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Original article
LV peak instantaneous wall stress versus time-stress-integral as measures of afterload in aortic stenosis
  1. Dae-Won Sohn1,
  2. Seung-Pyo Lee1,
  3. Hyung-Kwan Kim1,
  4. Yong-Jin Kim1,
  5. Byeong-Wook Yoo2,
  6. Hee Chan Kim2
  1. 1Division of Cardiology, Department of Internal Medicine, Seoul National University College of Medicine, Seoul, Republic of Korea
  2. 2Department of Biomedical Engineering, Seoul National University College of Medicine, Seoul, Republic of Korea
  1. Correspondence to Dr Dae-Won Sohn, Division of Cardiology, Department of Internal Medicine, Cardiovascular Center, Seoul National University College of Medicine, 101 Daehak-ro, Jongno-gu, Seoul 110-744, Republic of Korea; dwsohn{at}snu.ac.kr

Abstract

Background LV pressure overload triggers biological events leading to LV hypertrophy, and the severity of LV pressure overload has been represented by LV wall stress (LVWS). However, duration of exposure to the given LVWS has not been considered as a factor leading to LV hypertrophy.

Methods In 20 patients with severe aortic stenosis, LV pressure, with a Millar catheter, and LV dimensions, with echocardiography, were simultaneously obtained. By synchronising LV pressure waveform and LV dimensions, the instantaneous peak LVWS (IP-LVWS) and systolic LV wall time-stress-integral (LV TSI), which is the LVWS integrated during the systolic period and physically implies LV wall impulse per unit area, were obtained. These measurements were obtained at rest, during right atrial pacing at an HR of 10% higher than resting HR, and after esmolol infusion.

Results IP-LVWS cannot be predicted from the peak LV pressure or peak dp/dt. There were no significant differences in peak IP-LVWS at rest, during pacing or after esmolol infusion. However, systolic LV TSI after esmolol infusion was significantly higher compared to that at rest or during pacing. Only LV TSI correlated with LV wall thickness or LV mass at rest (r=0.64, p=0.002 and r=0.54, p=0.014, respectively), while correlations between IP-LVWS and LV wall thickness or LV mass at rest were not statistically significant (r=0.32, p=0.173 and r=0.32, p=0.168, respectively).

Conclusions As IP-LVWS cannot be predicted from the peak LV pressure or peak dp/dt, one should be cautious in interpreting the data regarding peak LV pressure as the parameter representing LV afterload. Based on the current results, the systolic LV TSI might be more important than IP-LVWS in LV hypertrophy. In addition, as LV TSI is affected by the systolic duration, factors prolonging systolic duration might exert adverse effects on LV hypertrophy.

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