How can we reduce harm from polypharmacy?

By ensuring the right person receives the right treatment for their condition with the appropriate clinician, harm from polypharmacy can be reduced. This is achieved through regular medication review and shared decision making, considering all medicines prescribed, including those bought by the person and any traditional and complementary therapies.

 

Appropriate polypharmacy8 is present when:

  1. all drugs are prescribed for the purpose of achieving specific therapeutic objectives that have been agreed with the individual
  2. therapeutic objectives are being achieved or there is a reasonable chance they will be achieved in the future
  3. drug therapy has been optimised to minimise the risk of adverse drug reactions (ADRs)
  4. the individual is motivated and able to take all medicines as intended

 

Inappropriate polypharmacy is present, when one or more drugs are prescribed that are not or no longer needed, either because:
  1. there is no evidence-based indication, the indication has expired, or the dose is unnecessarily high
  2. one or more medicines fail to achieve the therapeutic objectives they are intended to achieve
  3. one, or the combination of several drugs, cause unacceptable adverse drug reactions (ADRs), or put the individual at an unacceptably high risk of such ADRs
  4. the person is unable or not willing to take one or more medicines as intended

 

Polypharmacy in diabetes

Polypharmacy is common for those living with T2DM. In addition to management of hyperglycaemia, there is often the prevalence of co-morbidities including

  • atherosclerotic cardiovascular disease (ASCVD)
  • chronic kidney disease (CKD)
  • heart failure (HF)
  • depression

 

National therapeutic indicator

Polypharmacy in diabetes

The most up to date national therapeutic indicator data is available here.

The figure shows the increasing trend of people being prescribed multiple medicines for diabetes. While this prescribing will very often be appropriate polypharmacy, the chart serves to demonstrate the quantity of medicines prescribed

Variation between the national health boards is reducing. Boards should consider their position in this data and the steps required to ensure that polypharmacy in diabetes is appropriate. More information and details are available in using data to drive change and national therapeutic indicators and on the Public Health Scotland website.

 

Environmental impact of polypharmacy and healthcare

The healthcare industry is increasingly asked to account for the negative environmental impact generated through providing medical care.

In Scotland, every 10 days a 10-tonne truck of medicines waste (from community and hospital pharmacies) is transported for incineration.

There are the associated costs for incineration; travel costs and the environment impact (see the image below showing the annual cost of managing medicines waste in Scotland) and in addition, direct costs of the unused medication.

There are many factors which contribute to medicines waste and a Department of Health and Social Care report in September 202113 showed that over prescribing is commonplace. Evidence is limited, but the review estimates that it is possible that at least 10% of the total number of prescription items in primary care need not have been issued.

This guidance supports reducing inappropriate prescribing through review of medication for those with long term health conditions. This includes promoting person-centred decision-making; providing guidance and support for clinicians and suggesting alternatives to medicines, where appropriate, such as physical, social activities and lifestyle change.

 

The Royal Pharmaceutical Society policy, ‘Pharmacy’s role in climate action and sustainable healthcare14 , identifies medicines as contributing 25% of carbon emissions in the NHS.  This can be reduced by:

  • improving prescribing and medicines use
  • tackling medicines waste
  • preventing ill health; and
  • improving infrastructure and ways of working.

With regular medication review to address inappropriate polypharmacy in T2DM (and other co-morbidities), the environmental impact can be reduced.

Small changes can have an impact, such as considering the use of re-useable insulin pens and cartridges rather than pre-filled pens, which have a lower CO2 footprint as well as reducing plastic waste. .

The RCGP15 has identified that prescribing accounts for over 60% of general practice’s carbon footprint.

 

Sustainable Markets Initiative (SMI)

The SMI established in 2020 identify seven levers to reduce carbon emissions in care pathways, many which relate to diabetes.16

  1. Decarbonising facilities and fleets
  2. Preventing disease onset – dietary and lifestyle management to prevent and manage T2DM
  3. Diagnosing early – to treat earlier and prevent long-term complications
  4. Optimising disease management – utilising newer therapies has positive long-term outcomes and reduces incidence of ASCVD, CKD and HF – see example below.
  5. Improving the efficiency of interventions – as above
  6. Delivering care remotely or closer to home when appropriate – digital innovations
  7. Using lower-emission treatments – re-usable insulin pens

 

It is estimated that an individual with T2DM and late-stage CKD requiring dialysis several times per week will have associated carbon emissions 70 times of someone managed with insulin, and 200 times those managed with oral hypoglycaemic therapies.

Of 100 individuals with pre-diabetes, 15% will develop cardiovascular or renal disease, accounting for 50% of the carbon emissions of this group.

Therefore prevention of and effective management of T2DM will have a positive environmental impact.

 

Pharmaceuticals in wastewater

The Royal Pharmaceutical Society's Sustainability Policies also point to the occurrence of pharmaceuticals in the environment.  Every oral dose of a medicine taken is either excreted unchanged or converted to a metabolite with 30-100% entering our wastewater system which cannot currently remove all traces. The occurrence of pharmaceuticals in the environment is of global concern, and there is already evidence that they can affect aquatic wildlife, increase microbial resistance and enter the human food chain. 

Evidence has already identified metformin and sitagliptin in waterways across the world, and further studies are needed identify the wider environmental impact of other anti-diabetic medication.  These two examples highlight the importance of preventing diabetes and that all prescribing and review of medication should consider environmental impact and sustainability.17,18,19,20