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References

  • Alter MJ (2004) Science of Flexibility, 3rd edn. New York: Sheridan Books.
  • Amenta PS, Gil J, Martinez-Hernandez A (1988) Connective tissue of rat lung. II. Ultrastructural localization of collagen types III, IV, and VI. J Histochem Cytochem 36, 11671173.
  • Bancroft JD, Steven A (1996) Theory and Practice of Histological Techniques. London: Churchill Livingstone.
  • Bernhard W, Gebert A, Vieten G, et al. (2001) Pulmonary surfactant in birds: coping with surface tension in a tubular lung. J Appl Physiol 281, R327R337.
  • Borst HG, McGregor M, Whittenberger JL, et al. (1956) Influence of pulmonary arterial and left atrial pressures on pulmonary vascular resistance. Circ Res 4, 393399.
  • Bradley KH, Kawanami O, Ferrans VJ, et al. (1980) The fibroblast of human alveolar structures: a differentiated cell with a major role in lung structure and function. In: Methods in Cell Biology, vol. 2. (eds HarrisCC, TrumpBF, StonerGD), pp. 3764. New York: Academic Press.
  • Carton RW, Clark JW, Dainauskas J, et al. (1964) Estimation of tissue elasticity of the lung. J Appl Physiol 19, 236242.
  • Cavalcante FSA, Ito S, Brewer K, et al. (2005) Mechanical interactions between collagen and proteoglycans: implications for the stability of lung tissue. J Appl Physiol 98, 672679.
  • Chen CS, Ingber DE (1999) Tensegrity mechanoregulation: from skeleton to cytoskeleton. Osteoarthritis Cartilage 7, 8194.
  • Crouch EC, Martin GR, Brody JS, et al. (1997) Basement membranes. In: The Lung: Scientific Foundations, vol. 1, 2nd edn(eds CrystalRG, WestJB, WeibelER, BarnesPJ), pp. 769791. Philadelphia: Lippincott-Raven Publishers.
  • Drescher HE, Welsch U (1985) The fine structure of the parabronchi and the gas exchange area of the Adelie penguin lung. Z Mikrosk-Anat Forsch Leipzig 97, 863879.
  • Duncker HR (1971) The lung-air sac system of birds. A contribution to the functional anatomy of the respiratory apparatus. Ergeb Anat Entwicklung 45, 1171.
  • Duncker HR (1972) Structure of avian lungs. Respir Physiol 14, 4463.
  • Elden HR (1968) Physical properties of collagen fibers. Int Rev Connect Tissue Res 4, 283348.
  • Fischer G (1905) Vergleichende anatomische Untersuchungen über den Bronchialbaum der Vögel. Zool Stuttg 19, 146.
  • Frantsevich L, Gorb S (2002) Arcus as a tensegrity structure in the arlium of wasps (Hymenoptera: Vespidae). Zool 3, 8194.
  • Fuller B (1961) Tensegrity. Portf Art News Annu 4, 112127.
  • Gadek JE, Fells GA, Zimmerman RL, et al. (1984) Role of connective tissue proteases in the pathogenesis of chronic inflammatory lung disease. Environ Health Perspect 55, 297306.
  • Gehr P, Mwangi DK, Amman A, et al. (1981) Design of the mammalian respiratory system: V. Scaling morphometric diffusing capacity to body mass: wild and domestic animals. Respir Physiol 44, 6186.
  • Gerisch D, Schwartz R (1972) Morphologische Befunde an den Bronchi atriales des Haushuhnes (Gallus gallus domesticus). Dtsch Tierärztl Wochenschr 79, 573612.
  • Gil J, Martinez-Hernandez A (1984) The connective tissue of the rat lung: electron immunohistochemical studies. J Histochem Cytochem 32, 230238.
  • Gillespie JR, Sagot JC, Gendner JP, et al. (1982) Impedance of the lower respiratory system in ducks under four conditions: pressure breathing, anaesthesia, paralysis or breathing CO2-enriched gas. Respir Physiol 47, 177191.
