The Experts below are selected from a list of 7605 Experts worldwide ranked by ideXlab platform
Soo Hwan Kim - One of the best experts on this subject based on the ideXlab platform.
-
a randomized clinical trial of frozen versus standard Nasogastric Tube placement
World Journal of Surgery, 2009Co-Authors: Dukhee Chun, Na Young Kim, Yang Sik Shin, Soo Hwan KimAbstract:Background Insertion of a Nasogastric Tube (NGT) in an anesthetized, paralyzed, and intubated patient is difficult, and many methods have been proposed to aid in the procedure. We present a simple insertion technique.
-
a randomized clinical trial of frozen versus standard Nasogastric Tube placement
World Journal of Surgery, 2009Co-Authors: Dukhee Chun, Na Young Kim, Yang Sik Shin, Soo Hwan KimAbstract:Insertion of a Nasogastric Tube (NGT) in an anesthetized, paralyzed, and intubated patient is difficult, and many methods have been proposed to aid in the procedure. We present a simple insertion technique. A silicone NGT was made rigid by filling it with distilled water and freezing it. Patients were randomized into either the control or the frozen group, and an NGT was inserted after intubation. A total of 100 patients (50 in each group) were included in this study. The success rate increased significantly by making the Tube more rigid (control:frozen = 58%:88%; p = 0.001). There was no difference between groups in the incidence of nasal bleeding. A simple method of freezing an NGT with distilled water increased the success rate of insertion for intubated patients.
Yoshio Hatano - One of the best experts on this subject based on the ideXlab platform.
-
Nasogastric Tube insertion assisted with the airwayscopetm in a patient with cervical spine instability
Canadian Journal of Anaesthesia-journal Canadien D Anesthesie, 2009Co-Authors: Hiroyuki Kinoshita, Toshiyuki Minonishi, Yoshio HatanoAbstract:To the Editor, It has been shown that the AirwayScope (AWS; IMI Co., LTD., Koshigaya, Saitama, Japan), which is a newly developed videolaryngoscope consisting of a built-in monitor, camera, and disposable introducer, INTLOCK, has a distinct advantage compared with the Macintosh laryngoscope when it is used in patients with cervical spine instability and/or restricted neck movement. The AirwayScope can also facilitate Nasogastric Tube insertion in patients with cervical spine instability. An 82-year-old male patient, who had a predicted difficult airway due to a C5 fracture dislocation and the use of the halo vest, was scheduled for surgical stabilization of a cervical spine fracture. Following application of routine monitors and preoxygenation with the halo vest in situ, anesthesia was induced with propofol 1 mg kg iv and butorphanol 10 lg kg iv, followed by vecuronium 0.1 mg kg iv. After bag-mask ventilation with a facemask using 3% sevoflurane in 100% oxygen at a fresh gas flow of 6 L min for 3 min, the patient’s trachea was intubated with a reinforced 8.0 mm endotracheal Tube (Covidien, Mansfield, MA, USA) without difficulty, using the AirwayScope. After correct endotracheal Tube position was confirmed, the airway was secured, and the AirwayScope was again inserted into the patient’s mouth to obtain views of both the pharyngeal and laryngeal areas. Thereafter, a lubricated 16 Fr. Nasogastric Tube (Terumo Co., Shibuya-ku, Tokyo, Japan) was inserted via the left nostril until it reached the pharyngeal area (Fig. 1). The gastric Tube was inserted easily under indirect vision without use of Magill forceps or additional maneuvers (Fig. 1). We used the AirwayScope to facilitate Nasogastric Tube insertion in this patient, since other known maneuvers related to insertion, including forward displacement of the larynx, may cause compression of an unstable cervical spine. Consistent with our report, a previous study documented that another video laryngoscope, GlideScope, successfully supported Nasogastric Tube insertion in surgical patients. We propose that using the videolaryngoscope to facilitate a Nasogastric Tube insertion may be more critical in patients with cervical instability, and that this maneuver may be effective to detect points where Tube insertion could be interrupted (arytenoids, cartilages, and piriform sinuses).
