Airflow and Micro-particle Transport and Deposition in Realistic Lung Airways Including the Alveolar Region PDF Download
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Author: Zheng Li
Publisher:
ISBN:
Category :
Languages : en
Pages : 212
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Book Description
Keywords: Micro-Particle, Airflow, computational fluid dynamics, Lung Airway.
Author: Zheng Li
Publisher:
ISBN:
Category :
Languages : en
Pages : 212
Get Book Here
Book Description
Keywords: Micro-Particle, Airflow, computational fluid dynamics, Lung Airway.
Author:
Publisher:
ISBN:
Category :
Languages : en
Pages :
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Book Description
People may inhale 100 millions of particles each day, including toxic particulate matter as well as drug aerosols. Some of those deposited in the respiratory system can be either harmful or therapeutic to humans depending upon the particle material, deposition site, and local concentration. These transport and deposition phenomena as well as the resulting biomedical processes are greatly determined by the airflow field, particle properties, breathing pattern, and geometric airway characteristics. Realistic models of tracheobronchial and nasal⁄oral- tracheobronchial airways were built. Airflow and particle transport and deposition in these airway models were investigated in detail by mainly using the validated, in-house FORTRAN code CFPD (computational fluid-particle dynamics), which is a cell-centered, finite volume multi-block code. Both laminar and transitional-turbulent-laminar flows were considered for different transient and steady inhalation flow rates and inlet velocity profiles. The resulting effects of transients, upstream conditions and geometric characteristics, i.e., spatial angle and/or cartilaginous rings, are fully discussed. A new code based on the lattice-Boltzmann method (LBM) has been developed and validated to investigate airflow patterns and pressure changes in representative alveolar structures of the human respiratory zone. The new idea of targeted drug aerosol delivery technology was numerically tested for a more realistic human airway configuration and thereby addressing the problem of inter-subject variability. Specifically, controlled air-particle streams were studied using the oral and asymmetric tracheobronchial airway models. The results were compared with data obtained for a symmetric Weibel Type A tracheobronchial airway model.
Author: Chiu-sen Wang
Publisher: Elsevier
ISBN: 0080455018
Category : Technology & Engineering
Languages : en
Pages : 214
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Book Description
Inhaled Particles integrates all that is known about inhaled particles in a unified treatment. It aims to provide a scientific framework essential to a reasonable understanding of inhaled particles. The emphasis is placed on demonstrating the key roles of lung morphology on airflow and particle transport as well as identifying physical and biological factors that influence deposition. Special attention is paid to maintaining consistency of treatment and a balance between theoretical modeling and experimental measurements. The book covers all important aspects of inhaled particles including inhalability, aerosol dispersion, particle deposition, and clearance. It reviews concisely the basic background of lung morphology, respiratory physiology, aerodynamics, and aerosol science pertinent to the subject. Essential aspects of health effects and applications are also included. An easy-to-read, self contained introduction to the field An excellent source of updated research information Useful for students and professionals in aerosol science, environmental health science, occupational hygiene, health physics and biomedical engineering
Author: Jiyuan Tu
Publisher: Springer Science & Business Media
ISBN: 9400744870
Category : Technology & Engineering
Languages : en
Pages : 383
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Book Description
Traditional research methodologies in the human respiratory system have always been challenging due to their invasive nature. Recent advances in medical imaging and computational fluid dynamics (CFD) have accelerated this research. This book compiles and details recent advances in the modelling of the respiratory system for researchers, engineers, scientists, and health practitioners. It breaks down the complexities of this field and provides both students and scientists with an introduction and starting point to the physiology of the respiratory system, fluid dynamics and advanced CFD modeling tools. In addition to a brief introduction to the physics of the respiratory system and an overview of computational methods, the book contains best-practice guidelines for establishing high-quality computational models and simulations. Inspiration for new simulations can be gained through innovative case studies as well as hands-on practice using pre-made computational code. Last but not least, students and researchers are presented the latest biomedical research activities, and the computational visualizations will enhance their understanding of physiological functions of the respiratory system.
