Design of peripheral airways for efficient gas exchange
暂无分享,去创建一个
[1] B. Sapoval,et al. Diffusional screening in real 3D human acini—a theoretical study , 2005, Respiratory Physiology & Neurobiology.
[2] B. Sapoval,et al. Diffusion-reaction in branched structures: theory and application to the lung acinus. , 2005, Physical review letters.
[3] E. Weibel,et al. An optimal bronchial tree may be dangerous , 2004, Nature.
[4] M Filoche,et al. Renormalized random walk study of oxygen absorption in the human lung. , 2004, Physical review letters.
[5] B. Sapoval,et al. Diffusional screening in the human pulmonary acinus. , 2003, Journal of applied physiology.
[6] A. Rotta,et al. Heliox enhances carbon dioxide clearance from lungs of normal rabbits during low bias flow oscillation , 2003, Pediatric critical care medicine : a journal of the Society of Critical Care Medicine and the World Federation of Pediatric Intensive and Critical Care Societies.
[7] Bernard Sapoval,et al. Smaller is better—but not too small: A physical scale for the design of the mammalian pulmonary acinus , 2002, Proceedings of the National Academy of Sciences of the United States of America.
[8] P J Hunter,et al. Characterising respiratory airway gas mixing using a lumped parameter model of the pulmonary acinus. , 2001, Respiration physiology.
[9] Vincent Fleury,et al. Branching in Nature , 2001, Centre de Physique des Houches.
[10] M Paiva,et al. A human acinar structure for simulation of realistic alveolar plateau slopes. , 2000, Journal of applied physiology.
[11] W. Cardoso. Lung morphogenesis revisited: old facts, current ideas. , 2000 .
[12] W. Cardoso. Lung morphogenesis revisited: Old facts, current ideas , 2000, Developmental dynamics : an official publication of the American Association of Anatomists.
[13] R Takaki,et al. A three-dimensional model of the human pulmonary acinus. , 2000, Journal of applied physiology.
[14] E. Schaeffer,et al. Oxygenation in status asthmaticus improves during ventilation with helium-oxygen. , 1999, Critical care medicine.
[15] R. Maly,et al. Augmented hyperventilation via normoxic helium breathing does not prevent exercise-induced hypoxemia. , 1996, Canadian journal of applied physiology = Revue canadienne de physiologie appliquee.
[16] P. Wagner,et al. Hypoxic helium breathing does not reduce alveolar-arterial PO2 difference in the horse. , 1995, Respiration physiology.
[17] E. Weibel,et al. Fractals in Biology and Medicine , 1994 .
[18] Transfer to and across Irregular Membranes Modelled by Fractal Geometry , 1994 .
[19] E. Weibel,et al. Demonstration of pulmonary vascular perfusion by electron and light microscopy. , 1993, Journal of applied physiology.
[20] E. Weibel,et al. Morphometric model for pulmonary diffusing capacity. I. Membrane diffusing capacity. , 1993, Respiration physiology.
[21] C. R. Taylor,et al. The concept of symmorphosis: a testable hypothesis of structure-function relationship. , 1991, Proceedings of the National Academy of Sciences of the United States of America.
[22] R. Crystal,et al. The Lung: Scientific Foundations , 1991 .
[23] Manuel Paiva,et al. Respiratory Physiology: An Analytical Approach , 1989 .
[24] E R Weibel,et al. Morphometry of the human pulmonary acinus , 1988, The Anatomical record.
[25] E R Weibel,et al. Pulmonary acinus: geometry and morphometry of the peripheral airway system in rat and rabbit. , 1987, The American journal of anatomy.
[26] Arthur S Slutsky,et al. Gas exchange during constant flow ventilation with different gases. , 1987, The American review of respiratory disease.
[27] E. Weibel,et al. Adaptive variation in the mammalian respiratory system in relation to energetic demand: VII. Flow of oxygen across the pulmonary gas exchanger , 1987 .
[28] L. A. Engel,et al. Theoretical studies of gas mixing and ventilation distribution in the lung. , 1987, Physiological reviews.
[29] C. R. Taylor,et al. Adaptive variation in the mammalian respiratory system in relation to energetic demand. , 1987, Respiration physiology.
[30] How to Stabilize the Pulmonary Alveoli: Surfactant or Fibers? , 1987 .
[31] L. A. Engel,et al. Model analysis of intra-acinar gas exchange. , 1985, Respiration physiology.
[32] Ewald R. Weibel,et al. The pathway for oxygen : structure and function in the mammalian respiratory system , 1984 .
[33] E. Weibel,et al. Morphometric estimates of diffusing capacity in lungs fixed under zone II and zone III conditions. , 1983, Respiration physiology.
[34] T A Wilson,et al. A model for mechanical structure of the alveolar duct. , 1982, Journal of applied physiology: respiratory, environmental and exercise physiology.
[35] O. Raabe,et al. Structure of the human respiratory acinus. , 1981, The American journal of anatomy.
[36] C. R. Taylor,et al. Design of the mammalian respiratory system. I. Problem and strategy. , 1981, Respiration physiology.
[37] C. R. Taylor,et al. Design of the mammalian respiratory system. IX. Functional and structural limits for oxygen flow. , 1981, Respiration physiology.
[38] C. R. Taylor,et al. Design of the mammalian respiratory system. , 1981, Respiration physiology.
[39] J. Piiper,et al. 4 – Intrapulmonary Gas Mixing and Stratification , 1980 .
[40] E. Weibel,et al. Alveolar volume-surface area relation in air- and saline-filled lungs fixed by vascular perfusion. , 1979, Journal of applied physiology: respiratory, environmental and exercise physiology.
[41] E R Weibel,et al. The normal human lung: ultrastructure and morphometric estimation of diffusion capacity. , 1978, Respiration physiology.
[42] R. Reid,et al. The Properties of Gases and Liquids , 1977 .
[43] D E Olson,et al. Models of the human bronchial tree. , 1971, Journal of applied physiology.
[44] E. Weibel. Morphometry of the Human Lung , 1965, Springer Berlin Heidelberg.
[45] E. Weibel,et al. Architecture of the Human Lung , 1962, Science.
[46] C D Murray,et al. The Physiological Principle of Minimum Work: I. The Vascular System and the Cost of Blood Volume. , 1926, Proceedings of the National Academy of Sciences of the United States of America.