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MeSH Review:

High-Frequency Jet Ventilation

Pinsky, M.R. et al., Starnes, V.A. et al., Yin, F. et al., Kan, A.F. et al., Yoshikawa, T. et al., et al.

Biro, Eyrich, Rohling, Nagatani, Niiya, Sumikawa, Yin, Kim, Haughton, Brown, Ajlouni, Stronati, Pamukov, Kim,

Welcome! If you are familiar with the subject of this article, you can contribute to this open access knowledge base by deleting incorrect information, restructuring or completely rewriting any text. Read more.

Disease relevance of High-Frequency Jet Ventilation

Profound cardiogenic shock developed and he required high frequency jet ventilation and milrinone therapy for 15 days [1].
The mean preoperative carbon dioxide tension for the four patients who did not have primary pulmonary hypertension was 92 mm Hg (range 64 to 120 mm Hg), and the two patients with pulmonary fibrosis were intubated (one on high-frequency jet ventilation) [2].
Auto-PEEP and dynamic hyperinflation in COPD patients during controlled mechanical ventilation and high frequency jet ventilation [3].

High impact information on High-Frequency Jet Ventilation

The purpose of this study is to quantitatively determine the extent of liver motion in anesthetized dogs with continuous i.v. propofol infusion with or without muscle relaxants and high-frequency jet ventilation [4].
2. In six anesthetized cats, step increases in PaCO2 (10 in each cat) were produced by injection of CO2 into the inspired gas during high-frequency jet ventilation [5].
High-frequency jet ventilation with helium and oxygen (heliox) versus nitrogen and oxygen (nitrox) [6].
Carbon dioxide elimination during high-frequency jet ventilation [7].
High-frequency jet ventilation (HFJV) was compared with conventional ventilation (CV) after surfactant displacement with diocytyl sodium sulfosuccinate (OT) via ultrasonic nebulization [8].

Associations of High-Frequency Jet Ventilation with chemical compounds

Factors influencing pulmonary volumes and CO2 elimination during high-frequency jet ventilation [9].
Conditions which suppress spontaneous breathing activity during high-frequency jet ventilation (HFJV) were analysed in Yorkshire piglets under pentobarbital anesthesia [10].
High-frequency jet ventilation during oleic-acid induced pulmonary oedema [11].
We studied the cardiovascular effects of phasic increases in intrathoracic pressure (ITP) by high-frequency jet ventilation in an acute pentobarbital-anesthetized intact canine model both before and after the induction of acute ventricular failure by large doses of propranolol [12].
Nitric oxide and high frequency jet ventilation in a patient with bilateral bronchopleural fistulae and ARDS [13].

Gene context of High-Frequency Jet Ventilation

Renal function and renin secretion during high frequency jet ventilation at varying levels of airway pressure [14].
PURPOSE: To determine if high frequency jet ventilation (HFJV) influences the secretion of alpha-atrial natriuretic peptide (alpha- ANP) [15].

Analytical, diagnostic and therapeutic context of High-Frequency Jet Ventilation

Carbon dioxide elimination during high-frequency jet ventilation for rigid bronchoscopy [16].
Intravenous infusion of propofol for induction and maintenance of anaesthesia during endoscopic carbon dioxide laser ENT procedures with high frequency jet ventilation [17].
The efficiency of CO2 elimination during high-frequency jet ventilation for laryngeal microsurgery [18].
The technique consisted of extradural analgesia and intravenous infusion of propofol, while ventilation was maintained with high frequency jet ventilation through a single lumen tracheal tube [19].
General anesthesia, employing differential lung ventilation and high frequency jet ventilation combined with epidural anesthesia and continuous intravenous propofol was performed successfully [20].