  • Glazier JB, Hughes JMB, Maloney JE, et al. (1969) Measurements of capillary dimensions and blood volume in rapidly frozen lungs. J Appl Physiol 26, 6576.
  • Gonçalves CA, Figueiredo MH, Bairos VA (1995) Three dimensional organization of the elastic fibers in the rat lung. Anat Rec 243, 6370.
  • Gordon JE (1988) The Science of Structures and Materials. New York: Scientific American Library.
  • Gosline JM (1976) The physical properties of elastic tissue. Int Rev Connect Tissue Res 7, 211249.
  • Gosline JM, French CJ (1979) Dynamic mechanical properties of elastin. Biopolymers 18, 20912103.
  • Groebbels F (1922) Der Vögel. Bau, Function, Lebenserscheinung, Einpassung, vol. 1. Berlin: Borntraeger.
  • Hance AJ, Crystal RG (1975) The connective tissue of lung. Am Rev Respir Dis 112, 657711.
  • Hopkins FG, Stothert JC, Greaves IA, et al. (1986) Lung recoil: elastic and rheological properties. In: Handbook of Physiology: The Respiratory System (ed. FishmanAP), pp. 195215. Bethesda: American Physiological Society.
  • Ingber DE (2003) Cellular tensegrity: revisited. I. Cell structure and hierarchical systems biology. J Cell Sci 116, 11571173.
  • Ingber DE (2004) The mechanochemical basis of cell and tissue regulation. MCB 1, 5368.
  • Jones JH, Effmann EL, Schmidt-Nielsen K (1985) Lung volume changes during respiration in ducks. Respir Physiol 59, 1525.
  • Kampe G, Crawford EC (1973) Oscillatory mechanics of the respiratory system of pigeons. Respir Physiol 18, 188193.
  • King AS (1966) Structural and functional aspects of the avian lung and its air sacs. Int Rev Gen Exp Zool 2, 171267.
  • King AS (1979) Systema respiratorium. In: Nomina Anatomica Avium (eds BaumelJJ, KingAS, LucasAM, BreazileJE, EvansHE), pp. 227265. London: Academic Press.
  • King AS, Cowie AF (1969) The functional anatomy of the bronchial muscle of the bird. J Anat 105, 323336.
  • King AS, McLelland J (1984) Birds: Their Structure and Function. London: Baillière Tindall.
  • King AS, Molony V (1971) The anatomy of respiration. In Physiology and Biochemistry of the Domestic Fowl, vol. 1 (eds BellDF, FreemanBM), pp. 347384. London: Academic Press.
  • King AS, Ellis RNW, Watts SMS (1967) Elastic fibers in the avian lung. J Anat 101, 607.
  • Klika E, Scheuermann DW, De Groodt-Lasseel MHA, et al. (1997) Anchoring and support system of pulmonary gas exchange tissue in four bird species. Acta Anat 159, 3041.
  • Klika E, Scheuermann DW, De Groodt-Lasseel MHA, et al. (1998) An SEM and TEM study of the transition of the bronchus to the parabronchus in quail (Coturnix cortunix). Ann Anat 180, 289297.
  • Liao H, Belkoff SM (1999) A failure model for ligaments. J Biomech 32, 183188.
  • Macklem P, Bouverot P, Scheid P (1979) Measurement of the distensibility of the parabronchi in duck lungs. Respir Physiol 33, 2335.
  • Magnussen H, Willmer H, Scheid P (1976) Gas exchange in the air sacs: contribution to respiratory gas exchange in ducks. Respir Physiol 26, 129146.
  • Maina JN (1989) Morphometry of the avian lung. In: Form and Function in Birds, vol. 4. (eds KingAS, McLellandJ), pp. 307368. London: Academic Press.
  • Maina JN (2002) Functional Morphology of the Vertebrate Respiratory Organs. Lebanon, NH: Oxford and IBH Publishing Company.
  • Maina JN (2005) The Lung-Air Sac System of Birds: Development, Structure, and Function. Heidelberg: Springer-Verlag.
  • Maina JN (2007a) Spectacularly robust! Tensegrity principle explains the mechanical strength of the avian lung. Respir Physiol Neurobiol 155, 110.
