View clinical trials related to Difficult Intubation.
Filter by:During fiberoptic endotracheal intubation, the perfect airway exposure produced by the classic curved Macintosh laryngoscope in place of head tilt -chin lift-jaw thrust maneuver may increase the accuracy and produce rapid direct vocal cord access in a short time under Inhalation anesthesia to maintain the respiratory drive for grade III&VI Modified Mallampati .
Patients who undergo general anesthesia for surgical procedures frequently need to have a breathing tube placed ("tracheal intubation") for the duration of the procedure. Most often airway management is routine for an experienced anesthesiologist. Less often, airway management can be difficult and can result in patient harm. In order to reduce risk, anesthesiologists routinely evaluate patients' airways by obtaining a relevant history and doing a physical exam, which can aid in predicting which airways may be difficult to manage. The "gold standard" for management of the anticipated difficult airway is to perform an awake flexible bronchoscopic intubation after anesthetizing the airway with local anesthesia. This affords added safety because the airway remains patent and the patient breaths spontaneously until a tracheal tube is secured, at which point general anesthesia can be induced. Recently, authors have advocated for alternative methods of management of the predicted difficult airway, most commonly by using a video laryngoscope to perform the awake intubation. A video laryngoscope provides an indirect view of the larynx using a camera at the tip of a rigid laryngoscope. It takes less training to gain and maintain proficiency compared to flexible bronchoscopy. Previous studies that have shown successful awake intubation with video laryngoscopy in the predicted difficult airway have not included patients with head and neck pathology, including malignancies or a history of head and neck surgery or radiation. In this study, the study team will perform video laryngoscopy in patients with head and neck pathology who require awake bronchoscopic intubation for surgery after placement of the tracheal tube and induction of anesthesia. The study team hypothesize that it will be difficult to obtain a good view of the larynx with video laryngoscopy in some patients with head and neck pathology. If there is a significant incidence of difficult video laryngoscopy in this patient population, it will reinforce that anesthesiologists need to continue to learn and maintain skills in bronchoscopic intubation.
A prospective, open label, non-randomized, single centre safety and feasibility study. Patients with no expected airway difficulties scheduled for elective surgery including tracheal intubation and general anesthesia procedures will be enrolled into the study. Following standard induction of anesthesia, the IRRIS will be attached to the patient's neck skin just beneath the laryngeal prominence (Adam's apple) and the intubation will be performed by using a video-laryngoscope in a standardized fashion. The IRRIS device emits a light that penetrates through the skin into the airway and that is visible on the video-laryngoscope display. This light highlights the right pathway for the tracheal tube and facilitates the visual recognition and identification of the laryngeal inlet. In case of problems identified during the induction period such as an unexpected difficult intubation situation and the IRRIS does not provide the expected facilitation of intubation, the local "unexpected difficult airway" protocol goes into effect.
Assessment of the airway forms part of routine anesthetic practice. However, the predictions referred to intubation or ventilation difficulties are usually inconclusive. In effect, the failure rate in predicting such difficulties exceeds 60%. In this scenario it is not possible to know whether a given patient will be difficult to intubate and ventilate. These are referred to as non-intubate and non-ventilate cases with a high risk of severe neurological complications and even death due to hypoxemia. According to all the clinical guides, the solution in such cases usually involves the use of supraglottic devices that rescue oxygenation through effective ventilation. In the event of ventilation failure with a supraglottic device, it is currently not possible to know whether the device is correctly positioned, unless some other instrument such as a flexible fiberscope is used to visualize the anatomy beyond the ventilation device. The TotalTrack is a new device with all the characteristics of a supraglottic device that moreover includes a camera at the tip, allowing us to confirm anatomical positioning with respect to the glottic structures. This device also allows intubation under indirect visualization of the glottis, thus adding the possibility of definitive patient lung isolation. The primary objective of this study is to determine the capacity to visualize the glottic structures through the camera of the TotalTrack device, compared with glottic visualization afforded by indirect laryngoscopy in the same patient. The Cormack-Lehane scale and percentage of glottic opening (POGO) are used for this purpose. The secondary objectives comprise assessment of the ventilation, intubation and TotalTrack device withdrawal times. The hemodynamic changes associated to both techniques during intubation and TotalTrack device withdrawal are also evaluated. Minimum patient oxygenation throughout the procedure is assessed. The sealing and ventilation pressures during operation of the TotalTrack device are recorded. Likewise, an analysis is made of the number of placement attempts, visualization improvement maneuvers, and minor complications associated to the use of the TotalTrack device (presence of blood upon withdrawal or pharyngeal pain), with their degree of severity.
