1.Corrigendum: Occurrence bilateral bronchospasm consequently after unilateral bronchospasm (Korean J Anesthesiol 2013 December 65(6 Suppl): S28-S29).
Yun Hee KIM ; Woon Young KIM ; Joong Il KIM ; Doo Jae MIN ; Yoon Sook LEE
Korean Journal of Anesthesiology 2015;68(4):423-423
The fourth author's name was misspelled as Doo Jae Min. The correct spelling is Too Jae Min.
Bronchial Spasm*
2.Occurrence bilateral bronchospasm consequently after unilateral bronchospasm.
Yun Hee KIM ; Woon Young KIM ; Joong Il KIM ; Doo Jae MIN ; Yoon Sook LEE
Korean Journal of Anesthesiology 2013;65(6 Suppl):S28-S29
No abstract available.
Bronchial Spasm*
3.Negative pressure pulmonary edema related to bronchospasm during anesthetic recovery.
Youn Yi JO ; Kwan Hyung KIM ; Hae Keum KIL
Korean Journal of Anesthesiology 2013;65(1):91-92
No abstract available.
Bronchial Spasm
;
Pulmonary Edema
4.Pulmonary Edema in Severe Bronchospasm.
The Korean Journal of Critical Care Medicine 2010;25(3):203-204
No abstract available.
Bronchial Spasm
;
Pulmonary Edema
5.Unilateral Bronchospasm during Cardiopulmonary Bypass: A case report.
Yong Seok OH ; Ji Heui LEE ; Jin Kyoung KIM
Korean Journal of Anesthesiology 1996;30(3):347-352
Severe bronchospasm at the termination of the cardiopulmonary bypass period is an unusual but dangerous complication of open-heart surgery. We report a case of severe unilateral bronchospasm detected at the end of the bypass period on the basis of high airway pressures with remarkable difficulties to deflate the right lung and it was relieved with bronchodilator therapy by intrapulmonary percussive ventilation. Fiberoptic bronchoscopic examination revealed unobstructed, free tracheobnncheal airway and capnographic finding was obstructive pattern. As in the previously published cases, the exact cause of bronchospasm remains unknown in our patient as well, but the possible causes of the bronchospasm are described.
Bronchial Spasm*
;
Cardiopulmonary Bypass*
;
Humans
;
Lung
;
Ventilation
6.Intraoperative allergic reaction to fentanyl: A case report.
Jin JOO ; Hyunmin BAE ; Jaemin LEE
Korean Journal of Anesthesiology 2009;57(6):776-779
Although rare, intraoperative allergic reaction can lead to significant morbidity and mortality. Clinical diagnosis is difficult as there is a need to differentiate from other causes of perioperative adverse reactions, such as side effects of administered drugs, or patients' medical conditions which may present with bronchospasm or hypotension. Intraoperative allergic reaction may be triggered by various agents. Among those, opioid-induced allergic reaction is scarcely reported. We report a case of a patient who has previously had allergic reaction to meperidine and intraoperatively showed fentanyl induced anaphylaxis or anaphylactoid reaction with literature reviews.
Anaphylaxis
;
Bronchial Spasm
;
Fentanyl
;
Humans
;
Hypersensitivity
;
Hypotension
;
Meperidine
7.Severe bronchospasm in a premature infant during induction of anesthesia caused ventilation failure.
Yoon Ji CHOI ; Sung Uk CHOI ; Eun Jung CHO ; Jae Yoon OH ; Hae Ja LIM
Korean Journal of Anesthesiology 2013;65(6 Suppl):S84-S86
No abstract available.
Anesthesia*
;
Bronchial Spasm*
;
Humans
;
Infant, Newborn
;
Infant, Premature*
;
Ventilation*
8.The Relaxant Effects of Propofol and Ketamine on Guinea-pig Tracheal Smooth Muscle.
Ki Jun KIM ; Shin Ok KOH ; Won Oak KIM ; Yong Taek NAM
Korean Journal of Anesthesiology 1997;32(2):185-191
BACKGROUND: Propofol inhibits postoperative bronchospasm. Ketamine prevents bronchospasm in asthmatic patients. The present study was designed to evaluate the effects and mechanisms of propofol and ketamine on tracheal smooth muscles. METHODS: After isolating guinea-pig tracheal preparations, the maximal tracheal tones were induced by smooth muscle constrictors(2 10 7 M carbachol, 10 5 M histamine, 30 mM K+ Krebs solution, 124 mM K+ Krebs solution). When tracheal tones stabilized, propofol or ketamine was added cumulatively to obtain the concentration-relaxation curves, and calculated the ED50 and ED95. RESULTS: Propofol and ketamine decreased maximal tracheal tones in the concentration-dependent manners. The ED50 and ED95 of propofol were lowest in the histamine group, highest in the 30 mM K+ Krebs solution group. The ED50 and ED95 of ketamine were lowest in the 124 mM K+ Krebs solution group, highest in the histamine group. CONCLUSIONS: The relaxant effects of propofol and ketamine involve with all receptors in nonspecific way. However, propofol may inhibit more strongly the histamine mediated mechanism of tracheal contraction and ketamine may involve more strongly with Ca++ channel.
Bronchial Spasm
;
Carbachol
;
Histamine
;
Humans
;
Ketamine*
;
Muscle, Smooth*
;
Propofol*
9.Bronchospasm due to Succinylcholine -A case repert-.
Korean Journal of Anesthesiology 1974;7(1):129-132
Severe bronchospasm after injection of succinylcholine iodide intravenously occurred in a 28 year old female during emergency Cesarean section. This was confirmed by repeated administration of the succinylcholine iodide and its symptoms with several referances are reviewed.
Adult
;
Bronchial Spasm*
;
Cesarean Section
;
Emergencies
;
Female
;
Humans
;
Pregnancy
;
Succinylcholine*
10.Airway obstruction in heat & moisture exchanger filter: A case report.
Mee Young CHUNG ; Weon Joon YANG ; Ji Young LEE
Anesthesia and Pain Medicine 2011;6(1):96-99
Heat and moisture exchanger filters (HMEF), used for humidification of patient respiratory gas and filtering microorganisms can cause airway obstruction. We experienced serious airway obstruction in a HMEF after making hydrothorax for high intensity focused ultrasound (HIFU) procedure. The airway obstruction was difficult to differentiate from severe bronchospasm irresponsive to bronchodilator therapy. It was relieved dramatically after we removed the filter from the breathing circuit as soon as we detected air-fluid meniscus in it.
Airway Obstruction
;
Bronchial Spasm
;
Hot Temperature
;
Humans
;
Hydrothorax
;
Respiration