Salerno, F.G., A. Moretto, M. Dallaire, M.S. Ludwig. How mode of stimulus affects the relative contribution of elastance and hysteresivity to changes in lung tissue resistance. Journal of Applied Physiology 78: 282-287, 1995.
Salerno, F.G., M. Dallaire, M.S. Ludwig. Does the anatomic makeup of parenchymal lung strips affect oscillatory mechanics during induced constriction? Journal of Applied Physiology 79: 66-72, 1995.
Salerno, F.G., H. Kurosawa, D.H. Eidelman, M.S. Ludwig. Characterization of the anatomic structures involved in the contractile response of the rat lung periphery. British Journal of Pharmacology 118: 734-740, 1996.
Salerno, F.G., P. Pare', M.S. Ludwig. A comparative study of elastic properties of rat and guinea pig parenchymal strips. American Journal of Respiratory and Critical Care Medicine 157: 846-852, 1998.
Salerno, F.G., M.S. Ludwig. Dissociation between hysteresivity and tension in constricted tracheal and parenchymal strips. Journal of Applied Physiology 85: 91-97, 1998.
Salerno, F.G., M.S. Ludwig. Elastic moduli of excised constricted rat lungs. Journal of Applied Physiology 86: 66-70, 1999.
Salerno, F.G., N. Shinozuka, J.J. Fredberg, M.S. Ludwig. Tidal volume amplitude affects the degree of induced bronchoconstriction in dogs. Journal of Applied Physiology 87: 1674-1677, 1999.
Salerno, F.G., A. Fust, M.S. Ludwig. Stretch-induced changes in constricted lung parenchymal strips: role of extracellular matrix. European Respiratory Journal 23: 193-198, 2004.
Salerno F.G., R. Pellegrino, G. Trocchio, A. Spanevello, V. Brusasco, E. Crimi. Attenuation of induced bronchoconstriction in healthy subjects: effects of breathing depth. Journal of Applied Physiology 98: 817-821, 2005.
Salerno F.G., Pinelli V., Pini L., Tuma B., Iozzo R.V., Ludwig M.S. Effect of PEEP on induced constriction is enhanced in decorin-deficient mice. Am J Physiol Lung Cell Mol Physiol. 293: L1111-1117, 2007.