Harry Wu scite author profile

Polypharmacy is a major challenge in healthcare for older people, and is associated with increased risks of adverse outcomes, such as delirium, falls, frailty, cognitive impairment and hospitalization. There is significant public and professional interest in the role of deprescribing in reducing medication-related harms in older people. We aim to provide a narrative review of 1) the safety and efficacy of deprescribing interventions, 2) the challenges and solutions of deprescribing research and implementation in clinical practice, and 3) the benefits of using Computerized Clinical Decision Support Systems (CCDSS) and Quality Indicators (QIs) in deprescribing research and practice. Deprescribing is an established management strategy to minimize polypharmacy and potentially inappropriate medications. There is limited clinical evidence for its efficacy on global and geriatric outcomes. Various challenges at patient, healthcare professional and healthcare system levels may impact on the success of deprescribing interventions in research and practice. Management strategies that target all levels of the healthcare system are required to overcome these challenges. Future studies may consider large multicenter prospective designs to establish the effects and sustainability of deprescribing interventions on clinical outcomes.

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Polypharmacy Results in Functional Impairment in Mice: Novel Insights Into Age and Sex Interactions

Mach

Gemikonakli

et al. 2021

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Males and females may respond differently to medications, yet knowledge about sexual dimorphisms in the effects of polypharmacy remains limited, particularly in aging. This study aimed to assess the effect of high Drug Burden Index (DBI) polypharmacy treatment compared to control on physical function and behavior in young and old, male and female mice. We studied whether age and sex play a role in physical function and behavior following polypharmacy treatment, and whether they are parallelled by differences in serum drug levels. Young (2.5 months) and old (21.5 months), C57BL/6 mice were randomized to control or high DBI polypharmacy treatment (simvastatin, metoprolol, oxybutynin, oxycodone, citalopram) (n=6-8/group) for 4-6 weeks. Compared to control, polypharmacy reduced physical function (grip strength, rotarod latency, gait speed, total distance), middle zone distance (increased anxiety) and nesting score (reduced activities of daily living) in mice of both ages and sexes (p<0.001). Old animals had a greater decline in nesting score (p<0.05) and midzone distance (p<0.001) than young animals. Grip strength declined more in males than females (p<0.05). Drug levels at steady state were not significantly different between polypharmacy-treated animals of both ages and sexes. We observed polypharmacy-induced functional impairment in both age and sex groups, with age and sex interactions in the degree of impairment, which were not explained by serum drug levels. Studies of pathogenesis of the functional impairment from polypharmacy may improve management strategies in both sexes.

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Biology of frailty: Implications for clinical pharmacology and drug therapy in frail older people

Hilmer

Zhang

2019

Mechanisms of Ageing and Development

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Harry Wu

Deprescribing in the Older Patient: A Narrative Review of Challenges and Solutions

Polypharmacy Results in Functional Impairment in Mice: Novel Insights Into Age and Sex Interactions

Biology of frailty: Implications for clinical pharmacology and drug therapy in frail older people

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