Author: René Pomeau
Publisher:
ISBN: 9780729404938
Category :
Languages : en
Pages : 876
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Book Description
Author: Peter Gehr
Publisher: CRC Press
ISBN: 0824746899
Category : Medical
Languages : en
Pages : 718
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Book Description
This wide-ranging, comprehensive reference presents the latest developments in aerosol science and interactions between particles and the respiratory tract-utilizing an inter-disciplinary approach that integrates advances in physics, chemistry, and engineering with the epidemiological and biomedical sciences, and focusing on the dynamics of particl
Author: Ewald R. Weibel
Publisher: Academic Press
ISBN: 1483225798
Category : Computers
Languages : en
Pages : 164
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Book Description
Morphometry of the Human Lung considers the developments in understanding the quantitative anatomy of the lung, and in the correlation of anatomy with physiology. This book is composed of 11 chapters, and begins with an overview of a systematic approach to a quantitative morphologic analysis of the architecture of the human lung, followed by a presentation of general problems of methodology and the derivation of reliable dimensional models of this organ. The subsequent chapters describe the methods of preparation of tissues, methods of random sampling, and adaptation of methodologies from other fields of science. These topics are followed by discussions the mathematical formulations for the translation of the data into the desired geometric forms and a technique of counting. The final chapters look into the mode of distribution and geometric forms that should eventually facilitate mathematical and physical considerations regarding the function of the lungs. These chapters also consider the application of these quantitative methods to the study of pathologic specimens, providing a most timely renovation of morphologic pathology. This book will be of value to pulmonologists, physiologists, and researchers who are interested in lung morphometry.
Author: Pierre-Antoine Muller
Publisher:
ISBN:
Category :
Languages : en
Pages : 0
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Book Description
The context of this thesis is the modelling of particle deposition in the human lung in order to optimise the administration of inhaled drugs. As the alveolar region plays a crucial role both physiologically and functionally, especially for systemic delivery, the objective of this work is to set-up a particle deposition model specific to the acinar region which could be integrated in whole lung deposition model. The first two chapters concentrate on the anatomical and functional aspects of the lung and on the physical principles involved in the flow and particle transport mechanisms in the lung. Then a computational fluid dynamics model was setup in a simplified alveolar geometry. Aerosol bolus transport was studied through an Eulerian approach, for one or several breathing cycles. The impact of flow irreversibilities on bolus dispersion was quantified. The last chapter deals with the integration of the previous results in an analytical model of particle deposition in the whole lung. The results generated by this model are then compared to experimental data from the literature or obtained from an ongoing clinical trial. The results of the new theoretical model show an increase of particle deposition in the acinar region which improves correlation of theory with experimental data. This model could favourably help designing therapies targeting the alveolar region of the lung.
Author: Taylor Steven Geisler
Publisher:
ISBN:
Category :
Languages : en
Pages :
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Book Description
Prolonged exposure to inhaled micron-sized airborne particles is a known public health concern. These particles impact the health of staggering numbers of residents of polluted urban areas, as well as significant portions of the third world where it is still common to burn wood or charcoal indoors for cooking or heating. An understanding of the fate of inhaled particles in the lungs is useful for assessing their associated health risks, as well as improving the effectiveness of respiratory drug delivery techniques. The transport of microparticles is inseparable from behavior of the suspending airflow and this is studied using computational fluid dynamics techniques. The anatomy of the airways seems to have evolved to encourage turbulent airflow for functions such as mixing of flow to promote the warming and humidification of inhaled air, as well as for filtration. Large eddy simulation models are employed to capture turbulent flow in extremely complex patient-specific airway geometries. These collectively comprise the oral and nasal cavities, larynx, trachea, and the bronchial tree. The flow in anatomically-accurate rhesus macaque airways is also studied. Simulations are carried out for inspiratory flow rates corresponding to nominal Reynolds numbers in the hundreds to low-thousands yet somewhat surprisingly yield unsteady flows due to local geometric factors. A computed mean flow field is compared extensively with magnetic resonance velocimetry measurements carried out in the same computed-tomography--based lung geometry, showing good agreement. Microparticle deposition predictions are also verified. Focus is placed on the dynamics of the flow in the nasal airway, trachea, and bronchial tree. After becoming unsteady at constrictions in the upper airways, the flow is found to be chaotic, exhibiting fluctuations with broad-band spectra even at the most distal simulated airways in which the Reynolds numbers are as low as 300. The unsteadiness is attributed to the convection of turbulent structures produced in the upper airways as well as to local kinetic energy production throughout the bronchial tree.
Author: Arun Varghese Kolanjiyil
Publisher:
ISBN:
Category :
Languages : en
Pages : 245
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Book Description
