Displaying publications 181 - 200 of 55979 in total

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  1. Chaubal TV, Bapat R
    Am J Med Sci, 2023 Dec;366(6):e98-e99.
    PMID: 37402435 DOI: 10.1016/j.amjms.2023.06.018
    Matched MeSH terms: Humans
  2. Shah MD, Sumeh AS, Sheraz M, Kavitha MS, Venmathi Maran BA, Rodrigues KF
    Biomed Pharmacother, 2021 Nov;143:112158.
    PMID: 34507116 DOI: 10.1016/j.biopha.2021.112158
    COVID-19 (Corona Virus Disease-2019) is an infectious disease caused by a novel coronavirus, known as the acute respiratory syndrome coronavirus 2 (SARS-CoV-2). This is a highly contagious disease that has already affected more than 220 countries globally, infecting more than 212 million people and resulting in the death of over 4.4 million people. This review aims to highlight the pertinent documentary evidence upon the adverse effects of the SARS-CoV-2 infection on several vital human organs. SARS-CoV-2 primarily targets the lung tissue by causing diffuse alveolar damage and may result in Acute Respiratory Distress Syndrome (ARDS). SARS-CoV-2 infects the cell via cell surface receptor, angiotensin-converting enzyme 2 (ACE2). Besides lungs, SARS-CoV-2 critically damage tissues in other vital human organs such as the heart, kidney, liver, brain, and gastrointestinal tract. The effect on the heart includes muscle dysfunction (acute or protracted heart failure), myocarditis, and cell necrosis. Within hepatic tissue, it alters serum aminotransferase, total bilirubin, and gamma-glutamyl transferase levels. It contributes to acute kidney injury (AKI). Localized infection of the brain can lead to loss or attenuation of olfaction, muscular pain, headaches, encephalopathy, dizziness, dysgeusia, psychomotor disorders, and stroke; while the gastrointestinal symptoms include the disruption of the normal intestinal mucosa, leading to diarrhea and abdominal pain. This review encompassed a topical streak of systemic malfunctions caused by the SARS-CoV-2 infection. As the pandemic is still in progress, more studies will enrich our understanding and analysis of this disease.
    Matched MeSH terms: Humans
  3. Chai ZF, Gan WY, Chin YS, Ching YK, Appukutty M
    Nutr Res Pract, 2020 Jun;14(3):298.
    PMID: 32528636 DOI: 10.4162/nrp.2020.14.3.298
    [This corrects the article on p. 23 in vol. 13, PMID: 30788053.].
    Matched MeSH terms: Humans
  4. Iranagh JA, Rahman HA, Motalebi SA
    Nutr Res Pract, 2016 Aug;10(4):471.
    PMID: 27462397 DOI: 10.4162/nrp.2016.10.4.471
    [This corrects the article on p. 352 in vol. 10, PMID: 27247733.].
    Matched MeSH terms: Humans
  5. Hanbali L, Hannon E, Lehtimaki S, McNab C, Schwalbe NR
    BMJ Glob Health, 2023 Nov;8(11).
    PMID: 37931937 DOI: 10.1136/bmjgh-2023-013348
    Negotiations are underway at the WHO for a legally binding instrument for pandemic prevention, preparedness and response. As seen in the International Health Regulations, however, countries signing up to an agreement is no guarantee of its effective implementation. We, therefore, investigated the potential design features of an accountability framework for the proposed pandemic agreement that could promote countries' compliance with it. We reviewed the governance of a number of international institutions and conducted over 40 interviews with stakeholders and experts to investigate how the pandemic agreement could be governed.We found that enforcement mechanisms are a key feature for promoting the compliance of countries with the obligations they sign up for under international agreements but that they are inconsistently applied. It is difficult to design enforcement mechanisms that successfully avoid inflicting unintended harm and, so, we found that enforcement mechanisms generally rely on soft political levers rather than hard legal ones to promote compliance. Identifying reliable information on states' behaviour with regard to their legal obligations requires using a diverse range of information, including civil society and intergovernmental organisations, and maintaining legal, financial, and political independence.We, therefore, propose that there should be an independent mechanism to monitor states' compliance with and reporting on the pandemic agreement. It would mainly triangulate a diverse range of pre-existing information and have the authority to receive confidential reports and seek further information from states. It would report to a high-level political body to promote compliance with the pandemic agreement.
    Matched MeSH terms: Humans
  6. Tan JK, Cheong XK, Khoo CS, Nair N, Tangaperumal A
    Acta Neurol Belg, 2023 Dec;123(6):2341-2343.
    PMID: 37432611 DOI: 10.1007/s13760-023-02330-x
    Matched MeSH terms: Humans
  7. Lim JY, Lu CJ, Huang WF
    Am J Med Sci, 2024 Jan;367(1):e10-e11.
    PMID: 37716599 DOI: 10.1016/j.amjms.2023.09.010
    Matched MeSH terms: Humans
  8. Tufail S, Sherwani MA, Shamim Z, Abdullah, Goh KW, Alomary MN, et al.
    Biomed Pharmacother, 2024 Jan;170:116070.
    PMID: 38163396 DOI: 10.1016/j.biopha.2023.116070
    Two-dimensional (2D) nanomaterials have garnered enormous attention seemingly due to their unusual architecture and properties. Graphene and graphene oxide based 2D nanomaterials remained the most sought after for several years but the quest to design superior 2D nanomaterials which can find wider application gave rise to development of non-graphene 2D materials as well. Consequently, in addition to graphene based 2D nanomaterials, 2D nanostructures designed using macromolecules (such as DNAs, proteins, peptides and peptoids), transition metal dichalcogenides, transition-metal carbides and/or nitrides (MXene), black phosphorous, chitosan, hexagonal boron nitrides, and graphitic carbon nitride, and covalent organic frameworks have been developed. Interestingly, these 2D nanomaterials have found applications in diagnosis and treatment of various diseases including Alzheimer's disease (AD). Although AD is one of the most debilitating neurodegenerative conditions across the globe; unfortunately, there remains a paucity of effective diagnostic and/or therapeutic intervention for it till date. In this scenario, nanomaterial-based biosensors, or therapeutics especially 2D nanostructures are emerging to be promising in this regard. This review summarizes the diagnostic and therapeutic platforms developed for AD using 2D nanostructures. Collectively, it is worth mentioning that these 2D nanomaterials would seemingly provide an alternative and intriguing platform for biomedical interventions.
    Matched MeSH terms: Humans
  9. Tang ASO, Wong QY, Yeo ST, Lee JTH, Leong TS, Chew LP
    Hong Kong Med J, 2022 Oct;28(5):403-405.
    PMID: 38232966 DOI: 10.12809/hkmj219478
    Matched MeSH terms: Humans
  10. Chan OB, Willems A, Simpson K, Gopinathan LP, Robertson SJ, Mahar P
    Aust J Gen Pract, 2024 Mar;53(3):138-140.
    PMID: 38437657 DOI: 10.31128/AJGP-05-23-6831
    Matched MeSH terms: Humans
  11. Gonçalves BP, Hall M, Jassat W, Balan V, Murthy S, Kartsonaki C, et al.
    Elife, 2022 Oct 05;11.
    PMID: 36197074 DOI: 10.7554/eLife.80556
    BACKGROUND: Whilst timely clinical characterisation of infections caused by novel SARS-CoV-2 variants is necessary for evidence-based policy response, individual-level data on infecting variants are typically only available for a minority of patients and settings.

