"Fractionalshortening" Example Sentences
1. The doctor measured the patient's fractional shortening to assess the cardiac function.
2. The fractional shortening of the left ventricle was found to be below normal values.
3. She was diagnosed with dilated cardiomyopathy after her fractional shortening was measured.
4. The fractional shortening of the right ventricle was within normal limits.
5. The patient's fractional shortening improved after treatment for heart failure.
6. The fractional shortening was calculated using echocardiography.
7. The fractional shortening of the heart muscle correlates with the ejection fraction.
8. The fractional shortening is a useful parameter in the evaluation of heart disease.
9. A low fractional shortening may indicate heart muscle damage.
10. The patient's fractional shortening decreased over time, indicating worsening heart function.
11. The fractional shortening may be affected by changes in cardiac afterload.
12. A high fractional shortening can be seen in athletes and those with a healthy heart.
13. The fractional shortening is a measure of the left ventricular systolic function.
14. Patients with reduced fractional shortening may benefit from medication to improve heart function.
15. The fractional shortening can be used in conjunction with other cardiac function measures to assess heart health.
16. The fractional shortening of the heart muscle is a predictor of mortality in heart failure patients.
17. The fractional shortening can be used to monitor the effectiveness of heart failure treatment.
18. A decrease in fractional shortening may be due to increased wall stress or hypertrophy.
19. The fractional shortening is expressed as a percentage and calculated from two-dimensional echocardiography images.
20. A high fractional shortening with a low ejection fraction may indicate impaired cardiac relaxation.
21. The fractional shortening is a sensitive marker of early cardiac dysfunction.
22. Patients with reduced fractional shortening may be at higher risk of arrhythmias.
23. The fractional shortening is influenced by changes in preload and contractility.
24. The fractional shortening can be used to assess the effects of medications on cardiac function.
25. The fractional shortening can be measured in both the left and right ventricles.
26. The fractional shortening is an independent predictor of mortality in elderly patients with heart failure.
27. The fractional shortening is affected by changes in heart rate and rhythm.
28. A decrease in fractional shortening may be reversible with treatment.
29. The fractional shortening may be a useful parameter in the diagnosis of cardiomyopathies.
30. The fractional shortening is a simple and non-invasive measure of heart function.
Common Phases
1. Fractional shortening measures the amount the heart muscle contracts during each heartbeat;
2. Fractional shortening is calculated by subtracting the end-diastolic diameter from the end-systolic diameter and dividing the result by the end-diastolic diameter;
3. Fractional shortening is often used as a marker of cardiac function in both clinical and experimental settings;
4. Reduced fractional shortening can indicate impaired cardiac function, while increased fractional shortening may suggest hypercontractility;
5. Fractional shortening is especially useful in assessing the function of the left ventricle, which is responsible for pumping oxygenated blood to the rest of the body.