IMPEDANSOMETRY IN THE ESTIMATION OF ANESTESIOLOGICAL RISK IN CHILDREN WITH ACUTE LYMPHOBLASTIC LYPHOMA

Cover Page


Cite item

Abstract

The article is devoted to the development of the method evaluating the severity of the condition and anestesiological risk of patients with acute lymphoblastic lymphoma. It is indicated that bioimpedansometry enables to reveal considerable tissue disbalance, nutritive disturbances, risks of dehydration and hypovolemia development. Decrease of functional reserves of the cardiovascular system against the background of chemoradiation therapy is found. Conclusion. On the basis of the conducted study the author offers to use bioimpedansometry as part of pre-operative study in patients with chemoradiation therapy.

About the authors

A. V. Kurlykin

Federal State Budgetary Institution "Dmitry Rogachyov Federal S cientific and Clinical Center of Pediatric Hematology, Oncology and Immunology" of the Ministry of Health of Russia

Author for correspondence.
Email: akurlyckin@yandex.ru
Russian Federation

G. Ya. Tseiltin

Federal State Budgetary Institution "Dmitry Rogachyov Federal S cientific and Clinical Center of Pediatric Hematology, Oncology and Immunology" of the Ministry of Health of Russia

Email: noemail@neicon.ru
Russian Federation

E. A. Spiridonova

Federal State Budgetary Institution "Dmitry Rogachyov Federal S cientific and Clinical Center of Pediatric Hematology, Oncology and Immunology" of the Ministry of Health of Russia; State Budgetary Educational Institution of Higher Professional Education "A.I. Evdokimov Moscow State Medical and Dental University" of the Ministry of Health of Russia

