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NCT07422623
Hallux Valgus Correction Surgery Recovery Using Semiconductor Embedded Therapeutic Sleeves
NA trial testing Semiconductor embedded ankle sleeve and sock in Hallux Valgus Deformity in 115 participants. Not yet recruiting.
1 December 2026
Quick facts
| Lead sponsor | INCREDIWEAR HOLDINGS, INC. |
|---|---|
| Phase | NA |
| Status | Not yet recruiting |
| Study type | INTERVENTIONAL |
| Allocation | randomized |
| Design | parallel |
| Masking | double |
| Primary purpose | treatment |
| Enrollment | 115 |
| Start date | 17 February 2026 |
| Primary completion | 1 December 2026 |
| Estimated completion | 1 January 2027 |
Drugs / interventions tested
- Semiconductor embedded ankle sleeve and sock
- Placebo ankle sleeve and sock
Conditions studied
- Hallux Valgus Deformity — all drugs for Hallux Valgus Deformity →
Sponsor
INCREDIWEAR HOLDINGS, INC. — full company profile →
Who can join
Adults 18 to 75, any sex, with Hallux Valgus Deformity. Patients with the condition only — healthy volunteers not accepted.
Sponsor's own description
This study is looking to test a non-compressive semiconductor embedded ankle sleeve and sock for post hallux valgus correction surgery rehabilitation. Hallux valgus (HV), commonly known as a bunion, is one of the most prevalent forefoot deformities. It affects approximately 23% of adults aged 18 to 65 and 36% of those over 65. Given the high incidence of HV, various surgical correction methods have been developed, with first tarsometatarsal (TMT) arthrodesis (Lapiplasty Arthrodesis) and first metatarsophalangeal (MTP) arthrodesis demonstrating the highest success rates in restoring function and preventing recurrence. Post-surgical symptoms typically include pain, swelling, and tenderness, but with proper rehabilitation and preventive measures, patients generally return to activity within weeks to months.The semiconductor embedded fabric increases blood circulation through activation of the embedded elements with body heat while worn and releases far infrared waves as well as negative ions. This energy has an effect inside the body that increases oxygen and nutrient flow to tissues, and can help to decrease pain and inflammation. This study is testing this technology to see if it can be used as a non-pharmacological treatment for rehabilitation post hallux valgus correction surgery.
Publications & conference data
No peer-reviewed publications indexed yet for this trial.
Verify or expand the search:
- PubMed search for NCT07422623
- Europe PMC full search
- ASCO Meeting Library
- ESMO Meeting Library
- bioRxiv preprints
- medRxiv preprints
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Related trials
Other recruiting trials for Hallux Valgus Deformity
Currently open trials in the same condition.
- NCT07344077 — Comparing Outcomes Using 1 Versus 2 Kirshner Wire Fixation in Patients With Severe Hallux Valgus · NA · recruiting
Other INCREDIWEAR HOLDINGS, INC. trials
Trials by the same sponsor.
- NCT06846593 — The Comparison of Semiconductor Embedded Therapeutic Arm Sleeves for the Treatment of ECRB Tendinopathy · NA · enrolling by invitation
Verify against primary sources
- ClinicalTrials.gov — authoritative US registry record
- WHO ICTRP — international registry index
- EU Clinical Trials Register
- Sponsor press releases (Google)
- Trial protocol + status: ClinicalTrials.gov NCT07422623 (US National Library of Medicine, public domain)
- Drug + disease cross-links: matched in real time against Drug Landscape's normalised drug + company + condition tables
- Sponsor: as reported to ClinicalTrials.gov by INCREDIWEAR HOLDINGS, INC.
- Last refreshed: 20 February 2026
Drug Landscape aggregates and links these public records for informational use only. Always verify against the primary source before clinical or regulatory decisions. Canonical URL: https://druglandscape.com/trial/NCT07422623.
Primary sources · FDA · ClinicalTrials.gov · EMA · SEC EDGAR · ChEMBL · Wikidata · full sourcing