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  1. Fulltext Making pharmaceutical research and regulation work for women
    Ravindran TS, Teerawattananon Y, Tannenbaum C, Vijayasingham L
    BMJ, 2020 10 27;371:m3808.
    PMID: 33109511 DOI: 10.1136/bmj.m3808
    Matched MeSH terms: Pharmaceutical Research/standards*
  2. Contribution of pharmacy education to pharmaceutical research and development: critical insights from educators
    Nouri AI, Hassali MA, Hashmi FK
    Perspect Public Health, 2020 Jan;140(1):62-66.
    PMID: 31165671 DOI: 10.1177/1757913919832927
    AIMS: This article examines the outputs of pharmaceutical education with the development of the pharmacy profession and how that affects pharmaceutical innovation. It also discusses different models of collaboration between the academic and pharmaceutical industry in order to achieve a healthy collaboration between the stakeholders.

    METHODS: The perspective, experiences and insights of educators from various backgrounds, origin and educational levels were sought regarding the role of pharmacy education in providing pharmaceutical research and development workforce.

    RESULTS: Many countries around the world are currently undertaking major reforms in pharmacy education due to the changing landscape of health and healthcare delivery. These reforms must be accompanied by robust systems to assure that the quality of educational structures, processes and outcomes will produce competent pharmacy graduates in the future. It is also considered imperative that pharmacy academic institutions should establish collaboration with the drug development units, the pharmaceutical industry and government agencies for sustainability and positive research outcomes.

    CONCLUSION: Shortcomings in pharmacy curricula need to be addressed and the authors have proposed the 'TARGET' approach for the development of integrated pharmacy curriculum to substantially contribute to pharmaceutical research and development.

    Matched MeSH terms: Pharmaceutical Research/education*
  3. Updates on Managing Type 2 Diabetes Mellitus with Natural Products: Towards Antidiabetic Drug Development
    Alam F, Islam MA, Kamal MA, Gan SH
    Curr Med Chem, 2018;25(39):5395-5431.
    PMID: 27528060 DOI: 10.2174/0929867323666160813222436
    Over the years, natural products have shown success as antidiabetics in in vitro, in vivo studies and clinical trials. Because natural product-derived drugs are more affordable and effective with fewer side-effects compared to conventional therapies, pharmaceutical research is increasingly leaning towards the discovery of new antidiabetic drugs from natural products targeting pathways or components associated with type 2 diabetes mellitus (T2DM) pathophysiology. However, the drug discovery process is very lengthy and costly with significant challenges. Therefore, various techniques are currently being developed for the preclinical research phase of drug discovery with the aim of drug development with less time and efforts from natural products. In this review, we have provided an update on natural products including fruits, vegetables, spices, nuts, beverages and mushrooms with potential antidiabetic activities from in vivo, in vitro and clinical studies. Synergistic interactions between natural products and antidiabetic drugs, and potential antidiabetic active compounds from natural products are also documented to pave the way for combination treatment and new drug discovery, respectively. Additionally, a brief idea of the drug discovery process along with the challenges that arise during drug development from natural products and the methods to conquer those challenges are discussed to create a more convenient future drug discovery process.
    Matched MeSH terms: Pharmaceutical Research
  4. Fulltext Drug Repositioning: New Approaches and Future Prospects for Life-Debilitating Diseases and the COVID-19 Pandemic Outbreak
    Low ZY, Farouk IA, Lal SK
    Viruses, 2020 09 22;12(9).
    PMID: 32972027 DOI: 10.3390/v12091058
    Traditionally, drug discovery utilises a de novo design approach, which requires high cost and many years of drug development before it reaches the market. Novel drug development does not always account for orphan diseases, which have low demand and hence low-profit margins for drug developers. Recently, drug repositioning has gained recognition as an alternative approach that explores new avenues for pre-existing commercially approved or rejected drugs to treat diseases aside from the intended ones. Drug repositioning results in lower overall developmental expenses and risk assessments, as the efficacy and safety of the original drug have already been well accessed and approved by regulatory authorities. The greatest advantage of drug repositioning is that it breathes new life into the novel, rare, orphan, and resistant diseases, such as Cushing's syndrome, HIV infection, and pandemic outbreaks such as COVID-19. Repositioning existing drugs such as Hydroxychloroquine, Remdesivir, Ivermectin and Baricitinib shows good potential for COVID-19 treatment. This can crucially aid in resolving outbreaks in urgent times of need. This review discusses the past success in drug repositioning, the current technological advancement in the field, drug repositioning for personalised medicine and the ongoing research on newly emerging drugs under consideration for the COVID-19 treatment.
    Matched MeSH terms: Pharmaceutical Research
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