Cushing Reflex - Differential Diagnosis

Differential Diagnosis

Whenever a Cushing reflex occurs, there is a high probability that death will occur in the near future (seconds to minutes). As a result, when a Cushing reflex is detected, immediate care is needed. Since its presence is a good detector of high ICP, it is often useful in the medical field, particularly during surgery. During any neurosurgery being performed on the brain, there is always a likelihood that raised intracranial pressure may occur. Early recognition of this is crucial to the well being of the patient. Although direct measurement of ICP is possible, it is not always accurate. In the past, physicians and nurses have relied on hemodynamic changes or bradycardia, the late phase of the reflex, to identify the ICP increase. Once the initial stage of the Cushing reflex (tachycardia combined with hypertension) was discovered, it offered a much more reliable and swift warning sign of high ICP. It was found that hypertension and tachycardia occurred 93% of the time when CPP dropped below 15 mmHg due to raised ICP. Also, the Cushing reflex is known to arise only from acute prolonged raises in ICP. Thus, it can be used as a tool by physicians to differentiate acute and chronic rises in ICP.

It has also reported that the presence of a Cushing reflex due to an ICP increase could allow one to conclude that ischemia has occurred in the posterior cranial fossa. Finally, the Cushing reflex may be one of many ways to identify if a patient has rejected a transplanted organ. Aside from the innate autoimmune response, ischemia in the cranial region has been detected with a transplanted organ that is being rejected. As such, the presence of a Cushing reflex due to ICP can indicate that ischemia may be occurring due to foreign organ rejection.

As first postulated by Harvey Cushing, raised intracranial pressure is the primary cause of the Cushing reflex. Furthermore, continued moderate increases in cranial pressure allows for the Cushing reflex to occur. In contrast, rapid and dramatic pressure rises do not allow for the mechanism of the reflex to sufficiently take place. Elevated intracranial pressure can result from numerous pathways of brain impairment, including: subarachnoid hemorrhages, ischemia, trauma, including concussions, hypoxia, tumors, and stroke. In one study, it was confirmed that raised ICP due to subarachnoid hemorrhaging causes mechanical distortion of the brainstem, specifically the medulla. Due to the mechanism of the Cushing reflex, brainstem distortion is then swiftly followed by sympathetic nervous system over activity. In addition, during typical neurosurgical procedures on patients, especially those involving neuroendoscopic techniques, frequent washing of the ventricles have been known to cause high intracranial pressure. The Cushing reflex can also result from low cerebral perfusion pressure (CPP), specifically below 15 mmHg. CPP normally falls between 70-90 mmHg in an adult human, and 60-90 mmHg in children.

Brain plateau wave changes are also associated with the Cushing reflex. These waves are characterized by acute rises of the ICP, and are accompanied by a decrease of the cerebral perfusion pressure. It has been found that if a Cushing reflex occurs, brain plateau wave changes can be erased due to disappearance of high ICP.