Effect of General Anesthesia Duration on Recovery of Secretion and Biochemical Properties of Tear Fluid in the Post-Anesthetic Period
Zernij E. Yu., Baksheev V. E., Kabanova E. I., Tiulina V. V., Golovastova M. O., Gancharova O. S., Savchenko M. S., Sotikova L. F., Zamyatnin A. A., Filippov P. P., Senin I. I.
Bulletin of Experimental Biology and Medicine
Vol.165, Issue2, P. 269-271
Опубликовано: 2018
Тип ресурса: Статья
DOI:10.1007/s10517-018-4145-3
Аннотация:
Changes in the biochemical composition of the tear film is a critical risk factor for the development of chronic perioperative dry eye syndrome, because increasing the duration of general anesthesia did not affect the dynamics of tear secretion recovery, but slowed down normalization of its structure and antioxidant activity in the post-anesthetic period. © 2018, Springer Science+Business Media, LLC, part of Springer Nature.
Ключевые слова:
antioxidant activity of tears; corneal erosion; dry eye syndrome; general anesthesia
anesthetic agent; ascorbic acid; cysteine; glutathione; hemoglobin H; inorganic salt; lipid; tyrosine; uric acid; anesthetic agent; biological marker; anesthesia induction; animal experiment; animal model; antioxidant activity; Article; biochemical analysis; biochemical composition; clinical assessment; controlled study; convalescence; general anesthesia; lacrimal fluid; lacrimation; nonhuman; outcome assessment; pigmented rabbit; tear film; treatment duration; anesthetic recovery; animal; chemically induced; chemistry; convalescence; drug effect; dry eye; electrolyte balance; general anesthesia; Leporidae; metabolism; operation duration; pathology; perioperative period; secretion (process); time factor; veterinary medicine; Anesthesia Recovery Period; Anesthesia, General; Anesthetics; Animals; Biomarkers; Dry Eye Syndromes; Operative Time; Perioperative Period; Rabbits; Recovery of Function; Tears; Time Factors; Water-Electrolyte Balance
Язык текста: Английский
ISSN: 1573-8221
Zernij E. Yu. Evgenij Yuryevich 1977-
Baksheev V. E.
Kabanova E. I.
Tiulina V. V.
Golovastova M. O.
Gancharova O. S.
Savchenko M. S.
Sotikova L. F.
Zamyatnin A. A. Andrej Aleksandrovich 1976-
Filippov P. P.
Senin I. I.
Зерний Е. Ю. Евгений Юрьевич 1977-
Бакшеев В. Е.
Кабанова Е. И.
Тиулина В. В.
Головастова М. О.
Ганчарова О. С.
Савченко М. С.
Сотикова Л. Ф.
Замятнин А. А. Андрей Александрович 1976-
Филиппов П. П.
Сенин И. И.
Effect of General Anesthesia Duration on Recovery of Secretion and Biochemical Properties of Tear Fluid in the Post-Anesthetic Period
Текст визуальный непосредственный
Bulletin of Experimental Biology and Medicine
Springer New York Consultants Bureau
Vol.165, Issue2 P. 269-271
2018
Статья
antioxidant activity of tears corneal erosion dry eye syndrome general anesthesia
anesthetic agent ascorbic acid cysteine glutathione hemoglobin H inorganic salt lipid tyrosine uric acid anesthetic agent biological marker anesthesia induction animal experiment animal model antioxidant activity Article biochemical analysis biochemical composition clinical assessment controlled study convalescence general anesthesia lacrimal fluid lacrimation nonhuman outcome assessment pigmented rabbit tear film treatment duration anesthetic recovery animal chemically induced chemistry convalescence drug effect dry eye electrolyte balance general anesthesia Leporidae metabolism operation duration pathology perioperative period secretion (process) time factor veterinary medicine Anesthesia Recovery Period Anesthesia, General Anesthetics Animals Biomarkers Dry Eye Syndromes Operative Time Perioperative Period Rabbits Recovery of Function Tears Time Factors Water-Electrolyte Balance
Changes in the biochemical composition of the tear film is a critical risk factor for the development of chronic perioperative dry eye syndrome, because increasing the duration of general anesthesia did not affect the dynamics of tear secretion recovery, but slowed down normalization of its structure and antioxidant activity in the post-anesthetic period. © 2018, Springer Science+Business Media, LLC, part of Springer Nature.