Use of MRI to monitor the location of gadolinium injections in normal humans.

Abstract


Justin Dion Lavigne*, Rachel Candy, Michael Michael and Norma Oscar

Our previous study which monitored human muscular contractions with an accelerometer found out that the human muscles ran away from the electrical stimuli of an electromagnetic (EMG) needle. Thus, where the needle tip must likely end up every time is just outside of the fascia, or right in the subdermal bloodless space. The current study further explored the above hypothesis by using MRI to monitor the location of gadolinium injections. Using the initial prototype of the ASIS (Automatic Subdermal Injection System) device, gadolinium was successfully injected into the subdermal bloodless space in three out of three normal subjects’ glabellas. This innovation may have a major impact on the healthcare industry because bloodless injections imply longer-lasting medication, which will benefit most, if not all, injectable products.

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