Using PeerWise to support the transition to higher education

© 2019 Contributing Author

A framework model for a contextualized and integrated warfarin therapy case in a master of pharmacy program

© Copyright 2019 American Journal of Pharmaceutical Education.Objective. To develop and integrate a case study on warfarin into a clinical pharmacy workshop. Methods. A framework model was designed and used to create a case study on warfarin therapy. The case study was implemented in a third-year Master of Pharmacy course. Student feedback was obtained using an online questionnaire and two focus groups. Results. All students agreed that the case study successfully integrated the science of warfarin and concepts of pharmacy practice. The majority of students (94%) agreed that this approach helped them to understand the science of warfarin more than a traditional lecture would have. Students felt the time allocated to the workshop was too short. Conclusion. An integrated case study provides a learning environment that emphasizes the contextualization of chemistry and pharmacology into a clinical pharmacy setting.Peer reviewedFinal Published versio

Are undergraduate students studying smart? Insights into study strategies and habits across a programme of study

The approach that students take in their studies at university is critical not only for their academic success but is equally important in life-long learning for their career and professional development. Heutagogy is the study of self-determined learning and it is important that we appraise how students in higher education are developing their metacognitive awareness in how they learn and study effectively. Cognitive science is an interdisciplinary research area that involves the scientific study of the human mind. It helps provide new knowledge in relation to areas such as memory, problem solving, knowledge transfer and understanding of complex topics. Cognitive science has demonstrated that re-testing oneself on material when learning, enhances and promotes greater retention of knowledge compared to re-reading the material. Learning that is distributed or spaced out over multiple study sessions also allows for greater retention of knowledge in the longer-term compared to ‘cramming’ of information. To evaluate the use of effective study approaches and habits across three different levels of study in an undergraduate pharmacy programme, a survey study was employed. A paper-based survey was completed by first-, second- and third-year undergraduate pharmacy students (n=192) during class sessions. Although there was some evidence of metacognitive awareness such as using testing (retrieval practice) with practice problems; across all years, suboptimal study approaches such as rereading, copying notes and cramming were endorsed. A schedule of deadlines shaped the organisation of study and time management for most students. Self-testing was predominantly used to test learning rather than an approach used during learning. There was evidence of a difference between the cohorts in relation to decisions for prioritizing studying, returning to review course material and re-reading. The evidence from this study demonstrates that learners would require training on metacognitive awareness and effective study strategies to enable their self-determined learning capabilities to evolve. The linear progression through a programme of study alone will not achieve this. There is a need to embed and emphasize effective strategies for learning into curricula and for faculty to utilise metacognitive awareness in their teaching

Writing A Chemistry Education Research Article: Stepping Stone Or Stumbling Block?

I was invited to write this opinion piece following a presentation at the Royal Society of Chemistry (RSC) conference on Methods in Education Chemistry Research related to translating creative teaching ideas and innovations into chemistry education research outputs. With a keen interest in learning and teaching and a solid training in organic chemistry research, my choice to combine them both and engage in chemistry education research (CER), seeking the empirical evidence to demonstrate the effectiveness (or not) of classroom or laboratory activities, would seem obvious. My professional journey has been both a stepping-stone, in terms of the positive impact of CER in deepening my pedagogic theory and stretching my ideas, yet it also has been a stumbling block. The perspective from colleagues strongly implied CER to be easier, not to mention “fluffy and vague” compared with traditional chemistry research. My experiences have been quite the contrary. I found CER if anything to be more difficult and challenging. To execute chemistry research, in for example my discipline of organic synthetic, would typically require me to consult the literature, obtain published procedures to synthesise a target compound or intermediate products and then to identify the chemicals required. I can assume that the chemicals used will react in a similar way to the published procedure. This however, cannot be assumed in education; replication is not guaranteed. An effective classroom activity with my undergraduate students or a successful doctoral research supervision strategy may not work effectively with all students in all contexts. I will outline the common pitfalls to avoid in CER, the first step in planning high quality CER and hopefully offer some reassurances that, although the transition to CER may feel like starting again within a new research discipline, it does not need to be daunting. Although my experience is in CER most of what I write here will be applicable across the disciplines in higher education.

