Hostname: page-component-78c5997874-dh8gc Total loading time: 0 Render date: 2024-11-10T02:42:05.229Z Has data issue: false hasContentIssue false
  • English
  • Français

A tool for safer prescribing in vulnerable adults: the continuing development of the Medichec app and website

Published online by Cambridge University Press:  06 September 2023

Delia Bishara Open the ORCID record for Delia Bishara [Opens in a new window] ,
Sahar Riaz ,
Justin Sauer ,
Christoph Mueller Open the ORCID record for Christoph Mueller [Opens in a new window] ,
Siobhan Gee ,
David Taylor Open the ORCID record for David Taylor [Opens in a new window] ,
Robyn-Jenia Wilcha ,
Millie Edwards ,
Nirja Beehuspoteea  and
Anne Marie Bonnici Mallia
...Show all authors
Delia Bishara*
Affiliation:
Mental Health of Older Adults and Dementia Department, South London and Maudsley NHS Foundation Trust, London, UK Institute of Psychiatry, Psychology & Neuroscience, King's College London, London, UK Pharmacy Department, South London and Maudsley NHS Foundation Trust, London, UK
Sahar Riaz
Affiliation:
Institute of Psychiatry, Psychology & Neuroscience, King's College London, London, UK
Justin Sauer
Affiliation:
Mental Health of Older Adults and Dementia Department, South London and Maudsley NHS Foundation Trust, London, UK Institute of Psychiatry, Psychology & Neuroscience, King's College London, London, UK
Christoph Mueller
Affiliation:
Mental Health of Older Adults and Dementia Department, South London and Maudsley NHS Foundation Trust, London, UK Institute of Psychiatry, Psychology & Neuroscience, King's College London, London, UK
Siobhan Gee
Affiliation:
Institute of Psychiatry, Psychology & Neuroscience, King's College London, London, UK Pharmacy Department, South London and Maudsley NHS Foundation Trust, London, UK
David Taylor
Affiliation:
Institute of Psychiatry, Psychology & Neuroscience, King's College London, London, UK Pharmacy Department, South London and Maudsley NHS Foundation Trust, London, UK
Robyn-Jenia Wilcha
Affiliation:
Mental Health of Older Adults and Dementia Department, South London and Maudsley NHS Foundation Trust, London, UK
Millie Edwards
Affiliation:
Mental Health of Older Adults and Dementia Department, South London and Maudsley NHS Foundation Trust, London, UK
Nirja Beehuspoteea
Affiliation:
Mental Health of Older Adults and Dementia Department, South London and Maudsley NHS Foundation Trust, London, UK
Anne Marie Bonnici Mallia
Affiliation:
Mental Health of Older Adults and Dementia Department, South London and Maudsley NHS Foundation Trust, London, UK
Jennifer Brook
Affiliation:
Mental Health of Older Adults and Dementia Department, South London and Maudsley NHS Foundation Trust, London, UK
Bharathi Balasundaram
Affiliation:
Changi General Hospital, Singapore
Daniel Harwood
Affiliation:
Mental Health of Older Adults and Dementia Department, South London and Maudsley NHS Foundation Trust, London, UK
Nicola Funnell
Affiliation:
Mental Health of Older Adults and Dementia Department, South London and Maudsley NHS Foundation Trust, London, UK
Andre Strydom
Affiliation:
Institute of Psychiatry, Psychology & Neuroscience, King's College London, London, UK
Robert Stewart
Affiliation:
Mental Health of Older Adults and Dementia Department, South London and Maudsley NHS Foundation Trust, London, UK Institute of Psychiatry, Psychology & Neuroscience, King's College London, London, UK
*
Correspondence to Delia Bishara (delia.bishara@slam.nhs.uk)
Rights & Permissions [Opens in a new window]

Abstract

Aims and method

Adverse effects are a common concern when prescribing and reviewing medication, particularly in vulnerable adults such as older people and those with intellectual disability. This paper describes the development of an app giving information on side-effects, called Medichec, and provides a description of the processes involved in its development and how drugs were rated for each side-effect. Medications with central anticholinergic action, dizziness, drowsiness, hyponatraemia, QTc prolongation, bleeding and constipation were identified using the British National Formulary (BNF) and frequency of occurrence of these effects was determined using the BNF, product information and electronic searches, including PubMed.

Results

Medications were rated using a traffic light system according to how commonly the adverse effect was known to occur or the severity of the effect.

Clinical implications

Medichec can facilitate access to side-effects information for multiple medications, aid clinical decision-making, optimise treatment and improve patient safety in vulnerable adults.

Keywords

Medichecside-effectsanticholinergicdementiamedication
Type
Special Article
Information
BJPsych Bulletin , Volume 48 , Issue 4 , August 2024 , pp. 254 - 260
Check for updates
Creative Commons
Creative Common License - CCCreative Common License - BY
This is an Open Access article, distributed under the terms of the Creative Commons Attribution licence (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted re-use, distribution and reproduction, provided the original article is properly cited.
Copyright
Copyright © The Author(s), 2023. Published by Cambridge University Press on behalf of Royal College of Psychiatrists

It is widely recognised that people with dementiaReference Moore and O'Keeffe1,Reference Sönnerstam, Sjölander, Lövheim and Gustafsson2 and intellectual disabilityReference Sheehan, Horsfall, Strydom, Osborn, Walters and Hassiotis3 have increased vulnerability to adverse events from medication, and yet are also more likely to be receiving polypharmacy because of high rates of multimorbidity. Dementia itself is already associated with frailty,Reference Grande, Haaksma, Rizzuto, Melis, Marengoni and Onder4Reference Kojima, Taniguchi, Iliffe and Walters6 orthostatic hypotensionReference Isik, Kocyigit, Smith, Aydin and Soysal7,Reference Ungar, Mussi, Ceccofiglio, Bellelli, Nicosia and Bo8 and falls.Reference Ungar, Mussi, Ceccofiglio, Bellelli, Nicosia and Bo8 In addition, people with cognitive impairment or intellectual disability are less likely to report medication side-effects, many of which may be asymptomatic or difficult to detect, until they become potentially life threatening.

