Applying Beers Criteria for Elderly Patients to Assess Rational Drug Use at a University Hospital in Northern Cyprus.

BACKGROUND: Several regulations for potentially inappropriate medications (PIMs) have been published specifically for elderly patients to rationalize drug use in such vulnerable communities.
OBJECTIVES: To determine the proportion and characteristics of PIMs in patients receiving one or more drugs according to Beers Criteria 2015.
MATERIALS AND METHODS: A cross-sectional prospective analysis of 451 inpatients admitted between September 25 and October 25, 2016, was conducted in Near East University Hospital, Northern Cyprus. Data were extracted from the patient medical records using special forms.
RESULTS: A total of 119 elderly patients were identified (26.4%) and evaluated, of which 107 were eligible and 12 were excluded. Of the 1039 prescribed medicines, 16.9% were PIMs during hospitalization, whereas 12% were at discharge. The most prevalent PIM group during hospitalization was identified as the "medications to be avoided in older adults" (48.8%), whereas it also formed 52% of medications prescribed at discharge. PIMs of the class "drugs used with caution" formed 19.4% of prescribed medicine during hospitalization and 18.4% on discharge. The prevalence of polypharmacy was 79.4%, mainly identified as unpreventable polypharmacy of elders.
CONCLUSION: A significantly higher prevalence of PIMs was observed in hospitalized patients than those discharged, with high prevalence of polypharmacy. These results necessitate a nationwide assessment, and responsible bodies who adopt strategies should act to reduce or overcome the aforementioned high prevalence in Northern Cyprus.

INTRODUCTION

Life expectancy has dramatically increased over the past 100 years. In 2015, the global elderly population increased by 55 million.[1] On average, the individuals who are 65–69 years old take nearly 14 different prescription medications per year, and individuals who are aged 80–84 years take an average of 18 prescriptions per year.[2] Age-related physiologic changes that occur in elderly individuals may affect drug pharmacokinetics and pharmacodynamics, thus increasing the risk of medication-related problems.[3] The other reasons for drug-related problems are lack of continuity in physician contacts, lack of a consistent drug list, and inadequate prescription and monitoring of drug therapy.[4] Also by advancing in age, a high prevalence of multiple chronic diseases and comorbidity occurs, leading to the use of complex therapeutic regimens and polypharmacy.[5] Polypharmacy may become problematic for older adults due to its increasing risk of elderly syndromes, diminished functional status, and health care costs. Polypharmacy is the concomitant administration and use of four or more medications and it is usually common among older adults.[6] Underuse has an important relationship with older adults; it seems to have a negative effect on health outcomes for older people,[7] which include functional disability, health services use, and death. Also medication nonadherence can have drastic deleterious health effects on the elderly.[8] These factors cause the elderly patients to be treated with more attention.

Today, several tools are used to evaluate the prescription of potentially inappropriate medication (PIM) in older adults. PIM is a drug in which its risk of an adverse event outweighs its clinical benefit, particularly when there is a safer or more effective alternate therapy for the same condition. Since the early 1990s, the prevalence of PIM usage has been examined in more than 500 studies, including a number of long-term care, discharged, acute care, and community settings.[9] Nowadays there are tools that are used to evaluate PIM in elderly patients; a prior systematic review identified 14 criteria specific for individuals aged 65 years and older such as Beers Criteria (BC), the Screening Tool of Older Persons (STOPP), Rationalization of Home Medication by an Adjusted STOPP list in Geriatric patients, Improved Prescribing in the Elderly Tool, and the Medication Appropriateness Index.[10]

The BC was first developed in 1991 by Dr. Mark Beers.[11] The changes in the 2015 update were not as extensive as those in the previous update; however, two key components were added: drug dose adjustment, required based on kidney function, and drug–drug interactions.[12] The Beers list was expanded to include all geriatric care settings, such as inpatient or outpatient and primary care.[13] An important note is that the medications addressed in the list are not all absolute contraindications; furthermore, there are situations in which use of medications included in the criteria can be appropriate.[14]

The American Geriatrics Society (AGS) Beers Criteria are one component of a comprehensive approach to medication use in older adults, and they should be used in conjunction with other tools. The goal of BC is to improve the care of older patients by decreasing the PIMs. It serves as a “warning light” to identify the medications that have an unfavorable balance of benefits and harms in older adults, particularly when compared with pharmacological and non-pharmacological alternatives.[12] The BC is not a substitute for clinical judgment and individualized care, but is meant as a guide for health care providers to make clinical decisions and to develop a policy to improve quality and safety, and conduct research and training.[9]

The aim of this study was to evaluate the rational use of prescribed drugs in elderly patients in light of the Beers Criteria 2015 recommendations in Near East University Hospital, Northern Cyprus.

