Distribution of airway narrowing responses across generations and at branching points, assessed in vitro by anatomical optical coherence tomography

[1]  T. Shioya,et al.  Distribution of airway contractile responses within the major diameter bronchi during exogenous bronchoconstriction. , 2015, The American review of respiratory disease.

[2]  David D Sampson,et al.  Airway narrowing assessed by anatomical optical coherence tomography in vitro: dynamic airway wall morphology and function. , 2010, Journal of applied physiology.

[3]  David D Sampson,et al.  Applying anatomical optical coherence tomography to quantitative 3D imaging of the lower airway. , 2008, Optics express.

[4]  Stephen Lam,et al.  Airway wall thickness assessed using computed tomography and optical coherence tomography. , 2008, American journal of respiratory and critical care medicine.

[5]  D. Sampson,et al.  Evaluation of pharyngeal shape and size using anatomical optical coherence tomography in individuals with and without obstructive sleep apnoea , 2008, Journal of sleep research.

[6]  A. Togias,et al.  The structural basis of airways hyperresponsiveness in asthma. , 2006, Journal of applied physiology.

[7]  David D Sampson,et al.  Quantitative upper airway imaging with anatomic optical coherence tomography. , 2006, American journal of respiratory and critical care medicine.

[8]  P. Noble,et al.  Airway narrowing in porcine bronchi with and without lung parenchyma , 2005, European Respiratory Journal.

[9]  Tilo Winkler,et al.  Self-organized patchiness in asthma as a prelude to catastrophic shifts , 2005, Nature.

[10]  N. Müller,et al.  Heterogeneity of narrowing in normal and asthmatic airways measured by HRCT , 2004, European Respiratory Journal.

[11]  M. Sparrow,et al.  Ontogeny of airway smooth muscle: structure, innervation, myogenesis and function in the fetal lung , 2003, Respiratory Physiology & Neurobiology.

[12]  A. Weir,et al.  Three-dimensional mapping of smooth muscle in the distal conducting airways of mouse, rabbit, and monkey. , 2002, Journal of applied physiology.

[13]  P. Noble,et al.  Relationship of airway narrowing, compliance, and cartilage in isolated bronchial segments. , 2002, Journal of applied physiology.

[14]  P. Gray,et al.  Concurrent measurement of smooth muscle shortening, lumen narrowing and flow to acetylcholine in large and small porcine bronchi. , 1998, The European respiratory journal.

[15]  P. Gray,et al.  Effect of diameter on force generation and responsiveness of bronchial segments and rings. , 1996, The European respiratory journal.

[16]  P. Gray,et al.  Uncoupling in the wall of the cartilaginous bronchus of the pig produced by smooth muscle contraction. , 1996, Pulmonary pharmacology.

[17]  J. Martin,et al.  Methacholine-induced bronchoconstriction and airway smooth muscle in the guinea pig. , 1996, Journal of applied physiology.

[18]  P. Paré,et al.  Determinants of airway smooth muscle shortening in excised canine lobes. , 1995, Journal of applied physiology.

[19]  A. Moretto,et al.  Airway and tissue behavior during induced constriction in rats: intravenous vs. aerosol administration. , 1994, Journal of applied physiology.

[20]  E A Hoffman,et al.  Assessment of methacholine-induced airway constriction by ultrafast high-resolution computed tomography. , 1993, Journal of applied physiology.

[21]  D. Eidelman,et al.  Responsiveness of individual airways to methacholine in adult rat lung explants. , 1993, Journal of applied physiology.

[22]  E A Zerhouni,et al.  Individual airway constrictor response heterogeneity to histamine assessed by high-resolution computed tomography. , 1993, Journal of applied physiology.

[23]  P. Paré,et al.  Airway smooth muscle shortening in excised canine lung lobes. , 1993, Journal of applied physiology.

[24]  A. James,et al.  The structure of large and small airways in nonfatal and fatal asthma. , 1993, The American review of respiratory disease.

[25]  M. Sparrow,et al.  Modulation by the epithelium of the extent of bronchial narrowing produced by substances perfused through the lumen , 1991, British journal of pharmacology.

[26]  He Jiang,et al.  Contractile properties of bronchial smooth muscle with and without cartilage. , 1990, Journal of applied physiology.

[27]  M. Sparrow,et al.  Contraction of smooth muscle of pig airway tissues from before birth to maturity. , 1990, Journal of applied physiology.

[28]  Macklem Pt Mechanical factors determining maximum bronchoconstriction. , 1989 .

[29]  J. Nadel,et al.  Sympathetic versus parasympathetic nervous regulation of airways in dogs. , 1971, Journal of applied physiology.

[30]  N. Pride,et al.  Structural basis for decreased compressibility of constricted tracheae and bronchi. , 1967, Journal of applied physiology.

[31]  M. Sanderson,et al.  Contractility and Ca2+ signaling of smooth muscle cells in different generations of mouse airways. , 2007, American journal of respiratory cell and molecular biology.

[32]  E A Zerhouni,et al.  In vivo measurements of airway reactivity using high-resolution computed tomography. , 1991, The American review of respiratory disease.

[33]  A. Leff,et al.  Effect of maturation on topographic distribution of bronchoconstrictor responses in large diameter airways of young swine. , 1991, The American review of respiratory disease.

[34]  P. Macklem Mechanical factors determining maximum bronchoconstriction. , 1989, The European respiratory journal. Supplement.

[35]  L. Reid Visceral cartilage. , 1976, Journal of anatomy.

[36]  D. C. Grosskreutz The Human Lung , 1965 .