Postoperative delirium after cardiac surgery is an acute cerebral dysfunction characterized by inattention, impaired consciousness, and cognitive and orientation disturbances. It manifests clinically as acute onset, severe neurocognitive impairment, and periodic fluctuating progression, and is one of the most common complications after major cardiac and vascular surgery. It typically occurs within one week after surgery, with a peak incidence at 24 hours postoperatively. Due to differences in the basic characteristics of study populations and assessment tools, the reported incidence of postoperative delirium after cardiac surgery varies significantly, ranging from 14% to 50%. Postoperative delirium not only prolongs patients' ICU and hospital stays, increases medical costs, and raises short-term and long-term mortality rates, but is also closely associated with long-term cognitive impairment, dementia, and a decline in activities of daily living. The pathophysiology of delirium is complex and may be caused by a combination of multiple factors, including microembolism, ischemia-reperfusion injury, and systemic inflammatory response. Since the mechanisms underlying delirium are not yet fully understood, effective treatments are currently lacking. Postoperative delirium after cardiac surgery is a significant clinical challenge for medical teams. The brain is distinct from other organs, as the tight junctions of the blood-brain barrier isolate the exchange between the brain, cerebrospinal fluid, blood, and extracellular fluid. For a long time, it was believed that the brain lacks a lymphatic system, and the extracellular fluid in brain tissue was considered stagnant. The lack of fluid flow can lead to the accumulation of protein waste, which is very detrimental to brain health. The glymphatic system is a major update in the anatomical knowledge of the central nervous system in recent years. It is a highly organized fluid transport system within the human brain, with the primary function of promoting convective exchange between the interstitial fluid of the central nervous system and cerebrospinal fluid. The main physiological function of the glymphatic system is to clear metabolic waste and large-molecule solutes, thereby maintaining central homeostasis; it also acts as a communicator between the brain and peripheral immunity, ensuring that the central nervous system is not overlooked by the immune system. Additionally, the glymphatic system helps deliver nutrients to the brain, such as glucose, lactate, and amino acids. Dysfunction of the glymphatic system is associated with various neurological diseases, such as Alzheimer's disease and Parkinson's disease, and related research has become a frontier and hotspot in the field of neuroscience. Dysfunction of the glymphatic system leads to the accumulation of β-amyloid and tau proteins in the brain, which cannot be cleared, and is one of the pathogenic mechanisms of Alzheimer's disease. There is a strong bidirectional association between Alzheimer's disease and delirium. Patients with Alzheimer's disease-related dementia are 2.5 to 4.7 times more likely to experience delirium, and the incidence of newly diagnosed Alzheimer's disease-related dementia in patients with delirium increases by 12.5 times. However, the underlying mechanisms of postoperative delirium remain unclear, which has motivated our investigation into the causal relationship between the glymphatic system and postoperative delirium. From a theoretical perspective, chronic dysfunction of the glymphatic system signifies brain vulnerability and a higher incidence of neurological diseases. If subjected to surgical stress, sudden dysfunction may represent acute glymphatic system insufficiency. With the rapid development of clinical imaging tools, functional MRI is a non-invasive method for assessing glymphatic system function, bringing possibilities to clinical research. Therefore, this study aims to explore the association between postoperative delirium after cardiac surgery and the glymphatic system, in order to deepen the understanding of glymphatic system function and investigate the mechanisms of postoperative delirium after cardiac surgery, and to provide ideas for new interventions for postoperative delirium after cardiac surgery.
Age range
60 Years
Sex
ALL
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Postoperative delirium
Timeframe: Postoperative delirium was assessed on postoperative days 1 to 5