Introduction
Case report
Discussion
Conclusion

INTRODUCTION

Air embolisms are characterized as unwanted air in the vascular system with potentially devastating morbidity and mortality.
¹
More commonly associated with intravascular catheters, these events have been rarely reported in a variety of endoscopic procedures.
²
Although there are potentially devastating consequences of cerebral air embolisms (CAE), rapid diagnosis and treatment improves chances of recovery.
³
Therefore, this rare complication should be considered in patients presenting for focal neurological deficits after endoscopic procedure.

CASE REPORT

A 90-year-old woman presented to the emergency department (ED) from an outpatient surgical center after undergoing an esophagogastroduodenoscopy (EGD) with right gaze deficit, left upper extremity flaccid paralysis, and aphasia. The patient received fentanyl and midazolam for sedation during the EGD, which were reversed with naloxone and flumazenil prior to arrival to the ED.

The patient’s presenting vital signs were a temperature of 36.8° Celsius, heart rate of 75 beats per minute, respiratory rate of 16 breaths per minute, blood pressure of 130/75 millimeters of mercury, and pulse oximetry at 100% on room air. The physical exam was significant for forced gaze to the right, left lower facial weakness, left upper and lower extremity flaccid paralysis. The patient was able to intermittently follow commands but could not speak. She was rapidly taken for imaging. A computed tomography (CT) head without contrast found several sub-centimeter air embolisms in the right frontal parietal region (Image 1).

There was no evidence of intracranial hemorrhage or mass effect. A CT angiography of the head and neck did not reveal large vessel occlusions. A CT head with contrast found scattered right frontal, parietal, and temporal perfusion abnormalities compatible with ischemia (Image 2). Upon her return from imaging, the patient had seizure activity with rhythmic movement of the right upper extremity. The patient was treated with multiple doses of benzodiazepines and levetiracetam. She ultimately required intubation and was placed on a continuous infusion of midazolam.

Given the CT findings of CAE, the patient was placed in the left lateral Trendelenburg position, the fraction of inspired oxygen (FiO₂) was maximized to 100%, and dexamethasone was given upon recommendation from the neurologist. A transthoracic echocardiogram found a normal ejection fraction, no patent foramen ovale, and no other significant findings. An electroencephalogram found no evidence of non-convulsive status epilepticus. The patient was transferred to a higher level of care for hyperbaric oxygen (HBO) therapy. Per the patient’s family, the patient did not have improvement at the tertiary hospital and was placed on comfort care.

DISCUSSION

Cerebral air embolisms have been reported in a variety of endoscopic procedures; however, they remain uncommon. A recent review of inpatient procedures found a rate of 0.57/100,000 endoscopic procedures and specifically 0.44/100,000 for EGD.
⁵
A review of recent literature found a case of CAE presenting as a tonic-clonic seizure in a 52-year-old man during an EGD and a 71-year-old man presenting with hemiparesis and dysarthria two hours after undergoing EGD.
<sup>6

,

7</sup>
In total there appear to be only 13 reported cases of CAE after EGD, reinforcing its rarity.
⁸

There are a variety of proposed mechanisms by which gas can enter vasculature during endoscopy including through the portal vein, exposed gastrointestinal vessels, or through adjacent veins of inflamed mucosa.
²
Theories on how air reaches the arterial system, and specifically the central nervous system, include paradoxical embolization through heart shunts such as a patent foramen ovale, retrograde flow through the superior vena cava, and through pulmonary veins if not filtered by the pulmonary system.
⁸
The air then causes ischemia and injury by directly occluding vessels or by initiating an inflammatory cascade leading to thrombus formation.
⁹

Although exceedingly rare, air embolism should be suspected in any patient with acute neurologic changes after an endoscopic procedure. A CT head may show evidence of cerebral gas embolism, as in this case. Gas may also be reabsorbed quickly and not be evident on imaging. Treatments include the following: 100% FiO₂ to reduce bubble volume and increase diffusion gradient; placement in the left lateral Trendelenburg position; and HBO.
³
Hyperbaric oxygen therapy is the most critical intervention; if started within five hours, HBO can double the chances of full recovery.
¹⁰

CONCLUSION

Air embolisms are a rare but potentially devastating event. Air embolisms should be considered in patients who present to the ED with acute neurologic changes, especially after an endoscopic procedure. Rapid identification and treatment can lead to improved outcomes for the patient, highlighting the importance of increased awareness of this condition.

Footnotes

Section Editor: Christopher Sampson, MD

Full text available through open access at http://escholarship.org/uc/uciem_cpcem

Conflicts of Interest: By the CPC-EM article submission agreement, all authors are required to disclose all affiliations, funding sources and financial or management relationships that could be perceived as potential sources of bias. James Whall, Eli Besser, Jaymes Lonzanida, and Ryan Roten are members of California ACEP.

Address for Correspondence: James Whall, MD, Desert Regional Medical Center, Department of Emergency Medicine, 1150 N. Indian Canyon Dr., Palm Springs, CA 92262. Email: James.Whall@tenethealth.com
8:46 – 48

Submission history: Revision received May 15, 2023; Submitted October 27, 2023; Accepted November 2, 2023

The authors attest that their institution requires neither Institutional Review Board approval, nor patient consent for publication of this case report. Documentation on file.

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