  • Maina JN (2007b) Minutialization at its extreme best! The underpinnings of the remarkable strengths of the air- and the blood capillaries of the avian lung: a conundrum. Respir Physiol Neurobiol 159, 141145.
  • Maina JN (2008) Structure of the air- and blood capillaries of the avian lung and the debate regarding the basis of their astounding strengths. In: Proceedings of the 4th Comparative Physiology and Biochemistry Conference in Africa (eds MorrisS, VoslooA), pp. 304313. Bologna: Medimond Srl.
  • Maina JN, King AS (1982) The thickness of the avian blood-gas barrier: qualitative and quantitative observations. J Anat 134, 553562.
  • Maina JN, Nathaniel C (2001) A qualitative and quantitative study of the lung of an ostrich, Struthio camelus. J Exp Biol 204, 23132330.
  • Maina JN, Abdalla MA, King AS (1982) Light microscopic morphometry of the lungs of 19 avian species. Acta Anat 112, 264270.
  • Maina JN, King AS, Settle G (1989) An allometric study of the pulmonary morphometric parameters in birds, with mammalian comparison. Philos Trans R Soc Lond B Biol Sci 326B, 157.
  • Matsuda M, Fung YC, Sobin SS (1987) Collagen and elastin fibers in human pulmonary alveolar mouths and ducts. J Appl Physiol 63, 11851194.
  • McLelland J (1989) Anatomy of the lungs and air sacs. In: Form and Function in Birds, vol. 4. (eds KingAS, McLellandJ), pp. 221279. London: Academic Press.
  • Mead J (1961) Mechanical properties of lungs. Physiol Rev 41, 281328.
  • Mercer RR, Crapo JD (1990) Spatial distribution of collagen and elastin fibers in the lungs. J Appl Physiol 69, 756765.
  • Mercer RR, Crapo JD (1992) Structural changes in elastic fibers after pancreatic elastase administration in hamsters. J Appl Physiol 72, 14731479.
  • Mercer RR, Russell ML, Crapo JD (1994) Alveolar septal structure in different species. J Appl Physiol 77, 10601066.
  • Ogawa C (1920) Contributions to the histology of the respiratory spaces of the vertebrate lungs. Am J Anat 27, 333393.
  • Ohtani O (1987) Three-dimensional organization of the connective tissue fibers of the human pancreas. A scanning electron microscopic study of NaOH treated tissues. Arch Histol Jpn 50, 557566.
  • Ohtani O (1992) The maceration technique in scanning electron microscopy of collagen fiber frameworks. It’s application in the study of human livers. Arch Histol Cytol 55, 225232.
  • Ohtani O, Nakatani T (1994) Spatial organization of the collagen and elastin fibers of the lung in the Japanese monkeys, Macaca fuscata. Anthropol Sci 102, 181187.
  • Piiper J, Scheid P (1989) Respiratory mechanics and air flow in birds. In: Form and Function in Birds, vol. 4. (eds KingAS, McLellandJ), pp. 369391. London: Academic Press.
  • Powell FL, Hastings RH, Mazzone RW (1985) Pulmonary vascular resistance during unilateral pulmonary arterial occlusion in ducks. Am J Physiol 249, R39R43.
  • Robins SP (1988) Functional properties of collagen and elastin. Baillieres Clin Rheumatol 2, 136.
  • Scheid P (1979) Mechanisms of gas exchange in bird lungs. Rev Physiol Biochem Pharmacol 86, 137186.
  • Scheid P, Piiper J (1969) Volume ventilation and compliance of the respiratory system in the domestic fowl. Respir Physiol 6, 298308.
  • Scheuermann DW, Klika E, De Groodt-Lasseel MHA, et al. (1997) An electron microscopic study of the parabronchi epithelium in the mature lung of four bird species. Anat Rec 249, 213225.
  • Senior RM, Bielefeld DR, Abensohn MK (1975) The effects of proteolytic enzymes on the tensile strength of human lung. Am Rev Respir Dis 111, 184188.