Are undergraduate students studying smart? Insights into study strategies and habits across a programme of study

This is an open access article distributed under the Creative Commons Attribution License, to view a copy of the license, see: https://creativecommons.org/licenses/by/4.0/ https://doi.org/10.53761/1.19.2.8The approach that students take in their studies at university is critical not only for their academic success but is equally important in life-long learning for their career and professional development. Heutagogy is the study of self-determined learning and it is important that we appraise how students in higher education are developing their metacognitive awareness in how they learn and study effectively. Cognitive science is an interdisciplinary research area that involves the scientific study of the human mind. It helps provide new knowledge in relation to areas such as memory, problem solving, knowledge transfer and understanding of complex topics. Cognitive science has demonstrated that re-testing oneself on material when learning, enhances and promotes greater retention of knowledge compared to re-reading the material. Learning that is distributed or spaced out over multiple study sessions also allows for greater retention of knowledge in the longer-term compared to ‘cramming’ of information. To evaluate the use of effective study approaches and habits across three different levels of study in an undergraduate pharmacy programme, a survey study was employed. A paper-based survey was completed by first-, second- and third-year undergraduate pharmacy students (n=192) during class sessions. Although there was some evidence of metacognitive awareness such as using testing (retrieval practice) with practice problems; across all years, suboptimal study approaches such as rereading, copying notes and cramming were endorsed. A schedule of deadlines shaped the organisation of study and time management for most students. Self-testing was predominantly used to test learning rather than an approach used during learning. There was evidence of a difference between the cohorts in relation to decisions for prioritizing studying, returning to review course material and re-reading. The evidence from this study demonstrates that learners would require training on metacognitive awareness and effective study strategies to enable their self-determined learning capabilities to evolve. The linear progression through a programme of study alone will not achieve this. There is a need to embed and emphasize effective strategies for learning into curricula and for faculty to utilise metacognitive awareness in their teaching.Peer reviewe

Assessing the status of fundamental chemistry knowledge Using a visually displayed chemistry diagnostic test

Students in the classroom may possess varying levels of knowledge and understanding of fundamental chemical concepts so it is necessary to ascertain if any misalignment exists with their expected prior knowledge; if left un-addressed, such misalignment may create difficulties for students beyond the first year of their undergraduate study. The aim of this initial diagnostic test study is to assess students' knowledge of basic concepts in chemistry that underpin the science of patient safety in pharmacy practice using a novel approach which enables a variety of question types. Adiagnostic test using Microsoft PowerPoint© consisting of 40 individually timed questions was presented to an entire cohort of Master of Pharmacy (MPharm) degree programme undergraduate students in both the first year (n = 163) and third year (n = 118). The questions ranged from basic chemical nomenclature to more complex areas such as stereochemistry. Our results showed that the third year undergraduates performed significantly better than those in their first year (p ≤ 0.004) with both cohorts performing well in the basic questions such as recognition of elements and bonding. However, a more in-depth analysis of the questions indicated areas such as chemical structures and mole calculations that caused difficulty for both cohorts. This test highlights problem areas in fundamental chemistry concepts which students find difficult either tograsp or to solve, and as such it serves as a useful diagnostic tool enabling a more targeted approach to teaching

Ten Top tips to liven up your lectures!

Like it or not, many of us will deliver the bulk of our teaching to large groups through the traditional lecture format. The advantages and disadvantages of this teaching format continue to be discussed and debated at length, but it is clear that one of the challenges with teaching large groups is to maintain student engage-ment. The following are our top ten tips to assist in maintaining student engage-mentPeer reviewedFinal Published versio

The Use and Impact of Cognitive Enhancers among University Students: A Systematic Review

