Functional Near Infrared Spectroscopy for Brain Injury

This trial tests a new brain monitoring technique during heart surgery to identify brain injuries. The researchers aim to use a non-invasive tool called multichannel functional near-infrared spectroscopy (fNIRS), which checks oxygen levels in different brain areas simultaneously. This could help detect issues like strokes or memory problems that might occur after surgery. The trial suits adults scheduled for planned heart surgeries. Participants will wear a special cap during their surgery, and their care will remain unchanged. As an unphased trial, this study offers participants the chance to contribute to groundbreaking research that could enhance surgical outcomes for future patients.

The trial information does not specify whether you need to stop taking your current medications. It's best to discuss this with the trial coordinators or your doctor.

Research has shown that multichannel functional near-infrared spectroscopy (fNIRS) is a safe and non-invasive method for monitoring brain oxygen levels during surgery. Studies have found that fNIRS is easy to use and provides real-time information about oxygen in brain tissue, allowing it to detect potential brain injury without causing harm or discomfort.

Researchers are excited about using multichannel fNIRS monitoring during cardiac surgery because it offers a non-invasive way to monitor brain activity in real-time. Unlike traditional methods that might require more invasive approaches or provide less detailed information, fNIRS uses near-infrared light to track blood flow and oxygen levels in the brain. This technique could potentially lead to better outcomes by giving surgeons immediate feedback on brain function, helping to prevent complications during and after surgery.

Studies have shown that multichannel functional near-infrared spectroscopy (fNIRS), which participants in this trial will experience, effectively monitors brain oxygen levels during tasks. This non-invasive technique measures oxygen levels in different brain regions. Research indicates that it can cover the entire brain, which is crucial for identifying brain injuries that might occur during heart surgery. Multichannel fNIRS holds promise because it may detect changes that current methods miss, especially in high-risk areas. Initial findings suggest it can enhance patient care by offering more detailed brain monitoring during surgery.¹²³⁴⁶