  • Tenney SM, Remmers JE (1963) Comparative quantitative morphology of the mammalian lung: diffusing area. Nature 197, 5456.
  • Thibeault DW, Mabry SH, Ekekezie II, et al. (2000) Lung elastic tissue maturation and during the evolution of chronic lung disease. Pediatrics 106, 14521459.
  • Tochima M, Ohtani Y, Ohtani O (2004) Three-dimensional architecture of elastin and collagen fiber networks in the human and rat lung. Arch Histol Jpn 67, 3140.
  • Wang NS, Ying WL (1977) A scanning electron microscopic study of alkali-digested human and rabbit alveoli. Am Rev Respir Dis 115, 165173.
  • Wang N, Naruse K, Stamenovic D, et al. (2001) Mechanical behaviour in living cells consistent with the tensegrity model. Proc Natl Acad Sci U S A 98, 77657770.
  • Watson RR, Fu Z, West JB (2007) Morphometry of the extremely thin pulmonary blood–gas barrier in the chicken lung. Am J Physiol Lung Cell Mol Physiol 292, L769L777.
  • Watson RR, Fu Z, West JB (2008) Minimal distensibility of pulmonary capillaries in avian lungs compared with mammalian lungs. Respir Physiol Neurobiol 160, 208214.
  • Weibel ER (1973) Morphological basis of the alveolar-capillary gas exchange. Physiol Rev 53, 419495.
  • Weibel ER (1984) The Pathways for Oxygen: Structure and Function in the Mammalian Respiratory System. Harvard: Harvard University Press.
  • Welty JC (1979) The Life of Birds, 2nd edn. Philadelphia: Saunders.
  • West JB (2009) Comparative physiology of the pulmonary blood-gas barrier: the unique avian solution. Am J Physiol Regul Integr Comp Physiol 297, R1625R1634.
  • West B, Zhou BW (1988) Did chickens go North? New evidence for domestication. J Archaeol Sci 15, 515533.
  • West NH, Bamford OS, Jones DR (1977) A scanning electron microscope study of the microvasculature of the avian lung. Cell Tissue Res 176, 553564.
  • West JB, Watson RR, Fu Z (2006) The honeycomb-like structure of the bird lung allows a uniquely thin blood-gas barrier. Respir Physiol Neurobiol 152, 115118.
  • West JB, Watson RR, Fu Z (2007a) Major differences in the pulmonary circulation between birds and mammals. Respir Physiol Neurobiol 157, 382390.
  • West JB, Watson RR, Fu Z (2007b) The human lung: did evolution get it wrong? Eur Respir J 29, 1117.
  • West JB, Fu Z, Deerinck TJ, et al. (2010) Structure-function studies of blood- and air capillaries in chicken lung using 3-D electron microscopy. Respir Physiol Neurobiol 170, 202209.
  • Wideman RF (2001) Pathophysiology of heart/lung disorders: pulmonary hypertension syndrome in broiler chickens. World’s Poult Sci J 57, 289307.
  • Wideman RF, Chapman ME, Hamal KR, et al. (2007) An inadequate pulmonary vascular capacity and susceptibility to pulmonary arterial hypertension in broilers. Poult Sci 86, 984998.
  • Wilken T (2001) A gift tensegrity. http://www.synearth.net/Restricted- Confidential/Gift/Gift_Tensegrity.html
  • Willet KE, McMenamin P, Pinkerton KE, et al. (1999) Lung morphometry and collagen and elastic content: changes during normal development and after prenatal hormone exposure in sheep. Pediatr Res 45, 615625.
  • Woodward JD, Maina JN (2008) Study of the structure of the air- and blood capillaries of the gas exchange tissue of the avian lung by serial section three-dimensional reconstruction. J Microsc 230, 8493.
  • Yamada T, Richiert D, Tumminia SJ, et al. (2000) The tensegrity model applied to the lens: a hypothesis for the presence of the fiber cell ball sockets. Med Hypotheses 55, 3639.
  • Zannoti G, Guerra C (2003) Is tensegrity a unifying concept of protein folds. FEBS Lett 534, 710.