In May 2000, Raul Silva was involved in a motorcycle accident in Baja California, Mexico, badly breaking his left femur, or thighbone. He underwent emergency surgery in Mexicali and, at first, everything seemed fine. Then an infection set in worsened, and Silva eventually made his way to San Diego, where his left leg was amputated.

A few months ago, a doctor referred Silva to Krishnan Chakravarthy, MD, a pain management specialist at UC San Diego Health, a two-hour drive from Silva's home. Chakravarthy is one of just a handful of San Diego physicians who have undergone specialized training to implant a new pain management device, Abbot's Proclaim DRG Neurostimulator System for dorsal root ganglion (DRG) stimulation.

The DRG is a bundle of sensory nerves that transmit information to the brain. The new device stimulates the DRG, disrupting the transmission of pain signals. The battery-powered device is implanted in a patient's back, where it sends out mild electrical pulses through thin wires connected to the DRG. The device communicates with a handheld, iPad-like device via Bluetooth wireless technology, allowing the patient to control the strength of the stimulation.

DRG therapy is designed for people with untreatable complex regional pain syndrome in the lower limbs, a condition that typically results from an injury or surgery. This type of pain can be so debilitating and life-changing that patients sometimes refer to it as "the suicide disease."

Under Chakravarthy's care, Silva became UC San Diego Health's first patient to test the device. In October 2018, he had a temporary device placed for a one-week testing phase. During that time, Silva said his pain completely disappeared.

Magnetic resonance imaging

For the first time in 18 years, he actually felt like an amputee because he could no longer feel the phantom leg. Silva could wear his prosthetic leg without any pain or discomfort, making it much easier for him to get around. His sciatic pain went away, too. He didn't feel the need to take any pain medication.

"It was heaven," Silva said. "This is the best thing to happen to me since the amputation." The DRG stimulation device is similar to traditional spinal cord stimulators, in which an implanted device stimulates the spinal cord.

But the spinal cord is surrounded by more cerebral spinal fluid than the DRG, and that can disrupt the current and cause unwanted stimulation or motor activation. The DRG is predictably located at each spinal level, allowing health care providers to treat a broader range of pain types and specifically target the painful region.

The DRG stimulation device's Bluetooth capabilities also give patients more control over their pain management. Unlike previous generations of neurostimulators, the new DRG device is compatible with magnetic resonance imaging (MRI).

And while many patients with traditional spinal cord stimulators need to spend 45 minutes per day charging batteries, the DRG device does not need to be recharged, thanks to a special battery that holds a large, single charge. Additionally, the DRG only requires very small doses of energy to treat pain.

In a randomized trial, 74 percent of patients who received DRG stimulation achieved meaningful pain relief and greater treatment success, compared to 53 percent of patients who received traditional spinal cord stimulation. Those results were published in April 2017 in the journal Pain.

"With DRG stimulation, I think we will finally be able to bring relief to many patients with chronic lower limb pain who haven't responded to medications or spinal cord stimulation," Chakravarthy said. "So far, the results we've seen are amazing." Silva is looking forward to having Chakravarthy implant the DRG stimulation device permanently.

"I would rather try something new than do nothing," he said. "And someone has to be first to do something new, so others can benefit. I hope my experience can help others know that they aren't the only ones living in pain and that there are options like this."