J A Gascho1, G L Copenhaver, D F Heitjan. 1. Division of Cardiology, Milton S Hershey Medical Center, Pennsylvania State University, Hershey 17033.
Abstract
STUDY OBJECTIVE: The aim was to determine the relation between systolic function and depth below the epicardial surface, using pulsed Doppler crystals. DESIGN: Systolic excursion in mm was measured at multiple depths below the epicardial surface. Measurements were made during control conditions. SUBJECTS: Thirty four anaesthetised mongrel dogs were studied. MEASUREMENTS AND MAIN RESULTS: A total of 333 measurements of systolic excursion were made during control conditions at 1 to 3 crystal sites per dog. Two models were constructed; the model which assumed a quadratic relation between depth (d) and systolic excursion (EX) (EX = 0.498 + 0.176d + 0.006d2) fit the data better than did a model which assumed a linear relation (EX = -0.0716 + 0.254d). CONCLUSIONS: These data support the prediction from geometric models that systolic excursion increases in a non-linear fashion from subepicardium to subendocardium.
STUDY OBJECTIVE: The aim was to determine the relation between systolic function and depth below the epicardial surface, using pulsed Doppler crystals. DESIGN: Systolic excursion in mm was measured at multiple depths below the epicardial surface. Measurements were made during control conditions. SUBJECTS: Thirty four anaesthetised mongrel dogs were studied. MEASUREMENTS AND MAIN RESULTS: A total of 333 measurements of systolic excursion were made during control conditions at 1 to 3 crystal sites per dog. Two models were constructed; the model which assumed a quadratic relation between depth (d) and systolic excursion (EX) (EX = 0.498 + 0.176d + 0.006d2) fit the data better than did a model which assumed a linear relation (EX = -0.0716 + 0.254d). CONCLUSIONS: These data support the prediction from geometric models that systolic excursion increases in a non-linear fashion from subepicardium to subendocardium.
Authors: Akinobu Itoh; Elizabeth H Stephens; Daniel B Ennis; Carl-Johan Carlhall; Wolfgang Bothe; Tom C Nguyen; Julia C Swanson; D Craig Miller; Neil B Ingels Journal: Am J Physiol Heart Circ Physiol Date: 2011-10-28 Impact factor: 4.733