# Evaluation of different safety-engineered protection mechanisms of port access needles using a lifelike model of vascular access routes

**Authors:** Feline Gabler, Pierre Heiden, Peter Deibert, Daniel Steinmann

PMC · DOI: 10.3389/fmedt.2025.1505184 · Frontiers in Medical Technology · 2025-04-03

## TL;DR

This study compares the safety and usability of different port access needles to prevent needlestick injuries in healthcare workers.

## Contribution

The paper presents a systematic evaluation of safety-engineered port access needles using a lifelike model and user feedback.

## Key findings

- Gripstick® Safety OMT had the fastest activation time and highest single-handed activation rate.
- pps ct® Vygon was the most preferred device, with users citing safety and handling as key reasons.

## Abstract

Preventing needlestick injuries caused by hypodermic needles is crucial for healthcare personnel. In this context, port access needles play an important role. However, systematic comparisons of different safety-engineered port access needles have not been conducted. Therefore, we evaluated differences in product characteristics and user preferences of safety-engineered protection mechanisms of port access needles.

Port puncture was performed using port access needles with four different safety mechanisms: (a) EZ Huber™ PFM Medical, (b) Gripstick® Safety OMT, (c) Gripper Micro® Smiths Medical and (d) pps ct® Vygon. Each needle type was used in three consecutive tries: an uninstructed first handling, after which instructions were given according to operating manual. Subsequently, a first and second trial were conducted. Study endpoints included successful activation, activation time, way of activation (one hand or two hands), correct activation, possible risk of needlestick injury, possibility of deactivation and preferred safety mechanism.

Overall, successful activation rate during the second trial was equal for all four devices (100%). Median activation time was (a) 6 s, (b) 3 s, (c) 11 s and (d) 6 s. Single-handed activation during the second trial was (a) 0%, (b) 75%, (c) 1% and (d) 1%. Single-handed activation after further preparation with two hands during the second trial was (a) 0%, (b) 0%, (c) 0% and (d) 50%. Correct activation during the second trial was (a) 97%, (b) 66%, (c) 19% and (d) 44%. Possible risk of needlestick injury during the second trial was highest with (b). Possibility of deactivation was (a) 75%, (b) 94%, (c) 97% and (d) 22%. Individual preferences for each system were (a) n = 5, (b) n = 2, (c) n = 1 and (d) n = 24. The main written reasons given for preference were the safety protection mechanism and handling of the port needle.

We have shown significant differences regarding product characteristics of safety mechanisms of port access needles. Our evaluation approach provides specific data for both, technical (e.g., single-handed activation) and personal device selection criteria (e.g., preference of the safety mechanism).

## Full-text entities

- **Diseases:** needlestick injuries (MESH:D016602)

## Full text

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## Figures

2 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12003311/full.md

## References

29 references — full list in the complete paper: https://tomesphere.com/paper/PMC12003311/full.md

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Source: https://tomesphere.com/paper/PMC12003311