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Varicella Zoster Virus Cerebellitis Without having a Allergy in the Immunocompetent 85-Year-Old Patient.
Trends in antibiotic prescription data show that after an initial surge, and following 'lockdown' in Scotland, the total number of prescriptions for antibiotics commonly used for respiratory infections fell. We believe this is the first published national evaluation of the impact of COVID-19 on community use of antibiotics. Further analysis of national data is planned to provide a greater understanding of the reasons behind these trends.
Trends in antibiotic prescription data show that after an initial surge, and following 'lockdown' in Scotland, the total number of prescriptions for antibiotics commonly used for respiratory infections fell. We believe this is the first published national evaluation of the impact of COVID-19 on community use of antibiotics. Further analysis of national data is planned to provide a greater understanding of the reasons behind these trends.[This corrects the article DOI 10.1093/jacamr/dlaa071.].The naming of diseases is a critical aspect of public health communication. In light of the recent renaming of the 'Wuhan novel coronavirus' to COVID-19, the names of other health threats must be reviewed. In particular, a new name is urgently needed for the global challenge typically referred to as 'antimicrobial resistance'. The current name is inconsistently used, difficult to pronounce and lacks meaning for lay audiences. It also fails to express the magnitude of the phenomenon's potential consequences for human medicine. This article reviews and evaluates key findings from several cross-disciplinary streams of research on the psycholinguistic properties of names. These include early psychology literature pertaining to the concept of 'word attensity', recent cognitive research on 'processing fluency' in the context of word recognition, and relevant marketing literature examining the components of successful branding strategies. Three key criteria-pronounceability, meaningfulness and specificity-are found to influence the perception of names and these are discussed in the context of antimicrobial resistance. The article demonstrates that the current term of 'antimicrobial resistance' falls short with regard to all three criteria and concludes with specific recommendations for the creation of a new name. Only the strategic choice of a single term that is (i) short and easy to pronounce; (ii) intuitively meaningful to lay audiences and indicative of the existential threat linked to antimicrobial resistance; and (iii) uniquely associated with the topic of antimicrobial resistance is likely to bring about overdue change in the global discussion of antimicrobial resistance.Graphical Abstract.The coronavirus disease 2019 (COVID-19) pandemic is having an enormous impact on public health. Infection with SARS-CoV-2 has become a leading cause of morbidity and mortality in many regions around the world. As many COVID-19 patients are treated with antibiotics, there is concern regarding an associated rise in rates of antimicrobial resistance (AMR). On the other hand, social distancing, isolation and reduced travel may result in decreased spread of AMR. In this issue of JAC-Antimicrobial Resistance, we present a PRO/CON debate on the question of the potential impact of COVID-19 on AMR rates.Antimicrobial resistance (AMR) is affected by many factors, but too much of our focus has been on antimicrobial usage. The major factor that drives resistance rates globally is spread. The COVID-19 pandemic should lead to improved infection prevention and control practices, both in healthcare facilities and the community. COVID-19 will also have ongoing and profound effects on local, national and international travel. All these factors should lead to a decrease in the spread of resistant bacteria. So overall, COVID-19 should lead to a fall in resistance rates seen in many countries. For this debate we show why, overall, COVID-19 will not result in increased AMR prevalence. But globally, changes in AMR rates will not be uniform. this website In wealthier and developed countries, resistance rates will likely decrease, but in many other countries there are already too many factors associated with poor controls on the spread of bacteria and viruses (e.g. poor water and sanitation, poor public health, corrupt government, inadequate housing, etc.). In these countries, if economies and governance deteriorate further, we might see even more transmission of resistant bacteria.We argue that the COVID-19 pandemic will result in increased antimicrobial resistance (AMR). Broad-spectrum antibiotic use is common among hospitalized COVID-19 patients and in excess of reported secondary infection rates, suggesting unnecessary prescribing. Selection pressure is likely to be particularly intense in COVID-19 epicentres and within non-epicentre hospital units dedicated to COVID-19 care. Risk factors that increase the likelihood of hospitalization or poor outcomes among COVID-19 patients, such as advanced age, nursing home residence, debilitation, diabetes and cardiopulmonary or other underlying systemic diseases, also predispose to AMR infections. Worry for AMR emergence is heightened since first-wave COVID-19 epicentres were also AMR epicentres. Disruptive direct and indirect effects of COVID-19 globally on economic systems, governance and public health expenditure and infrastructure may fuel AMR spread. We anticipate that the impact of COVID-19 on AMR will vary between epicentres and non-epicentres, by geographic region, hospital to hospital within regions and within specific hospital units.
Granulocyte and monocyte adsorptive apheresis (GMA) has been used for therapy of steroid-dependent/refractory ulcerative colitis (UC). The aim of this study was to investigate the effectiveness of GMA in UC patients not receiving steroids.
We conducted a single-arm, open-label, and multicenter prospective clinical trial. UC patients who had insufficient responses to 5-aminosalicylic acid received GMA twice a week for 5 weeks.
The response rate of all patients was 58.2% (39/67). Of the 39 patients who achieved a response, 74.4% achieved endoscopically confirmed mucosal healing.
GMA shows effectiveness in inducing remission in UC patients not receiving steroid.
GMA shows effectiveness in inducing remission in UC patients not receiving steroid.
