E.coli can turn plastic into painkillers, chemists discover
Scientists have found a way to use the bacteria E.Coli to convert plastic waste into a popular painkiller, a study said Monday, though outside experts doubted the technique would make a dent in the fight against plastic pollution.
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Paracetamol, which is one of the most commonly used drugs worldwide, is made from the derivatives of fossil fuels, often by Asia-based subcontractors using cheap, polluting methods that contribute to climate change.
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The world is also facing an escalating crisis of plastic pollution, with countries set for another bruising round of negotiations in August in the hope of sealing an international treaty to reduce plastic waste.
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The British team of researchers behind the new study sought to find a solution to the two problems by roping in a third — E.coli, which is normally known for making people sick when they eat contaminated food.
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First the chemists used a molecule derived from PET plastic, which is used in bottles and many other plastic products the world over, to spark a chemical reaction in a strain of E.coli.
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This created a molecule they called PABA, according to the Nature Chemistry study, which was partly funded by drug firm AstraZeneca.
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By genetically modifying the bacteria, the chemists were able to transform their molecule into acetaminophen, also known as paracetamol.
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'This work demonstrates that PET plastic isn't just waste or a material destined to become more plastic — it can be transformed by microorganisms into valuable new products, including those with potential for treating disease,' lead study Stephen Wallace said in a statement.
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Singaporean researchers not involved in the study praised how it combined synthetic and biological chemistry.
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But 'several practical considerations remain' to take this idea beyond the proof-of-concept stage, they wrote in a linked commentary in the journal Nature Chemistry.
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The chemical reaction produces only a limited amount of PABA molecules, which 'may be insufficient for industrial applications', they wrote.
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Melissa Valliant, communications director of the Beyond Plastics project of Bennington College in the United States, expressed scepticism.
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'These discoveries never scale up to anything significant enough to tackle the massive plastic pollution problem.'
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Some of the latest technologies and solutions from Smith+Nephew for joint repair include: REGENETEN ◊ Bioinductive Implant: With more than 150,000 procedures 1 completed globally since its introduction in 2014, the REGENETEN Bioinductive Implant has had a transformative impact amongst those having surgery for rotator cuff tears; demonstrating lower re-tear rates than reported compared to conventional techniques. 2-6 Backed by level one clinical evidence, 2 the collagen-based implant supports the body's natural healing response to facilitate the formation of new tendon-like tissue to biologically augment the existing tendon and change the course of rotator cuff tear progression. 7-12 CARTIHEAL ◊ AGILI-C ◊ Cartilage Repair Implant: Derived from a naturally occurring calcium carbonate known as aragonite, the CARTIHEAL Implant is a biphasic scaffold for cartilage repair and subchondral bone restoration. 13-15 Shown to deliver clinically meaningful post-operative improvements in pain, function and quality of life, * the CARTIHEAL Implant is the only device approved for the treatment of knee cartilage and osteochondral defects in patients with or without mild to moderate osteoarthritis (KL 0-3). 13,16 Q-FIX ◊ KNOTLESS All-Suture Anchor: Building on the long-standing success and performance of the Q-FIX Family for best-in-class anchor fixation strength, **,17-21 the new Q-FIX KNOTLESS All-Suture Anchor raises the bar for all-suture anchor technology. With proprietary features and capabilities, the Q-FIX KNOTLESS All-Suture Anchor aims to set a new benchmark for soft tissue security †,22 and offer surgeons a new option for soft tissue-to-bone fixation indications across multiple joint spaces. 'Our inaugural turn sponsoring select players during The Championships, Wimbledon in 2024 was a tremendous success supporting athletes from across the globe - including Jasmine Paolini all the way to the Ladies Final,' said Christie van Geffen, SVP Global Sports Medicine Marketing for Smith+Nephew. 