• Silk used to create bone-fixing screws
    The new screws could prove a better course of treatment for healing broken bones

    Microscopy & microtechniques

    Silk used to create bone-fixing screws

    Pure silk has been used to create screws suitable for repairing bone fractures. Researchers from Tufts University School of Engineering and Beth Israel Deaconess Medical Center (BIDMC) have managed to create screws that are made of pure silk protein taken from the cocoons of silk worms. These new screws could be a better treatment alternative to traditional fixation devices.

    With certain bone fractures and breaks, screws are required to help with the bonding of the broken sections, which allows the bone to heal. Usually metal alloys are used to create the screws but these can be unyielding, which causes stress to the bone. They also increase the risk of infection and can affect the healing time of wounds.

    In some instances, these metal fixation devices have to be removed once the bone has healed, requiring a second surgery. While synthetic polymers can also be used to create screws for broken bones, they can be hard to place and can cause inflammatory reactions. 

    Researchers have created surgical plates and screws from silk protein that could offer both improved healing and bone remodelling. They can also be absorbed by the body, which means that patients will not have to undergo a second surgery once their fracture has healed. 

    The fixation devices were demonstrated in a rodent model and in vitro, the results of which have been published in 'Nature Communications'.

    Dr Samuel Lin, from the Division of Plastic and Reconstructive Surgery at BIDMC and associate professor of surgery at Harvard Medical School, said: "Unlike metal, the composition of silk protein may be similar to bone composition. Silk materials are extremely robust. They maintain structural stability under very high temperatures and withstand other extreme conditions, and they can be readily sterilised."

    The silk proteins were derived from Bombyx mori silkworm cocoons, it is then folded in a number of complex ways to create screws and plates that are versatile and incredibly strong. Some 28 silk-based screws were implanted in six rats within a laboratory, which was followed up by assessments as four and eight weeks following the initial procedure. 

    None of the screws failed when they were being implanted and they maintained their mechanical integrity. it is thought they could serve as a good alternative to traditional methods, which have a large number of possible complications.  


    Digital Edition

    Lab Asia 32.1 Feb 2025

    February 2025

    Chromatography Articles - Comparing volumetric and thermal flowmeters for assessing and validating liquid chromatography performance Mass Spectrometry & Spectroscopy Articles - The importa...

    View all digital editions

    Events

    SPS Smart Production Solutions Guangzhou

    Feb 25 2025 Guanghzou, China

    SmartLab Exchange

    Feb 25 2025 Amsterdam, Netherlands

    Nepal Lab

    Feb 27 2025 Kathmandu, Nepal

    PITTCON 2025

    Mar 01 2025 Boston, MA, USA

    IFPAC 2025

    Mar 02 2025 Bethesda, MD, USA

    View all events

    Redirecting you now.
    Labmate Awards Nominations - Open
    The Labmate Awards for Excellence 2025 seek to recognise innovation, quality and achievement wherever it occurs within the laboratory sector. Launching this year the Labmate Awards for Excellence 2025 will have eleven voting categories chosen to reflect the broad range of noteworthy contributions that have been made across our industry in the past 12 months. Nominate your company Now.