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Pediatric Airway (pediatric + airway)
Selected AbstractsA comparison of the STORZ video laryngoscope and standard direct laryngoscopy for intubation in the Pediatric airway , a randomized clinical trialPEDIATRIC ANESTHESIA, Issue 11 2009ARNIM VLATTEN MD Summary Introduction:, Direct laryngoscopy can be challenging in infants and neonates. Even with an optimal line of sight to the glottic opening, the viewing angle has been measured at 15°. The STORZ DCI video laryngoscope (Karl Storz, Tuttlingen, Germany) incorporates a fiberoptic camera in the light source of a standard laryngoscope of variable sizes. The image is displayed on a screen with a viewing angle of 80°. We studied the effectiveness of the STORZ DCI as an airway tool compared to standard direct laryngoscopy in children with normal airway. Methods:, In this prospective, randomized study, 56 children (ages 4 years or younger) undergoing elective surgery with the need for endotracheal intubation were divided into two groups: children who underwent standard direct laryngoscopy using a Miller 1 or Macintosh 2 blade (DL) and children who underwent video laryngoscopy using the STORZ DCI video laryngoscope with a Miller 1 blade (VL). Time to best view (TTBV), time to intubate (TTI), Cormack,Lehane (CL), and percentage of glottis opening seen (POGO) score were recorded. Results:, TTBV in DL was 5.5 (4,8) s and 7 (4.2,9) s in VL. TTI in DL was 21 (17,29) s and in VL 27 (22,37) s (P = 0.006). The view as assessed by POGO score was 97.5% (60,100%) in DL and 100% (100,100%) in the VL (P = 0.003). Data are presented as median and interquartile range and analyzed using t -test. Discussion:, This study demonstrates that the STORZ DCI video laryngoscope provides an improved view to the glottis in children with normal airway anatomy, but requires a longer time for intubation. [source] A comparison of bonfils fiberscope-assisted laryngoscopy and standard direct laryngoscopy in simulated difficult pediatric intubation: a manikin studyPEDIATRIC ANESTHESIA, Issue 6 2010ARNIM VLATTEN MD Summary Introduction:, Difficult airway management in children is challenging. One alternative device to the gold standard of direct laryngoscopy is the STORZ Bonfils fiberscope (Karl Storz Endoscopy, Tuttlingen, Germany), a rigid fiberoptic stylette-like scope with a curved tip. Although results in adults have been encouraging, reports regarding its use in children have been conflicting. We compared the effectiveness of a standard laryngoscope to the Bonfils fiberscope in a simulated difficult infant airway. Methods:, Ten pediatric anesthesiologists were recruited for this study and asked to perform three sets of tasks. For the first task, each participant intubated an unaltered manikin (SimBaby TM, Laerdal, Puchheim, Germany) five times using a styletted 3.5 endotracheal tube (ETT) and a Miller 1 blade (group DL-Normal). For the second task, a difficult airway configuration simulating a Cormack-Lehane grade 3B view was created by fixing a Miller-1 blade into position in the manikin using a laboratory stand. Each participant then intubated the manikin five times with a styletted 3.5 ETT using conventional technique but without touching the laryngoscope (group DL-Difficult). In the third task, the manikin was kept in the same difficult airway configuration, and each participant intubated the manikin five times using a 3.5-mm ETT mounted on the Bonfils fiberscope as an adjunct to direct laryngoscopy with the Miller-1 blade (group BF-Difficult). Primary outcomes were time to intubate and success rate. Results:, A total of 150 intubations were performed. Correct ETT placement was achieved in 100% of attempts in group DL-Normal, 90% of attempts in group DL-Difficult and 98% of attempts in BF-Difficult. Time to intubate averaged 14 s (interquartile range 12,16) in group DL-Normal; 12 s (10,15) in group DL-Difficult; and 11 s (10,18) in group BF-Difficult. The percentage of glottic opening seen (POGO score) was 70% (70,80) in group DL-Normal; 0% (0,0) in group DL-Difficult; and 100% (100,100) in group BF-Difficult. Discussion:, The Bonfils fiberscope-assisted laryngoscopy was easier to use and provided a better view of the larynx than simple direct laryngoscopy in the simulated difficult pediatric airway, but intubation success rate and time to intubate were not improved. Further studies of the Bonfils fibrescope as a pediatric airway adjunct are needed. [source] Modeling Flow in a Compromised Pediatric Airway Breathing Air and HelioxTHE LARYNGOSCOPE, Issue 12 2008Mihai Mihaescu PhD Abstract Objectives/Hypothesis: The aim of this study was to perform computer simulations of flow within an accurate model of a pediatric airway with subglottic stenosis. It is believed that the airflow characteristics in a stenotic airway are strongly related to the sensation of dyspnea. Methodology: Computed tomography images through the respiratory tract of an infant with subglottic stenosis, were used to construct the three-dimensional geometry of the airway. By using computational fluid dynamics (CFD) modeling to capture airway flow patterns during inspiration and expiration, we obtained information pertaining to flow velocity, static airway wall pressure, pressure drop across the stenosis, and wall shear stress. These simulations were performed with both air and heliox. Results: Unlike air, heliox maintained laminar flow through the stenosis. The calculated pressure drop over stenosis was lower for the heliox flow, in contrast to the airflow case. This lead to an approximately 40% decrease in airway resistance when using heliox, and presumably causes a decrease in the level of effort required for breathing. Conclusions: CFD simulations offer a quantitative method of evaluating airway flow dynamics in patients with airway abnormalities. CFD modeling illustrated the flow features and quantified flow parameters within a pediatric airway with subglottic stenosis. Simulations with air and heliox conditions mirrored the known clinical benefits of heliox as compared with air. We anticipate that computer simulation models will ultimately allow a better understanding of changes in flow caused by specific medical and surgical interventions in patients with conditions associated with dyspnea. [source] Extubation and endotracheal tube exchange using a guidewire sheath in management of difficult pediatric airwaysPEDIATRIC ANESTHESIA, Issue 6 2009Fu Shan Xue No abstract is available for this article. [source] | ||||||||||