Medichec began as a means of communicating information on medications with central anticholinergic actions. Medications with anticholinergic activity are frequently associated with adverse effects and poor outcomes in vulnerable adults with physical comorbidities, such as older people and those with intellectual disability. As well as the well-recognised peripheral anticholinergic side-effects (e.g. dry mouth, blurred vision, constipation and urinary retention) anticholinergic drugs can also cause central adverse effects (e.g. drowsiness, delirium and cognitive impairment).Reference Lieberman9,Reference López-Álvarez, Sevilla-Llewellyn-Jones and Agüera-Ortiz10 Furthermore, in the past 15 years, there has been a considerable amount of data emerging suggesting that these agents can increase the risk for dementia and mortality in older people.Reference Fox, Richardson, Maidment, Savva, Matthews and Smithard11,Reference Gray and Hanlon12

The Anticholinergic Cognitive Burden (ACB) scale had been widely used to identify drugs with high anticholinergic burden for patients,Reference Lisibach, Benelli, Ceppi, Waldner-Knogler, Csajka and Lutters13 but the degree of penetration of drugs across the blood–brain barrier and their receptor selectivity do not appear to have been considered in the functionality of this scale. This is evident for the bladder anticholinergic drug group, in which all agents are allocated a score of 3 (the highest possible score) despite their physiochemical differences that allow some to penetrate the blood–brain barrier more than others. As a result, a team at the South London and Maudsley NHS Foundation Trust (SLaM) decided to develop a new central anticholinergic burden scale. The team took all the drugs’ relevant physiochemical factors into account and developed the Anticholinergic Effect on Cognition (AEC) scale, which specifically looked at the central anticholinergic action of drugs.Reference Bishara, Harwood, Sauer and Taylor14 The step-by-step development of the AEC scale has been reported elsewhereReference Bishara, Harwood, Sauer and Taylor14 and the scale has been clinically validated in people with dementia.Reference Bishara, Perera, Harwood, Taylor, Sauer and Stewart15 It has also been shown to have greatest predictive accuracy for dementia/delirium when compared with other scales.Reference Hanlon, Quinn, Gallacher, Myint, Jani and Nicholl16

The implementation of the AEC scale in SLaM memory services was successful and greatly improved the identification of high-risk anticholinergic drugs and subsequent communication to general practitioners (GPs) regarding medication reviews.Reference Bishara, Scott, Stewart, Taylor, Harwood and Codling17 However, owing to the risk of human error arising from misidentification of drugs from the list or simple calculation errors when adding up total scores, the need for an electronic version of the AEC scale became quickly apparent. This led to the development of the first version of Medichec, a free website tool based on the AEC scale. It can also be downloaded to smartphones or tablets as an Apple or Android app for a small fee. This functionality, maintained in all subsequent versions, allows practitioners to easily check a patient's medication, and the cumulative anticholinergic burden score is calculated automatically. The system will identify a drug and its score by any of the names listed in the British National Formulary (BNF). It also alerts the practitioner as to which drugs need to be reviewed and gives advice on how to interpret the score. Medichec uses generic names and accesses over 2000 medications. Clinical staff can use the app and incorporate results into their reports, or they can communicate the scores directly to GPs, as results can also be emailed from the website.

The success and increasing use of Medichec to identify central anticholinergic burden highlighted the importance of having side-effect data easily available and accessible to clinicians. Further development of the app has subsequently been carried out with the addition of several adverse effects that are paramount to the safety of prescribing in vulnerable individuals, such as older people and those with intellectual disability. These include dizziness and drowsiness, made available in Version 2 of the site/app, and more recently QTc prolongation, hyponatraemia, bleeding risk and constipation.

This paper aims to explain the reasoning for the selection of adverse effects now incorporated into Medichec, to describe the processes involved in the development of the medication lists accessed by it and to define how drugs were rated for each adverse effect.

Rationale for adverse effects, beyond central anticholinergic action, included in more recent versions of Medichec

Dizziness

Dizziness as a symptom is highly prevalent among older people and is associated with many health factors, including falls, lower health-related quality of life, disability and depression/anxiety.Reference Kammerlind, Ernsth Bravell and Fransson18 Although dizziness can occur from other drug-related effects, such as hypoglycaemia or vestibular system dysfunction, orthostatic hypotension can also result in symptoms of dizziness,Reference Chimirri, Aiello, Mazzitello, Mumoli, Palleria and Altomonte19 underscoring the need for early detection of potential causes and preventive strategies. Dizziness is reported as an adverse effect of many medications and may be a risk factor for adverse outcomes in those affected, regardless of whether or not there is demonstrable orthostatic hypotension as an underlying cause of the symptom. In addition, it can worsen cognitive impairment and confusion.Reference Lee, Lim and Kim20

Drowsiness/sedation

Another important adverse effect is sedation or drowsiness, given the risk of oversedation and its impact on accelerated cognitive decline and hospital admissions in older people,Reference Mbazira, Bishara, Perera, Rawlins, Webb and Archer21 in addition to increased falls and fractures.Reference de Jong, Van der Elst and Hartholt22 Most centrally acting anticholinergic medications cause sedation, but not all sedative medications are anticholinergic, and several other neurotransmitter systems are involved, including the noradrenergic, glutaminergic, histaminic, opioid and gamma-aminobutyric acid (GABA)-ergic system.Reference Mbazira, Bishara, Perera, Rawlins, Webb and Archer21

