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  1. Moti LAA, Hussain Z, Thu HE, Khan S, Sohail M, Sarfraz RM
    Curr Pharm Des, 2021;27(43):4356-4375.
    PMID: 34459374 DOI: 10.2174/1381612827666210830092539
    BACKGROUND: Breast cancer (BC) is one of the most aggressive and prevalent types of cancer, which is associated with a high rate of mortality and colossal potential of metastasis to other body organs. Conventionally, there are three commonly employed strategies for the treatment of BC including, surgery, radiations and chemotherapy; however, these modalities are associated with several deleterious effects and a high rate of relapse.

    OBJECTIVE: This review was aimed to critically discuss and conceptualize existing evidences related to the pharmaceutical significance and therapeutic feasibility of multi-functionalization of nanomedicines for early diagnosis and efficient treatment of BC.

    RESULTS: Though the implication of nanotechnology-based modalities has revolutionised the outcomes of diagnosis and treatment of BC; however, the clinical translation of these nanomedicines is facing grandeur challenges. These challenges include recognition by the reticuloendothelial system (RES), short plasma half-life, non-specific accumulation in the non-cancerous cells, and expulsion of the drug(s) by the efflux pump. To circumvent these challenges, various adaptations such as PEGylation, conjugation of targeting ligand(s), and siteresponsive behaviour (i.e., pH-responsiveness, biochemical, or thermal-responsiveness) have been adapted. Similarly, multi-functionalization of nanomedicines has emerged as an exceptional strategy to improve the pharmacokinetic profile, specific targetability to the tumor microenvironment (active targeting) and efficient internalization, and to alleviate the expulsion of internalized drug contents by silencing-off efflux pump.

    CONCLUSION: Critical analysis of the available evidences revealed that multi-functionalization of nanomedicines is a plausible and sustainable adaptation for early diagnosis and treatment of BC with better therapeutic outcomes.

  2. Singh L, Kumar A, Rai M, Basnet B, Rai N, Khanal P, et al.
    World J Hepatol, 2024 Apr 27;16(4):517-536.
    PMID: 38689748 DOI: 10.4254/wjh.v16.i4.517
    The coronavirus disease 2019 (COVID-19) pandemic has caused changes in the global health system, causing significant setbacks in healthcare systems worldwide. This pandemic has also shown resilience, flexibility, and creativity in reacting to the tragedy. The severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) infection targets most of the respiratory tract, resulting in a severe sickness called acute respiratory distress syndrome that may be fatal in some individuals. Although the lung is the primary organ targeted by COVID-19 viruses, the clinical aspect of the disease is varied and ranges from asymptomatic to respiratory failure. However, due to an unorganized immune response and several affected mechanisms, the liver may also experience liver cell injury, ischemic liver dysfunction, and drug-induced liver injury, which can result in respiratory failure because of the immune system's disordered response and other compromised processes that can end in multisystem organ failure. Patients with liver cirrhosis or those who have impaired immune systems may be more likely than other groups to experience worse results from the SARS-CoV-2 infection. We thus intend to examine the pathogenesis, current therapy, and consequences of liver damage concerning COVID-19.
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