References

Prolonged high frequency jet ventilation and milrinone therapy following modified Fontan procedure. McBride, W.T., McMurray, T.J. Anaesthesia. (1994) [Pubmed]
Experience with living-donor lobar transplantation for indications other than cystic fibrosis. Starnes, V.A., Barr, M.L., Schenkel, F.A., Horn, M.V., Cohen, R.G., Hagen, J.A., Wells, W.J. J. Thorac. Cardiovasc. Surg. (1997) [Pubmed]
Auto-PEEP and dynamic hyperinflation in COPD patients during controlled mechanical ventilation and high frequency jet ventilation. Conti, G., Bufi, M., Rocco, M., Calzecchi, E., De Blasi, R.A., Antonelli, M., Pelaia, P., Gasparetto, A. Intensive care medicine. (1990) [Pubmed]
Extracranial radiosurgery: immobilizing liver motion in dogs using high-frequency jet ventilation and total intravenous anesthesia. Yin, F., Kim, J.G., Haughton, C., Brown, S.L., Ajlouni, M., Stronati, M., Pamukov, N., Kim, J.H. Int. J. Radiat. Oncol. Biol. Phys. (2001) [Pubmed]
Adaptation of carotid chemoreceptors to step increases in PaCO2 in anesthetized cats. Linton, R.A., Band, D.M., McLoughlin, P. J. Neurophysiol. (1995) [Pubmed]
High-frequency jet ventilation with helium and oxygen (heliox) versus nitrogen and oxygen (nitrox). Cros, A.M., Guenard, H., Boudey, C. Anesthesiology (1988) [Pubmed]
Carbon dioxide elimination during high-frequency jet ventilation. Korvenranta, H., Carlo, W.A., Goldthwait, D.A., Fanaroff, A.A. J. Pediatr. (1987) [Pubmed]
High-frequency jet ventilation versus conventional ventilation after surfactant displacement in dogs. Kumar, B.S., Beney, K., Jastremski, M., Nieman, G., Bredenberg, C. Crit. Care Med. (1984) [Pubmed]
Factors influencing pulmonary volumes and CO2 elimination during high-frequency jet ventilation. Rouby, J.J., Simonneau, G., Benhamou, D., Sartene, R., Sardnal, F., Deriaz, H., Duroux, P., Viars, P. Anesthesiology (1985) [Pubmed]
Suppression of spontaneous breathing during high-frequency jet ventilation. Influence of dynamic changes and static levels of lung stretch. van Vught, A.J., Versprille, A., Jansen, J.R. Intensive care medicine. (1986) [Pubmed]
High-frequency jet ventilation during oleic-acid induced pulmonary oedema. Hachenberg, T., Wendt, M., Hermeyer, G., Ludwig, E., Meyer, J., Lawin, P. Intensive care medicine. (1989) [Pubmed]
Determinants of cardiac augmentation by elevations in intrathoracic pressure. Pinsky, M.R., Matuschak, G.M., Klain, M. J. Appl. Physiol. (1985) [Pubmed]
Nitric oxide and high frequency jet ventilation in a patient with bilateral bronchopleural fistulae and ARDS. Campbell, D., Steinmann, M., Porayko, L. Canadian journal of anaesthesia = Journal canadien d'anesthésie. (2000) [Pubmed]
Renal function and renin secretion during high frequency jet ventilation at varying levels of airway pressure. Marquez, J., Guntupalli, K., Sladen, A., Klain, M. Crit. Care Med. (1983) [Pubmed]
High frequency jet ventilation is associated with increased levels of plasma alpha-atrial natriuretic peptide -- a preliminary study. Nagatani, A., Niiya, S., Sumikawa, K. Canadian journal of anaesthesia = Journal canadien d'anesthésie. (2002) [Pubmed]
Carbon dioxide elimination during high-frequency jet ventilation for rigid bronchoscopy. Biro, P., Layer, M., Wiedemann, K., Seifert, B., Spahn, D.R. British journal of anaesthesia. (2000) [Pubmed]
Intravenous infusion of propofol for induction and maintenance of anaesthesia during endoscopic carbon dioxide laser ENT procedures with high frequency jet ventilation. Mayné, A., Joucken, K., Collard, E., Randour, P. Anaesthesia. (1988) [Pubmed]
The efficiency of CO2 elimination during high-frequency jet ventilation for laryngeal microsurgery. Biro, P., Eyrich, G., Rohling, R.G. Anesth. Analg. (1998) [Pubmed]
Anaesthesia for bullectomy. Use of propofol, high frequency jet ventilation and extradural blockade. Kan, A.F., Oh, T.E. Anaesthesia. (1992) [Pubmed]
Thoracoscopic lung biopsy in a patient with pulmonary lymphangiomyomatosis. Yoshikawa, T., Wajima, Z., Ogura, A., Imanaga, K., Inoue, T. Canadian journal of anaesthesia = Journal canadien d'anesthésie. (2000) [Pubmed]

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