Artificial Intelligence (AI) emerged as an intervention for data and number-related problems. This breakthrough has led to several technological advancements in virtually all fields from engineering to architecture, education, accounting, business, health, and so on. AI has come a long way in healthcare, having played significant roles in data and information storage and management – such as patient medical histories, medicine stocks, sale records, and so on; automated machines; software and computer applications like diagnostic tools such as MRI radiation technology, CT diagnosis and many more have all been created to aid and simplify healthcare measures. Inarguably, AI has revolutionized healthcare to be more effective and efficient and the pharmacy sector is not left out. During the past few years, a considerable amount of increasing interest in the uses of AI technology has been identified for analyzing as well as interpreting some important fields of pharmacy like drug discovery, dosage form designing, polypharmacology, and hospital pharmacy. Given the growing importance of AI, we wanted to create a comprehensive report which helps every practicing pharmacist understand the biggest breakthroughs which are assisted by the deployment of this field.
The coronavirus disease in 2019 (COVID-19) is an ongoing pandemic caused by severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2). The COVID-19 pandemic has greatly affected the functioning of the healthcare settings. More people are hospitalizing, and mortality rate is rising due to overcrowded hospitals and staff shortages. Numerous studies have been published in the Europe and United States (U.S) for the legal extensions in the roles of pharmacists in response to COVID-19 global pandemic. However, novel responsibilities have not been addressed yet for low and middle-income countries (LMICs).
COVID-19 is an infectious respiratory and vascular disease caused by SARS-CoV-2. This virus was first identified in Wuhan, China and caused an ongoing pandemic. The World Health Organization (WHO) declared the outbreak a public health emergency of international concern in January 2020 and a pandemic in March 2020. Reports suggest that patients experience persistent deficits in pulmonary and cognitive functioning, as well as multifaceted health issues and worsened quality of life. From records in Italy and France, COVID-19 survivors experience the return of symptoms. COVID-19 survivors need specialist investigation once they have been discharged from hospital. No proper guidelines are recommending that COVID-19 survivors should be under assessment. We intended to provide a model to assist local healthcare systems to establish post-COVID recovery assessment clinic(s) for CVOID-19 survivors. Our model will enable COVID-19 patients’ access to multi-professional advice, so that they are put onto the right clinical pathway to treat their symptoms. Furthermore, the findings of different specialties in post-COVID recovery assessment clinic(s) may help doctors determine the best discharge plan for COVID-19 patients.
Background: Little attention has been given to characterizing the roles of pharmacists in disasters even though the importance of pharmacists’ involvement is widely acknowledged. Objective: We amid to review a broad range of pharmacists roles in disasters and their response by numerous reports in the literature. Method: A quantitative content analysis technique was used to gather data consisting of words and phrases from literature regarding pharmacists’ roles and their response in disasters. Results: A total of 106 reports were reviewed and screened based on titles and abstracts. Of these, only 20 studies were determined to meet the eligibility criteria for discussion. A total of 7 natural disasters (pandemics, tornadoes, fires, earthquakes, floods, hurricanes and storms) were found in the literature. Roles were classified using the Setlak classification scheme, which includes descriptors such as pharmaceutical supply, patient management, policy coordination, and response integration. Pharmaceutical supply was remains the pharmacists’ preferred role. Conclusion: It is evident from the literature that pharmacists are uniquely positioned during disasters to provide healthcare continuity and medication.
Myocardial fibrosis is a common pathological companion of various cardiovascular diseases. To date, the role of enhancer of zeste homolog 2 (EZH2) in cancer has been well demonstrated including in renal carcinoma and its inhibitors have entered the stage of phase I/II clinical trials. However, the precise mechanism of EZH2 in cardiac diseases is largely unclear. In the current study, we first found that EZH2 expression was increased in Ang-II treated cardiac fibroblasts (CFs) and mouse heart homogenates following isoproterenol (ISO) administration for 21 days, respectively. Ang-II induces CFs activation and increased collagen-I, collagen-III, α-SMA, EZH2, and trimethylates lysine 27 on histone 3 (H3K27me3) expressions can be reversed by EZH2 inhibitor (GSK126) and EZH2 siRNA. The ISO induced-cardiac hypertrophy, and fibrosis in vivo which were also related to the upregulation of EZH2 and its downstream target, H3K27me3, could be recovered by GSK126. Furthermore, the upregulation of EZH2 induces the decrease of paired box 6 (PAX6) and C-X-C motif ligand 10 (CXCL10) “which” was also reversed by GSK126 treatment. In summary, the present evidence strongly suggests that GSK126 could be a therapeutic intervention blunting the development and progression of myocardial fibrosis in an EZH2-PAX6-CXCL10-dependent manner.
Since disease is a natural aspect of life, human deep space missions will largely depend on preventing disease, diagnosis, and treatment. Pharmaceuticals are used to identify, treat, prevent, or cure illnesses, but they are unstable on Earth and even more so in space. What if the pharmacist could prepare small quantities of medicines in space, on site, as needed? The alteration in pharmacokinetic and pharmacodynamic (PK-PD) and pharmacogenomics with flying and medications will need to be customised for each person individually and specifically at the point of need because of drug stability issues. We can't meet the expense of bringging everything we might need, so pharmacists must devise ways to manufacture medications in-situ and on-demand. With this skill, pharmacists would be able to fulfill the demand of any exploration mission that involved spaceflight with robust pharmaceuticals that would be stable enough to last the duration of the mission, comprehensive enough to treat all potential medical events, safe, and effective, notwithstanding the known PK-PD and pharmacogenetic alterations that take place during spaceflight. The purpose of this article was to review topics related with Astropharmacy. The topics include: the need of Astropharmacy in space, health-related problems caused by hostile space conditions, storage problems in space, methods to establish the stability and effectiveness of pharmaceutical products in space, and alteration in human physiology including PK-PD and pharmacogenomics and highlight the pharmacist's potential roles in the pharmacies orbiting the space.
Background: Several social determinants other than scientific knowledge can influence the prescribing behavior of physicians. Objective: To conduct a literature review on available data to identify social determinants influence physician's behavior in prescribing antibiotics. Data Source: A literature search was performed using 'PubMed' to identify studies for inclusion and exclusion criteria. The following search terms were used: 'Social determinants' 'Irrational use' 'Inappropriate Use' 'Inappropriate Prescription' 'Factors' 'Consequences' and ' Antibiotics'. Results: Thirty studies met the inclusion criteria from 80 search results. A total of 6 socials determinants and 20 factors identified. The most frequent social determinants were patients, prescribers, the workplace, caregivers (parents and relatives), and industry and drug regulations. Conclusion: Our findings showed that several social determinants other than scientific knowledge could influence the prescribing decisions of physicians.
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