π¦Ά Morton's Neuroma
Expert chiropractic treatment in Richmond, KY β drug-free relief that addresses the root cause.
Morton's Neuroma: Understanding the Root Cause
Morton's Neuroma is a painful condition affecting the ball of the foot β most commonly between the third and fourth toes. It involves thickening of the tissue around the digital nerve, causing sharp, burning pain and a sensation of standing on a pebble or fold in your sock.
Common Causes
- β’Abnormal foot biomechanics β flat feet, high arches
- β’Wearing narrow or high-heeled footwear
- β’Repetitive high-impact activities
- β’Direct trauma to the metatarsal area
- β’Intermetatarsal bursitis
- β’Tight intrinsic foot muscles
- β’Gait abnormalities and overpronation
How Chiropractic Helps
We address Morton's Neuroma by correcting foot and ankle biomechanics, performing soft tissue work to release metatarsal compression, adjusting foot and ankle joints, and recommending appropriate footwear modifications β delivering natural relief without cortisone injections or surgery.
- Drug-free and non-invasive
- Most patients improve in 5β7 visits
- Safe for all ages including children
- Treats the root cause, not just symptoms
- Accepts all major insurance
Recognise the Signs of Morton's Neuroma
If youβre experiencing any of these symptoms, chiropractic care may provide the relief youβre looking for.
Burning forefoot pain
Numbness in toes
Feeling of a pebble in shoe
Sharp pain with walking
Toe cramping and tingling
Worsens in narrow footwear
Your Morton's Neuroma Treatment Plan
A clear, structured process designed to get you better and keep you better.
Assess
Comprehensive examination, health history, and on-site digital X-rays to identify the precise structural cause of your morton's neuroma.
Treat
A personalised treatment plan using chiropractic adjustments, physical therapy, and targeted modalities β often beginning on your first visit.
Recover
Progress tracking, home care guidance, and ongoing support to ensure lasting recovery. 90% of patients return to full, normal function.