News Release

Magnets may help prevent rare complication of spinal anesthesia

Simple technique provides new approach to reducing risk of 'high spinal block'

Peer-Reviewed Publication

Wolters Kluwer Health

San Francisco, CA. (June 1, 2012) – An simple technique using local anesthetic mixed with magnetized "ferrofluids" may provide a new approach to preventing a rare but serious complication of spinal anesthesia, reports the June issue of Anesthesia & Analgesia, official journal of the International Anesthesia Research Society (IARS).

With further research, the magnet technique may provide a second means—in addition to gravity—of preventing "high spinal block," which occurs when spinal anesthetics spread to the upper portions of the spinal cord. The preliminary studies were performed by Dr Robert H. Thiele of University of Virginia Health Sciences Center, Charlottesville.

Magnetic Technique May Permit Gravity-Defying Anesthesia

Although very rare—occurring at a rate of about 0.6 per 1,000 cases—high spinal block is a serious complication of spinal anesthesia. It occurs when injected anesthetics travel too high in the spinal cord, interfering with the spinal cord fibers governing heart function. This can result in sharp drops in heart rate and blood pressure, with a risk of cardiac arrest and death.

Anesthesiologists currently prevent high spinal block by modifying the anesthetic dose and by positioning the patient so that gravity distributes the anesthetic to the lower portions of the spinal cord. "However, in certain instances, gravitational forces alone may not be sufficient to control block height," the researchers write. They evaluated a different approach: using magnetized anesthetic fluid and a weak magnetic field to control the spread of fluids.

Dr. Thiele and colleagues created a simple model of the spine using fluid-filled plastic tubing. They then prepared a local anesthetic solution with or without the addition of a water-based ferrofluid to magnetize the fluid. In this model, both fluids ran downward by gravity.

However, when a magnet placed outside the tubing, below the level of the needle, it halted the downward flow of magnetized fluid. In fact, when the magnet was moved, the fluid moved "uphill," against gravity. (A video demonstration can be viewed online at http://links.lww.com/AA/A377.)

Dr Thiele and coauthors believe that a similar technique using magnetized local anesthetic solution and exterior magnets could help to control the spread of spinal anesthesia during surgical procedures, thus providing a simple but effective additional safeguard against high spinal block. It might also be useful in controlling the spread of anesthetics in other situations—for example, spinal anesthesia on one side of the body.

Of course, much more research is needed before a concept demonstrated in plastic tubing can be applied in patients. Among the questions to be answered is the safety of the magnetic fluid—the ferrofluid used in the experiments is not approved for use in humans, although magnetic particles are used in other medical treatments.

Other issues include the quality of anesthesia and practical matters related to applying a magnetic field in the operating room. Pending further study, the new magnetic technique "may allow anesthesia providers a second means of controlling block spread," the researchers write.

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About the IARS

The International Anesthesia Research Society is a nonpolitical, not-for-profit medical society founded in 1922 to advance and support scientific research and education related to anesthesia, and to improve patient care through basic research. The IARS contributes nearly $1 million annually to fund anesthesia research; provides a forum for anesthesiology leaders to share information and ideas; maintains a worldwide membership of more than 15,000 physicians, physician residents, and others with doctoral degrees, as well as health professionals in anesthesia related practice; sponsors the SmartTots initiative in partnership with the FDA; and publishes the monthly journal Anesthesia & Analgesia in print and online.

About Anesthesia & Analgesia

Anesthesia & Analgesia was founded in 1922 and was issued bi-monthly until 1980, when it became a monthly publication. A&A is the leading journal for anesthesia clinicians and researchers and includes more than 500 articles annually in all areas related to anesthesia and analgesia, such as cardiovascular anesthesiology, patient safety, anesthetic pharmacology, and pain management. The journal is published on behalf of the IARS by Lippincott Williams & Wilkins (LWW), a division of Wolters Kluwer Health.


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