The surgeons' view, via a fiber-optic camera and a thoracoscope inserted low in the chest, shows the curved ribs, the reddish intercostal muscles between them, and a fixation plate in the process of being attached to a rib to fix, or stabilize, it. After the bolts are secured, the thin cables they were suspended on are withdrawn through a small incision.
The fixation plate is attached to the inner surface of the rib using fiber optics, very small incisions, and a procedure Dr. Randy Haluck compares to building a ship in a bottle.
As chief of minimally invasive surgery at the Penn State Medical Center, Dr. Randy Haluck had a lot of experience using a thoracoscope to do surgery in the chest through very small incisions. He thought the scope could be adapted to repair broken ribs in a way that was much less traumatic to patients than the conventional procedure.
Dr. Peter Dillon, chief of surgery at Penn State Health Milton S. Hershey Medical Center and professor of surgery at Penn State College of Medicine, spurred the team to develop a minimally-invasive way to stabilize broken ribs.
Our ribs form a strong, flexible basket that encloses the lungs and heart. They move with every breath we take, and their delicate structure makes them susceptible to fractures, especially in the back. A new procedure invented at Penn State Health Milton S. Hershey Medical Center stabilizes a broken rib, speeds healing, and reduces the patient's pain.