 인프라 투자 및 거버넌스 구축을 위한 국제협력 강화 등 수자원관리 역량을 향상시키기 위하여 필요한 사항을 점검하고 이에 집중할 것이다. 본 연구는 베트남의 지난 국가수자원계획의 성과를 평가해보고 그 한계점을 파악한 후, 2016-2020 국가수자원계획에 반영할 개선점을 진단하였다. 따라서 본 연구는 베트남 수자원 분야의 협력개발 및 프로젝트에 있어 훌륭한 기반이 될 것이다.
Temperature-Dependent Photoluminescence and Absoprtion of CdSe Quantum dots Embedded in PMMA
Tran Thi Kim Chi,Ung Thi Dieu Thuy,Nguyen Quang Liem,Man Hoai Nam,Do Xuan Thanh 한국물리학회 2008 THE JOURNAL OF THE KOREAN PHYSICAL SOCIETY Vol.52 No.5
Photoluminescence and absorption studies of CdSe quantum dots in polymethylmethacrylate (PMMA) were carried out in the temperature range 14 - 310 K. We found an anomalously discontinuous variation of the photoluminescence intensity and the peak position around 50 K. Two different kinds of states, whose populations are temperature-dependent, are proposed as the origins for the emissions at lower and higher temperatures. The absorption exhibited a temperature-dependent behavior similar to that of the photoluminescence.O Photoluminescence and absorption studies of CdSe quantum dots in polymethylmethacrylate (PMMA) were carried out in the temperature range 14 - 310 K. We found an anomalously discontinuous variation of the photoluminescence intensity and the peak position around 50 K. Two different kinds of states, whose populations are temperature-dependent, are proposed as the origins for the emissions at lower and higher temperatures. The absorption exhibited a temperature-dependent behavior similar to that of the photoluminescence.O
Nguyen Thu Hang,Nguyen Mai Chi,Nguyen Hoang Trung,Thi Y Van Tran,Vu Ngoc Trung,Thu Hang Bui,Duc Trinh Chu,Bui Tung Thanh,Jen Chun-Ping,Quang Loc Do 한국농업기계학회 2024 바이오시스템공학 Vol.49 No.1
Purpose Circulating tumor cell separation and analysis have played a critical role in cancer diagnosis, prognosis, and treatment. In this work, we aim to design and investigate a novel biochip that integrates dielectrophoresis, microfl uidic technology to separate circulating tumor cells from blood cells. To create a dielectrophoresis-induced non-uniform electric fi eld, a facing-electrode design was proposed and utilized, in which a slanted electrode array and a simple rectangular ground electrode are placed parallel on the top and bottom parts of the microfl uidic channel, respectively. This design can reduce the particle position dependence in the microchannel and the complexity of the microfabrication process. Methods The separation process, effi ciency, and optimization of the proposed device were numerically investigated using the fi nite element method. Parametric research was conducted to comprehensively examine the impact of various operating and design factors on the cell movement and trajectories in the microfl uidic device. Results The results indicated the potential of the proposed biochip to ensure cancer cell separation from blood cells with high effi ciency, high purity in a label-free, non-invasive, easy integration, and low-cost manner. Under the optimal conditions, the separation effi ciency reached 92%, 88%, and 96% for human colon cancer cells (HT-29), red blood cells, and white blood cells, respectively. Conclusions In this study, a novel DEP-based microfl uidic chip was proposed to separate HT-29 tumor cells from blood cells and numerically investigated to verify the performance of the biochip design. Our fi ndings could provide a foundation for further theoretical and practical investigations. The proposed system can separate cancer cells from red blood cells and white blood cells as well as off ers numerous advantages, such as compact size, low voltage, high effi ciency, non-invasiveness, and label-free nature. The tumor cell enrichment platform has the potential for application in cancer detection, analysis, and assessment.
2차원 변환과 CNN 딥러닝 기반 음향 인식 시스템에 관한 연구
이기성,조성원,하태민,Ngo Luong Thanh Tra,Do Chi Thanh (사)한국스마트미디어학회 2022 스마트미디어저널 Vol.11 No.1
This paper proposes a study on applying signal processing and deep learning for sound recognition that detects sounds commonly heard in daily life (Screaming, Clapping, Crowd_clapping, Car_passing_by and Back_ground, etc.). In the proposed sound recognition, several techniques related to the spectrum of sound waves, augmentation of sound data, ensemble learning for various predictions, convolutional neural networks (CNN) deep learning, and two-dimensional (2-D) data are used for improving the recognition accuracy. The proposed sound recognition technology shows that it can accurately recognize various sounds through experiments. 본 논문은 일상생활에서 흔히 들을 수 있는 소리(비명소리, 박수 소리, 여러 명의 박수 소리, 자동차 지나가는 소리, 배경음 등)를 감지하는 음향 인식을 위하여, 신호처리 및 딥러닝을 적용하는 연구에 관한 것이다. 제안된 음향 인식에서는, 인식 정확도의 향상을 위해서 음향 파형의 스펙트럼, 음향 데이터의 증강, 2차원(2-D) 이미지 변환에 관한 기술들이 사용되었고, 예측의 정확도를 향상을 위한 앙상블 학습, Convolution Neural Network(CNN) 딥러닝 기술들이 적용된다. 제안된 음향 인식 기술은 실험을 통해 다양한 음향을 정확하게 인식할 수 있음을 보여준다.
A Vapor Sensor Based on a Porous Silicon Microcavity for the Determination of Solvent Solutions
Huy Bui,Thuy Van Nguyen,The Anh Nguyen,Thanh Binh Pham,Quoc Trung Dang,Thuy Chi Do,Quang Minh Ngo,Roberto Coisson,Van Hoi Pham 한국광학회 2014 Current Optics and Photonics Vol.18 No.4
A porous silicon microcavity (PSMC) sensor has been made for vapors of solvent solutions, and a method has been developed in order to obtain simultaneous determination of two volatile substances with different concentrations. In our work, the temperature of the solution and the velocity of the air stream flowing through the solution have been used to control the response of the sensor for ethanol and acetone solutions. We study the dependence of the cavity-resonant wavelength shift on solvent concentration, velocity of the airflow and solution temperature. The wavelength shift depends linearly on concentration and increases with solution temperature and velocity of the airflow. The dependence of the wavelength shift on the solution temperature in the measurement contains properties of the temperature dependence of the solvent vapor pressure, which characterizes each solvent. As a result, the dependence of the wavelength shift on the solution temperature discriminates between solutions of ethanol and acetone with different concentrations. This suggests a possibility for the simultaneous determination of the volatile substances and their concentrations.