We listen to what your body is telling us, then provide the biological resources it needs to heal. From student athletes to active professionals to those seeking relief later in life, we reduce pain and restore function through precision regenerative medicine.
Your spine contains cells, growth factors, and inherent repair mechanisms that conventional medicine often overlooks. We don't.
Every spine has three structural columns that share load, guide motion, and stabilize the whole. Treating one while ignoring the others is the most common reason regenerative spine treatments fail. Our process was built to address all three.
We use diagnostic injection mapping alongside advanced imaging to identify the precise pain generator. Not the level. The structure. A specific facet, a specific annular tear, a specific ligament. That distinction changes everything about what happens next.
Learn more →Each tissue type has distinct regenerative requirements. Tendons need concentrated platelets. Ligaments respond to proliferant signaling. Cartilage may benefit from mesenchymal stem cells. We choose the therapy that matches the biological need of the damaged structure, not the one that's easiest to sell.
View treatments →We deliver concentrated biological material (growth factors, cytokines, mesenchymal signals) directly to the damaged tissue under image guidance. The local environment may shift from catabolic breakdown toward repair. The goal is structural recovery, not symptomatic suppression.
See the research →Every spine has three interdependent columns: disc, joints, nerves, and the surrounding soft tissue. We assess and treat all of them, because addressing only one is why so many treatments fail.
We match the therapy to the tissue. Each treatment delivers specific biological signals: growth factors, cellular resources, or structural reinforcement, precisely where your spine needs them.
Concentrated platelets delivering growth factors that trigger a targeted repair cascade in damaged spinal tissue.
Bone marrow concentrate providing mesenchymal stem cells with the potential to address advanced disc degeneration and support cartilage health.
Cell-based treatment delivering regenerative resources to support the local biology in shifting from breakdown toward repair.
Cell-derived signaling vesicles that modulate inflammation and support repair processes at the molecular level.
Controlled dextrose injection that stimulates ligament and tendon repair through the body's own healing cascade.
Fluoroscopic and ultrasound precision ensuring every regenerative treatment reaches its intended target.
Dynamic, real-time musculoskeletal imaging that reveals pathology static scans miss, performed by Dr. Crane.
Diagnostic and therapeutic procedures that identify the exact pain source before targeted treatment begins.
Ultrasound-guided fluid injection to free entrapped nerves and restore normal gliding and function.
Pressurized oxygen delivery that primes avascular spinal tissue for regeneration; a biological amplifier.
Acoustic energy waves that stimulate neovascularization and cellular repair in chronic musculoskeletal conditions.
Medical ozone applications that reduce oxidative stress and support tissue healing in degenerative spine conditions.
NMDA receptor modulation that interrupts central sensitization in refractory chronic spine pain.
Coordinated rehab protocols timed to the biological repair process; strengthening what regenerative medicine rebuilds.
Regenerative treatment for athletic spine and musculoskeletal injuries, from weekend warriors to professional athletes.
Comprehensive brain injury evaluation with targeted vestibular, oculomotor, and cervical rehabilitation.
"The traditional pharmaceutical model often prioritizes profit over patient well-being, offering temporary relief without addressing root causes. We focus on regenerative biologics: interventions that support the body's own healing processes."