Current medical research and opinion
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Cerebral venous thrombosis (CVT) is an uncommon cause of stroke. COVID-19 infection and vaccination have been associated with CVT. Fibrinolysis and mechanical thrombectomy may play an emerging role in management. ⋯ Decompressive craniectomy may be used to reduce intracranial pressure in life-threatening cases. There is a small body of evidence for endovascular therapy in complex cases but should be reserved for complex cases in specialist centres. This paper is of relevance to clinical practice since the safe and effective management of CVT is important to reduce the risk of disability.
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The management of diabetes mellitus has undergone remarkable progress with the introduction of cutting-edge technologies in glucose monitoring and artificial pancreas systems. These innovations have revolutionized diabetes care, offering patients more precise, convenient, and personalized management solutions that significantly improve their quality of life. This review aims to provide a comprehensive overview of recent technological advancements in glucose monitoring devices and artificial pancreas systems, focusing on their transformative impact on diabetes care. ⋯ Researchers are continually exploring novel methods to measure glucose more effectively and with greater convenience, further refining the future of diabetes care. Researchers are also investigating the integration of artificial intelligence and machine learning algorithms to further enhance the precision and predictive capabilities of glucose monitoring and insulin delivery systems. With ongoing advancements in sensor technology, connectivity, and data analytics, the future of diabetes care promises to deliver even more seamless, real-time management, empowering patients with greater autonomy and improved health outcomes.
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Type 2 diabetes mellitus (T2DM), responsible for most diabetes cases recorded worldwide, increases the risk of chronic wounds and amputation. Patients with T2DM appear to be more susceptible to delayed wound healing due to their treatment adherence. This review explores the specifics of polypharmacy, side effects, possible drug interactions and the importance of medication adherence for therapeutic efficacy. ⋯ Managing chronic wounds represents a substantial portion of healthcare expenditures. Biofilm-associated infections are difficult for the immune system to treat and respond inconsistently to antibiotics as these infections are slow growing and persistent. Additionally, we emphasize the critical role pharmacists play in enhancing patient adherence and optimizing diabetes treatment by offering comprehensive coverage of drugs associated with problems related to pharmacological therapy in type 2 diabetes.
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There remains considerable interest in the therapeutic use of combinations of levothyroxine (LT4) and triiodothyronine (liothyronine, T3) in the management of hypothyroidism, especially where hypothyroid-like symptoms persist on optimised LT4 monotherapy. This interest appears to be increasing, despite the lack of consistent identification of clinical benefit in people with hypothyroidism in randomised trials going back two decades. Guidelines support an individualised trial of addition of T3 to LT4 for symptomatic patients on optimised LT4. ⋯ This was despite the use of regimens with a lower ratio of LT4:T3 (usually 4-10:1) than recommended currently by clinical experts in the field. In addition, a real-world analysis of side-effects of a commercial LT4 + T3 treatment (LT4:T3 ratio 5:1) that were reported spontaneously to a pharmacovigilance database revealed a low rate of reports, both overall and with regard to symptoms possible reminiscent of thyrotoxicosis. Safety concerns regarding the possibility of iatrogenic thyrotoxicosis appear unlikely to limit the future guideline-driven therapeutic use of LT4:T3 combinations with a ratio of these ingredients of around 15:1.
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The development of therapies followed a generalized approach for a long time, assuming that a single treatment could effectively address various patient populations. However, recent breakthroughs have revealed the limitations of this one-size-fits-all paradigm. More recently, the field of therapeutics has witnessed a shift toward other modules, including cell therapies, high molecular weight remedies, personalized medicines, and gene therapies. ⋯ Gene therapies have revolutionized the treatment of genetic disorders by directly targeting the underlying genetic abnormalities. Innovative techniques, such as CRISPR-Cas9 have allowed precise gene editing, opening up possibilities for curing previously incurable conditions. In conclusion, advancements in therapeutic modules have the potential to revolutionize healthcare and pave the way for medicines that are more efficient and with minimal side effects.