An 82-year-old man was referred to our hospital for heart failure due to severe mitral regurgitation and severe tricuspid regurgitation. We performed mitral annuloplasty and tricuspid annuloplasty (TAP). Three weeks after surgery, he developed hemolytic anemia (HA). Transesophageal echocardiography revealed a defect in the left ventricular outflow tract that communicated directly with right atrium, and the jet was striking with the TAP prosthetic ring. HA was not controlled, so we performed re-operation. The defect was found in the atrioventricular membranous septum. The defect was closed and TAP was performed using an autologous pericardial roll again. We report a rare case of acquired left ventricular to right atrium communication after TAP.

Background: Video laryngoscopy is beneficial in difficult airway intubation; however, various factors complicate the process. These devices come in different designs, and their usefulness may vary by type. In this study, we compared the effectiveness of several video laryngoscopic .instruments across three simulated difficult intubation scenarios using manikin models. Methods: Training simulators for tracheal intubation were set to four conditions: (i) Normal (mouth opening:50 mm, normal neck); (ii) Head tilt disorder (mouth opening: 50 mm, rigid neck); (iii) Trismus (mouth opening:20 mm, normal neck); and (iv) Head tilt disorder + trismus (mouth opening: 20 mm, rigid neck). Seventeen dental anesthesiologists attempted oral tracheal intubation using the following video laryngoscopes: Airway Scope;McGRATH (Normal blade [size 3]); McGRATH (X-blade); and i-view. Evaluated parameters included total intubation time, glottic visualization time, tube induction time, success rate, and difficulty grading of tracheal intubation (Cormack-Lehane classification and the Numerical Rating Scale [NRS]). Statistical analysis was conducted using mixed models, incorporating two-way ANOVA, Tukey’s test, two-way ANOVA without repeated measures, and Kruskal-Wallis test, with P < 0.05 deemed statistically significant. Results: Intubation time using i-view was significantly longer for head tilt disorder and trismus compared to other video laryngoscopes (head tilt disorder: P < 0.001 for all, trismus: P = 0.021 vs. Airway Scope, P = 0.028 vs. X-blade). The Cormack-Lehane grade was notably high (P = 0.001) for tracheal intubation with i-view in the head tilt disorder scenario, with intubation failing in three cases. In the combined situation of head tilt disorder and trismus, intubation time with Airway Scope was shorter (P < 0.001 vs. X-blade), achieving a success rate of 100%. However, all attempts with i-view were unsuccessful. The NRS score was significantly higher for i-view compared to the other video laryngoscopes (P < 0.001). Conclusion Video laryngoscopy effectiveness varies by type in difficult tracheal intubation cases. The Airway Scope or McGRATH instrument appears more suitable for such cases, as indicated by the metrics of intubation time, success rate, and difficulty level.

Background: Video laryngoscopy is beneficial in difficult airway intubation; however, various factors complicate the process. These devices come in different designs, and their usefulness may vary by type. In this study, we compared the effectiveness of several video laryngoscopic .instruments across three simulated difficult intubation scenarios using manikin models. Methods: Training simulators for tracheal intubation were set to four conditions: (i) Normal (mouth opening:50 mm, normal neck); (ii) Head tilt disorder (mouth opening: 50 mm, rigid neck); (iii) Trismus (mouth opening:20 mm, normal neck); and (iv) Head tilt disorder + trismus (mouth opening: 20 mm, rigid neck). Seventeen dental anesthesiologists attempted oral tracheal intubation using the following video laryngoscopes: Airway Scope;McGRATH (Normal blade [size 3]); McGRATH (X-blade); and i-view. Evaluated parameters included total intubation time, glottic visualization time, tube induction time, success rate, and difficulty grading of tracheal intubation (Cormack-Lehane classification and the Numerical Rating Scale [NRS]). Statistical analysis was conducted using mixed models, incorporating two-way ANOVA, Tukey’s test, two-way ANOVA without repeated measures, and Kruskal-Wallis test, with P < 0.05 deemed statistically significant. Results: Intubation time using i-view was significantly longer for head tilt disorder and trismus compared to other video laryngoscopes (head tilt disorder: P < 0.001 for all, trismus: P = 0.021 vs. Airway Scope, P = 0.028 vs. X-blade). The Cormack-Lehane grade was notably high (P = 0.001) for tracheal intubation with i-view in the head tilt disorder scenario, with intubation failing in three cases. In the combined situation of head tilt disorder and trismus, intubation time with Airway Scope was shorter (P < 0.001 vs. X-blade), achieving a success rate of 100%. However, all attempts with i-view were unsuccessful. The NRS score was significantly higher for i-view compared to the other video laryngoscopes (P < 0.001). Conclusion Video laryngoscopy effectiveness varies by type in difficult tracheal intubation cases. The Airway Scope or McGRATH instrument appears more suitable for such cases, as indicated by the metrics of intubation time, success rate, and difficulty level.

Background: Video laryngoscopy is beneficial in difficult airway intubation; however, various factors complicate the process. These devices come in different designs, and their usefulness may vary by type. In this study, we compared the effectiveness of several video laryngoscopic .instruments across three simulated difficult intubation scenarios using manikin models. Methods: Training simulators for tracheal intubation were set to four conditions: (i) Normal (mouth opening:50 mm, normal neck); (ii) Head tilt disorder (mouth opening: 50 mm, rigid neck); (iii) Trismus (mouth opening:20 mm, normal neck); and (iv) Head tilt disorder + trismus (mouth opening: 20 mm, rigid neck). Seventeen dental anesthesiologists attempted oral tracheal intubation using the following video laryngoscopes: Airway Scope;McGRATH (Normal blade [size 3]); McGRATH (X-blade); and i-view. Evaluated parameters included total intubation time, glottic visualization time, tube induction time, success rate, and difficulty grading of tracheal intubation (Cormack-Lehane classification and the Numerical Rating Scale [NRS]). Statistical analysis was conducted using mixed models, incorporating two-way ANOVA, Tukey’s test, two-way ANOVA without repeated measures, and Kruskal-Wallis test, with P < 0.05 deemed statistically significant. Results: Intubation time using i-view was significantly longer for head tilt disorder and trismus compared to other video laryngoscopes (head tilt disorder: P < 0.001 for all, trismus: P = 0.021 vs. Airway Scope, P = 0.028 vs. X-blade). The Cormack-Lehane grade was notably high (P = 0.001) for tracheal intubation with i-view in the head tilt disorder scenario, with intubation failing in three cases. In the combined situation of head tilt disorder and trismus, intubation time with Airway Scope was shorter (P < 0.001 vs. X-blade), achieving a success rate of 100%. However, all attempts with i-view were unsuccessful. The NRS score was significantly higher for i-view compared to the other video laryngoscopes (P < 0.001). Conclusion Video laryngoscopy effectiveness varies by type in difficult tracheal intubation cases. The Airway Scope or McGRATH instrument appears more suitable for such cases, as indicated by the metrics of intubation time, success rate, and difficulty level.