Microguidewire

https://www.guerbet.com/en-us/products-solutions/medical-devices/axessio-peripheral-microguidewire

In a Experimental in vitro bench study using silicone vascular models Sakuta et al. from UCLA, Los Angeles & Jikei Univ, Tokyo (neurotrauma/neuroendovascular labs) published in the Interventional Neuroradiology Journal to assess whether stiffer microguidewires improve catheter trackability and reduce kickback during navigation in tortuous intracranial vessels. Increased microguidewire stiffness reduces required pushing force and diminishes wire kickback, thus improving catheter deliverability ¹⁾.

1. Methodology strength: Controlled in‑vitro design with reproducible silicone models is well‑suited to isolate stiffness effects.

2. Stiffness quantification: Using Stryker Synchro Select wire variants (Soft, Standard, Support) provides relevant clinical-grade comparison. However, the exact mechanical differences (e.g. bending modulus) are not detailed.

3. Force & kickback metrics: Objective measurements strengthen the analysis, but data on statistical significance, sample size, or measurement error is missing from abstract.

4. Model limitations: Silicone vasculature lacks tissue compliance, blood flow dynamics, and vessel elasticity—factors that could affect real‑world performance.

5. Clinical correlation: Results support anecdotal practice (stiffer wires help), but no in‑vivo or patient outcome data. Potential trade‑offs—like vessel trauma or perforation risk—are not addressed.

6. Bias risk: Industry‑sponsored use of proprietary wires may introduce bias; disclosure is absent.

Score: 6.5 / 10

Strengths: Experimental rigor, objective metrics, direct relevance to endovascular technique.

Weaknesses: Limited external validity, incomplete statistical detail, no safety assessment.

Stiffer microguidewires can ease catheter navigation in highly tortuous intracranial vessels by reducing kickback and required push forces. Use these findings to inform wire selection—balancing navigability with safety in complex anatomies.

This in vitro study confirms that guidewire stiffness improves tractability and decreases kickback during catheter delivery through tortuous vascular segments. Clinical validation and safety profiling remain essential before changing practice.

Corresponding author: Kenichi Sakuta, e‑mail coverage not listed in abstract/public data.