-
Nasogastric Tube insertion assisted with the airwayscopetm in a patient with cervical spine instability
Canadian Journal of Anaesthesia-journal Canadien D Anesthesie, 2009Co-Authors: Hiroyuki Kinoshita, Toshiyuki Minonishi, Yoshio HatanoAbstract:To the Editor, It has been shown that the AirwayScope (AWS; IMI Co., LTD., Koshigaya, Saitama, Japan), which is a newly developed videolaryngoscope consisting of a built-in monitor, camera, and disposable introducer, INTLOCK, has a distinct advantage compared with the Macintosh laryngoscope when it is used in patients with cervical spine instability and/or restricted neck movement. The AirwayScope can also facilitate Nasogastric Tube insertion in patients with cervical spine instability. An 82-year-old male patient, who had a predicted difficult airway due to a C5 fracture dislocation and the use of the halo vest, was scheduled for surgical stabilization of a cervical spine fracture. Following application of routine monitors and preoxygenation with the halo vest in situ, anesthesia was induced with propofol 1 mg kg iv and butorphanol 10 lg kg iv, followed by vecuronium 0.1 mg kg iv. After bag-mask ventilation with a facemask using 3% sevoflurane in 100% oxygen at a fresh gas flow of 6 L min for 3 min, the patient’s trachea was intubated with a reinforced 8.0 mm endotracheal Tube (Covidien, Mansfield, MA, USA) without difficulty, using the AirwayScope. After correct endotracheal Tube position was confirmed, the airway was secured, and the AirwayScope was again inserted into the patient’s mouth to obtain views of both the pharyngeal and laryngeal areas. Thereafter, a lubricated 16 Fr. Nasogastric Tube (Terumo Co., Shibuya-ku, Tokyo, Japan) was inserted via the left nostril until it reached the pharyngeal area (Fig. 1). The gastric Tube was inserted easily under indirect vision without use of Magill forceps or additional maneuvers (Fig. 1). We used the AirwayScope to facilitate Nasogastric Tube insertion in this patient, since other known maneuvers related to insertion, including forward displacement of the larynx, may cause compression of an unstable cervical spine. Consistent with our report, a previous study documented that another video laryngoscope, GlideScope, successfully supported Nasogastric Tube insertion in surgical patients. We propose that using the videolaryngoscope to facilitate a Nasogastric Tube insertion may be more critical in patients with cervical instability, and that this maneuver may be effective to detect points where Tube insertion could be interrupted (arytenoids, cartilages, and piriform sinuses).
Dukhee Chun - One of the best experts on this subject based on the ideXlab platform.
-
a randomized clinical trial of frozen versus standard Nasogastric Tube placement
World Journal of Surgery, 2009Co-Authors: Dukhee Chun, Na Young Kim, Yang Sik Shin, Soo Hwan KimAbstract:Background Insertion of a Nasogastric Tube (NGT) in an anesthetized, paralyzed, and intubated patient is difficult, and many methods have been proposed to aid in the procedure. We present a simple insertion technique.
-
a randomized clinical trial of frozen versus standard Nasogastric Tube placement
World Journal of Surgery, 2009Co-Authors: Dukhee Chun, Na Young Kim, Yang Sik Shin, Soo Hwan KimAbstract:Insertion of a Nasogastric Tube (NGT) in an anesthetized, paralyzed, and intubated patient is difficult, and many methods have been proposed to aid in the procedure. We present a simple insertion technique. A silicone NGT was made rigid by filling it with distilled water and freezing it. Patients were randomized into either the control or the frozen group, and an NGT was inserted after intubation. A total of 100 patients (50 in each group) were included in this study. The success rate increased significantly by making the Tube more rigid (control:frozen = 58%:88%; p = 0.001). There was no difference between groups in the incidence of nasal bleeding. A simple method of freezing an NGT with distilled water increased the success rate of insertion for intubated patients.
Hiroyuki Kinoshita - One of the best experts on this subject based on the ideXlab platform.
-
Nasogastric Tube insertion assisted with the airwayscopetm in a patient with cervical spine instability
Canadian Journal of Anaesthesia-journal Canadien D Anesthesie, 2009Co-Authors: Hiroyuki Kinoshita, Toshiyuki Minonishi, Yoshio HatanoAbstract:To the Editor, It has been shown that the AirwayScope (AWS; IMI Co., LTD., Koshigaya, Saitama, Japan), which is a newly developed videolaryngoscope consisting of a built-in monitor, camera, and disposable introducer, INTLOCK, has a distinct advantage compared with the Macintosh laryngoscope when it is used in patients with cervical spine instability and/or restricted neck movement. The AirwayScope can also facilitate Nasogastric Tube insertion in patients with cervical spine instability. An 82-year-old male patient, who had a predicted difficult airway due to a C5 fracture dislocation and the use of the halo vest, was scheduled for surgical stabilization of a cervical spine fracture. Following application of routine monitors and preoxygenation with the halo vest in situ, anesthesia was induced with propofol 1 mg kg iv and butorphanol 10 lg kg iv, followed by vecuronium 0.1 mg kg iv. After bag-mask ventilation with a facemask using 3% sevoflurane in 100% oxygen at a fresh gas flow of 6 L min for 3 min, the patient’s trachea was intubated with a reinforced 8.0 mm endotracheal Tube (Covidien, Mansfield, MA, USA) without difficulty, using the AirwayScope. After correct endotracheal Tube position was confirmed, the airway was secured, and the AirwayScope was again inserted into the patient’s mouth to obtain views of both the pharyngeal and laryngeal areas. Thereafter, a lubricated 16 Fr. Nasogastric Tube (Terumo Co., Shibuya-ku, Tokyo, Japan) was inserted via the left nostril until it reached the pharyngeal area (Fig. 1). The gastric Tube was inserted easily under indirect vision without use of Magill forceps or additional maneuvers (Fig. 1). We used the AirwayScope to facilitate Nasogastric Tube insertion in this patient, since other known maneuvers related to insertion, including forward displacement of the larynx, may cause compression of an unstable cervical spine. Consistent with our report, a previous study documented that another video laryngoscope, GlideScope, successfully supported Nasogastric Tube insertion in surgical patients. We propose that using the videolaryngoscope to facilitate a Nasogastric Tube insertion may be more critical in patients with cervical instability, and that this maneuver may be effective to detect points where Tube insertion could be interrupted (arytenoids, cartilages, and piriform sinuses).