Introduction: Cognitive enhancers (CEs), also known as “smart drugs”, “study aids” or “nootropics” are a cause of concern. Recent research studies investigated the use of CEs being taken as study aids by university students. This manuscript provides an overview of popular CEs, focusing on a range of drugs/substances (e.g., prescription CEs including amphetamine salt mixtures, methylphenidate, modafinil and piracetam; and non-prescription CEs including caffeine, cobalamin (vitamin B12), guarana, pyridoxine (vitamin B6) and vinpocetine) that have emerged as being misused. The diverted non-prescription use of these molecules and the related potential for dependence and/or addiction is being reported. It has been demonstrated that healthy students (i.e., those without any diagnosed mental disorders) are increasingly using drugs such as methylphenidate, a mixture of dextroamphetamine/amphetamine, and modafinil, for the purpose of increasing their alertness, concentration or memory. Aim: To investigate the level of knowledge, perception and impact of the use of a range of CEs within Higher Education Institutions. Methodology: A systematic review was conducted in adherence with the Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA) guidelines. Whilst 1400 studies were identified within this study through a variety of electronic databases (e.g., 520 through PubMed, 490 through Science Direct and 390 through Scopus), 48 papers were deemed relevant and were included in this review. Results: The most popular molecules identified here included the stimulant CEs, e.g., methylphenidate, modafinil, amphetamine salt mixtures and caffeine-related compounds; stimulant CEs’ intake was more prevalent among males than females; drugs were largely obtained from friends and family, as well as via the Internet. It is therefore suggested that CEs are increasingly being used among healthy individuals, mainly students without any diagnosed cognitive disorders, to increase their alertness, concentration, or memory, in the belief that these CEs will improve their performance during examinations or when studying. The impact of stimulant CEs may include tolerance, dependence and/or somatic (e.g., cardiovascular; neurological) complications. Discussion: The availability of CEs for non-medical indications in different countries is influenced by a range of factors including legal, social and ethical factors. Considering the risk factors and motivations that encourage university students to use CE drugs, it is essential to raise awareness about CE-related harms, counteract myths regarding “safe” CE use and address cognitive enhancement in an early stage during education as a preventative public health measure

Assessing prevalence, knowledge and use of cognitive enhancers among university students in the United Arab Emirates: A quantitative study

BackgroundCognitive enhancers (CE) are often used to improve memory, alertness and cognitive capacity. These products are commercially and pharmaceutically available. Due to high academic pressure, university students are at risk of CE misuse. However, data regarding this issue are limited, especially in the United Arab Emirates (UAE).AimsTo assess the prevalence of CE intake; evaluate students’ knowledge of these substances; and identify student characteristics associated with CE usage.MethodA cross sectional study based on a validated online survey that was distributed using university-licensed software (Qualtrics) as a direct web link via email and social media to all Medical, Pharmacy, Dentistry, Nursing and Engineering students enrolled in six UAE universities. Associations between student characteristics and CE use were investigated using the chi-squared test and multiple logistic regression. Reasons for CE use, temporal patterns of use, details regarding purchase and types of CE used were compared by gender.ResultsOne quarter of students had used CEs. There was a clear difference between users and non-users in terms of gender (p<0.001). CE users were disproportionately represented by students from either UAE or other Arab countries (p<0.001), and by students of Medicine, followed by Pharmacy, Dentistry, and Engineering (p<0.001). CE use increased with year of study, reaching the highest level in the fourth year (p<0.001), which for most programmes is the final year. Modafinil was self-administered, especially in males, for concentration and alertness; B12 was typically taken by female students for academic performance and concentration; and high-dosage caffeine compounds were ingested to improve alertness levels. Use of the internet for both obtaining information and purchasing CEs was frequently reported. Multiple logistic regression analysis showed that gender, nationality, and year of study were associated with CE use among UAE university students.ConclusionsUniversities need to address the prevalence of CE use amongst their students by providing effective support programs

Novel psychoactive substances (NPS) – knowledge and experiences of drug users from Hungary, Poland, the UK and the USA

Submitted 19 September 2019; Accepted 29 November 2019; Proof received 29 November 2019; Published 18 February 2020. Note: No DOI allocated.Dopamine D 3 receptor partial agonists represent a new generation of atypical antipsychotics. Cariprazine, which has received centralized market authorization from the European Medicines Agency in 2017 for the treatment of adult patients with schizophrenia (including those with predominant negative symptoms of schizophrenia) differs from the other two partial agonist antipsychotics aripiprazole and brexpiprazole due to its unique features. Cariprazine is a dopamine D 3 preferring D 3/D2 partial agonist with very similar dopamine receptor sub-type selectivity as dopamine. It has proven efficacy in the treatment of positive and negative symptoms of schizophrenia, as well as for relapse prevention. Further phase-3 clinical studies proved the efficacy of cariprazine in the acute treatment of manic or mixed episodes associated with bipolar I disorder, as well as in bipolar depression. For the adjunctive treatment of major depressive disorder, phase 3 studies are in progress.Peer reviewedFinal Published versio