Unexpected difficult extubation of double lumen bronchial intubation: a case report

Background The anesthetist and other members of the perioperative team need to be extremely cautious for successful completion of any surgery. If the final step of any general anesthetic-extubation is not sufficiently well planned, it can lead to critical airway incidents during the extubation and hinder transportation of the patient to the post-anesthesia care unit. Case presentation A 48-year-old female underwent video-assisted thoracoscopic surgery (VATS) combined with left lower lobectomy. The distal end of the left branch of the tracheal tube was lodged by surgical sutures. In this case, the respiratory physician burned the sutures using an argon electrode, after discussion with the thoracic surgery experts. Conclusions Teamwork is essential when caring for a patient with a shared airway. The anesthetist and surgeon must communicate well with each other to achieve optimal surgical outcomes. Importantly, testing the patency of the ETT prior to extubation should be a regular procedure, which is practical significance to guide safe extubation.

The role of bedside ultrasound during tracheal intubation procedure

Tracheal intubation in complex settings (i.e. difficult airway, hemodynamic instability) means a challenging procedure [1]. It must be performed very quickly, being obviously essential to confirm the adequate positioning of the tube tip as soon as possible. Capnography is the most recommended tool in spite proper evaluation also includes clinical exam and X-ray, which implies some delay [2]. When capnography is not available and/ or misleading readings are present, bedside ultrasound can be extremely useful. The T.R.U.E. (Tracheal Rapid Ultrasound Exam) protocol consists on performing transverse bedside upper airway ultrasonography, by placing a linear transducer over the suprasternal notch [3]. At this level, tracheal and oesophagus are easily identified. In case of unnoticed oesophageal intubation, a gas art fact emerges in the oesophagus lumen. To definitively confirm the optimal tracheal tube position, regardless the absence of oesophageal gas artifact, left lung sliding must be checked in order to rule in/out a selective bronchial intubation.

Management of severe right lung cystic pulmonary interstitial emphysema in an infant at 24 weeks gestation with bedside selective left main stem bronchial intubation: Case report and review of the literature

Pulmonary interstitial emphysema (PIE) is a severe complication of mechanical ventilation in preterm infants. Selective bronchial intubation is a rarely used treatment strategy, as it is challenging, especially left main stem bronchial intubation. We report our experience in an infant at 24 weeks gestation with bedside left main stem bronchial intubation using flexible fiberoptic bronchoscopy. We also describe in detail the procedural details involved in the selective left main stem bronchial intubation including the helpful technique of gently bending the tip of the endotracheal tube to create “memory” to better direct the tube into the left main-stem bronchus while using the flexible fiberoptic bronchoscope. A review of the literature regarding selective bronchial intubation in newborn infants is presented. This case report and literature review suggest that bedside left main stem bronchial intubation using a flexible fiberoptic bronchoscope is a viable option to successfully manage even the most unstable extreme premature infant with unilateral right lung cystic PIE. This may potentially prevent a rare but necessary invasive surgical procedure like lobectomy or even death.

Ability of Critical Care Medics to Confirm Endotracheal Tube Placement by Ultrasound

Introduction:The Advanced Cardiac Life Support (ACLS) guidelines were recently updated to include ultrasound confirmation of endotracheal tube (ETT) location as an adjunctive tool to verify placement. While this method is employed in the emergency department under the guidance of the most recent American College of Emergency Physicians (ACEP; Irving, Texas USA) guidelines, it has yet to gain wide acceptance in the prehospital setting where it has the potential for greater impact. The objective of this study to is determine if training critical care medics using simulation was a feasible and reliable method to learn this skill.Methods:Twenty critical care paramedics with no previous experience with point-of-care ultrasound volunteered for advanced training in prehospital ultrasound. Four ultrasound fellowship trained emergency physicians proctored two three-hour training sessions. Each session included a brief introduction to ultrasound “knobology,” normal sonographic neck and lung anatomy, and how to identify ETT placement within the trachea or esophagus. Immediately following this, the paramedics were tested with five simulated case scenarios using pre-obtained images that demonstrated a correctly placed ETT, an esophageal intubation, a bronchial intubation, and an improperly functioning ETT. Their accuracy, length of time to respond, and comfort with using ultrasound were all assessed.Results:All 20 critical care medics completed the training and testing session. During the five scenarios, 37/40 (92.5%) identified the correct endotracheal placements, 18/20 (90.0%) identified the esophageal intubations, 18/20 (90.0%) identified the bronchial intubation, and 20/20 (100.0%) identified the ETT malfunctions correctly. The average time to diagnosis was 10.6 seconds for proper placement, 15.5 seconds for esophageal, 15.6 seconds for bronchial intubation, and 11.8 seconds for ETT malfunction.Conclusions:The use of ultrasound to confirm ETT placement can be effectively taught to critical care medics using a short, simulation-based training session. Further studies on implementation into patient care scenarios are needed.

