# Using Micro Electro Mechanical Systems to Detect the Air of Vaginal Discharge

> **NCT05557318** · NA · UNKNOWN · sponsor: **Taiwan Carbon Nano Technology Corporation** · enrollment: 120 (estimated)

## Conditions studied

- Vaginal Infection
- Vaginitis

## Interventions

- **DEVICE:** Vaginal swab for RT-PCR
- **DEVICE:** Vaginal swab for culture
- **DEVICE:** Metabolic gas signatures detected by Ainos Flora (operated by participant)
- **DEVICE:** Metabolic gas signatures detected by Ainos Flora (operated by medical staff)

## Key facts

- **NCT ID:** NCT05557318
- **Lead sponsor:** Taiwan Carbon Nano Technology Corporation
- **Sponsor class:** INDUSTRY
- **Phase:** NA
- **Study type:** INTERVENTIONAL
- **Status:** UNKNOWN
- **Start date:** 2022-10-08
- **Primary completion:** 2025-09
- **Final completion:** 2025-10
- **Target enrollment:** 120 (ESTIMATED)
- **Last updated:** 2024-04-10

## Collaborators

- [object Object]

## Primary source

ClinicalTrials.gov registry: https://clinicaltrials.gov/study/NCT05557318

## Citation

> US National Library of Medicine, ClinicalTrials.gov registration NCT05557318, "Using Micro Electro Mechanical Systems to Detect the Air of Vaginal Discharge". Retrieved via AI Analytics 2026-06-02 from https://api.ai-analytics.org/clinical/NCT05557318. Licensed CC0.

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