    METHODS: Here, we propose an innovative approach to study changes in COVID-19 hospital presentation and outcomes after the Omicron variant emergence using publicly available population-level data on variant relative frequency to infer SARS-CoV-2 variants likely responsible for clinical cases. We apply this method to data collected by a large international clinical consortium before and after the emergence of the Omicron variant in different countries.

    RESULTS: Our analysis, that includes more than 100,000 patients from 28 countries, suggests that in many settings patients hospitalised with Omicron variant infection less often presented with commonly reported symptoms compared to patients infected with pre-Omicron variants. Patients with COVID-19 admitted to hospital after Omicron variant emergence had lower mortality compared to patients admitted during the period when Omicron variant was responsible for only a minority of infections (odds ratio in a mixed-effects logistic regression adjusted for likely confounders, 0.67 [95% confidence interval 0.61-0.75]). Qualitatively similar findings were observed in sensitivity analyses with different assumptions on population-level Omicron variant relative frequencies, and in analyses using available individual-level data on infecting variant for a subset of the study population.

    CONCLUSIONS: Although clinical studies with matching viral genomic information should remain a priority, our approach combining publicly available data on variant frequency and a multi-country clinical characterisation dataset with more than 100,000 records allowed analysis of data from a wide range of settings and novel insights on real-world heterogeneity of COVID-19 presentation and clinical outcome.

