Ultrasonic tissue characterization with integrated backscatter. Acute myocardial ischemia, reperfusion, and stunned myocardium in patients.

@article{Milunski1989UltrasonicTC,
  title={Ultrasonic tissue characterization with integrated backscatter. Acute myocardial ischemia, reperfusion, and stunned myocardium in patients.},
  author={Mark R. Milunski and G. A. Mohr and J. E. P{\'e}rez and Zvi Vered and Keith A. Wear and C J Gessler and Burton E. Sobel and J. G. Miller and Samuel A. Wickline},
  journal={Circulation},
  year={1989},
  volume={80 3},
  pages={
          491-503
        }
}
We have previously shown in studies of experimental animals that myocardium exhibits a cardiac cycle-dependent variation of integrated backscatter that reflects regional myocardial contractile performance and that is blunted promptly after arterial occlusion and recovers after reperfusion. To define the clinical utility of ultrasonic tissue characterization with integrated backscatter for detection of acute myocardial infarction and reperfusion, 21 patients (14 men and seven women) were studied… 
View on PubMed
ahajournals.org
195 Citations
Highly Influential Citations
2
Background Citations
17
Methods Citations
6
Results Citations
2

195 Citations

Citation Type

Citation Type

Ultrasonic tissue characterization predicts myocardial viability in early stage of reperfused acute myocardial infarction.
TLDR
In patients with AMI, cyclic variation of IBS is blunted during ischemia but recovers much faster after reperfusion than the improvement in wall motion, and the greater phase-corrected magnitude at day 3 may be a predictor of better functional improvement.
Ultrasonic tissue characterization in predicting residual ischemia and myocardial viability for patients with acute myocardial infarction.
Ultrasonic tissue characterization for coronary care unit patients with acute myocardial infarction.
Relation of ultrasonic tissue characterization with integrated backscatter to contractile reserve in chronic left ventricular ischemic dysfunction.
Alterations in ultrasonic backscatter during exercise-induced myocardial ischemia in humans.
TLDR
Data indicate that transient, exercise-induced ischemia is associated with reduction of the cardiac cycle-dependent variation of the integrated backscatter power curve, a temporal shift in the nadir of the power curve with respect to the R wave (phase increase), and a small but detectable increase of myocardial reflectivity.
Ultrasonic tissue characterization with integrated backscatter during inotropic stimulation.
Estimation of Myocardial Infarct Size With Ultrasonic Tissue Characterization
TLDR
Ultrasonic tissue characterization may provide a reliable, noninvasive method to estimate myocardial infarct size, and was designed to test the hypothesis that intramural cyclic variation of backscatter can map and estimate infarCT size.
Diagnosis of recent myocardial infarction with quantitative backscatter imaging: preliminary studies.
Role of ultrasonic tissue characterization to distinguish reversible from irreversible myocardial injury.
Integrated backscatter for the assessment of myocardial viability
TLDR
The cyclic variation of integrated backscatter better reflects myocardial viability confirmed by the integrity of cellar metabolism than contractile reserve, and this technique can provide unique information for the assessment of myocardIAL viability.
...
1
2
3
4
5
...

References

SHOWING 1-10 OF 54 REFERENCES
Sensitive detection of the effects of reperfusion on myocardium by ultrasonic tissue characterization with integrated backscatter.
TLDR
Early recovery of time-averaged IB corresponds in part to the restoration of tissue ultrastructural integrity, and the backscatter variables assessed appear to sensitively delineate the duration, time course of recovery, and reversibility of ischemic injury in response to reperfusion.
Early identification with ultrasonic integrated backscatter of viable but stunned myocardium in dogs.
Ultrasound integrated backscatter tissue characterization of remote myocardial infarction in human subjects.
Effects of Coronary Artery Occlusion and Reperfusion on Cardiac Cycle‐Dependent Variation of Myocardial Ultrasonic Backscatter
TLDR
Regional differences in cyclic variation of integrated ultrasonic backscatter in the intact canine heart are blunted promptly by ischemia and restored substantially by reperfusion, suggesting that quantitative ultrasonic interrogation may permit assessment with ultrasound of the intrinsic properties of myocardium modified by is Chemistry by analysis of physical properties of the tissue per se, rather than exclusively by assessment of geometrical changes.
Effects of myocardial contraction on ultrasonic backscatter before and after ischemia.
TLDR
Myocardium undergoing contraction exhibits a decrease in integratedBackscatter, and measurement of integrated backscatter at end systole differentiates ischemic from normal myocardium.
The dependence of myocardial ultrasonic integrated backscatter on contractile performance.
TLDR
Both regional and global differences in myocardial contractile performance are manifest quantitatively in integrated backscatter waveforms and it is proposed that the physiologic determinants of these differences may depend on global and global variations in myofibril elastic characteristics.
Differentiation between acutely ischemic myocardium and zones of completed infarction in dogs on the basis of frequency-dependent backscatter.
TLDR
It is suggested that remote myocardial infarction can be differentiated from acutely injured but still potentially salvageable myocardium in vivo on the basis of the frequency dependence of backscatter.
Intramyocardial variability in integrated backscatter: effects of coronary occlusion and reperfusion.
TLDR
It is concluded that cardiac cycle-dependent amplitude modulation in IB has a transmural dependence in the normal myocardium and this is abolished during acute myocardial ischemia.
Ultrasonic tissue characterization: detection of acute myocardial ischemia in dogs.
TLDR
It is concluded that statistical analysis in the amplitude domain of the unprocessed radiofrequency signal can detect acute myocardial ischemia within 30 min after coronary artery occlusion, provides reproducible measurements, and is unaffected by chest wall filtering.
Quantitative ultrasonic tissue characterization with real-time integrated backscatter imaging in normal human subjects and in patients with dilated cardiomyopathy.
TLDR
A two-dimensional echocardiographic system with quantitative integrated backscatter imaging capabilities for use in human subjects that can automatically differentiate ultrasonic signals from blood as opposed to those obtained from tissue and adjust the slope of the gain compensation appropriately is developed.
...
1
2
3
4
5
...