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Prof Candis M. Morello – Prof Jan D. Hirsch | Recent innovations in pharmacy education
A pioneering research team from the Skaggs School of Pharmacy and Pharmaceutical Sciences, University of California, San Diego, United States, has been instrumental in developing innovative techniques for teaching pharmacy students. The Next Generation of Pharmacist Educators (NextGen-RxEd) programme is a new method of training the next generation of pharmacist educators and academics. To help pharmacists and pharmacy students visualise the complex issues experienced by their patients, the team led by Professors Candis Morello and Jan Hirsch developed an innovative educational tool, called the Medication Therapy Management (MTM) Spider Web.
Identifying Nutritional Risk in Early Childhood: Insights from NutriSTEP®
Early childhood is a critical period for growth and development, yet many young children face nutritionrelated risks that can go unnoticed. Professor Janis Randall Simpson and colleagues have developed NutriSTEP®, validated and reliable screening tools that help identify potential nutritional concerns in toddlers and preschoolers. Their large-scale analysis of Canadian data reveals patterns in diet, behaviour, and food access that could help guide early interventions and support healthy development.
Professor Tony Gerard Butler | Mental Health Treatment: A Critical Pathway in the Criminal Justice System
Professor Tony Butler of the University of New South Wales explores the dynamic relationship between mental health and justice, unravelling the transformative potential of mental health treatment in the criminal justice system. By navigating the complexities of mental health interventions and their implications for reoffending rates, Professor Butler’s research provides valuable insights into the inherent challenges – and opportunities – found at the intersection of mental health and justice.
Dr Lynn George | A New Link Between Elongator Dysfunction and TDP-43 Loss in ALS
At Montana State University Billings, Dr Lynn George and her team are investigating the cellular mechanisms underlying amyotrophic lateral sclerosis (ALS). Using a new mouse model, their research reveals that disruption of the Elongator complex leads to nucleolar stress and the loss of the protein TDP-43 from motor neurons. These findings connect two major hallmarks of ALS and offer new insight into how the disease develops.