QTc prolongation

The electrocardiogram (ECG) QT interval measures the time for myocardial cells to depolarise and repolarise and is conventionally corrected for the heart rate, resulting in the measured QTc interval. Patients with a prolonged QTc interval are at risk of ventricular arrhythmias, torsades de pointes and sudden death.Reference Glassman and Bigger23,Reference Straus, Kors, De Bruin, van der Hooft, Hofman and Heeringa24 Electrolyte disturbances as well as cardiac conduction abnormalities such as heart block and bradycardia predispose to arrhythmias. People with an intellectual disability are more likely to have congenital heart conditions, and older people are more likely to be electrolyte deficient, especially if they are receiving diuretics, and are thus at increased risk for the effects of QTc prolongation. The QTc interval may also increase with age in normal hearts owing to physiological ageing processes in the myocardium.Reference Meid, von Medem, Heider, Adler, Günster and Seidling25,Reference Reardon and Malik26 Concomitant usage of drugs prolonging the ECG QTc interval is common in older people and in those with intellectual disability and although substantial evidence does not yet exist, it is commonly assumed that the QTc interval will increase with the number of co-administered QTc-prolonging drugs.Reference Meid, von Medem, Heider, Adler, Günster and Seidling25

Hyponatraemia

Hyponatraemia is a relatively common electrolyte abnormality seen in clinical practice and is especially prevalent in older people because age is a strong independent risk factor.Reference Liamis, Rodenburg, Hofman, Zietse, Stricker and Hoorn27,Reference Hawkins28 Other contributing factors include the presence of factors contributing to increased antidiuretic hormone as well as the prescription of drugs associated with hyponatraemia (e.g. diuretics) and mechanisms such as the ‘tea and toast’ syndrome.Reference Filippatos, Makri, Elisaf and Liamis29 It has been shown that concurrent use of hyponatraemia-inducing medications increased the risk of severe hyponatraemia compared with that with individually administered hyponatraemia-inducing medication.Reference Jun, Ah, Shin and Lee30

Hyponatraemia has serious implications and is associated with impaired balance, falls, hip fractures, osteoporosis and cognitive dysfunction.Reference Renneboog, Musch, Vandemergel, Manto and Decaux31Reference Hoorn, Liamis, Zietse and Zillikens34 Even mild, apparently asymptomatic hyponatraemia is associated with prolonged stays in hospital.Reference Chua, Hoyle and Soiza35 In addition, it is associated with increased mortality in older populations.Reference Liamis, Rodenburg, Hofman, Zietse, Stricker and Hoorn27,Reference Sajadieh, Binici, Mouridsen, Nielsen, Hansen and Haugaard36 Many individuals with intellectual disability have comorbid epilepsy, and several anti-epileptics may predispose to hyponatraemia.Reference Intravooth, Staack, Juerges, Stockinger and Steinhoff37

Bleeding risk

Drug-induced bleeding presents in many ways in older people, including excessive bruising, nosebleeds, and gastrointestinal, rectal and intracranial bleeding. As with many other adverse effects, advanced age is a risk factor for medication-related bleeds.Reference Harper, Young and Merriman38 Drug-induced bleeding is potentiated by numerous drugs and drug–drug interactions.Reference Schelleman, Bilker, Brensinger, Han, Kimmel and Hennessy39 It is important to be aware of patient-specific risk factors but also to easily identify medications that contribute to bleeding. By minimising the risk of drug-induced bleeding in patients, clinicians and pharmacists have the opportunity to reduce long-term adverse effects.

Constipation

The prevalence of constipation rises dramatically with age, with some estimates approaching 50% among people over 80 years old.Reference Gandell, Straus, Bundookwala, Tsui and Alibhai40 Among people with intellectual disability, similar prevalence rates have been found.Reference Robertson, Baines, Emerson and Hatton41 Constipation is often multifactorial and can be caused by certain disease states and conditions, such as anxiety, Parkinson's disease, hormonal changes or metabolic factors, medications such as opioids and anticholinergic medication, as well as lifestyle factors.Reference Schuster, Kosar and Kamrul42 Consequences of constipation can be serious and substantial and are often underestimated. In susceptible older people who are frail, excessive straining can trigger a syncopal episode, or coronary or cerebral ischaemia. Less acutely, constipation leading to faecal impaction can present with anorexia, nausea and pain associated with functional decline. Case reports have identified bowel ulceration, perforation and death as consequences of faecal impaction.Reference Gandell, Straus, Bundookwala, Tsui and Alibhai40,Reference Ouaïssi, Sielezneff, Benoist, Pirró, Cretel and Chaix43 Quality of life also appears to be lower for older people with constipation, it is one of the most frequent causes of behavioural and psychological symptoms of dementia (BPSD)Reference Tible, Riese, Savaskan and von Gunten44 and long-term care facilities often incur higher costs managing this problem.Reference Gandell, Straus, Bundookwala, Tsui and Alibhai40 In addition, when laxatives are used to treat constipation, this can lead to falls.Reference Schuster, Kosar and Kamrul42

Medichec expansion and development

As part of the continuing development of Medichec we searched the electronic BNF for each adverse effect within the drug treatment summaries to determine which drugs could cause the side-effects listed above. A measure of the frequency or likelihood of these adverse effects occurring was recorded. The BNF uses the World Health Organization (WHO) definitions and classifies frequencies of side-effects as follows:

  • very common: greater than 1 in 10

  • common: 1 in 100 to 1 in 10

  • uncommon: 1 in 1000 to 1 in 100

  • rare: 1 in 10 000 to 1 in 1000

  • very rare: less than 1 in 10 000

  • frequency unknown: either the frequency is not defined by product literature or the side-effect has been reported from post-marketing surveillance data.

The traffic light rating system

Medications were classified using an extended traffic light system according to how commonly the adverse effect was known to occur or the severity of the effect.