Ability to provide oxygen to patients undergoing general anaesthesia is crucial. This is traditionally provided using face mask, supraglottic airway (breathing tube above voice box) or endotracheal tube (breathing tube in wind pipe). However in some patients it may be impossible to provide oxygen through any of these above means which can be life threatening and lead to permanent brain damage/death. One of the ideal ways of managing this emergency situation is to pass a breathing tube through a membrane in the front of the neck called cricothyroid membrane with the neck in extension position where permitted. Many studies have recommended identifying the cricothyroid membrane before general anaesthesia in high risk patients but with their head in neutral position. This study will be a pilot study to check if the cricothyroid membrane remains in the same place in neutral and extended positions.
Failed intubation is currently one of the most important factors leading to morbidity and mortality in anesthesia. The development of supraglottic airway devices (SGDs), such as the intubating laryngeal tube, has revolutionized airway management, as these devices allow adequate ventilation and oxygenation in situations where ventilation and/or intubation via conventional means pose a challenge. Several publications describe the usefulness of such devices for salvaging ventilation in patients that cannot be intubated with direct laryngoscopy or who cannot be ventilated with a facemask. In these salvage situations, SGDs are highly effective in achieving adequate patient oxygenation. Achieving effective oxygenation with an SGD and completely isolating the airway by intubation at the same time. This is now possible thanks to the so called supraglottic intubation devices (SGIDs). For that reason, we believe it is necessary to conduct a study that allows evaluation of the performance of this device in the context of daily clinical practice. Its design characteristics, its capacity to be used in intubation applications, its soft and atraumatic materials as well as its disposability augur this product a significant expansion in the next few years. Nonetheless, no data are available on the success of intubation when the intubating laryngeal tube suction device (ILTSD) is used. The idea behind this study is to assess the possibilities to use the ITLSD device to intubate patients in regular anesthetic practice.
A "can't intubate, can't oxygenate" situation is life-threatening and the physician must be prepared to react quickly. Similarly, a difficult intubation with adequate ventilation is associated with complications. In both of these situation and as recommend by different societies, a supra-glottic airway (SGA) device can be used to help ventilation, or as an intubation conduit to ease the airway access. The objective of this randomized controlled trial is to establish which SGA, between the AuraGain, AirQ Blocker and I-Gel, allows the fastest intubation time in an adult population, with the objective of minimizing complications related to these situations. The investigators will conduct a three-arm trial to compare different outcomes related to the installation of the SGA and its use as an intubation conduit. The results of this trial will inform the anesthesiologist on which device to use on to have close in case of airway emergencies.
Failure in airway management is one of the most common anesthesia-related morbidity and mortality. Each individual airway assessment has limitation to predict difficult intubation.
Unanticipated difficult airway comprises of unexpected difficult bag mask ventilation or unforeseen difficult laryngoscopy. The incidence of difficult laryngoscopy or unanticipated difficult intubation in children was varied from 1.2 %to 4.77% depending on general or specific population and type of surgery. The known risk factors of difficult intubation in children were young age, associated syndrome or congenital abnormality and obstructive sleep apnea. Moreover, the predictors of difficult laryngoscopy by physical examination were associated with short interincisors distance, high frontal plane to chin distance, short thyromental distance and Cormack & Lehane classification 3 or 4. However, little knowledge is known regarding difficult bag mask ventilation in children. The incidence of difficult bag mask ventilation was 6.6% according to the single study. A few study reported the independent risk factor of difficult bag mask ventilation in children which were young age, obesity, use of neuromuscular blocking agent and airway surgery. In addition, the association between difficult bag mask ventilation and difficult intubation are still unknown. To understand more of difficult bag mask ventilation in children and factor-association may reduce incidence of morbidity and mortality by identifying difficult airway, preparing personnel and equipment tool in order to improve clinical outcome in pediatric anesthesia. The objectives of the study were to determine the predictors of difficult bag mask ventilation and the association with unexpected difficult intubation in children who came for elective surgery in tertiary care hospital of southern Thailand.
OBJECTIVE: This study aimed to determine the sensitivity and specificity of various anatomic measurements alone or in combination in predicting difficult intubation. The investigators hypothesized that goniomastoid distance, thyrogonial distance and tongue movements are sensitive and specific tests for predicting difficult intubation MATERIALS AND METHODS: The investigators included the data of 170 patients (85 difficult intubation and 85 easy intubation) who underwent an abdominal surgery under general anesthesia. Patients in difficult intubation (n=85) and easy intubation (n=85) groups were matched by age, BMI, and gender. Intubation difficulty scale (IDS) scores were recorded. Upward and downward maximal protrusions of tongue (UMPT and DMPT, respectively) were evaluated in all patients. Anthropometric measurements were measured.