Fluorescent peptides help nerves glow in surgery
By By Scott LaFee | 08 Feb 2011
Accidental damage to thin or buried nerves during surgery can have severe consequences, from chronic pain to permanent paralysis. Scientists at the University of California, San Diego School of Medicine may have found a remedy: injectable fluorescent peptides that cause hard-to-see peripheral nerves to glow, alerting surgeons to their location even before the nerves are encountered.
The findings are published in the Feb. 6 advance online edition of the journal Nature Biotechnology.
Nerve preservation is important in almost every kind of surgery, but it can be challenging, said Quyen T. Nguyen, MD, PhD, assistant professor of Head and Neck Surgery and the study's corresponding author. ''For example, if the nerves are invaded by a tumor. Or, if surgery is required in the setting of trauma or infection, the affected nerves might not look as they normally would, or their location may be distorted.''
Nguyen and colleagues at the Moores Cancer Center developed and injected a systemic, fluorescently labeled peptide (a protein fragment consisting of amino acids) into mice. The peptide preferentially binds to peripheral nerve tissue, creating a distinct contrast (up to tenfold) from adjacent non-nerve tissues. The effect occurs within two hours and lasts for six to eight hours, with no observable effect upon the activity of the fluorescent nerves or behavior of the animals.
''Of course, we have yet to test the peptide in patients, but we have shown that the fluorescent probe also labels nerves in human tissue samples,'' Nguyen said. Interestingly, fluorescence labelling occurs even in nerves that have been damaged or severed, provided they retain a blood supply. The discovery suggests fluorescence labeling might be a useful tool in future surgeries to repair injured nerves.
Currently, the ability to avoid accidental damage to nerves during surgery depends primarily upon the skill of the surgeon, and electromyographic monitoring. This technique employs stimulating electrodes to identify motor nerves, but not sensory nerves such as the neurovascular bundle around the prostate gland, damage of which can lead to urinary incontinence and erectile dysfunction following prostate surgery.