'We were able to uniquely feature the Smith+Nephew brand along with our leading Sports Medicine technology portfolio - designed to help weekend warriors and world-class athletes get back to competing and doing what they love.' here. Media Enquiries Dave Snyder +1 (978) 749-1440 Smith+Nephew *Over a 2 and 4 year follow up **As compared to competitive devices in fixation/pull-out benchtop testing †As compared to the competitive device in cyclic benchtop testing References Smith+Nephew. Internal Data. Ruiz Ibán MÁ, García Navlet M, Moros Marco S, et al. Augmentation of a Transosseous-Equivalent Repair in Posterosuperior Nonacute Rotator Cuff Tears With a Bioinductive Collagen Implant Decreases the Retear Rate at One Year: A Randomized Controlled Trial. Arthroscopy: The Journal of Arthroscopic & Related Surgery. 2023:1-14. Bushnell BD, Connor PM, Harris HW, et al. Retear rates and clinical outcomes at 1 year after repair of full-thickness rotator cuff tears augmented with a bioinductive collagen implant: a prospective multicenter study. JSES international. 2021;5(2):228. Hein J, Reilly JM, Chae J, Maerz T, Anderson K. Retear Rates After Arthroscopic Single-Row, Double Row, and Suture Bridge Rotator Cuff Repair at a Minimum of 1 Year of Imaging Follow-up: A Systematic Review. Arthroscopy. 2015;31(11):2274-2281. Camacho-Chacon JA, Cuenca-Espierrez J, Roda-Rojo V, et al. Bioinductive collagen implants facilitate tendon regeneration in rotator cuff tears. J Exp Orthop. 2022;9(1):53. Smith + Nephew overview of the outcomes associated with the standard of care for the surgical treatment of rotator cuff tears. Internal Report EO/SPM/REGENETEN/005/v1. Bokor DJ, Sonnabend D, Deady L, et al. Evidence of healing of partial-thickness rotator cuff tears following arthroscopic augmentation with a collagen implant: a 2-year MRI follow-up. Muscles, Ligaments Tendons J. 2016;6(1):16-25. Schlegel TF, Abrams JS, Bushnell BD, Brock JL, Ho CP. Radiologic and clinical evaluation of a bioabsorbable collagen implant to treat partial-thickness tears: a prospective multicenter study. J Shoulder Elbow Surg. 2018 27(2):242-251. Van Kampen C, Arnoczky S, Parks P, et al. Tissue-engineered augmentation of a rotator cuff tendon using a reconstituted collagen scaffold: a histological evaluation in sheep. Muscles Ligaments Tendons J. 2013;3(3):229-235. Arnoczky SP, Bishai SK, Schofield B, et al. Histologic Evaluation of Biopsy Specimens Obtained After Rotator Cuff Repair Augmented With a Highly Porous Collagen Implant. Arthroscopy. 2017;33(2):278-283 Bokor DJ, Sonnabend DH, Deady L, et al. Healing of partial-thickness rotator cuff tears following arthroscopic augmentation with a highly porous collagen implant: a 5-year clinical and MRI follow-up. Muscles, Ligaments Tendons J. 2019;9(3):338-347. McElvany MD, McGoldrick E, Gee AO, Neradilek MB, Matsen FA, 3rd. Rotator cuff repair: published evidence on factors associated with repair integrity and clinical outcome. Am J Sports Med. 2015;43(2):491-500. Altschuler N, Zaslav KR, Di Matteo B, et al. Aragonite-Based Scaffold Versus Microfracture and Debridement for the Treatment of Knee Chondral and Osteochondral Lesions: Results of a Multicenter Randomized Controlled Trial. Am J Sports Med. 2023;51(4):957-967. doi:10.1177/03635465231151252 Kon E, Di Matteo B, Verdonk P, et al. Aragonite-Based Scaffold for the Treatment of Joint Surface Lesions in Mild to Moderate Osteoarthritic Knees: Results of a 2-Year Multicenter Prospective Study. Am J Sports Med. 2021;49(3):588-598. Kon E, Filardo G, Shani J, et al. Osteochondral regeneration with a novel aragonite-hyaluronate biphasic scaffold: up to 12-month follow-up study in a goat model. J Orthop Surg Res. 2015;10:81. Conte P, Anzillotti G, Crawford DC, et al. Differential analysis of the impact of lesions' location on clinical and radiological outcomes after the implantation of a novel aragonite-based scaffold to treat knee cartilage defects. Int Orthop. 2024;48(12):3117-3126 Douglass NP, et al. Arthroscopy. 2017;33(5):977-985 e975. Ergun S, et al. Arthroscopy. 2020; 2(3):e263-e275. Smith+Nephew 2023. Internal Report. 10090792- Revision B. ArthroCare Corporation 2017. Internal Report. P/N 49190-03 Rev. B. Smith+Nephew 2024. Internal Report. 10144423 Rev B. Smith and Nephew 10144423 Rev B About Smith+Nephew Smith+Nephew is a portfolio medical technology business focused on the repair, regeneration and replacement of soft and hard tissue. We exist to restore people's bodies and their self-belief by using technology to take the limits off living. We call this purpose 'Life Unlimited'. Our 17,000 employees deliver this mission every day, making a difference to patients' lives through the excellence of our product portfolio, and the invention and application of new technologies across our three global business units of Orthopaedics, Sports Medicine & ENT and Advanced Wound Management. Founded in Hull, UK, in 1856, we now operate in around 100 countries, and generated annual sales of $5.8 billion in 2024. Smith+Nephew is a constituent of the FTSE100 (LSE:SN, NYSE:SNN). The terms 'Group' and 'Smith+Nephew' are used to refer to Smith & Nephew plc and its consolidated subsidiaries, unless the context requires otherwise. For more information about Smith+Nephew, please visit and follow us on X, LinkedIn, Instagram or Facebook. Forward-looking Statements This