In vivo Estimation of Tracheal Distensibility and Hysteresis in Normal Adults
Journal of Applied Physiology, 1987
Authors: V. Hoffstein, R. G. Castile, C. R. O’Donnell, G. M. Glass, D. J.
Strieder, M. E. B. Wohl, and J. J. Fredberg
Conclusion: “
Journal of Applied Physiology, 1987
Authors: V. Hoffstein, R. G. Castile, C. R. O’Donnell, G. M. Glass, D. J.
Strieder, M. E. B. Wohl, and J. J. Fredberg
Conclusion: “
Journal of Applied Physiology, 1987
Authors: I. Rubinstein, P.A. McClean, R. Boucher, N. Zamel, J.J. Fredberg, and V. Hoffstein
Conclusion: “Acoustic reflection technique is so far the only relatively simple, noninvasive, reproducible, and inexpensive technique that permits the measurements of upper airway anatomy under dynamic conditions.”
Journal of Applied Physiology, 1987 Authors: J. M. Fouke and K. P. Strohl Conclusion: “The occurrence of upper airway obstruction during sleep and with anesthesia suggests the possibility that upper airway size might be compromised by the gravitational effects of the supine position. We used an acoustic reflection technique to image airway geometry and made…
Annals of Biomedical Engineering, 1995
Authors: Y. Zhou and J. A. Daubenspeck
Conclusion: “
American Review of Respiratory Disease, 1984
Authors: V. Hoffstein and N. Zamel
Conclusion: “
Journal of Applied Physiology, 1984 Authors: L. J. Brooks, R. G. Casitle, G. M. Glass, N. T. Griscom, M. E. B. Wohl, and J. J. Fredberg Conclusion: “We conclude that the measurement of Airway Area by Acoustic Reflection yields accurate and highly reproducible results that may be clinically useful for the noninvasive detection of changes…