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Assessment of variability of normal and pathological microcirculation by SDF


Authors: Krbúšik Ján;  Suk Pavel;  Hruda Jan;  Zvoníček Václav;  Pavlík Martin;  Šrámek Vladimír;  Čundrle Ivan jr.
Authors place of work: Anesteziologicko resuscitační klinika, Fakultní nemocnice u sv. Anny v Brně Lékařská fakulta Masarykovy univerzity
Published in the journal: Anest. intenziv. Med., 23, 2012, č. 4, s. 197-202
Category: Intensive Care Medicine - Original Paper

Summary

Introduction:
One of the options for microcirculation monitoring is sidestream dark field imaging (SDF). The goal of this study was to assess the interobserver and intraobserver variability of SDF during an experiment simulating rupture of the abdominal aorta on a porcine model.

Methods:
The interobserver variability was evaluated sublingually and in the ileostoma. Two investigators (skilled and novice) analyzed the recordings blindly. The interobserver variability was evaluated using the Bland Altman analysis. The results are shown as percentage bias and limits of agreement. Bias > 15% was considered as significant. The bias was sectionalized in two groups according to normal and pathological parameter values for the two main parameters (TVD, MFI). The intraobserver variability was evaluated using the coefficient of variability.

Results:
640 video recordings were analyzed for interobserver and 30 video recordings for intraobserver variability. Sublingually the bias was -5% (-20%; 12%) for TVD and -3% (-22%; 15%) for MFI. In the ileostoma the bias was 7% (-49%; 62%) for TVD and 7% (-31%; 45%) for MFI. The bias for TVD decreased when the value dropped to pathological values both sublingually and in the ileostoma but the limits of agreement were rising. The bias of MFI increased when the value dropped to pathological values and decreased when the value rose. The limits of agreement followed the same tendency. The coefficients of variability were low for both observers (CV < 10%).

Conclusion:
The intraobserver variability was minimal for both investigators. The interobserver variability was small (bias < 15%). The limits of agreement were wide for density parameters, overall for microcirculation in the ileostoma and for pathological parameter values (hyperdynamic flow was an exception).

Keywords:
microcirculation – sidestream dark field imagining – interobserver variability – intraobserver variability


Zdroje

1. De Backer, D., Ospina-Tascon, G., Salgado, D., Favory, R., Creteur, J., Vincent J-L. Monitoring the microcirculation in the critically ill patient: current methods and future approaches. Intensive Care Med., 2010, 36, p. 1813–1825.

2. Arnold, R. C., Parrillo, J. E., Phillip Dellinger, R., Chansky, M. E., Shapiro, N. I., Lundy, D. J., Trzeciak, S., Hollenberg, S. M. Point-of-care assessment of microvascular blood flow in critically ill patients. Intensive Care Med., 2009, 35, p. 1761–1766.

3. Trzeciak, S., Rivers, E. P. Clinical manifestations of disordered microcirculatory perfusion in severe sepsis. Crit. Care, 2005, 9, Suppl 4, p. 20–26.

4. Knotzer, H., Hasibeder, W. R. Microcirculatory function monitoring at the bedside – a view from the intensive care. Physiological. Measurement., 2007, 28, p. 65–86.

5. Ait-Oufella, H., Lemoinne, S., Boelle, P. Y., Galbois, A., Baudel, J. L., Lemant, J., Joffre, J., Margetis, D., Guidet, B., Maury, E., Offenstadt, G. Mottling score predicts survival in septic shock. Intensive Care Med., 2011, 37, p. 801–807.

6. Boldt, J., Ince, C. The impact of fluid therapy on microcirculation and tissue oxygenation in hypovolemic patients: a review. Intensive Care Med., 2010, 36, p. 1299–1308.

7. Ince, C. The microcirculation is the motor of sepsis. Crit. Care, 2005, 9, Suppl 4, p. 13–19.

8. Top, A. P. C., Tasker, R. C., Ince, C. The microcirculation of the critically ill pediatric patient. Crit. Care, 2011, 15, p. 213.

9. Suk, P., Cundrle, I. Jr., Hruda, J., Vocilková, L., Konecny, Z., Vlasin, M., Matejovic, M., Pavlik, M., Zvoníček, V., Sramek, V. Porcine model of ruptured abdominal aortic aneurysm repair. Eur. J. Vasc. Endovasc. Surg., 2012, 43, p. 698–704.

10. De Backer, D., Hollenberg, S., Boerma, C., Goedhart, P., Büchele, G., Ospina-Tascon, G., Dobbe, I., Ince, C. How to evaluate the microcirculation: report of a round table conference. Crit. Care, 2007, 11, p. 101.

11. De Backer, D., Creteur, J., Preiser, J. C., Dubois, M. J., Vincent, J. L. Microvascular Blood Flow Is Altered in Patients with Sepsis. Am. J. Respir. Crit. Care Med., 2002, 166, p. 98–104.

12. Boerma, E. C., Mathura, K. R., van der Voort, P. H. J., Spronk, P. E., Ince, C. Quantifying bedside-derived imaging of microcirculatory abnormalities in septic patients: a prospective validation study. Crit. Care, 2005, 9, p. 601–606.

13. Trzeciak, S., Dellinger, R. P., Parrillo, J. E., Guglielmi, M., Bajaj, J., Abate, N. L., Arnold, R. C., Colilla, S., Zanotti, S., Hollenberg, S. M. Early microcirculatory perfusion derangements in patients with severe sepsis and septic shock: relationship to hemodynamics, oxygen transport, and survival. Ann. Emerg. Med., 2007, 49, p. 88–98.

14. Verdant, C. L., De Backer, D., Bruhn, A., Clausi, C. M., Su, F., Wang, Z., Rodriguez, H., Pries, A. R., Vincent, J. L. Evaluation of sublingual and gut mucosal microcirculation in sepsis: a quantitative analysis. Crit. Care Med., 2009, 37, p. 2875–2881.

15. Vellinga, N. A., Ince, C., Boerma, E. C. Microvascular dysfunction in the surgical patient. Current Opinion in Critical Care, 2010, 16, s. 377–383.

16. Bracht, H., Krejci, V., Hiltebrand, L., Brandt, S., Sigurdsson, G., Ali, S. Z., Takala, J., Jakob, S. M. Orthogonal polarization spectroscopy to detect mesenteric hypoperfusion. Intensive Care Med., 2008, 34, p. 1883–1890.

17. Bezemer, R., Goedhart, P., Khalilzada, M., Ince, C. Side- -stream dark-field imaging versus orthogonal polarization spectroscopic imaging: a comparative study. Critical. Care, 2008, 12, p. 63.

18. Critchley, L. A., Critchley, J. A. A meta-analysis of studies using bias and precision statistics to compare cardiac output measurement techniques. J. Clin. Monit. Comput., 1999, 15, p. 85–91.

Štítky
Anaesthesiology, Resuscitation and Inten Intensive Care Medicine
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