FTCA Podcast #17 - Brett Winchester DC - Winchester Spine & Sport

Technicalities abound in this podcast!!  And they are all the host's fault.  Brett stopped his truck to do "podcasts from a truck", yet it was I that had mic problems, and had part of the podcast drop out.  And worst of all, I didn't even appropriately introduce our most esteemed guest!  We WILL have him back on to go further in depth.  

But for now, let us properly introduce you to Brett Winchester DC:

Dr. Brett Winchester lectures throughout the world, teaching his functional approach to patient care.  Combining manual therapy, including joint manipulation and neuromuscular stabilization, with therapeutic exercise, Dr. Winchester effectively treats functional pathologies and acts as a catalyst for patients working to enhance their performance.

Dr. Winchester is the founder of Winchester Spine & Sport located outside 

St. Louis, Missouri.  His current appointments include:

•St. Louis Cardinals Team Chiropractor

•Advanced biomechanics course instructor at Logan College of Chiropractic

•Instructor and board member for the Motion Palpation Institute

•Chiropractic Rehabilitation Diplomate instructor 

•Dynamic Neuromuscular Stabilization instructor trained by Pavel Kolar

•Gestalt Performance (owner)

Dr. Winchester’s published research includes topics such as offering a multidisciplinary approach for treatment of the pregnant population and foot dysfunction.  Various chiropractic journals have also featured Dr. Winchester for his patient-driven treatment model.  He also has authored two chapters for textbooks.

Dr. Winchester enjoys treating professional and collegiate athletes and has gained a reputation for his sports medicine background.  His expertise has placed him at the forefront of the ulnar collateral ligament rupture epidemic in professional baseball pitchers, providing insights into causation and effective treatment protocols.  Still, his passion remains with diagnosing and treating the ailments of a diverse patient population with conservative-based protocols.