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Magnetic Mini Mover Device for the Treatment of Pectus Excavatum

$825,332R44FY2016HLNIH

Magnets-In-Me, Llc, San Francisco CA

Investigators

Abstract

Project Summary Repair of pectus excavatum (sunken Chest) currently involves a major surgical repair accompanied by a 3-7 day post-operative hospital stay and outpatient treatment with prescription pain medication. We have created the Magnetic Mini-Mover System which utilizes magnetic force to reconfigure the patient's abnormal chest. The implanted magnet is placed during a 30-60 minute outpatient procedure and the patient usually goes home the same day on over-the-counter pain medication. The Magnetic Mini Mover System was most effective in treating the Pectus deformity in pre-pubertal patients but less effective in older teens with more rigid chest walls, so in the second trial we treated only pre pubertal patients. The device has been trialed in 25 patients where the concept works, but the means to anchor the implant to the sternum has proven problematic. The Magnetic Mimi Mover Device, currently consists of a neodymium iron boron disc magnet, (1.5 cm diameter x 3/16 in. thick) and a ferromagnetic focusing plate encased in a low-profile titanium shell. It is held in place on the sternum using woven titanium cables and a titanium backing plate. The cable is titanium alloy (Ti-6Al-4V ELI) of 7 wire strands wrapped into a cable then 7 cables each 0.0065? are wrapped together to given a woven cable of 0.05940? and 15.875? in length. This configuration was developed for commercially available orthopedic titanium cables. The external custom brace houses another rare- earth magnet that can be adjusted using a plastic housing built into the orthotic brace. Adjustments in the magnets distances will slowly pull the chest out over 24-36 months in a process similar to that used in orthodontics. The device is patented (US 8043290) and we are filing for modifications to the new design as well as the external brace. It has also and has obtained a Humanitarian Use Designation (08- 0200) from the FDA. We have completed our 1st clinical trial and in the midst of a 2nd multi- centered funded by the Office of Orphan Products at the FDA. In both trials we have had a difficulty designing the internal magnet, specifically attaching it to the sternum and developing a universal shape for both symmetrical and asymmetrical sternums. However the chest repairs were successful due to the encapsulation of the device on sternum. We are requesting funds to modify the design of the implanted magnet housing and the means of attaching it to the sternum. This will be the third and potentially the last design iteration before commercialization. During the last trial we learned the importance of including the effects of patient respirations as a test to determine the strength and viability of the implant. This study will evaluate and create: 1. A means to quantify the effects of patient respirations on the design of the new device 2. A locking mechanism on the implant that will best remain immovableof implant will best remain immovable on the sternum 3. A mechanism that will not injure the bone and cartilage on the sternum, 4. A mechanism fit best onto the bone disorder most noticeable on the sternum during the course of the two year trial.

View original record on NIH RePORTER →