Dizziness

Drugs associated with ‘orthostatic hypotension’ and ‘dizziness’ were identified by searching for each side-effect in the BNF database hosted by the National Institute for Health and Care Excellence (NICE) (at bnf.nice.org.uk). From the identified results, only those drugs where the search term was listed as a side-effect with known frequency were accepted. Drugs where the search term was present as a caution or contraindication but not a side-effect, or where it was only listed as a side-effect in overdose, were excluded. This process was repeated using a second database, the BNF available through MedicinesComplete database (www.pharmaceuticalpress.com/products/british-national-formulary), to perform a separate search and verify the list of drugs identified by the first database. The same search criteria were used to compare up to the first 200 results for each separate search term. Once a list of medications causing dizziness and another list for orthostatic hypotension had been drawn up, it was seen that the overlap between the two lists consisted of certain additional drugs causing dizziness, but no additional drugs causing only orthostatic hypotension; therefore, the side-effect ‘dizziness’ was used for the Medichec database.

Drugs causing dizziness were classified in Medichec as follows:

  • Dizziness not reported in the BNF/Frequency not known/Drug not analysed for this side-effect.

  • Dizziness reported as uncommon, rare or very rare.

  • Dizziness reported as common or very common.

Drowsiness/sedation

For the drowsiness list, the NICE BNF database was used, and the following search words were entered: ‘drowsiness’, ‘somnolence’ or ‘sedation’ listed as a side-effect in drug treatment summaries. A list of drugs and frequencies was compiled in the same way as for dizziness.

Drugs causing drowsiness were classified in Medichec as follows:

  • Drowsiness not reported in the BNF/frequency not known/drug not analysed for this side-effect.

  • Drowsiness reported as uncommon, rare or very rare.

  • Drowsiness reported as common or very common.

  • Drowsiness reported as common or very common AND drug has an additional cautionary warning for drowsiness in the BNF. Within this group are some antipsychotic drugs deemed particularly sedating (as per Maudsley Prescribing GuidelinesReference Taylor, Barnes and Young45) and anticholinergic drugs that are centrally acting.

QTc prolongation

The NICE BNF website was used to identify drugs listed as having QTc prolongation anywhere in the drug treatment summary. The search term ‘QT’ was used. This included cautions, contraindications, drug interactions and side-effects (because of the severity of this adverse effect, it was felt important also to identify drugs where QTc is listed as a caution, contraindication or drug interaction). If the BNF listed the frequency as not known, the drug's Summary of Product Characteristics (SPC) was checked, using the electronic Medicines Compendium (emc) website (www.medicines.org.uk/emc). Finally, to confirm and supplement the findings, the electronic resource CredibleMeds was checked (crediblemeds.org) and if further information on frequency was still required, a search on PubMed was carried out. The information retrieved was examined and drugs were scored by two separate investigators (D.B. and S.G.). Where there was disagreement on the score, a discussion between the two investigators took place until agreement was achieved.

Drugs causing QTc prolongation were classified in Medichec as follows:

  • QTc prolongation not reported in the BNF/drug not analysed for this side-effect.

  • QTc prolongation has a conditional risk (caution/contraindication/interaction).

  • QTc prolongation reported as rare or very rare.

  • QTc prolongation reported as uncommon.

  • QTc prolongation reported as common or very common.

The QTc prolongation side-effect was given an additional rating of conditional risk (Blue). This category included drugs associated with QTc prolongation or torsades de pointes but only under certain conditions of their use (e.g. excessive dose, in patients with conditions such as hypokalaemia, or when taken with interacting drugs). This includes drugs where QTc prolongation is listed in the BNF as a caution or contraindication, or under interactions, without it being listed as a side-effect as well. Because drug-induced QTc prolongation is relatively rare but can have serious consequences, it was deemed important to highlight conditional risks as well for this side-effect, and to carry out additional searches to identify frequency of its occurrence.

Hyponatraemia

The methods described above were also used to identify drugs causing hyponatraemia. The search terms ‘hyponatraemia’ and ‘syndrome of inappropriate antidiuretic hormone’ or ‘SIADH’ were input in the NICE BNF database. Again, drug summaries that listed hyponatraemia in cautions, contraindications and drug interactions but not side-effects were also included. If the BNF listed the frequency as not known, the product information was checked for reported frequency and if further information was still required, a search on PubMed was carried out. Data retrieved were examined and drugs were scored by two separate investigators (D.B. and S.G.). Where there was disagreement, a discussion took place until agreement was achieved.

It was considered important for the side-effect hyponatraemia to have a further additional rating specific to some psychotropic agents considered less likely to cause hyponatraemia compared with those that are rated Amber. This category (Light amber) includes tricyclic antidepressants (TCAs) and some atypical antipsychotics. It is known that all antidepressants can cause hyponatraemia, but the BNF often lists this as ‘frequency not known’. Thus, where frequency could not be identified from either the BNF or product information, the Maudsley Prescribing GuidelinesReference Taylor, Barnes and Young45 were consulted and, finally, a PubMed search was conducted. Evidence suggests that TCAs and other antidepressants are less likely to cause hyponatraemia than selective serotonin reuptake inhibitors (SSRIs) and serotonin and noradrenaline reuptake inhibitors (SNRIs),Reference Taylor, Barnes and Young45 and they were therefore classed as Light amber so as to differentiate between the different classes of antidepressant. Those drugs that the BNF listed as having a frequency not known and only had case reports identified from PubMed were rated as Yellow.

For antipsychotic drugs, evidence suggests that first-generation antipsychotics (FGAs) are more likely to cause hyponatraemia than most second-generation antipsychotics (SGAs);Reference Falhammar, Lindh, Calissendorff, Skov, Nathanson and Mannheimer46 however, even FGAs are less likely to cause hyponatraemia than antidepressants in general. Therefore, all FGAs were listed as Light amber. SGAs were listed as Light amber if the BNF stated that frequency was uncommon, rare or very rare. If frequency in the BNF was unknown, then a PubMed search was carried out and a decision was made on whether they were to be labelled Light amber or Yellow if only case reports were identified.

