Cervical spine motion during tracheal intubation with King Vision™ video laryngoscopy and conventional laryngoscopy: a crossover randomized study

“…In previous studies comparing the lifting force during intubation between a direct laryngoscope and a videolaryngoscope, the peak and average lifting forces were significantly reduced by about half when using a videolaryngoscope in patients expected to have either a normal or difficult airway [20][21][22]. With the same context, numerous previous studies comparing cervical spine motion during intubation between direct laryngoscopes and various videolaryngoscopes, have reported significantly smaller cervical spine motion during videolaryngoscopic intubation [6,8,9,11,14,17,18]. Nevertheless, intubation using various videolaryngoscopes produced cervical spine motion of 3-13 • at the occiput-C1 segment even under MILS in previous studies [8,9,11,17].…”

“…Therefore, cervical immobilization with a cervical collar or manual in-line stabilization (MILS) is recommended to reduce cervical spine motion during intubation in patients at risk of cervical spine instability [3][4][5]. In addition, other devices, including videolaryngoscopes, lighted stylets, flexible fiberoptic bronchoscopes, and supraglottic airway devices, are commonly used in such patients instead of direct laryngoscopes to facilitate intubation and reduce cervical spine motion during intubation [6][7][8][9][10][11].…”

“…Videolaryngoscopes can provide a better laryngeal view than direct laryngoscopes in patients under cervical immobilization [12,13]. Moreover, various videolaryngoscopes are known to produce smaller cervical spine motion during intubation than direct laryngoscopes [6,8,9,11,14]. However, it is inevitable that some degree of cervical spine motion will occur during videolaryngoscopic intubation even under cervical immobilization [6,8,9,11,[14][15][16][17][18].…”

“…Moreover, various videolaryngoscopes are known to produce smaller cervical spine motion during intubation than direct laryngoscopes [6,8,9,11,14]. However, it is inevitable that some degree of cervical spine motion will occur during videolaryngoscopic intubation even under cervical immobilization [6,8,9,11,[14][15][16][17][18]. This is because the force required to lift the videolaryngoscope causes cervical spine motion during intubation, although it is smaller than the force required to lift the direct laryngoscope [19][20][21][22].…”

Effects of External Laryngeal Manipulation on Cervical Spine Motion during Videolaryngoscopic Intubation under Manual In-Line Stabilization: A Randomized Crossover Trial

“…In previous studies comparing the lifting force during intubation between a direct laryngoscope and a videolaryngoscope, the peak and average lifting forces were significantly reduced by about half when using a videolaryngoscope in patients expected to have either a normal or difficult airway [20][21][22]. With the same context, numerous previous studies comparing cervical spine motion during intubation between direct laryngoscopes and various videolaryngoscopes, have reported significantly smaller cervical spine motion during videolaryngoscopic intubation [6,8,9,11,14,17,18]. Nevertheless, intubation using various videolaryngoscopes produced cervical spine motion of 3-13 • at the occiput-C1 segment even under MILS in previous studies [8,9,11,17].…”

“…Therefore, cervical immobilization with a cervical collar or manual in-line stabilization (MILS) is recommended to reduce cervical spine motion during intubation in patients at risk of cervical spine instability [3][4][5]. In addition, other devices, including videolaryngoscopes, lighted stylets, flexible fiberoptic bronchoscopes, and supraglottic airway devices, are commonly used in such patients instead of direct laryngoscopes to facilitate intubation and reduce cervical spine motion during intubation [6][7][8][9][10][11].…”

“…Videolaryngoscopes can provide a better laryngeal view than direct laryngoscopes in patients under cervical immobilization [12,13]. Moreover, various videolaryngoscopes are known to produce smaller cervical spine motion during intubation than direct laryngoscopes [6,8,9,11,14]. However, it is inevitable that some degree of cervical spine motion will occur during videolaryngoscopic intubation even under cervical immobilization [6,8,9,11,[14][15][16][17][18].…”

“…Moreover, various videolaryngoscopes are known to produce smaller cervical spine motion during intubation than direct laryngoscopes [6,8,9,11,14]. However, it is inevitable that some degree of cervical spine motion will occur during videolaryngoscopic intubation even under cervical immobilization [6,8,9,11,[14][15][16][17][18]. This is because the force required to lift the videolaryngoscope causes cervical spine motion during intubation, although it is smaller than the force required to lift the direct laryngoscope [19][20][21][22].…”

Effects of External Laryngeal Manipulation on Cervical Spine Motion during Videolaryngoscopic Intubation under Manual In-Line Stabilization: A Randomized Crossover Trial

“…Video-laryngoscopy assisted intubation using PVC or reinforced tubes can be helpful in encountering the difficulties in airway management and the risk of hypoxia due to prolonged apnoea time leading to devastating neurological injury in patients with cervical spine instability. [ 7 8 9 10 11 ] To the best of our knowledge, this is the first study comparing CRT and SRT using KVVL in patients with cervical spine instability. The present study revealed that the average time required for intubation was less with CRT (16.24 ± 3.09 seconds) than SRT (29.08 ± 5.48 seconds) when used through KVVL.…”

Tracheal intubation with King Vision video laryngoscope in patients with cervical spine instability—Comparison of straight versus curved reinforced endotracheal tubes

Videolaryngoscopy versus direct laryngoscopy for adult patients requiring tracheal intubation