Aims and objectivesThe aim of the 2018 EAHP Survey on Medicines Shortages was to provide a clearer picture on the issue of medicines shortages, including the impact on hospital pharmacists’ time, budgets and the effect on patient care.MethodsA survey was conducted by the EAHP, collecting information from European hospital pharmacists on the shortage situation in their respective countries. The survey ran from 19 March 2018 to 11 June 2018. Keele University, UK analysed and compared the results to those of the 2014 survey.ResultsThere were 1666 responses to the 2018 survey, which represented a threefold increase from the 2014 survey which received 607 responses. Ninety per cent of respondents answered ‘Yes’ when asked if shortages of medicines are a current problem in delivering the best care to patients, while only 7% of respondents answered ‘No’, and 3% ’Unsure'.Problems with shortages of antimicrobials were most commonly reported (77% of respondents reporting this as an issue in 2018 vs 57% in 2014), followed by preventative medicines (43% in 2018 vs 20% in 2014) and anaesthetics (39% in 2018 vs 27% in 2014). Fifty-nine per cent of respondents have seen care delayed as a consequence of medication shortages, with cancellations of care (31% of respondents), medication errors (25% of respondents) and suboptimal treatment for patients (25% of respondents) also being frequently reported.Sixty-three per cent of respondents reported having had to pay a higher price to procure from alternate sources most of the time or always when there was a shortage of a medicine.ConclusionsMedicines shortages is an increasing problem across Europe and is having an adverse impact on patient care. Medicines shortages are adding to hospital pharmacists’ time pressures and have an adverse budgetary impact. More timely information about impending shortages and how long they will last is seen as necessary to help manage the problem.
New analytical techniques that overcome major drawbacks of current routinely used viral infection diagnosis methods, i.e., the long analysis time and laboriousness of real-time reversetranscription polymerase chain reaction (qRT-PCR) and the insufficient sensitivity of "antigen tests", are urgently needed in the context of SARS-CoV-2 and other highly contagious viruses. Here, we report on an antifouling terpolymer-brush biointerface that enables the rapid and sensitive detection of SARS-CoV-2 in untreated clinical samples. The developed biointerface carries a tailored composition of zwitterionic and non-ionic moieties and allows for the significant improvement of antifouling capabilities when postmodified with biorecognition elements and exposed to complex media. When deployed on a surface of piezoelectric sensor and postmodified with human-cell-expressed antibodies specific to the nucleocapsid (N) protein of SARS-CoV-2, it made possible the quantitative analysis of untreated samples by a direct detection assay format without the need of additional amplification steps. Natively occurring N-protein−vRNA complexes, usually disrupted during the sample pre-treatment steps, were detected in the untreated clinical samples. This biosensor design improved the bioassay sensitivity to a clinically relevant limit of detection of 1.3 × 10 4 PFU/mL within a detection time of only 20 min. The high specificity toward N-protein-vRNA complexes was validated both by mass spectrometry and qRT-PCR. The performance characteristics were confirmed by qRT-PCR through a comparative study using a set of clinical nasopharyngeal swab samples. We further demonstrate the extraordinary fouling resistance of this biointerface through exposure to other commonly used crude biological samples (including blood plasma, oropharyngeal, stool, and nasopharyngeal swabs), measured via both the surface plasmon resonance and piezoelectric measurements, which highlights the potential to serve as a generic platform for a wide range of biosensing applications.
BackgroundThe 2016 European Association of Hospital Pharmacists (EAHP) Statements survey builds on previous surveys and focuses on sections 1, 3 and 4.ObjectiveTo collect statistical data about the level of implementation of the Statements, and identify important barriers to their implementation.MethodsAn online questionnaire was sent to all hospital pharmacies in EAHP member countries. Data were analysed by researchers from Keele University School of Pharmacy, UK and the EAHP Survey Group. If an incomplete survey was submitted, the quantitative data were not used, although any free-text responses were incorporated.ResultsThe overall response rate was 16% (904 out of 5711 requests) with 730 complete responses. In the first part of the survey, data were collected on the hospital pharmacy setting. While almost half (n=335) of hospital pharmacies served over 500 beds, 77% (n=564) of hospital pharmacies had ≤10 pharmacists. In section B, evidence was gathered about the degree of implementation of sections 1, 3 and 4 of the Statements and the main barriers to, and drivers of, implementation. The questions related to production and compounding (section 3) received very positive responses (all questions from this section received at least a 70% positive response rate), indicating that responders are having less difficulty implementing these statements compared with others. The introductory statements and governance questions (section 1) received a more mixed response. Only 343 (47%) responses indicated that the pharmacists worked routinely as part of multidisciplinary team. Many of the questions relating to clinical pharmacy services (section 4) received a more negative response overall, with six questions receiving <50% positive responses.ConclusionsThis iteration of the survey provides the EAHP with further insight into the implementation of the Statements across the member countries as well as the barriers to, and drivers of, implementation in sections 1, 3 and 4. This is essential to inform the plans for EAHP to best support their implementation.
ObjectivesThe 2017 EAHP European Statements Survey focussed on sections 2, 5 and 6 of the European Statements of Hospital Pharmacy. Statistical data on the level of implementation and on the main barriers to implementation of the Statements were collected. A further aim was to identify barriers in general, such as lack of awareness.MethodsAn online questionnaire was sent to all hospital pharmacies in European Association of Hospital Pharmacists (EAHP) member countries. Data were analysed at Keele University School of Pharmacy, UK by and the EAHP Survey Group.ResultsThere were 783 complete responses (response rate 17.4%). Some 42% of responders worked in teaching hospitals, 76% of hospital pharmacies had 10 or less pharmacists, and 46% of hospital pharmacies served over 500 beds.Five questions revealing the lowest implementation levels were further analysed in greater detail. Only 30% of respondents reported that their hospital pharmacists routinely publish hospital pharmacy practice research, and only 50% are involved in the development of local or national guidelines. 45% of respondents reported that computerised decision support was used to reduce the risk of medication errors in their hospitals, 69% stated that they had contingency plans for medicines shortages and 60% answered that they had had reason to contact their medicines authority because of drug shortages. 63% reported that the transcription step had been eliminated from the medicines administration process.ConclusionsThe survey has provided the EAHP with an overview of the implementation level as well as the barriers to and drivers of implementation of sections 2, 5 and 6. This is important for informing the plans of EAHP and its members so that implementation can be fully supported.
Standard Reference Material 927c based on pure bovine albumin is still recommended and used as the primary standard for assays of total protein by colourimetric methods. The albumin calibrator is responsible for a positive bias of approximately 3%-5% in serum total protein assayed by the biuret reaction both in the reference and in current methods. Its substitution by a serum calibrator attested by the Kjeldahl method could solve this drawback. Clin Chem Lab Med 2009;47:91-101.
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