Drugs causing hyponatraemia were classified in Medichec as follows:

  • Hyponatraemia not reported in the BNF/drug not analysed for this side-effect.

  • Hyponatraemia has a conditional risk (caution/contraindication/interaction).

  • Hyponatraemia case reports found only.

  • Hyponatraemia reported as uncommon, rare or very rare but less likely to occur than drugs classed as Amber. This group comprises psychotropics only, including TCAs and some atypical antipsychotics.

  • Hyponatraemia reported as uncommon, rare or very rare.

  • Hyponatraemia reported as common or very common.

Bleeding risk

For bleeding risk of drugs, the key terms used to search the BNF were ‘haemorrhage,’ ‘hemorrhage’, ‘bleed’, ‘blood loss’ and ‘haematuria’. Drugs were excluded if they were used to treat haemorrhages, as stated in the treatment summaries, or if they were given via an intramuscular route, since the route of administration itself, rather than the drug, can cause bleeding. The patient safety advice, cautions, contraindications and side-effect profiles in the BNF were analysed for the risk of haemorrhage. The side-effect profiles of the drugs were further scrutinised to differentiate the likely probability of the risk of haemorrhage occurring. Drugs listed with the side-effect of haemorrhage, but with the frequency unknown, were further cross-referenced using the product information on the emc website with the hope of securing further information on the likely probability of the risk of haemorrhage. Where information on frequency could not be ascertained, the drug was classed under conditional risk (Blue). This decision was taken on the basis that it was deemed important to highlight that bleeding could occur even if the frequency was not known and potentially very low, but owing to the severity of the side-effect it needed to be flagged. Furthermore, it was more difficult to identify case reports for drugs causing bleeding then for some of the other side-effects examined.

Drugs causing bleeding were classified in Medichec as follows:

  • Bleeding not reported in the BNF/drug not analysed for this side-effect.

  • Bleeding has a conditional risk (caution/contraindication/interaction), or frequency not known.

  • Bleeding reported as rare or very rare.

  • Bleeding reported as uncommon.

  • Bleeding reported as common or very common.

Constipation

Methods described above were used to identify drugs causing constipation using the keyword ‘constipation’ in the electronic BNF. Where frequency was not known in the BNF, the product information was checked on the emc website for the frequency with which constipation occurred. If no additional information was found, a PubMed literature search was carried out and all available evidence from published articles and case reports was used to assign a frequency after discussion between investigators (D.B. and S.R.). If frequency could still not be ascertained, the drug was classed as Grey, along with drugs that had not been analysed for this side-effect, since constipation is generally a common side-effect with many drugs and could be reported in the BNF in the future. This allows us to review this further down the line.

Drugs causing constipation were classified in Medichec as follows:

  • Constipation not reported in the BNF/drug not analysed for this side-effect or frequency not known.

  • Constipation has a conditional risk (caution/contraindication/interaction).

  • Constipation reported as rare or very rare.

  • Constipation reported as uncommon.

  • Constipation reported as common or very common.

Discussion

Medichec provides cogent, simple, portable and accessible information on adverse effects of medication. It can be accessed within a few seconds on a computer, smartphone or tablet in clinic or on home visits. Several versions exist incorporating regular updates. Having started as a resource primarily for memory assessment services to measure and communicate central anticholinergic burden, the Medichec website and app have been successively updated and developed to include additional side-effects that are paramount more widely to the safety of older people, those with intellectual disability and, potentially, other groups likely to receive polypharmacy. By having easily accessible side-effect information all in one place, this offers a relatively holistic support for prescribing, aiming to reduce human error and to prompt consideration and review when single or multiple agents are associated with potentially problematic side-effects. Through this support, it is hoped that a reduction might be achieved in the risk of falls and other serious adverse effects, including QTc prolongation, hyponatraemia, bleeding and cognitive impairment, in vulnerable adults. The app and web-based version are user friendly and can be used not only by GPs and doctors, but by pharmacists, other health professionals as well as patients and carers to help with optimising medication by reducing risk associated with side-effects, particularly when the person is taking several other medications. And although Medichec has been designed with psychiatrists and psychotropic prescribing in mind, clearly it may have applicability for other medical specialties and wider prescribing decisions.

Medichec is now being used across SLaM's older adult services, in other similar UK settings and globally. It is available online as a free resource at www.medichec.com and Android and Apple apps are also available. Plans are underway to see whether Medichec can be incorporated into GP health record systems to improve accessibility and safer prescribing for cognitively vulnerable patients in primary care. Finally, Medichec was selected for use in the Prescribing Observatory for Mental Health UK (POMH-UK) national audit on ‘Use of medicines with anticholinergic properties in older people's mental health services’ in summer 2023. Medichec version 3 (which will include the side-effects QTc prolongation, bleeding, hyponatraemia and constipation) will be available in autumn 2023.

Limitations

Limitations of Medichec include the fact that the dose of medication is not considered when assessing the frequency or extent of the adverse effects. In addition, although we have tried to give a sense of the extent of the effect with some side-effects, such as central anticholinergic burden, this was not possible for all side-effects. Hyponatraemia may be more severe when several hyponatraemia-inducing drugs are taken together, and this should be considered when interpreting the results from Medichec. In addition, data on the extent of QTc prolongation were not available for all drugs so we rated drugs in terms of frequency of reports for QTc prolongation instead. This was supplemented with additional information where available, but it is important to note that one drug could cause QTc prolongation rarely but the effect could be clinically significant, whereas another drug could prolong QTc commonly but by a small effect of little clinical significance. Again, dose might play a role here as well and results should be interpreted carefully.

