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For years, chronic tendinopathy has been treated as a tendon problem — load it, strengthen it, remodel it. But what if, for some runners, the tendon itself isn’t the main driver of pain anymore?

In this episode, Brodie breaks down a new 2026 systematic review that may reshape how we think about stubborn, long-standing tendon pain. The paper explores whether nerve ingrowth and abnormal blood vessels around tendons — not degeneration of the tendon tissue itself — may be the real pain source in chronic cases.

We unpack the emerging research, explain each intervention in plain language, and discuss who this may (and may not) apply to — especially runners stuck in repeated rehab cycles despite “doing everything right.”

This is early, evolving science. But it’s a fascinating glimpse into where chronic tendon treatment may be heading next.

What You’ll Learn in This Episode

• Why some chronic tendon pain may be neuropathic (nerve-driven) rather than structural
• How abnormal blood vessels and nerves grow into painful tendons over time
• Why traditional loading programs sometimes stop working in very chronic cases
• What “neural modification” treatments aim to do — and why they’re gaining interest
• The six intervention categories reviewed in the paper (explained simply)
• How strong (or limited) the current evidence actually is
• Where this research fits alongside exercise-based rehab, not against it

Interventions Reviewed (Plain-English Overview)

1. High-Volume Injections (HVIGI / HVDI)

Large volumes of fluid are injected around the tendon (not into it) under ultrasound guidance to mechanically disrupt abnormal blood vessels and pain-sensitive nerves.

Key takeaway:
Consistent short- to medium-term pain and function improvements, especially in people who had failed exercise-based rehab.

2. Sclerosing Polidocanol Injections

A chemical agent is injected directly into abnormal blood vessels to deliberately close them down, cutting off blood supply to pain-producing nerves.

Key takeaway:
Moderate to strong pain reductions in very chronic cases, with outcomes comparable to surgery in some studies.

3. Radiofrequency Microtenotomy

A minimally invasive procedure using controlled heat to disrupt nerve ingrowth and abnormal vessels at the tendon–paratenon interface.

Key takeaway:
Very strong results in a small cohort, but higher risk and limited evidence so far.

4. Minimally Invasive Paratenon Release

Scar-like adhesions between the tendon and surrounding tissue are mechanically released to restore tendon movement and reduce nerve irritation.

Key takeaway:
Large pain reductions and high rates of pain-free outcomes in non-insertional Achilles tendinopathy.

5. Electrocoagulation Therapy

Electrical energy is used to seal off abnormal blood vessels surrounding the tendon under ultrasound guidance.

Key takeaway:
Promising early results, but evidence limited to one small study.

6. Surgical Interventions (Open & Endoscopic)

Surgery physically separates the tendon from irritated surrounding tissue and removes abnormal vessels and nerves.

Key takeaway:
Effective for some, but invasive, with longer recovery and higher risk.

The Big Picture Takeaway

Across very different procedures, outcomes were surprisingly similar.

That points to a common mechanism:
 👉 Modifying the neural (nerve-driven) pain environment around the tendon, rather than “fixing” tendon structure itself.

This doesn’t replace exercise-based rehab — but it may explain why a subset of runners with long-standing, highly sensitive tendinopathy stop responding to load alone.

This research is best viewed as a future direction, not a replacement for good rehab principles.