Website: https://www.selleckchem.com/products/AZD0530.html
Trends in antibiotic prescription data show that after an initial surge, and following 'lockdown' in Scotland, the total number of prescriptions for antibiotics commonly used for respiratory infections fell. We believe this is the first published national evaluation of the impact of COVID-19 on community use of antibiotics. Further analysis of national data is planned to provide a greater understanding of the reasons behind these trends.
Trends in antibiotic prescription data show that after an initial surge, and following 'lockdown' in Scotland, the total number of prescriptions for antibiotics commonly used for respiratory infections fell. We believe this is the first published national evaluation of the impact of COVID-19 on community use of antibiotics. Further analysis of national data is planned to provide a greater understanding of the reasons behind these trends.[This corrects the article DOI 10.1093/jacamr/dlaa071.].The naming of diseases is a critical aspect of public health communication. In light of the recent renaming of the 'Wuhan novel coronavirus' to COVID-19, the names of other health threats must be reviewed. In particular, a new name is urgently needed for the global challenge typically referred to as 'antimicrobial resistance'. The current name is inconsistently used, difficult to pronounce and lacks meaning for lay audiences. It also fails to express the magnitude of the phenomenon's potential consequences for human medicine. This article reviews and evaluates key findings from several cross-disciplinary streams of research on the psycholinguistic properties of names. These include early psychology literature pertaining to the concept of 'word attensity', recent cognitive research on 'processing fluency' in the context of word recognition, and relevant marketing literature examining the components of successful branding strategies. Three key criteria-pronounceability, meaningfulness and specificity-are found to influence the perception of names and these are discussed in the context of antimicrobial resistance. The article demonstrates that the current term of 'antimicrobial resistance' falls short with regard to all three criteria and concludes with specific recommendations for the creation of a new name. Only the strategic choice of a single term that is (i) short and easy to pronounce; (ii) intuitively meaningful to lay audiences and indicative of the existential threat linked to antimicrobial resistance; and (iii) uniquely associated with the topic of antimicrobial resistance is likely to bring about overdue change in the global discussion of antimicrobial resistance.Graphical Abstract.The coronavirus disease 2019 (COVID-19) pandemic is having an enormous impact on public health. Infection with SARS-CoV-2 has become a leading cause of morbidity and mortality in many regions around the world. As many COVID-19 patients are treated with antibiotics, there is concern regarding an associated rise in rates of antimicrobial resistance (AMR). On the other hand, social distancing, isolation and reduced travel may result in decreased spread of AMR. In this issue of JAC-Antimicrobial Resistance, we present a PRO/CON debate on the question of the potential impact of COVID-19 on AMR rates.Antimicrobial resistance (AMR) is affected by many factors, but too much of our focus has been on antimicrobial usage. The major factor that drives resistance rates globally is spread. The COVID-19 pandemic should lead to improved infection prevention and control practices, both in healthcare facilities and the community. COVID-19 will also have ongoing and profound effects on local, national and international travel. All these factors should lead to a decrease in the spread of resistant bacteria. So overall, COVID-19 should lead to a fall in resistance rates seen in many countries. For this debate we show why, overall, COVID-19 will not result in increased AMR prevalence. But globally, changes in AMR rates will not be uniform. this website In wealthier and developed countries, resistance rates will likely decrease, but in many other countries there are already too many factors associated with poor controls on the spread of bacteria and viruses (e.g. poor water and sanitation, poor public health, corrupt government, inadequate housing, etc.). In these countries, if economies and governance deteriorate further, we might see even more transmission of resistant bacteria.We argue that the COVID-19 pandemic will result in increased antimicrobial resistance (AMR). Broad-spectrum antibiotic use is common among hospitalized COVID-19 patients and in excess of reported secondary infection rates, suggesting unnecessary prescribing. Selection pressure is likely to be particularly intense in COVID-19 epicentres and within non-epicentre hospital units dedicated to COVID-19 care. Risk factors that increase the likelihood of hospitalization or poor outcomes among COVID-19 patients, such as advanced age, nursing home residence, debilitation, diabetes and cardiopulmonary or other underlying systemic diseases, also predispose to AMR infections. Worry for AMR emergence is heightened since first-wave COVID-19 epicentres were also AMR epicentres. Disruptive direct and indirect effects of COVID-19 globally on economic systems, governance and public health expenditure and infrastructure may fuel AMR spread. We anticipate that the impact of COVID-19 on AMR will vary between epicentres and non-epicentres, by geographic region, hospital to hospital within regions and within specific hospital units.
Granulocyte and monocyte adsorptive apheresis (GMA) has been used for therapy of steroid-dependent/refractory ulcerative colitis (UC). The aim of this study was to investigate the effectiveness of GMA in UC patients not receiving steroids.
We conducted a single-arm, open-label, and multicenter prospective clinical trial. UC patients who had insufficient responses to 5-aminosalicylic acid received GMA twice a week for 5 weeks.
The response rate of all patients was 58.2% (39/67). Of the 39 patients who achieved a response, 74.4% achieved endoscopically confirmed mucosal healing.
GMA shows effectiveness in inducing remission in UC patients not receiving steroid.
GMA shows effectiveness in inducing remission in UC patients not receiving steroid.
Website: https://www.selleckchem.com/products/AZD0530.html
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