-
Nasogastric Tube insertion assisted with the airwayscopetm in a patient with cervical spine instability
Canadian Journal of Anaesthesia-journal Canadien D Anesthesie, 2009Co-Authors: Hiroyuki Kinoshita, Toshiyuki Minonishi, Yoshio HatanoAbstract:To the Editor, It has been shown that the AirwayScope (AWS; IMI Co., LTD., Koshigaya, Saitama, Japan), which is a newly developed videolaryngoscope consisting of a built-in monitor, camera, and disposable introducer, INTLOCK, has a distinct advantage compared with the Macintosh laryngoscope when it is used in patients with cervical spine instability and/or restricted neck movement. The AirwayScope can also facilitate Nasogastric Tube insertion in patients with cervical spine instability. An 82-year-old male patient, who had a predicted difficult airway due to a C5 fracture dislocation and the use of the halo vest, was scheduled for surgical stabilization of a cervical spine fracture. Following application of routine monitors and preoxygenation with the halo vest in situ, anesthesia was induced with propofol 1 mg kg iv and butorphanol 10 lg kg iv, followed by vecuronium 0.1 mg kg iv. After bag-mask ventilation with a facemask using 3% sevoflurane in 100% oxygen at a fresh gas flow of 6 L min for 3 min, the patient’s trachea was intubated with a reinforced 8.0 mm endotracheal Tube (Covidien, Mansfield, MA, USA) without difficulty, using the AirwayScope. After correct endotracheal Tube position was confirmed, the airway was secured, and the AirwayScope was again inserted into the patient’s mouth to obtain views of both the pharyngeal and laryngeal areas. Thereafter, a lubricated 16 Fr. Nasogastric Tube (Terumo Co., Shibuya-ku, Tokyo, Japan) was inserted via the left nostril until it reached the pharyngeal area (Fig. 1). The gastric Tube was inserted easily under indirect vision without use of Magill forceps or additional maneuvers (Fig. 1). We used the AirwayScope to facilitate Nasogastric Tube insertion in this patient, since other known maneuvers related to insertion, including forward displacement of the larynx, may cause compression of an unstable cervical spine. Consistent with our report, a previous study documented that another video laryngoscope, GlideScope, successfully supported Nasogastric Tube insertion in surgical patients. We propose that using the videolaryngoscope to facilitate a Nasogastric Tube insertion may be more critical in patients with cervical instability, and that this maneuver may be effective to detect points where Tube insertion could be interrupted (arytenoids, cartilages, and piriform sinuses).
Yang Sik Shin - One of the best experts on this subject based on the ideXlab platform.
-
a randomized clinical trial of frozen versus standard Nasogastric Tube placement
World Journal of Surgery, 2009Co-Authors: Dukhee Chun, Na Young Kim, Yang Sik Shin, Soo Hwan KimAbstract:Background Insertion of a Nasogastric Tube (NGT) in an anesthetized, paralyzed, and intubated patient is difficult, and many methods have been proposed to aid in the procedure. We present a simple insertion technique.
-
a randomized clinical trial of frozen versus standard Nasogastric Tube placement
World Journal of Surgery, 2009Co-Authors: Dukhee Chun, Na Young Kim, Yang Sik Shin, Soo Hwan KimAbstract:Insertion of a Nasogastric Tube (NGT) in an anesthetized, paralyzed, and intubated patient is difficult, and many methods have been proposed to aid in the procedure. We present a simple insertion technique. A silicone NGT was made rigid by filling it with distilled water and freezing it. Patients were randomized into either the control or the frozen group, and an NGT was inserted after intubation. A total of 100 patients (50 in each group) were included in this study. The success rate increased significantly by making the Tube more rigid (control:frozen = 58%:88%; p = 0.001). There was no difference between groups in the incidence of nasal bleeding. A simple method of freezing an NGT with distilled water increased the success rate of insertion for intubated patients.