Email: noemail@neicon.ru
Russian Federation

References

  1. att S. Zinter, Steven G. Du Bois, Aaron Spicer, Katherine Matthay, and Anil Sapru. Pediatric cancer type predicts infection rate, need for critical care intervention, and mortality in the pediatric intensive care unit // Intensive Care Med., 2014. Vol. 40. No. 10. P. 1536-1544.
  2. Румянцева Ю.В., Карачунский А.И., Румянцев А.Г. Оптимизация терапии острого лимфобластного лейкоза у детей в России // Педиатрия, 2009. № 87 (4). С. 19-27.
  3. Литвинов Д.В., Карелин А.Ф., Романова К.И., Румянцева Ю.В., Карачунский А.И. Лечение острого лимфобластного лейкоза у детей: современные возможности и нерешенные проблемы // Доктор.ру. 2015. № 10 (111).
  4. Jones R.L., Swanton C., Ewer M. Anthracycline cardiotoxicity // Expert. Opin. Drug. Saf., 2006. Vol. 5. No. 6.
  5. Семенова А.И. Кардио- и нейротоксичность противоопухолевых препаратов (патогенез, клиника, профилактика и лечение) // Практическая онкология, 2009. Т.10. № 3. С. 168-176.
  6. Попова Е.Н. Лекарственно-индуцированные поражения легких. Атмосфера. // Пульмонология и аллергология, 2007. №2. С. 3-7.
  7. Черняк Б.А., Трофименко И.Н. Лекарственно-индуцированные поражения легких // Медицина неотложных состояний, 2010. № 4 (29). http://www.mif-ua.com/archive/article_print/13543 (дата обращения: 12.02.2016).
  8. Телетаева Г.М. Профилактика и лечение желудочно-кишечных осложнений лекарственной терапии (тошнота и рвота, мукозиты, диарея) // Практическая онкология, 2009. Т. 10 (3).
  9. Орлова Р.В. Коррекция желудочно-кишечных осложнений у онкологических больных / В кн: Практическая онкология: избранные лекции. Тюляндин С.А. и Моисеенко В.М., ред. Спб.: Центр ТОММ, 2004. С. 749-756.
  10. Meyer S., Gottschling S., Biran T., Georg T., Ehlayil K., Graf N., Gortner L. Assessing the risk of mortality in paediatric cancer patients admitted to the paediatric intensive care unit: a novel risk score? // Eur. J. Pediatr., 2005. Vol. 164. No. 9. P. 563-567.
  11. Николаев Д.В., Смирнов А.В., Бобринская И.Г., Руднев С.Г. Биоимпедансный анализ состава тела человека. М.: Наука, 2009. С. 23-29.
  12. Childhood cancer treatment takes toll on hearts of survivors. https://www.sciencedaily.com/releases/2013/11/131117155452.htm (дата обращения: 31.03.2016).
  13. Lopez L., Colan S.D., Frommelt P.C., Ensing G.J., Kendall K., Younoszai A.K., Lai W.W., Geva T. Recommendations for quantification methods during the performance of a pediatric echocardiogram: a report from the Pediatric Measurements Writing Group of the American Society of Echocardiography Pediatric and Congenital Heart Disease Council // J. Am. Soc. Echocardiogr., 2010. Vol. 23. No. 5. P. 465-495.
  14. Loumaye A., de Barsy M., Nachit M., Lause P., Frateur L., van Maanen A., Trefois P., Gruson D., Thissen J.P. Role of Activin A and myostatin in human cancer cachexia // J. Clin. Endocrinol. Metab., 2015. Vol. 100. No. 5. P. 2030-2038.
  15. Dittmar M., Reber H., Kahaly G.J. Bioimpedance phase angle indicates catabolism in Type 2 diabetes // Diabet Med., 2015. Vol. 32. No. 9. P. 1177-1185.
  16. Руднев Н.П., Соболева С.А., Стерликов Д.В., Николаев О.А., Старунова С.П., Черных Т.А., Ерюкова В.А., Колес-ников О.А., Мельниченко Е.Г., Пономареева С.Г. Биоимпедансное исследование состава тела населения России. М.: РИО ЦНИИОИЗ, 2014.
  17. Norman K., Stobäus N., Zocher D., Bosy-Westphal A., Szramek A., Scheufele R., Smoliner C., Pirlich M. Cutoff percentiles of bioelectrical phase angle predict functionality, quality of life, and mortality in patients with cancer // Am. J. Clin. Nutr., 2010. Vol. 92. No. 3. P. 612-619.
  18. Norman K., Wirth R., Neubauer M., Eckardt R., Stobäus N. The bioimpedance phase angle predicts low muscle strength, impaired quality of life, and increased mortality in old patients with cancer // J. Am. Med. Dir. Assoc., 2015. Vol. 16. No. 2.
  19. Beberashvili I., Azar A., Sinuani I., Shapiro G., Feldman L., Stav K., Sandbank J., Averbukh Z. Bioimpedance phase angle predicts muscle function, quality of life and clinical outcome in maintenance hemodialysis patients // Eur. J. Clin. Nutr., 2014. Vol. 68. No. 6. P. 683-689.
  20. Ernstbrunner M., Kostner L., Kimberger O., Wabel P., Säemann M., Markstaller K., Fleischmann E., Kabon B., Hecking M. Bioimpedance spectroscopy for assessment of volume status in patients before and after general anaesthesia // PLoS One. 2014. Vol. 9. No. 10.
  21. Franssens B.T., Eikendal A.L., Leiner T., van der Graaf Y., Visseren F.L., Hoogduin J.M. Reliability and agreement of adipose tissue fat fraction measurements with water-fat MRI in patients with manifest cardiovascular disease // NMR Biomed., 2016. Vol. 29. No. 1. P. 48-56.
  22. Deng J., Schoeneman S.E., Zhang H., Kwon S., Rigsby C.K., Shore R.M., Josefson J.L. MRI characterization of brown adipose tissue in obese and normal-weight children // Pediatr. Radiol., 2015. Vol. 4. No. 11. P. 1682-1689.
  23. http://babyheart.in/category/medical/z-score-calculator/ (дата обращения: 07.03.2016).

Copyright (c) 2016 Kurlykin A.V., Tseiltin G.Y., Spiridonova E.A.

Creative Commons License
This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.

This website uses cookies

You consent to our cookies if you continue to use our website.

About Cookies