The antimicrobial efficacy and healing potential of clinically approved ferumoxytol nanozymes versus the standard 3% NaOCl irrigant will be evaluated in adults undergoing endodontic treatment. Building on prior protocols that demonstrated ferumoxytol nanozymes antimicrobial activity as a root canal irrigant, ferumoxytol solution will be applied topically, assessment of clinical and radiographical findings will determine its potential as a novel disinfection and its long-term outcome.
This study aims to fill critical knowledge gaps identified in prior clinical findings by optimizing the integration of nanozymes into endodontic workflows and thereby improving treatment outcomes for teeth with apical periodontitis. The study will evaluate the topical application of a low-dose ferumoxytol formulation (Feraheme/H2O2) within the prepared canal system of patients undergoing routine root canal therapy. Antimicrobial efficacy will be compared to the standard sodium hypochlorite irrigant via intracanal microbial sampling. Periapical tissue regeneration and long-term clinical outcomes will be assessed at 6-month and 1-year follow-up intervals using cone-beam computed tomography (CBCT).
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
TRIPLE
Enrollment
72
Experimental arm: topical intra-canal irrigation with ferumoxytol (Feraheme®) diluted to 6 mg/mL in 0.1 M sodium acetate, activated with 3% H₂O₂. The solution is instilled into an isolated, dried canal, physically agitated for \~60 s to promote nanozyme activation and convective mixing, held for a brief contact time (\<10 min), then aspirated per SOP; post-treatment intracanal sterile paper-point samples are collected. Topical nanozyme mechanism (catalytic ROS generation from low-dose H₂O₂), defined low topical dose and brief contact time (non-systemic).
Control arm: standard clinical irrigation with 3% sodium hypochlorite (NaOCl) using matched total volume and institutional activation method, with identical pre/post sampling and follow-up.
Penn Dental Medicine, Department of Endodontics
Philadelphia, Pennsylvania, United States
The change in bacterial count between the experimental group (Ferumoxytol/H2O2) and the standard of care (NaOCl) group.
By measuring reduction in bacteria colony forming units (CFU) before and after treatment for the experimental group (Ferumoxytol/H2O2) and the standard of care (NaOCl) group, then comparing the two groups. Samples 1-2 will be taken during the first root canal treatment visit. Sample 1 before cleaning or shaping the root canal. Sample 2 after cleaning and shaping of the root canal using laser or NaOCl. Sample 3 will be taken in the second visit, upon completion of final routine irrigation protocol.
Time frame: 1 Year
Periapical Bone Changes from Baseline in Periapical Radiographs at 6, 12, and 24 Months Follow Up
Periapical radiographs will be taken at baseline (preoperative) then at 6 months follow up post root canal filling. Radiographically, Following periapical index (PAI) by Órstavik 1986, description of radiographic findings: 1. Normal periapical structures. 2. Small changes in the bone structure. 3. Change in the bone structure with mineral loss. 4. Periodontitis with a well-defined radiolucent area. 5. Severe periodontitis with exacerbating features. Success is defined as either complete (radiographic resolution of a periapical lesion - the radiographic sign of inflammatory processes surrounding a root tip) or incomplete healing (scar tissue formation) and failure includes uncertain healing (radiographic reduction of a periapical lesion or same lesion size) or unsatisfactory healing (increase in lesion size) as determined on the radiograph.
Time frame: 2 Years
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