Role of point of care ultrasound to determine the correct position of the nasogastric tube in intubated COVID -19 patients (original) (raw)
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Ultrasonographic Confirmation of Nasogastric Tube Placement in the COVID-19 Era
Journal of Personalized Medicine, 2022
Background: Nasogastric tube (NGT) placement is a daily routine in the Intensive Care Unit (ICU), and misplacement of the NGT can cause serious complications. In COVID-19 ARDS patients, proning has emerged the need for frequent NGT re-evaluations. The gold standard technique, chest X-ray, is not always feasible. In the present study we report our experience with the use of ultrasonographic confirmation of NGT position. Methods: A prospective study in 276 COVID-19 ARDS patients admitted after intubation in the ICU. Ultrasonographic evaluation was performed using longitudinal or sagittal epigastric views. Examinations were performed during the initial NGT placement and every time the patients returned to the supine position after they had been proned or whenever critical care physicians or nurses considered that reconfirmation was necessary. Results: Ultrasonographic confirmation of correct NGT placement was feasible in 246/276 (89.13%) patients upon ICU admission. In 189/246 (76.8%) ...
Comparison of Three Methods for NG Tube Placement in Intubated Patients in the Emergency Department
Original Article, 2021
Introduction: Tubular feeding is used, in patients who cannot take food through their mouths, but their digestive system is able to digest food. This method is safe and affordable for the patient and results in maintaining the function of the digestive system and reducing the risk of infection and sepsis. Objective: The purpose of this study was to compare the three methods of the NG tube placement in intubated patients in the emergency department. Methods: This study is a randomized, prospective clinical trial conducted between 2016 and 2018. 75 patients who had been referred to the emergency department were enrolled in the study and divided into three groups, to have their NG tube insertion using either the conventional method (Group C), or using brake cable (Group B) or applying Rusch intubation stylet (Group S) for highwayman's hitch or draw hitch. Results: The mean duration of NG tube insertion was not significant between three groups (p=0.459), but the mean duration of NG tube insertion in group B was 18.43 ± 2.71 seconds and less than the other groups. NG tube insertion by first attempt in the group B was associated with the highest success rate. There was no significant difference, however, in the success rate in NG tube insertion on first and second attempts (p=0.376, p=0.353). Conclusions: The use of brake cable as a guide wire during insertion of a nasogastric tube increases the success rate on first attempt. No meaningful difference, however, was noted in the overall success rate in NG tube insertion on first and second attempts.
Journal of Intensive Care, 2017
Abdominal X-rays, the diagnostic method for enteral feeding tube (EFT) positioning, are a source of irradiation for the patients and carry a potential risk of adverse effects. Data related to ultrasound (US)-guided EFT placement are scarce. We evaluated 41 patients with 41 EFT insertions with guidewire in place that was maintained until US examination. US detected 38 patients with proper positioning and 3 with inadequate positioning, with a sensitivity of 97% (95% CI 84.9-99.8%) and specificity of 100% (95% CI 19.7-100%). The assessment of EFT position through abdominal US is practical and safe, associated with satisfactory diagnostic accuracy.
The American journal of emergency medicine, 2018
Confirmation of the endotracheal tube placement (CoETP) has the utmost importance in the management of an airway. Visualization of tracheal rings or carina with a fiber-optical bronchoscope (FOB) has considered to be a reliable method for the CoETP. However, FOB is expensive, time-consuming, and not always practical. Inexpensive endoscopic USB-cameras were shown to aid intubation successfully and reliably. On the other hand, there have been no studies investigating their use for the CoETP. Tracheal ultrasonography (TUS) is also a new, inexpensive and widely available alternative. A cadaver study has planned to evaluate the diagnostic utility of TUS and a USB-camera. This study was conducted in the Anatomy Lab of a University on a fresh frozen female cadaver. Three senior Emergency Physicians have intubated the cadaver, and performed TUS or USB-endoscopy. We have prepared a randomized intubation list (n=96) in three blocks (3 times 32) as to include equal number of esophageal and tra...
