1.Pharmacometric models simulation using NONMEM, Berkeley Madonna and R.
Translational and Clinical Pharmacology 2017;25(3):125-133
In this tutorial, we introduce a differential equation simulation model for use in pharmacometrics involving NONMEM, Berkeley Madonna, and R. We report components of the simulation code and similarities/differences between software, rather than how to use each software. Depending on the purpose of the simulation, an appropriate tool can be selected for effective communication.
Computer Simulation
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Software
2.Thermal Problems and Methods in Invasive Microwave Coagulation Therapy.
Qun NAN ; Jianshu PENG ; Youjun LIU ; Yi ZENGON
Journal of Korean Society of Medical Informatics 2007;13(2):159-163
OBJECTIVE: To study some thermal problems in invasive microwave coagulation (IMC) therapy. METHODS: Temperature fields predicts, limitation and remedy methods of the Pennes bioheat transfer equation during the temperature distribution analyses and how to kill a large anomalistic tumor for only once were discussed. RESULTS: The coagulation area between the simulations and actual measured results showed good correspondence. Blood flow influenced the rise in temperature significantly. CONCLUSIONS: Thermal distribution with computer simulation in invasive microwave coagulation therapy is an accurate and reliable method.
Computer Simulation
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Microwaves*
5.Computational Medicine: Past, Present and Future.
Lan-Qing LYU ; Hong-Yan CUI ; Ming-Yi SHAO ; Yu FU ; Rui-Xia ZHAO ; Qiu-Ping CHEN
Chinese journal of integrative medicine 2022;28(5):453-462
Computational medicine is an emerging discipline that uses computer models and complex software to simulate the development and treatment of diseases. Advances in computer hardware and software technology, especially the development of algorithms and graphics processing units (GPUs), have led to the broader application of computers in the medical field. Computer vision based on mathematical biological modelling will revolutionize clinical research and diagnosis, and promote the innovative development of Chinese medicine, some biological models have begun to play a practical role in various types of research. This paper introduces the concepts and characteristics of computational medicine and then reviews the developmental history of the field, including Digital Human in Chinese medicine. Additionally, this study introduces research progress in computational medicine around the world, lists some specific clinical applications of computational medicine, discusses the key problems and limitations of the research and the development and application of computational medicine, and ultimately looks forward to the developmental prospects, especially in the field of computational Chinese medicine.
Algorithms
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Computer Simulation
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Humans
6.Analysis of Driver-Passenger Relationship and Restoration of Accident Process Based on 3D Laser Scanning Technology.
Xue ZHANG ; Sheng Dong LI ; Yan Geng YU ; Fu ZHANG ; Chong Bin ZOU ; Zhi Liang ZOU ; Qi Feng MIAO ; Man Ting ZHANG ; Li Juan TANG ; Dong Ri LI
Journal of Forensic Medicine 2020;36(1):69-71
Objective To discuss the application of 3D laser scanner and computer technology in restoration of the accident scene and reconstruction of the accident process, as well as identification of the driver-passenger relationship. Methods The scene of a traffic accident, the accident vehicle and the vehicle of the same type as accident vehicle were scanned using 3D laser scanner. The accident scene, traces and accident vehicle were integrated using computer technology to restore the accident scene, and the accident process was reconstructed and analyzed by combining the characteristics of the body injuries. Results By restoring the accident scene and reconstructing the accident process with 3D laser scanner, it was determined that Wu was in the driving seat at the time of the accident. Conclusion It is more objective and scientific to use 3D laser scanning technology to restore the accident scene, reconstruct the accident process and analyze the moving track of the driver and passengers in the vehicle. It will help to improve the accuracy of forensic identification of road traffic accidents.
Accidents, Traffic
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Computer Simulation
8.Should I Repeat My 1:2s QC Rejection?.
Curtis A PARVIN ; Lakshmi KUCHIPUDI ; John C YUNDT-PACHECO
Laboratory Medicine Online 2012;2(4):183-187
BACKGROUND: Repeating a QC that is outside 2SD from the mean (1:2s rule) appears to be a common practice. Although this form of repeat-sampling is frowned on by many, the comparative power of the approach has not been formally evaluated. METHODS: We computed power functions mathematically and by computer simulation for 4 different 1:2s repeat-sampling strategies, as well as the 1:2s rule, the 1:3s rule, and 2 common QC multirules. RESULTS: The false-rejection rates for the repeat-sampling strategies were similarly low to those of the 1:3s QC rule. The error detection rates for the repeat-sampling strategies approached those of the 1:2s QC rule for moderate to large out-of-control error conditions. In most cases, the power of the repeat-sampling strategies was superior to the power of the QC multirules we evaluated. The increase in QC utilization rate ranged from 4% to 13% for the repeat-sampling strategies investigated. CONCLUSIONS: The repeat-sampling strategies provide an effective tactic to take advantage of the desirable properties of both the 1:2s and 1:3s QC rules. Additionally, the power of the repeat-sampling strategies compares favorably with the power of 2 common QC multirules. These improvements come with a modest increase in the average number of controls tested.
Computer Simulation
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Imidazoles
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Nitro Compounds
9.Robotically Assisted Microsurgery: Development of Basic Skills Course.
Philippe Andre LIVERNEAUX ; Sarah HENDRIKS ; Jesse C SELBER ; Sijo J PAREKATTIL
Archives of Plastic Surgery 2013;40(4):320-326
Robotically assisted microsurgery or telemicrosurgery is a new technique using robotic telemanipulators. This allows for the addition of optical magnification (which defines conventional microsurgery) to robotic instrument arms to allow the microsurgeon to perform complex microsurgical procedures. There are several possible applications for this platform in various microsurgical disciplines. Since 2009, basic skills training courses have been organized by the Robotic Assisted Microsurgical and Endoscopic Society. These basic courses are performed on training models in five levels of increasing complexity. This paper reviews the current state of the art in robotically asisted microsurgical training.
Arm
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Computer Simulation
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Microsurgery
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Robotics
10.Non-linear rectification of sensor based on immune genetic algorithm.
Lirong LU ; Jinyang ZHOU ; Xiaodong NIU
Journal of Biomedical Engineering 2014;31(4):751-754
A non-linear rectification based on immune genetic algorithm (IGA) is proposed in this paper, for the shortcoming of the non-linearity rectification. This algorithm introducing the biologic immune mechanism into the genetic algorithm can restrain the disadvantages that the poor precision, slow convergence speed and early maturity of the genetic algorithm. Computer simulations indicated that the algorithm not only keeps population diversity, but also increases the convergent speed, precision and the stability greatly. The results have shown the correctness and effectiveness of the method.
Algorithms
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Computer Simulation
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Immunity
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genetics