Clinical implications

Medichec is a decision support tool that can facilitate access to information on various side-effects of multiple medications at once, aid clinical decision-making, optimise treatment and improve patient safety, especially in vulnerable adults.

About the authors

Delia Bishara is a member of the Mental Health for Older Adults and Dementia Clinical Academic Group, South London and Maudsley NHS Foundation Trust, London, UK; a researcher in the Department of Psychology at the Institute of Psychiatry, Psychology & Neuroscience, King's College London, London, UK; and consultant pharmacist for the mental health of older adults and dementia in the Pharmacy Department, South London and Maudsley NHS Foundation Trust, London, UK. Sahar Riaz, Institute of Psychiatry, Psychology & Neuroscience, King's College London, London, UK. Justin Sauer, Mental Health for Older Adults and Dementia Clinical Academic Group, South London and Maudsley NHS Foundation Trust, London, UK; and Institute of Psychiatry, Psychology & Neuroscience, King's College London, London, UK. Christoph Mueller, Mental Health for Older Adults and Dementia Clinical Academic Group, South London and Maudsley NHS Foundation Trust, London, UK; and Institute of Psychiatry, Psychology & Neuroscience, King's College London, London, UK. Siobhan Gee, Institute of Psychiatry, Psychology & Neuroscience, King's College London, London, UK; and Pharmacy Department, South London and Maudsley NHS Foundation Trust, London, UK. David Taylor, Institute of Psychiatry, Psychology & Neuroscience, King's College London, London, UK; and Pharmacy Department, South London and Maudsley NHS Foundation Trust, London, UK. Robyn-Jenia Wilcha, Mental Health for Older Adults and Dementia Clinical Academic Group, South London and Maudsley NHS Foundation Trust, London, UK. Millie Edwards, Mental Health for Older Adults and Dementia Clinical Academic Group, South London and Maudsley NHS Foundation Trust, London, UK. Nirja Beehuspoteea, Mental Health for Older Adults and Dementia Clinical Academic Group, South London and Maudsley NHS Foundation Trust, London, UK. Anne Marie Bonnici Mallia, Mental Health for Older Adults and Dementia Clinical Academic Group, South London and Maudsley NHS Foundation Trust, London, UK. Jennifer Brook, Mental Health for Older Adults and Dementia Clinical Academic Group, South London and Maudsley NHS Foundation Trust, London, UK. Bharathi Balasundaram, Department of Psychological Medicine, Changi General Hospital, Singapore. Daniel Harwood, Mental Health for Older Adults and Dementia Clinical Academic Group, South London and Maudsley NHS Foundation Trust, London, UK. Nicola Funnell, Mental Health for Older Adults and Dementia Clinical Academic Group, South London and Maudsley NHS Foundation Trust, London, UK. Andre Strydom, Institute of Psychiatry, Psychology & Neuroscience, King's College London, London, UK. Robert Stewart, Mental Health for Older Adults and Dementia Clinical Academic Group, South London and Maudsley NHS Foundation Trust, London, UK; and Institute of Psychiatry, Psychology & Neuroscience, King's College London, London, UK.

Data availability

Data is available from the corresponding author, D.B., on reasonable request.

Acknowledgement

We thank Dr Vidya Giri Shankar for her contribution to the medication list for QTc prolongation.

Author contributions

D.B. and S.R. were involved in writing this paper. D.B., S.R., S.G., D.T., R.-J.W., M.E., N.B., A.M.B.M., J.B., J.S. and D.H. participated significantly in the research, development and approval of the medication lists of side-effects. R.S. and A.S. participated in the choice of side-effects included in the app. D.B., C.M., J.S. and R.S. have significantly contributed to the design and development of the Medichec app, in collaboration with the Mindwave Ventures web developer team. B.B., N.F., D.T., A.S., C.M., S.G., D.H. and R.S. contributed to and commented on this paper.

Funding

R.S. and C.M. are part-funded by the National Institute for Health and Care Research (NIHR) Maudsley Biomedical Research Centre at the South London and Maudsley NHS Foundation Trust and King's College London. R.S. is additionally part-funded by (a) the NIHR Applied Research Collaboration South London (NIHR ARC South London) at King's College Hospital NHS Foundation Trust; (b) UK Research and Innovation (UKRI) – Medical Research Council through the DATAMIND HDR UK Mental Health Data Hub (MRC reference: MR/W014386); (c) the UK Prevention Research Partnership (Violence, Health and Society; MR-VO49879/1), an initiative funded by UKRI Councils, the Department of Health and Social Care (England) and the UK devolved administrations, and leading health research charities. A.S. holds grants from the Medical Research Council (grant MR/S011277/1, MR/S005145/1 and MR/R024901/1), European Commission (H2020 SC1 Gene overdosage and comorbidities during the early lifetime in Down Syndrome GO-DS21- 848077), NIHR, and the LeJeune Foundation. The views expressed are those of the authors and not necessarily those of the NIHR or the Department of Health and Social Care.

Declaration of interest

Medichec is owned by SLaM, the employer of several of the authors. R.S. has received research support in the past 3 years from Janssen, GSK and Takeda. A.S. holds a tender from NHS England for undertaking Learning Disability and Autism Mortality Reviews (LeDeR). He has advised AC Immune, ProMIS Neuroscience, and Aelis Farma.