Nebulized dexmedetomidine improves pulmonary shunt and lung mechanics during one-lung ventilation: a randomized clinical controlled trial

Background Dexmedetomidine (Dex), a selective a2-adrenergic receptor agonist, has been previously reported to attenuate intrapulmonary shunt during one-lung ventilation (OLV) and to alleviate bronchoconstriction. However, the therapeutic effects of nebulized Dex on pulmonary shunt and lung mechanics during OLV have not been evaluated. Here we determine whether nebulized dexmedetomidine improved pulmonary shunt and lung mechanics in patients undergoing elective thoracic surgery in a prospective randomized controlled clinical trial. Methods One hundred and twenty-eight patients undergoing elective thoracoscopic surgery were included in this study and randomly divided into four groups: 0.9% saline (Placebo group), 0.5 µg/kg (Dex0.5 group), 1 µg/kg (Dex1 group) and 2 µg/kg (Dex2group) dexmedetomidine. After bronchial intubation, patients received different nebulized doses of dexmedetomidine (0.5 µg/kg, 1 µg/kg and 2 µg/kg) or 0.9% saline placebo during two-lung ventilation(TLV). OLV was initiated 15 min after bronchial intubation. Anesthesia was maintained with intravenous infusion of cisatracurium and propofol. Bispectral Index values were maintained within 40–50 by adjusting the infusion of propofol in all groups. Arterial blood gas samples and central venous blood gas samples were taken as follows: 15 min after bronchial intubation during two-lung ventilation (TLV15), after 30 and 60 min of OLV (OLV30and OLV60, respectively) and 15 min after reinstitution of TLV (ReTLV). Dynamic compliance was also calculated at TLV15, OLV30, OLV60 and ReTLV. Results Dex decreased the requirement of propofol in a dose-dependent manner(P = 0.000). Heart rate (HR) and mean arterial pressure (MAP) displayed no significant difference among groups (P = 0.397 and 0.863). Compared with the placebo group, Dex administered between 0.5 and 2 µg/kg increased partial pressure of oxygen (PaO2) significantly at OLV30 and OLV60(P = 0.000); however, Dex administered between 1 and 2 µg/kg decreased pulmonary shunt fraction (Qs/Qt) at OLV30 and OLV60(P = 0.000). Compared with the placebo group, there were significant increases with dynamic compliance (Cdyn) after OLV in Dex0.5, Dex1 and Dex2group(P = 0.000). Conclusions. Nebulized dexmedetomidine improved oxygenation not only by decreasing pulmonary shunt but also by improving lung compliance during OLV, which may be effective in managing OLV.

Use of the Microcuff® During General Anesthesia for Patients With Scoliosis

Scoliosis may often be associated with a variety of cardiovascular and respiratory conditions or diseases, and depending on the severity of the spinal deformity, it may also complicate anesthetic management because of the difficulty of neck extension and tracheal deformity. Therefore, patients with scoliosis may require careful perioperative anesthetic considerations. A 14-year-old girl was scheduled to undergo extractions and restorative treatment for dental caries under general anesthesia. Her medical history was significant for intellectual disability and autism as well as previously undiagnosed scoliosis. After fixation of a 6.0 Portex® endotracheal tube (ETT), percutaneous oxygen saturation (SpO2) decreased to 93%, peak airway pressures increased, and unilateral lung ventilation was noted. Inadvertent mainstem bronchial intubation was immediately suspected, prompting removal of the Portex ETT and reintubation with a shorter 6.0 Microcuff® ETT. The dental treatment was completed successfully without further incident. Assessment of the ETTs used intraoperatively led to the determination that the distance from the glottis to the carina was considerably shorter than normal for this patient. It was speculated that the Microcuff ETT may be optimal for anesthetic management of scoliosis patients because of its shorter lengths compared with other style ETTs, which may reduce the risk of bronchial intubation in such cases.

A rare case of male Turner syndrome for penetrating keratoplasty

<p class="abstract"><span lang="EN-IN">Turner syndrome (TS) is a complex genetic disorder. These abnormalities especially those relating to the airway and cardiovascular system, pose a challenge to the anaesthesiologist. The main anatomo-physiological changes pertaining to the anaesthesiologist include a short neck, maxillary and mandibular hypoplasia which might be responsible for difficult airway. The shorter length of trachea as well as higher location of its bifurcation predispose to bronchial intubation and accidental endotracheal extubation when tracheal cannula is under traction. The presence of cardiopathies, endocrine and gastro intestinal disorders, liver and kidney changes as well as osteoarticular involvement besides ophthalmologic and hearing impairments are very frequent and should be detected during pre-anaesthetic evaluation. The incidence of TS is variously reported as 1:3000 to 1:10000 live (female) births. Very few cases of male turner have been reported in literature</span><span lang="EN-IN">. </span></p><p class="abstract"> </p>

Application of Selective Bronchial Intubation versus Neurally Adjusted Ventilatory Assist in the Management of Unilateral Pulmonary Interstitial Emphysema: An Illustrative Case and the Literature Review

In the treatment of left-sided pulmonary interstitial emphysema (PIE) in a 23-week neonate, we used two ventilatory strategies: selective bronchial intubation from day 10 to 15 and neurally adjusted ventilatory assist (NAVA) from day 18 to 26. We compared the effects and adverse effects of these two strategies. On selective bronchial intubation, desaturation was frequent. Fentanyl infusion was required. There was an episode of carbon dioxide retention coupled with hypotension. On NAVA, the neonate was clinically stable without the requirement of sedation. On selective bronchial intubation, ventilator setting in terms of mean airway pressure and oxygen requirement was higher, which came down on the first day of NAVA. Radiologically unilateral PIE did not resolve and became localized in the left middle zone of lung field on selective bronchial intubation. Also, the lobar collapse of ipsilateral, as well as contralateral lungs occurred. On NAVA, unilateral PIE resolved. NAVA might be a good option for the management of unilateral PIE.