Real-time tracheal ultrasonography for confirming endotracheal tube placement
Egyptian Journal of Bronchology, 2018
Objective To evaluate the accuracy of tracheal ultrasonography for confirming the endotracheal tube placement during patients' intubation. Patients and methods The current study was a prospective, randomized study performed at the ICU of Al-Hussein Hospital, Cairo. Intubated for respiratory failure, cardiac arrest or other medical causes were included in the current study. Real-time tracheal ultrasonography was conducted during intubation with the ultrasound probe placed transversely over the trachea above the suprasternal notch for confirming the tube position, either tracheal or esophageal. The standard method for confirming endotracheal tube placement include clinical evaluation and rapid bronchoscopic confirmation. The main outcomes were the degree of accuracy and timeliness of tracheal ultrasound in confirming endotracheal tube placement. Results Forty patients eligible for endotracheal intubation were randomized in the current study and only four (10%) patients had confirmed esophageal intubations. Our results concluded that tracheal ultrasound had a diagnostic accuracy of 97.5% in the detection of endotracheal tube site. The sensitivity was 97.2%, while the specificity was 100%. Tracheal ultrasound had a positive predictive value of 100%, while the negative predictive value was 80%. The total operating time of ultrasonography was significantly lower than that of bronchoscopy. Conclusion Real-time ultrasound of the trachea is an accurate, feasible, and fast method in confirming endotracheal tube placement.
BMC Gastroenterology
Background: Placement of nasogastric (NG) tubes is a common procedure for patients especially in intensive care units (ICUs). Thus, it is important to determine the correct placement of the tube to prevent misplacement in the airways. Accordingly, the aim of this study was to compare the epigastric auscultation and capnography in assessing the accuracy of NG tube insertion in ICU patients. Methods: In this descriptive comparative study, 60 patients were selected trough convenience sampling. After insertion of the NG tube in a standard method, the accuracy of placement of the tube with both epigastric auscultation and capnography was investigated. The NG tube insertion accuracy was then confirmed via radiography. Data analysis was performed using statistical software SPSS version 23. Results: The result showed that capnography had a sensitivity, specificity, and accuracy of 100, 92.5, and 95% respectively, but epigastric auscultation had 90, 80, and 83.4% respectively. The Kappa agreement coefficient between two methods was − 0.759. Conclusion: The results revealed that the use of the capnography is preferable over the epigastric auscultation to confirm the correct insertion of the NG tube. It is recommended that more than one method be applied to detect and confirm the correct insertion of the NG tube.
Critical ultrasound journal, 2013
Background In emergency settings, verification of endotracheal tube (ETT) location is important for critically ill patients. Ignorance of oesophageal intubation can be disastrous. Many methods are used for verification of the endotracheal tube location; none are ideal. Quantitative waveform capnography is considered the standard of care for this purpose but is not always available and is expensive. Therefore, this feasibility study is conducted to compare a cheaper alternative, bedside upper airway ultrasonography to waveform capnography, for verification of endotracheal tube location after intubation. Methods This was a prospective, single-centre, observational study, conducted at the HRPB, Ipoh. It included patients who were intubated in the emergency department from 28 March 2012 to 17 August 2012. A waiver of consent had been obtained from the Medical Research Ethics Committee. Bedside upper airway ultrasonography was performed after intubation and compared to waveform capnography. Specificity, sensitivity, positive and negative predictive value and likelihood ratio are calculated. Results A sample of 107 patients were analysed, and 6 (5.6%) had oesophageal intubations. The overall accuracy of bedside upper airway ultrasonography was 98.1% (95% confidence interval (CI) 93.0% to 100.0%). The kappa value (Κ) was 0.85, indicating a very good agreement between the bedside upper airway ultrasonography and waveform capnography. Thus, bedside upper airway ultrasonography is in concordance with waveform capnography. The sensitivity, specificity, positive predictive value and negative predictive value of bedside upper airway ultrasonography were 98.0% (95% CI 93.0% to 99.8%), 100% (95% CI 54.1% to 100.0%), 100% (95% CI 96.3% to 100.0%) and 75.0% (95% CI 34.9% to 96.8%). The likelihood ratio of a positive test is infinite and the likelihood ratio of a negative test is 0.0198 (95% CI 0.005 to 0.0781). The mean confirmation time by ultrasound is 16.4 s. No adverse effects were recorded. Conclusions Our study shows that ultrasonography can replace waveform capnography in confirming ETT placement in centres without capnography. This can reduce incidence of unrecognised oesophageal intubation and prevent morbidity and mortality.
International Journal of Evidence-Based Healthcare, 2011
Background Nasogastric (NG) tube is a device passed through the gastrointestinal tract of patients for the purpose of feeding, gastric decompression and medication administration. However, a small risk involved in the process is that the tube may be misplaced into the trachea during insertion or may get displaced at a later stage, leading to disastrous results. Recent adverse incidences arising out of the misplacement of NG tube raised concerns among the nursing and medical community and the Patient Safety Officer of the hospital. The Evidence Based Nursing Unit, in collaboration with some of the key nursing leaders in nursing administration, was tasked to explore and institute the current best practice in confirming the correct placement of NG tube.