Nanoporous Anodic Alumina-Based Sensor for miR-99a-5p Detection as an Effective Early Breast Cancer Diagnostic Tool.

Iris Garrido-Cano, Luis Pla, Sara Santiago-Felipe, Soraya Simón, Belen Ortega, Begoña Bermejo, Ana Lluch, Juan Miguel Cejalvo, Pilar Eroles, Ramón Martínez-Máñez

March 2021 ACS Sens

Synopsis of Social media discussions

The overall discussions are enthusiastic, emphasizing the biosensor's innovative approach to early breast cancer detection, with phrases like 'rapid, cheaply, and accurately' indicating a focus on practical benefits and broad societal impact. References to the technology being a 'new biosensor device' and its potential as an 'effective diagnostic tool' reflect optimistic views that could drive further research and adoption.

A
Agreement
 Moderate agreement

Most discussions acknowledge the potential of the biosensor as an effective early diagnostic tool for breast cancer, with some posts emphasizing its innovation and promise.

I
Interest
 High level of interest

Participants display high interest by highlighting features like cost-effectiveness, rapid analysis, and early detection capabilities, attracting significant attention.

E
Engagement
 Moderate level of engagement

Posts mention specific aspects such as nanoporous alumina, biosensor development, and blood sample analysis, showing a moderate level of detailed engagement.

I
Impact
 Moderate level of impact

The discussions suggest that this technology could have a meaningful influence on early breast cancer detection, though actual clinical impact remains to be validated.

Social Mentions

YouTube

3 Videos

Twitter

6 Posts

News

14 Articles

Metrics

Video Views

801

Total Likes

38

Extended Reach

22,330

Social Features

23

Timeline: Posts about article

Top Social Media Posts

Posts referencing the article

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Nanoporous Alumina Biosensor for Early Breast Cancer Detection

Nanoporous Alumina Biosensor for Early Breast Cancer Detection

This video introduces a novel biosensor made from nanoporous anodic alumina that detects microRNA miR-99a-5p, linked to early breast cancer. It offers high sensitivity and selectivity, enabling effective differentiation between healthy individuals and early-stage patients, promising for early diagnosis.

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May 21, 2021

132 views

  • STEMM GLOBAL
    @StemmGlobal (Twitter)

    Researchers at Universitat Politècnica de València UPV have developed a new biosensor device: they use a liquid biopsy approach to rapidly, cheaply, and accurately analyse breast cancer biomarkers in blood samples. https://t.co/AcaR9hpGOk #breastcancer #biosensors #biomarkers
    view full post

    June 23, 2021

    1

  • Dr Anthony Martin
    @AMAinsight (Twitter)

    Nanoporous Anodic Alumina-Based Sensor for miR-99a-5p Detection as an Effective Early Breast Cancer Diagnostic Tool | ACS Sensors https://t.co/Lvh2J3wVCz
    view full post

    May 20, 2021

  • Tania Godoy
    @tagod93 (Twitter)

    Nanoporous Anodic Alumina-Based Sensor for miR-99a-5p Detection as an Effective Early Breast Cancer Diagnostic Tool https://t.co/6KGjV0atuV
    view full post

    May 20, 2021


  • @Palmarine128 (Twitter)

    RT @ACS_Sensors: #nanoporous anodic alumina #biosensor that can serve as an early #breast #cancer #diagnostic tool @IDM_UPV_UV. https://t.c…
    view full post

    February 24, 2021

    2

  • Invictus Samael
    @InvictusSamael (Twitter)

    RT @ACS_Sensors: #nanoporous anodic alumina #biosensor that can serve as an early #breast #cancer #diagnostic tool @IDM_UPV_UV. https://t.c…
    view full post

    February 24, 2021

    2

  • ACS Sensors
    @ACS_Sensors (Twitter)

    #nanoporous anodic alumina #biosensor that can serve as an early #breast #cancer #diagnostic tool @IDM_UPV_UV. https://t.co/uk3aDtvETX
    view full post

    February 24, 2021

    7

    2

Abstract Synopsis

  • The study introduces a new biosensor made from nanoporous anodic alumina that detects a specific microRNA (miR99a5p), which is linked to early breast cancer, with high sensitivity and selectivity.
  • The sensor works by loading pores with a dye and capping them with an oligonucleotide that prevents dye release; when miR99a5p is present, it displaces the cap, releasing the dye, which signals the presence of cancer.
  • This detection method can effectively differentiate between healthy individuals and early-stage breast cancer patients, making it a promising tool for early diagnosis.]