document may contain forward-looking statements that may or may not prove accurate. For example, statements regarding expected revenue growth and trading profit margins, market trends and our product pipeline are forward-looking statements. Phrases such as "aim", "plan", "intend", "anticipate", "well-placed", "believe", "estimate", "expect", "target", "consider" and similar expressions are generally intended to identify forward-looking statements. Forward-looking statements involve known and unknown risks, uncertainties and other important factors that could cause actual results to differ materially from what is expressed or implied by the statements. For Smith+Nephew, these factors include: conflicts in Europe and the Middle East, economic and financial conditions in the markets we serve, especially those affecting healthcare providers, payers and customers; price levels for established and innovative medical devices; developments in medical technology; regulatory approvals, reimbursement decisions or other government actions; product defects or recalls or other problems with quality management systems or failure to comply with related regulations; litigation relating to patent or other claims; legal and financial compliance risks and related investigative, remedial or enforcement actions; disruption to our supply chain or operations or those of our suppliers; competition for qualified personnel; strategic actions, including acquisitions and disposals, our success in performing due diligence, valuing and integrating acquired businesses; disruption that may result from transactions or other changes we make in our business plans or organisation to adapt to market developments; relationships with healthcare professionals; reliance on information technology and cybersecurity; disruptions due to natural disasters, weather and climate change related events; changes in customer and other stakeholder sustainability expectations; changes in taxation regulations; effects of foreign exchange volatility; and numerous other matters that affect us or our markets, including those of a political, economic, business, competitive or reputational nature. Please refer to the documents that Smith+Nephew has filed with the U.S. Securities and Exchange Commission under the U.S. Securities Exchange Act of 1934, as amended, including Smith+Nephew's most recent annual report on Form 20-F, which is available on the SEC's website at www. for a discussion of certain of these factors. Any forward-looking statement is based on information available to Smith+Nephew as of the date of the statement. All written or oral forward-looking statements attributable to Smith+Nephew are qualified by this caution. Smith+Nephew does not undertake any obligation to update or revise any forward-looking statement to reflect any change in circumstances or in Smith+Nephew's expectations.
CTV News
2 days ago
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Swimming not recommended at two local beaches ahead of Canada Day
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Globe and Mail
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FUE Hair Transplant Clinic London Launches New Website to Enhance Patient Experience and Education
London, UK - June 27, 2025 - FUE Hair Transplant Clinic London is pleased to announce the launch of its newly designed website, designed to provide patients with a seamless, informative, and user-friendly experience. The new site reflects the clinic's commitment to delivering high-quality, surgeon-led hair transplant procedures while prioritising education and accessibility for both new and existing patients. The redesigned website ( features an intuitive layout, faster navigation, and comprehensive resources about hair restoration treatments, including Follicular Unit Extraction (FUE), one of the most advanced and minimally invasive hair transplant techniques available today. Prospective patients can now easily access detailed guides on the FUE procedure, explore before-and-after galleries, and book confidential consultations directly with leading UK-trained surgeons. The site also features a new blog section, offering expert insights into hair loss, recovery timelines, treatment costs, and the science behind successful transplants. 'Our goal was to create a digital experience that mirrors the quality of care we provide in-clinic,' said the Lead Surgeon at FUE Hair Transplant Clinic London. 'Many of our patients begin their journey online, so it was crucial to build a platform that's educational, trustworthy, and easy to navigate. We want people to feel empowered when making one of the most personal decisions about their appearance.' Visitors can explore real patient stories, understand pricing with no hidden fees, and get clear information about what to expect before, during, and after their procedure. The launch of the new website marks a key step in FUE Hair Transplant Clinic London's mission to make hair restoration more accessible, personalised, and results-driven for individuals experiencing hair loss. Media Contact Company Name: Press featured Contact Person: Maxwell Pierce Email: Send Email Country: United Kingdom Website:
