1. Forum
  2. tqwNet
  3. TQW_GENSCI

  • Biochip innovation combines AI and nanop

    From ScienceDaily@1337:3/111 to All on Wed Oct 7 21:30:48 2020
    Biochip innovation combines AI and nanoparticle printing for cancer cell analysis
    Low cost and ease of manufacturing allow for wide application in
    developing countries

    Date:
    October 7, 2020
    Source:
    University of California - Irvine
    Summary:
    Researchers describe how they combined artificial intelligence,
    microfluidics and nanoparticle inkjet printing in a device that
    enables the examination and differentiation of cancers and healthy
    tissues at the single-cell level.



    FULL STORY ========================================================================== Electrical engineers, computer scientists and biomedical engineers at the University of California, Irvine have created a new lab-on-a-chip that can
    help study tumor heterogeneity to reduce resistance to cancer therapies.


    ==========================================================================
    In a paper published today in Advanced Biosystems, the researchers
    describe how they combined artificial intelligence, microfluidics and nanoparticle inkjet printing in a device that enables the examination and differentiation of cancers and healthy tissues at the single-cell level.

    "Cancer cell and tumor heterogeneity can lead to increased therapeutic resistance and inconsistent outcomes for different patients," said
    lead author Kushal Joshi, a former UCI graduate student in biomedical engineering. The team's novel biochip addresses this problem by allowing precise characterization of a variety of cancer cells from a sample.

    "Single-cell analysis is essential to identify and classify cancer
    types and study cellular heterogeneity. It's necessary to understand
    tumor initiation, progression and metastasis in order to design
    better cancer treatment drugs," said co-author Rahim Esfandyarpour,
    UCI assistant professor of electrical engineering & computer science as
    well as biomedical engineering. "Most of the techniques and technologies traditionally used to study cancer are sophisticated, bulky, expensive,
    and require highly trained operators and long preparation times."
    He said his group overcame these challenges by combining machine learning techniques with accessible inkjet printing and microfluidics technology
    to develop low-cost, miniaturized biochips that are simple to prototype
    and capable of classifying various cell types.

    In the apparatus, samples travel through microfluidic channels with
    carefully placed electrodes that monitor differences in the electrical properties of diseased versus healthy cells in a single pass. The UCI researchers' innovation was to devise a way to prototype key parts of
    the biochip in about 20 minutes with an inkjet printer, allowing for
    easy manufacturing in diverse settings.

    Most of the materials involved are reusable or, if disposable,
    inexpensive.

    Another aspect of the invention is the incorporation of machine learning
    to manage the large amount of data the tiny system produces. This branch
    of AI accelerates the processing and analysis of large datasets, finding patterns and associations, predicting precise outcomes, and aiding in
    rapid and efficient decision-making.

    By including machine learning in the biochip's workflow, the team has
    improved the accuracy of analysis and reduced the dependency on skilled analysts, which can also make the technology appealing to medical
    professionals in the developing world, Esfandyarpour said.

    "The World Health Organization says that nearly 60 percent of deaths
    from breast cancer happen because of a lack of early detection programs
    in countries with meager resources," he said. "Our work has potential applications in single-cell studies, in tumor heterogeneity studies and, perhaps, in point-of- care cancer diagnostics -- especially in developing nations where cost, constrained infrastructure and limited access to
    medical technologies are of the utmost importance."

    ========================================================================== Story Source: Materials provided by
    University_of_California_-_Irvine. Note: Content may be edited for style
    and length.


    ========================================================================== Journal Reference:
    1. Kushal Joshi, Alireza Javani, Joshua Park, Vanessa Velasco,
    Binzhi Xu,
    Olga Razorenova, Rahim Esfandyarpour. A Machine
    Learning‐Assisted Nanoparticle‐Printed Biochip for
    Real‐Time Single Cancer Cell Analysis. Advanced Biosystems,
    2020; 2000160 DOI: 10.1002/adbi.202000160 ==========================================================================

    Link to news story: https://www.sciencedaily.com/releases/2020/10/201007123117.htm

    --- up 6 weeks, 2 days, 6 hours, 50 minutes
    * Origin: -=> Castle Rock BBS <=- Now Husky HPT Powered! (1337:3/111)