Figure 1. Cross table view of patient showing massively dilated abdomen.

Figure 2. Chest x-ray showing air under diaphragm (arrow).

A 61-year-old man was transferred from another hospital for further care. He had a history of oxygen-dependent chronic obstructive pulmonary disease in addition to congestive heart failure, hypertension and diabetes mellitus. He had been seen earlier in the day at his primary care physician’s office for a routine visit. Although he was asymptomatic, emergency medical services (EMS) were called because of significant hypoxemia detected by pulse oximetry. EMS noted that the patient said he “feels OK”. However, a decision was made to intubate the patient. Multiple failed intubation attempts failed and he suffered a cardiopulmonary arrest. He was successfully resuscitated and underwent a cricotracheotomy with an uncuffed endotracheal tube. When transferred his mouth was taped shut and his nose clamped. His abdomen was markedly distended and tympanic (Figure 1). A supine chest x-ray showed air under the diaphragm. Abdominal exploration showed a ruptured stomach which was repaired. He made an uneventful recovery.

The difficult airway outside the operating room can be problematic. While preparation for airway control are made, preoxygenation should be performed (1). The patient should be placed in the “sniffing” position and mask ventilation performed. Appropriate positioning - with the tragus of the ear elevated parallel to the sternum - may require special preparation in obese patients. When adequate preoxygenation is accomplished endotracheal intubation can be attempted. However, when endotracheal intubation fails and/or mask ventilation is inadequate a variety of advanced intubation techniques can be considered including a laryngeal mask airway, fiberoptic intubation, cricothyroidotomy, or transtracheal jet ventilation (1).

Confirmation of proper endotracheal tube placement should be completed in all patients (2). Physical examination methods such as auscultation of chest and epigastrium, visualization of thoracic movement, and fogging in the tube are not sufficiently reliable to confirm endotracheal tube placement. During intubation, direct visualization of the endotracheal tube passing through the vocal cords into the trachea, especially with the use of a videolaryngoscope, constitutes firm evidence of correct tube placement. Use of an end-tidal carbon dioxide detector (i.e., continuous waveform capnography, colorimetric and non-waveform capnography) to evaluate and confirm endotracheal tube position should be performed.  For patients in cardiac arrest and for those with markedly decreased perfusion other methods of confirmation such as an esophageal detector device, ultrasound, or bronchoscopy should be used.

Robert A. Raschke, MD

University of Arizona College of Medicine Phoenix

Phoenix, AZ USA

References

1. Langeron O, Amour J, Vivien B, Aubrun F. Clinical review: management of difficult airways. Crit Care. 2006;10(6):243. [CrossRef] [PubMed]
2. American College of Emergency Physicians. Verification of endotracheal tube placement. January 2016. Available at: https://www.acep.org/Clinical---Practice-Management/Verification-of-Endotracheal-Tube-Placement/#sm.00004sk8v7vduedxxs618zbgnij0n (accessed 1/24/18).

Cite as: Raschke RA. Medical image of the week: stomach rupture. Southwest J Pulm Crit Care. 2018;16(1):53-4. doi: https://doi.org/10.13175/swjpcc008-18 PDF 

Michael B. Gotway, MD

Department of Radiology

Mayo Clinic Arizona

Scottsdale, AZ USA

Imaging Case of the Month CME Information  

Members of the Arizona, New Mexico, Colorado and California Thoracic Societies and the Mayo Clinic are able to receive  0.25 AMA PRA Category 1 Credits™. Completion of an evaluation form is required to receive credit and a link is provided on the last panel of the activity.

0.25 AMA PRA Category 1 Credit(s)™

Estimated time to complete this activity: 0.25 hours

Lead Author(s): Michael B. Gotway, MD. All Faculty, CME Planning Committee Members, and the CME Office Reviewers have disclosed that they do not have any relevant financial relationships with commercial interests that would constitute a conflict of interest concerning this CME activity. 

Learning Objectives:
As a result of this activity I will be better able to:    

1. Correctly interpret and identify clinical practices supported by the highest quality available evidence.
2. Will be better able to establsh the optimal evaluation leading to a correct diagnosis for patients with pulmonary, critical care and sleep disorders.
3. Will improve the translation of the most current clinical information into the delivery of high quality care for patients.
4. Will integrate new treatment options in discussing available treatment alternatives for patients with pulmonary, critical care and sleep related disorders.

Learning Format: Case-based, interactive online course, including mandatory assessment questions (number of questions varies by case). Please also read the Technical Requirements.

CME Sponsor: University of Arizona College of Medicine at the Arizona Health Sciences Center.

Current Approval Period: January 1, 2015-December 31, 2016

Financial Support Received: None.

Clinical History: A 19 year-old man with no previous medical history was vacationing when he was found down, intoxicated, surrounded by vomit. He went into cardiac arrest, and, after several minutes, cardiopulmonary resuscitation was initiated. He was intubated in the field, and epinephrine was administered.

Once at the hospital, frontal chest radiography (Figure 1) was performed.

Figure 1. Frontal chest radiograph.

Which of the following statements regarding the chest radiograph is most accurate?

1. The frontal chest radiograph shows central venous catheter malposition
2. The frontal chest radiograph shows focal consideration
3. The frontal chest radiograph shows pleural fluid loculated within the major fissures
4. The frontal chest radiograph shows pneumomediastinum
5. The frontal chest radiograph shows pneumothorax

Cite as: Gotway MB. April 2016 imaging case of the month. Southwest J Pulm Crit Care. 2016 Apr;12(4):137-46. doi: http://dx.doi.org/10.13175/swjpcc035-16 PDF

Figure 1. Axial thoracic CT scan showing air in the mediastinum (red arrow).

Figure 2. Coronal thoracic CT scan showing air in the mediastinum (orange arrow).

Figure 3. Axial thoracic CT scan showing air in the mediastinum (yellow arrow).

Figure 4. Axial thoracic CT scan showing pneumopericardium (blue arrow).

A 45 year old Caucasian man with a history of HIV/AIDS was admitted for septic shock secondary to right lower lobe community acquired pneumonia. The patient’s respiratory status continued to decline requiring emergency intubation in a non-ICU setting. Four laryngoscope intubation attempts were made including an inadvertent esophageal intubation. Subsequent CT imaging revealed a tracheal defect (Figure 1, red arrow) with communication to the mediastinum and air around the trachea consistent with pneumomediastinum (Figure 2, orange arrow and figure 3, yellow arrow). Pneumopericardium (figure 4, blue arrow) was also evident post-intubation. The patient’s hemodynamic status remained stable. Two days following respiratory intubation subsequent chest imaging revealed resolution of the pneumomediastinum and pneumopericardium and patient continued to do well without hemodynamic compromise or presence of subcutaneous emphysema. Post-intubation tracheal perforation is a rare complication of traumatic intubation and may be managed with surgical intervention or conservative treatment (1).

Nour Parsa MD, Konstantin Mazursky DO, Sepehr Daheshpour MD, Naser Mahmoud MD

Department of Medicine

University of Arizona

Tucson, AZ

Reference

1. Fan CM, Ko PC, Tsai KC, Chiang WC, Chang YC, Chen WJ, Yuan A. Tracheal rupture complicating emergent endotracheal intubation. Am J Emerg Med. 2004;22(4):289-93. [CrossRef] [PubMed]

Reference as: Parsa N, Mazursky K, Daheshpour S, Mahmoud N. Medical image of the week: tracheal perforation. Southwest J Pulm Crit Care. 2014;9(6):335-6. doi: http://dx.doi.org/10.13175/swjpcc159-14 PDF