    FUNDING: Bronner P. Gonçalves, Peter Horby, Gail Carson, Piero L. Olliaro, Valeria Balan, Barbara Wanjiru Citarella, and research costs were supported by the UK Foreign, Commonwealth and Development Office (FCDO) and Wellcome [215091/Z/18/Z, 222410/Z/21/Z, 225288/Z/22/Z]; and Janice Caoili and Madiha Hashmi were supported by the UK FCDO and Wellcome [222048/Z/20/Z]. Peter Horby, Gail Carson, Piero L. Olliaro, Kalynn Kennon and Joaquin Baruch were supported by the Bill & Melinda Gates Foundation [OPP1209135]; Laura Merson was supported by University of Oxford's COVID-19 Research Response Fund - with thanks to its donors for their philanthropic support. Matthew Hall was supported by a Li Ka Shing Foundation award to Christophe Fraser. Moritz U.G. Kraemer was supported by the Branco Weiss Fellowship, Google.org, the Oxford Martin School, the Rockefeller Foundation, and the European Union Horizon 2020 project MOOD (#874850). The contents of this publication are the sole responsibility of the authors and do not necessarily reflect the views of the European Commission. Contributions from Srinivas Murthy, Asgar Rishu, Rob Fowler, James Joshua Douglas, François Martin Carrier were supported by CIHR Coronavirus Rapid Research Funding Opportunity OV2170359 and coordinated out of Sunnybrook Research Institute. Contributions from Evert-Jan Wils and David S.Y. Ong were supported by a grant from foundation Bevordering Onderzoek Franciscus; and Andrea Angheben by the Italian Ministry of Health "Fondi Ricerca corrente-L1P6" to IRCCS Ospedale Sacro Cuore-Don Calabria. The data contributions of J.Kenneth Baillie, Malcolm G. Semple, and Ewen M. Harrison were supported by grants from the National Institute for Health Research (NIHR; award CO-CIN-01), the Medical Research Council (MRC; grant MC_PC_19059), and by the NIHR Health Protection Research Unit (HPRU) in Emerging and Zoonotic Infections at University of Liverpool in partnership with Public Health England (PHE) (award 200907), NIHR HPRU in Respiratory Infections at Imperial College London with PHE (award 200927), Liverpool Experimental Cancer Medicine Centre (grant C18616/A25153), NIHR Biomedical Research Centre at Imperial College London (award IS-BRC-1215-20013), and NIHR Clinical Research Network providing infrastructure support. All funders of the ISARIC Clinical Characterisation Group are listed in the appendix.

    Matched MeSH terms: Humans
  12. Muniandy J, Chan KK, Bakin S
    J Gastrointest Surg, 2021 Oct;25(10):2715-2717.
    PMID: 33834378 DOI: 10.1007/s11605-021-05002-4
    Matched MeSH terms: Humans
  13. Heng HL, Chee CF, Chin SP, Ouyang Y, Wang H, Buckle MJC, et al.
    Medchemcomm, 2018 03 01;9(3):593-594.
    PMID: 30288212 DOI: 10.1039/c8md90012d
    [This corrects the article DOI: 10.1039/C7MD00629B.].
    Matched MeSH terms: Humans
  14. Lu L, Jiang Y, Jaganathan R, Hao Y
    J Ophthalmol, 2018;2018:5047142.
    PMID: 30622819 DOI: 10.1155/2018/5047142
    [This corrects the article DOI: 10.1155/2018/1694187.].
    Matched MeSH terms: Humans
  15. Zhong W, Osther P, Pearle M, Choong S, Mazzon G, Zhu W, et al.
    World J Urol, 2024 Mar 25;42(1):189.
    PMID: 38526675 DOI: 10.1007/s00345-024-04816-6
    BACKGROUND: The stone burden based management strategy reported in the guidelines published by different associations is well known for a long time. Staghorn calculi, representing the largest burden and most complex stones, is one of the most challenging cases to practicing urologists in clinical practice. The International Alliance of Urolithiasis (IAU) has released a series of guidelines on the management of urolithiasis.

    PURPOSE: To develop a series of recommendations for the contemporary management management of staghorn calculi and to provide a clinical framework for urologists treating patients with these complex stones.

    METHODS: A comprehensive literature search for articles published in English between 01/01/1976 and 31/12/2022 in the PubMed, OVID, Embase and Medline database is performed. A series of recommendations are developed and individually graded following the review of literature and panel discussion.

    RESULTS: The definition, pathogenesis, pathophysiology, preoperative evaluation, intraoperative treatment strategies and procedural advice, early postoperative management, follow up and prevention of stone recurrence are summarized in the present document.

    CONCLUSION: A series of recommendations regarding the management of staghorn calculi, along with related commentary and supporting documentation offered in the present guideline is intended to provide a clinical framework for the practicing urologists in the management of staghorn calculi.

    Matched MeSH terms: Humans
  16. Sandhu NK, Ravichandraan N, Nune A, Day J, Sen P, Nikiphorou E, et al.
    Int J Rheum Dis, 2024 Jan;27(1):e14961.
    PMID: 37969016 DOI: 10.1111/1756-185X.14961
    Matched MeSH terms: Humans
  17. van de Warrenburg BP, Kamsteeg EJ
    EBioMedicine, 2024 Feb;100:104994.
    PMID: 38301484 DOI: 10.1016/j.ebiom.2024.104994
    Matched MeSH terms: Humans
  18. Yob NJ, Jofrry SM, Affandi MM, Teh LK, Salleh MZ, Zakaria ZA
    PMID: 27462359 DOI: 10.1155/2016/8621824
    [This corrects the article DOI: 10.1155/2011/543216.].
    Matched MeSH terms: Humans
  19. Mohd-Radzman NH, Wan Ismail WI, Jaapar SS, Adam Z, Adam A
    PMID: 27594889 DOI: 10.1155/2016/2467420
    [This corrects the article DOI: 10.1155/2013/938081.].
    Matched MeSH terms: Humans
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