References

Moore, AR, O'Keeffe, ST. Drug-induced cognitive impairment in the elderly. Drugs Aging 1999; 15: 1528.CrossRefGoogle ScholarPubMed
Sönnerstam, E, Sjölander, M, Lövheim, H, Gustafsson, M. Clinically relevant drug–drug interactions among elderly people with dementia. Eur J Clin Pharmacol 2018; 74: 1351–60.CrossRefGoogle ScholarPubMed
Sheehan, R, Horsfall, L, Strydom, A, Osborn, D, Walters, K, Hassiotis, A. Movement side effects of antipsychotic drugs in adults with and without intellectual disability: UK population-based cohort study. BMJ Open 2017; 7(8): e017406.CrossRefGoogle ScholarPubMed
Grande, G, Haaksma, ML, Rizzuto, D, Melis, RJF, Marengoni, A, Onder, G, et al. Co-occurrence of cognitive impairment and physical frailty, and incidence of dementia: Systematic review and meta-analysis. Neurosci Biobehav Rev 2019; 107: 96103.CrossRefGoogle ScholarPubMed
Gray, SL, Anderson, ML, Hubbard, RA, LaCroix, A, Crane, PK, McCormick, W, et al. Frailty and incident dementia. J Gerontol Series A 2013; 68: 1083–90.CrossRefGoogle ScholarPubMed
Kojima, G, Taniguchi, Y, Iliffe, S, Walters, K. Frailty as a predictor of Alzheimer disease, vascular dementia, and all dementia among community-dwelling older people: a systematic review and meta-analysis. J Am Med Dir Assoc 2016; 17: 881–8.CrossRefGoogle ScholarPubMed
Isik, AT, Kocyigit, SE, Smith, L, Aydin, AE, Soysal, P. A comparison of the prevalence of orthostatic hypotension between older patients with Alzheimer's disease, Lewy body dementia, and without dementia. Exp Gerontol 2019; 124: 110628.CrossRefGoogle ScholarPubMed
Ungar, A, Mussi, C, Ceccofiglio, A, Bellelli, G, Nicosia, F, Bo, M, et al. Etiology of syncope and unexplained falls in elderly adults with dementia: Syncope and Dementia (SYD) study. J Am Geriatr Soc 2016; 64: 1567–73.CrossRefGoogle Scholar
Lieberman, JA 3rd. Managing anticholinergic side effects. Prim Care Companion J Clin Psychiatry 2004; 6(suppl 2): 20–3.Google ScholarPubMed
López-Álvarez, J, Sevilla-Llewellyn-Jones, J, Agüera-Ortiz, L. Anticholinergic drugs in geriatric psychopharmacology. Front Neurosci 2019; 13: 1309.CrossRefGoogle ScholarPubMed
Fox, C, Richardson, K, Maidment, ID, Savva, GM, Matthews, FE, Smithard, D, et al. Anticholinergic medication use and cognitive impairment in the older population: the medical research council cognitive function and ageing study. J Am Geriatr Soc 2011; 59: 1477–83.CrossRefGoogle ScholarPubMed
Gray, SL, Hanlon, JT. Anticholinergic drugs and dementia in older adults. BMJ 2018; 361: k1722.CrossRefGoogle ScholarPubMed
Lisibach, A, Benelli, V, Ceppi, MG, Waldner-Knogler, K, Csajka, C, Lutters, M. Quality of anticholinergic burden scales and their impact on clinical outcomes: a systematic review. Eur J Clin Pharmacol 2021; 77: 147–62.CrossRefGoogle ScholarPubMed
Bishara, D, Harwood, D, Sauer, J, Taylor, DM. Anticholinergic effect on cognition (AEC) of drugs commonly used in older people. Int J Geriatr Psychiatry 2017; 32: 650–56.CrossRefGoogle ScholarPubMed
Bishara, D, Perera, G, Harwood, D, Taylor, D, Sauer, J, Stewart, R, et al. The anticholinergic effect on cognition (AEC) scale – associations with mortality, hospitalisation and cognitive decline following dementia diagnosis. Int J Geriatr Psychiatry 2020; 35: 1069–77.CrossRefGoogle ScholarPubMed
Hanlon, P, Quinn, TJ, Gallacher, KI, Myint, PK, Jani, BD, Nicholl, BI, et al. Assessing risks of polypharmacy involving medications with anticholinergic properties. Ann Fam Medicine 2020; 18: 148–55.CrossRefGoogle ScholarPubMed
Bishara, D, Scott, C, Stewart, R, Taylor, D, Harwood, D, Codling, D, et al. Safe prescribing in cognitively vulnerable patients: the use of the anticholinergic effect on cognition (AEC) tool in older adult mental health services. BJPsych Bull [Epub ahead of print] 8 Jul 2019. Available from: https://doi.org/10.1192/bjb.2019.43.Google Scholar
Kammerlind, AS, Ernsth Bravell, M, Fransson, EI. Prevalence of and factors related to mild and substantial dizziness in community-dwelling older adults: a cross-sectional study. BMC Geriatr 2016; 16: 159.CrossRefGoogle ScholarPubMed
Chimirri, S, Aiello, R, Mazzitello, C, Mumoli, L, Palleria, C, Altomonte, M, et al. Vertigo/dizziness as a drugs’ adverse reaction. J Pharmacol Pharmacother 2013; 4(suppl 1): S104–9.CrossRefGoogle ScholarPubMed
Lee, HW, Lim, YH, Kim, SH. Dizziness in patients with cognitive impairment. J Vestib Res 2020; 30: 1723.CrossRefGoogle ScholarPubMed
Mbazira, A, Bishara, D, Perera, G, Rawlins, E, Webb, S, Archer, M, et al. Sedation-associated medications at Dementia diagnosis, their receptor activity, and associations with adverse outcomes in a large clinical cohort. J Am Med Dir Assoc 2022; 23: 1052–58.CrossRefGoogle Scholar
