Assessment of wasted myocardial work: a novel method to quantify energy loss due to uncoordinated left ventricular contractions
Left ventricular (LV) dyssynchrony reduces myocardial efficiency because work performed by one segment is wasted by stretching other segments. In the present study, we introduce a novel noninvasive clinical method that quantifies wasted energy as the ratio between work consumed during segmental leng...
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| Published in | American journal of physiology. Heart and circulatory physiology Vol. 305; no. 7; pp. H996 - H1003 |
|---|---|
| Main Authors | , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
United States
American Physiological Society
01.10.2013
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| Subjects | |
| Online Access | Get full text |
| ISSN | 0363-6135 1522-1539 1522-1539 |
| DOI | 10.1152/ajpheart.00191.2013 |
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| Abstract | Left ventricular (LV) dyssynchrony reduces myocardial efficiency because work performed by one segment is wasted by stretching other segments. In the present study, we introduce a novel noninvasive clinical method that quantifies wasted energy as the ratio between work consumed during segmental lengthening (wasted work) divided by work during segmental shortening. The wasted work ratio (WWR) principle was studied in 6 anesthetized dogs with left bundle branch block (LBBB) and in 28 patients with cardiomyopathy, including 12 patients with LBBB and 10 patients with cardiac resynchronization therapy. Twenty healthy individuals served as controls. Myocardial strain was measured by speckle tracking echocardiography, and LV pressure (LVP) was measured by micromanometer and a previously validated noninvasive method. Segmental work was calculated by multiplying strain rate and LVP to get instantaneous power, which was integrated to give work as a function of time. A global WWR was also calculated. In dogs, WWR by estimated LVP and strain showed a strong correlation ( r = 0.94) and good agreement with WWR by the LV micromanometer and myocardial segment length by sonomicrometry. In patients, noninvasive WWR showed a strong correlation ( r = 0.96) and good agreement with WWR using the LV micromanometer. Global WWR was 0.09 ± 0.03 in healthy control subjects, 0.36 ± 0.16 in patients with LBBB, and 0.21 ± 0.09 in cardiomyopathy patients without LBBB. Cardiac resynchronization therapy reduced global WWR from 0.36 ± 0.16 to 0.17 ± 0.07 ( P < 0.001). In conclusion, energy loss due to incoordinated contractions can be quantified noninvasively as the LV WWR. This method may be applied to evaluate the mechanical impact of dyssynchrony. |
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| AbstractList | Left ventricular (LV) dyssynchrony reduces myocardial efficiency because work performed by one segment is wasted by stretching other segments. In the present study, we introduce a novel noninvasive clinical method that quantifies wasted energy as the ratio between work consumed during segmental lengthening (wasted work) divided by work during segmental shortening. The wasted work ratio (WWR) principle was studied in 6 anesthetized dogs with left bundle branch block (LBBB) and in 28 patients with cardiomyopathy, including 12 patients with LBBB and 10 patients with cardiac resynchronization therapy. Twenty healthy individuals served as controls. Myocardial strain was measured by speckle tracking echocardiography, and LV pressure (LVP) was measured by micromanometer and a previously validated noninvasive method. Segmental work was calculated by multiplying strain rate and LVP to get instantaneous power, which was integrated to give work as a function of time. A global WWR was also calculated. In dogs, WWR by estimated LVP and strain showed a strong correlation (r = 0.94) and good agreement with WWR by the LV micromanometer and myocardial segment length by sonomicrometry. In patients, noninvasive WWR showed a strong correlation (r = 0.96) and good agreement with WWR using the LV micromanometer. Global WWR was 0.09 ± 0.03 in healthy control subjects, 0.36 ± 0.16 in patients with LBBB, and 0.21 ± 0.09 in cardiomyopathy patients without LBBB. Cardiac resynchronization therapy reduced global WWR from 0.36 ± 0.16 to 0.17 ± 0.07 (P < 0.001). In conclusion, energy loss due to incoordinated contractions can be quantified noninvasively as the LV WWR. This method may be applied to evaluate the mechanical impact of dyssynchrony. Left ventricular (LV) dyssynchrony reduces myocardial efficiency because work performed by one segment is wasted by stretching other segments. In the present study, we introduce a novel noninvasive clinical method that quantifies wasted energy as the ratio between work consumed during segmental lengthening (wasted work) divided by work during segmental shortening. The wasted work ratio (WWR) principle was studied in 6 anesthetized dogs with left bundle branch block (LBBB) and in 28 patients with cardiomyopathy, including 12 patients with LBBB and 10 patients with cardiac resynchronization therapy. Twenty healthy individuals served as controls. Myocardial strain was measured by speckle tracking echocardiography, and LV pressure (LVP) was measured by micromanometer and a previously validated noninvasive method. Segmental work was calculated by multiplying strain rate and LVP to get instantaneous power, which was integrated to give work as a function of time. A global WWR was also calculated. In dogs, WWR by estimated LVP and strain showed a strong correlation (r = 0.94) and good agreement with WWR by the LV micromanometer and myocardial segment length by sonomicrometry. In patients, noninvasive WWR showed a strong correlation (r = 0.96) and good agreement with WWR using the LV micromanometer. Global WWR was 0.09 ± 0.03 in healthy control subjects, 0.36 ± 0.16 in patients with LBBB, and 0.21 ± 0.09 in cardiomyopathy patients without LBBB. Cardiac resynchronization therapy reduced global WWR from 0.36 ± 0.16 to 0.17 ± 0.07 (P < 0.001). In conclusion, energy loss due to incoordinated contractions can be quantified noninvasively as the LV WWR. This method may be applied to evaluate the mechanical impact of dyssynchrony. [PUBLICATION ABSTRACT] Left ventricular (LV) dyssynchrony reduces myocardial efficiency because work performed by one segment is wasted by stretching other segments. In the present study, we introduce a novel noninvasive clinical method that quantifies wasted energy as the ratio between work consumed during segmental lengthening (wasted work) divided by work during segmental shortening. The wasted work ratio (WWR) principle was studied in 6 anesthetized dogs with left bundle branch block (LBBB) and in 28 patients with cardiomyopathy, including 12 patients with LBBB and 10 patients with cardiac resynchronization therapy. Twenty healthy individuals served as controls. Myocardial strain was measured by speckle tracking echocardiography, and LV pressure (LVP) was measured by micromanometer and a previously validated noninvasive method. Segmental work was calculated by multiplying strain rate and LVP to get instantaneous power, which was integrated to give work as a function of time. A global WWR was also calculated. In dogs, WWR by estimated LVP and strain showed a strong correlation (r = 0.94) and good agreement with WWR by the LV micromanometer and myocardial segment length by sonomicrometry. In patients, noninvasive WWR showed a strong correlation (r = 0.96) and good agreement with WWR using the LV micromanometer. Global WWR was 0.09 ± 0.03 in healthy control subjects, 0.36 ± 0.16 in patients with LBBB, and 0.21 ± 0.09 in cardiomyopathy patients without LBBB. Cardiac resynchronization therapy reduced global WWR from 0.36 ± 0.16 to 0.17 ± 0.07 (P < 0.001). In conclusion, energy loss due to incoordinated contractions can be quantified noninvasively as the LV WWR. This method may be applied to evaluate the mechanical impact of dyssynchrony.Left ventricular (LV) dyssynchrony reduces myocardial efficiency because work performed by one segment is wasted by stretching other segments. In the present study, we introduce a novel noninvasive clinical method that quantifies wasted energy as the ratio between work consumed during segmental lengthening (wasted work) divided by work during segmental shortening. The wasted work ratio (WWR) principle was studied in 6 anesthetized dogs with left bundle branch block (LBBB) and in 28 patients with cardiomyopathy, including 12 patients with LBBB and 10 patients with cardiac resynchronization therapy. Twenty healthy individuals served as controls. Myocardial strain was measured by speckle tracking echocardiography, and LV pressure (LVP) was measured by micromanometer and a previously validated noninvasive method. Segmental work was calculated by multiplying strain rate and LVP to get instantaneous power, which was integrated to give work as a function of time. A global WWR was also calculated. In dogs, WWR by estimated LVP and strain showed a strong correlation (r = 0.94) and good agreement with WWR by the LV micromanometer and myocardial segment length by sonomicrometry. In patients, noninvasive WWR showed a strong correlation (r = 0.96) and good agreement with WWR using the LV micromanometer. Global WWR was 0.09 ± 0.03 in healthy control subjects, 0.36 ± 0.16 in patients with LBBB, and 0.21 ± 0.09 in cardiomyopathy patients without LBBB. Cardiac resynchronization therapy reduced global WWR from 0.36 ± 0.16 to 0.17 ± 0.07 (P < 0.001). In conclusion, energy loss due to incoordinated contractions can be quantified noninvasively as the LV WWR. This method may be applied to evaluate the mechanical impact of dyssynchrony. |
| Author | Smiseth, Otto A. Skulstad, Helge Gjesdal, Ola Wilhelmsen, Nils Aaberge, Lars Eriksen, Morten Russell, Kristoffer Edvardsen, Thor |
| Author_xml | – sequence: 1 givenname: Kristoffer surname: Russell fullname: Russell, Kristoffer organization: Institute for Surgical Research and Department of Cardiology, Rikshospitalet, Oslo University Hospital, Oslo, Norway, and Medical Faculty, University of Oslo, Oslo, Norway; and – sequence: 2 givenname: Morten surname: Eriksen fullname: Eriksen, Morten organization: Institute for Surgical Research and Department of Cardiology, Rikshospitalet, Oslo University Hospital, Oslo, Norway, and Medical Faculty, University of Oslo, Oslo, Norway; and – sequence: 3 givenname: Lars surname: Aaberge fullname: Aaberge, Lars organization: Institute for Surgical Research and Department of Cardiology, Rikshospitalet, Oslo University Hospital, Oslo, Norway, and Medical Faculty, University of Oslo, Oslo, Norway; and – sequence: 4 givenname: Nils surname: Wilhelmsen fullname: Wilhelmsen, Nils organization: Institute for Surgical Research and Department of Cardiology, Rikshospitalet, Oslo University Hospital, Oslo, Norway, and Medical Faculty, University of Oslo, Oslo, Norway; and – sequence: 5 givenname: Helge surname: Skulstad fullname: Skulstad, Helge organization: Institute for Surgical Research and Department of Cardiology, Rikshospitalet, Oslo University Hospital, Oslo, Norway, and Medical Faculty, University of Oslo, Oslo, Norway; and – sequence: 6 givenname: Ola surname: Gjesdal fullname: Gjesdal, Ola organization: Institute for Surgical Research and Department of Cardiology, Rikshospitalet, Oslo University Hospital, Oslo, Norway, and Medical Faculty, University of Oslo, Oslo, Norway; and – sequence: 7 givenname: Thor surname: Edvardsen fullname: Edvardsen, Thor organization: Institute for Surgical Research and Department of Cardiology, Rikshospitalet, Oslo University Hospital, Oslo, Norway, and Medical Faculty, University of Oslo, Oslo, Norway; and – sequence: 8 givenname: Otto A. surname: Smiseth fullname: Smiseth, Otto A. organization: Institute for Surgical Research and Department of Cardiology, Rikshospitalet, Oslo University Hospital, Oslo, Norway, and Medical Faculty, University of Oslo, Oslo, Norway; and, Center for Heart Failure Research and K. G. Jebsen Cardiac Research Centre, Oslo, Norway |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/23893165$$D View this record in MEDLINE/PubMed |
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| ContentType | Journal Article |
| Copyright | Copyright American Physiological Society Oct 1, 2013 |
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| Keywords | heart failure dyssynchrony cardiac resynchronization therapy myocardial function |
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| Snippet | Left ventricular (LV) dyssynchrony reduces myocardial efficiency because work performed by one segment is wasted by stretching other segments. In the present... |
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| SubjectTerms | Aged Animals Biomechanical Phenomena Bundle-Branch Block - diagnosis Bundle-Branch Block - metabolism Bundle-Branch Block - physiopathology Cardiac Resynchronization Therapy Cardiovascular disease Correlation analysis Disease Models, Animal Dogs Energy Energy Metabolism Female Heart Failure - diagnosis Heart Failure - metabolism Heart Failure - physiopathology Heart Failure - therapy Humans Male Middle Aged Models, Cardiovascular Myocardial Contraction Myocardium - metabolism Strain rate Time Factors Ultrasonic imaging Ventricular Dysfunction, Left - diagnosis Ventricular Dysfunction, Left - metabolism Ventricular Dysfunction, Left - physiopathology Ventricular Dysfunction, Left - therapy Ventricular Function, Left Ventricular Pressure |
| Title | Assessment of wasted myocardial work: a novel method to quantify energy loss due to uncoordinated left ventricular contractions |
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