Acute airway obstruction due to postoperative retropharyngeal hematoma after anterior cervical fusion: a retrospective analysis

Anterior cervical decompression and fusion (ACF) is a generally performed surgical procedure for symptomatic radiculopathy of the cervical spine and myelopathy. Since its initial description and application by Robinson and Smith [1], long-term data indicate that this technique produces excellent results and it is now used extensively. Various ACF-related complications have been reported, including neurologic injury, vascular injury, postoperative infection, mechanical injury, and instrument-related problems [2‐5].

Acute airway obstruction (AAO) caused by a hematoma that compromises an airway is the most serious and fatal complication of ACF. The reported incidence of this complication ranges from 0.2 to 1.9% [5, 6]. Currently, no report has clearly elucidated the etiology, evaluation, treatment, or means of preventing AAO caused by a hematoma after ACF. Appropriate evaluation and treatment guidelines are required to prevent the airway complications of ACF. The objective of this study was to investigate the incidence of postoperative hematoma after ACF and the risk factors for its occurrence. With a better understanding of the risk factors involved, potential strategies to avoid this life-threatening complication could be formulated. This study also attempted to develop a systematic evaluation process, an appropriate therapeutic approach, and ways to prevent the complications of AAO.

The incidence of AAO was 1.15% (9/785). There were no fatalities or severe complications. None of the patients who developed AAO had preoperative risk factors, such as a bleeding tendency, a hemostatic abnormality, or anticoagulant therapy.

Classification of respiratory status showed that there were six patients in step 1, two patients in step 2, and one patient in step 3. Evaluation of the surgical site determined that there were three patients in step 1 and four patients in step 2; there were two patients in step 3 and both had facial edema. With regard to patient behavior, there were six patients in step 2 and three patients in step 3.

Five patients who did not undergo surgery improved on supplemental oxygen whilst placed in a sitting position under close observation. Four of the nine patients with dyspnea underwent surgery to remove the hematoma, and their dyspnea was relieved after surgery. In one patient, incorrect insertion of the drain after surgery caused AAO because the hematoma was not appropriately drained and compressed the airway. The patient recovered after removal of the hematoma and reinsertion of the drain. Two patients with inspiratory stridor and facial and neck edema required surgery under general anesthesia to remove the hematoma. One patient had a superficial jugular vein injury and another had an injury to the superior thyroid artery. The hematoma was removed, and the bleeding was controlled in both these patients.

Intubation was attempted to secure one patient’s airway due to cyanosis and a low respiratory rate. However, attempts to intubate the patient failed twice because of laryngeal edema. Therefore, cricothyrotomy was performed immediately and the patient’s breathing improved. After cricothyrotomy, the hematoma was removed in the operating room, and a diffuse intramuscular bleeding thought to be caused by an excessive retraction on the inner muscular layer during the previous operation was cauterized (Table 1). All of the patients recovered without any complications.

Although dyspnea after ACF is not common, it is a severe complication that can develop into hypoxemia and be fatal without appropriate treatment. There are a few reports concerning development of hematoma after anterior cervical surgery. Some authors have considered that vessel damage and intramuscular bleeding due to excessive traction during surgery are the main causes of the hematoma [6‐8]. Incorrect hemostasis of the vessels, including the vertebral artery, thyroid artery, and veins of the neck, has been reported as one of the causes of postoperative hematoma in these patients. Further, there are reports of dyspnea being caused by delayed bleeding associated with arterial aneurysms and venous thrombosis [7, 9]. In this study, we could not find the injured vessel during the second surgery, except in one case of injury to the jugular vein. We did not identify any specific risk factor for development of postoperative hematoma, possibly because of our small number of cases. However, we did find that postoperative hematoma could develop without any injury to specific vessels. Therefore, effective hemostasis and avoiding excessive traction intraoperatively are important in all patients. Detection and treatment of postoperative hematoma in the early stages are also important factors that can affect the outcome.

We identified a review article and some case reports on AAO after cervical spine surgery [10‐13], but no systematic report on the evaluation and management of AAO in these circumstances. Palumbo et al. classified airway compression into two types. The first is a potentially lethal condition that requires immediate intervention because patients are unable to breathe independently. In such situations, emergent intubation and removal of the hematoma at the bedside are mandatory. The second type of airway compression is not lethal and the patient is able to breathe, although the patient’s breathing should be supported with oxygen while the surgical team attempts intubation and removes the hematoma in the operating room. We perform an emergent airway procedure if the patient is cyanotic, has decreased blood pressure, and decreased oxygen saturation. Patients presenting with a non-lethal airway condition but with anxiety, fear, and increased sweating should be considered for surgery under general anesthesia. However, in the absence of severe respiratory distress, treatment to remove a hematoma could worsen the patient’s condition if breathing is stable and there is no anxiety. Therefore, we ask patients in this state to maintain a sitting position and provide them with oxygen. In addition to close observation, we prepare the surgery team to be on call in case the patient’s condition deteriorates.

Some reports have evaluated dyspnea according to time of occurrence [14‐16]. Dyspnea that occurs soon after surgery is thought to be caused by vessel damage, intramuscular bleeding, or tube malfunction. A delayed hematoma occurring 10 days after surgery or even after discharge from hospital may be caused by a pseudoaneurysm or bleeding from the vertebral artery or thyroid artery. A delayed hematoma can cause severe and potentially fatal complications if undetected or not treated. Therefore, it is important to counsel patients regarding this type of complication even though it is uncommon.

An effective and systematic therapeutic approach is required to obtain better results and achieve a better prognosis of following postoperative hematoma-related AAO. Treatment can be selected after early evaluation of the hematoma and the severity of dyspnea. In this study, we attempted to formulate a systematic method of evaluation, an appropriate therapeutic approach, and ways to prevent AAO as a complication of postoperative hematoma.

With rapid recognition and appropriate treatment, there were no long-term complications arising from postoperative hematoma. There were no specific preoperative risk factors for hematoma. To prevent postoperative hemorrhage, performing effective hemostasis during surgery and avoiding excessive traction that can lead soft tissue damage are recommended. Systematic evaluation and appropriate management can be helpful for preventing serious complications after formation of a postoperative hematoma.