de Jong, MR, Van der Elst, M, Hartholt, KA. Drug-related falls in older patients: implicated drugs, consequences, and possible prevention strategies. Ther Adv Drug Saf 2013; 4: 147–54.CrossRefGoogle ScholarPubMed
Glassman, AH, Bigger, JT Jr. Antipsychotic drugs: prolonged QTc interval, torsade de pointes, and sudden death. Am J Psychiatry 2001; 158: 1774–82.CrossRefGoogle ScholarPubMed
Straus, SM, Kors, JA, De Bruin, ML, van der Hooft, CS, Hofman, A, Heeringa, J, et al. Prolonged QTc interval and risk of sudden cardiac death in a population of older adults. J Am Coll Cardiol 2006; 47: 362–7.CrossRefGoogle Scholar
Meid, AD, von Medem, A, Heider, D, Adler, JB, Günster, C, Seidling, HM, et al. Investigating the additive interaction of QT-prolonging drugs in older people using claims data. Drug Safety 2017; 40: 133–44.CrossRefGoogle ScholarPubMed
Reardon, M, Malik, M. QT interval change with age in an overtly healthy older population. Clin Cardiol 1996; 19: 949–52.CrossRefGoogle Scholar
Liamis, G, Rodenburg, EM, Hofman, A, Zietse, R, Stricker, BH, Hoorn, EJ. Electrolyte disorders in community subjects: prevalence and risk factors. Am J Med 2013; 126: 256–63.CrossRefGoogle ScholarPubMed
Hawkins, RC. Age and gender as risk factors for hyponatremia and hypernatremia. Clin Chim Acta 2003; 337: 169–72.CrossRefGoogle ScholarPubMed
Filippatos, TD, Makri, A, Elisaf, MS, Liamis, G. Hyponatremia in the elderly: challenges and solutions. Clin Interv Aging 2017; 12: 1957–65.CrossRefGoogle ScholarPubMed
Jun, K, Ah, Y-M, Shin, J, Lee, JY. The differential risk of severe hyponatraemia based on the use patterns of hyponatraemia-inducing medications in older adults. Age Ageing 2023; 52(3): afad026.CrossRefGoogle ScholarPubMed
Renneboog, B, Musch, W, Vandemergel, X, Manto, MU, Decaux, G. Mild chronic hyponatremia is associated with falls, unsteadiness, and attention deficits. Am J Med 2006; 119: 71.e1–8.CrossRefGoogle ScholarPubMed
Hoorn, EJ, Rivadeneira, F, van Meurs, JB, Ziere, G, Stricker, BH, Hofman, A, et al. Mild hyponatremia as a risk factor for fractures: the Rotterdam study. J Bone Miner Res 2011; 26: 1822–8.CrossRefGoogle ScholarPubMed
Renneboog, B, Sattar, L, Decaux, G. Attention and postural balance are much more affected in older than in younger adults with mild or moderate chronic hyponatremia. Eur J Intern Med 2017; 41: e256.CrossRefGoogle ScholarPubMed
Hoorn, EJ, Liamis, G, Zietse, R, Zillikens, MC. Hyponatremia and bone: an emerging relationship. Nat Rev Endocrinol 2011; 8: 33–9.CrossRefGoogle Scholar
Chua, M, Hoyle, GE, Soiza, RL. Prognostic implications of hyponatremia in elderly hospitalized patients. Arch Gerontol Geriatr 2007; 45: 253–8.CrossRefGoogle ScholarPubMed
Sajadieh, A, Binici, Z, Mouridsen, MR, Nielsen, OW, Hansen, JF, Haugaard, SB. Mild hyponatremia carries a poor prognosis in community subjects. Am J Med 2009; 122: 679–86.CrossRefGoogle ScholarPubMed
Intravooth, T, Staack, AM, Juerges, K, Stockinger, J, Steinhoff, BJ. Antiepileptic drugs-induced hyponatremia: review and analysis of 560 hospitalized patients. Epilepsy Res 2018; 143: 710.CrossRefGoogle ScholarPubMed
Harper, P, Young, L, Merriman, E. Bleeding risk with dabigatran in the frail elderly. N Engl J Med 2012; 366: 864–66.CrossRefGoogle ScholarPubMed
Schelleman, H, Bilker, WB, Brensinger, CM, Han, X, Kimmel, SE, Hennessy, S. Warfarin with fluoroquinolones, sulfonamides, or azole antifungals: interactions and the risk of hospitalization for gastrointestinal bleeding. Clin Pharmacol Ther 2008; 84: 581–8.CrossRefGoogle ScholarPubMed
Gandell, D, Straus, SE, Bundookwala, M, Tsui, V, Alibhai, SM. Treatment of constipation in older people. CMAJ 2013; 185: 663–70.CrossRefGoogle ScholarPubMed
Robertson, J, Baines, S, Emerson, E, Hatton, C. Prevalence of constipation in people with intellectual disability: a systematic review. J Intellect Dev Disab 2018; 43: 392406.CrossRefGoogle Scholar
Schuster, BG, Kosar, L, Kamrul, R. Constipation in older adults: stepwise approach to keep things moving. Can Fam Physician 2015; 61: 152–8.Google ScholarPubMed
Ouaïssi, M, Sielezneff, I, Benoist, S, Pirró, N, Cretel, E, Chaix, JB, et al. Lethal fecaloma. J Am Geriatr Soc 2007; 55: 965–7.CrossRefGoogle ScholarPubMed
Tible, OP, Riese, F, Savaskan, E, von Gunten, A. Best practice in the management of behavioural and psychological symptoms of dementia. Ther Adv Neurol Disord 2017; 10: 297309.CrossRefGoogle ScholarPubMed
Taylor, DM, Barnes, TRE, Young, AH. The Maudsley Prescribing Guidelines in Psychiatry (14th edn). Wiley-Blackwell, 2021.CrossRefGoogle Scholar
Falhammar, H, Lindh, JD, Calissendorff, J, Skov, J, Nathanson, D, Mannheimer, B. Antipsychotics and severe hyponatremia: a Swedish population-based case-control study. Eur J Intern Med 2019; 60: 71–7.CrossRefGoogle ScholarPubMed
Submit a response

eLetters

No eLetters have been published for this article.