MATERIALS AND METHODS

A cross-sectional prospective study was conducted involving elderly patients (aged 65 years and older) who were admitted to Near East University Hospital in North Cyprus during September and October 2016.

Patients who are aged 65 years or older “geriatrics”

Patients who were hospitalized between September and October 2016, whether in the geriatric clinic or other clinics

Patients who were in hospice care or were receiving palliative care

Patients who were discharged before completing their data collection

Patients who died during collection of data

Sample size and data collection

In total, 451 patients who were admitted in the hospital during the study time were scanned. A total of 119 patients were eligible for the study, whereas 12 patients from them were excluded, which was due to incomplete data in 9 patients and 3 died during the course of data collection.

Data were collected by reviewing the case sheets of all elderly patients who were hospitalized or discharged during the study period. Data obtained from the patient medical records consisted mainly of the patients’ age, gender, date of admission, date of review, diagnosis, creatinine clearance, and all medications prescribed.

Identification of PIMs

A panel of pharmacologist, clinical pharmacist, medical doctor, and the researcher assessed all medications for PIM using the 2015 Beers Criteria.

The medications in the record listed in the BC were considered to be PIM according to the major components of the criteria, which include the following:

PIMs and older adults

Drug-disease and drug-syndrome PIMs

Drugs to be used with caution

Drug–drug interactions

PIMs based on kidney function

Statistical analysis

Collected data were entered in Microsoft Office Excel 2010 and analyzed by using Statistical Package for the Social Sciences (SPSS) statistical software (version 20, IBM, SPSS).

The methods used to analyze the data include an analysis of descriptive statistic variables such as frequency and percentages whereas chi-squire test and Pearson correlation were used for statistical analysis of categorical variables and correlation analysis respectively. P values <0.05 were considered statistically significant.

Statement of ethics

The study was approved by the Near East Institutional Reviews Board (IRB) of Near East University Hospital that assigned this research as an observational study.

RESULTS

Of 451 patients admitted to the hospital and scanned, 107 were enrolled, 57.9% (n = 62) being males and mainly aged 65–75 years (55.1% [n = 59]). The total number of medicines prescribed to the 107 patients was 1039. Polypharmacy was found in 79.4% (n = 85) of patients. In terms of the variation in polypharmacy with relation to age, patients aged 65–75 years with polypharmacy were 42.1% (n = 45) compared to 37.4% (n = 40) who were aged >75 years. On the basis of the patients’ file information, many of the patients were admitted to the cardiology clinic 39.3% (n = 43) [Table 1].

Table 1

Demographics and General Information

Gender
Male	57.9% (n = 62)
Female	42.1% (n = 45)
Age:
65-75Years	55.1% (n = 59)
> 75Years	44.9% (n = 48)
Total number of evaluated drugs	1039
Range	(1-23)
Number of prescribed medication
Mean±SD Number of prescribed medication per patient	9.7±4.6
Prevalence of poly-pharmacy	79.4% (n = 85)
Distribution of patients across clinics
Cardiology	40.2% (n = 43)
Respiratory	13.1% (n = 14)
Internal	12.1% (n = 13)
Surgery	10.3% (n = 11)
Infection	7.5% (n = 8)
Oncology	7.5% (n = 8)
Geriatric	5.6% (n = 6)
Neurology	3.7% (n = 4)

Of the total 1039 medicines prescribed, 16.9% (n = 176) were identified to be PIM used during hospitalization as determined by the Beer’s Criteria’s components; however, 12% (n = 125) PIMs were observed in the discharge medications. The total prescribed medications that included in Beers Criteria were 18.7% (n = 195) [Table 2].

Table 2

Prescribed medications included in Beers criteria

PIMs medications	Frequency	Drug Class	Rationale	Beers Critera Recommendation
1. Pantoprazole	37	Proton pump inhibitors PPIs	Risk of Clostridium difficile infection and bone loss and fractures	Avoid scheduled use for >8 weeks (Avoided with exceptions)
2. Furosemide	28	Diuretic	May exacerbate or cause syndrome of inappropriate antidiuretic hormone secretion or hyponatremia; monitor sodium level closely when starting or changing dosages in older adults.	Use with caution
3. Omeprazole	19	Proton pump inhibitors (PPIs).	Risk of Clostridium difficile infection and bone loss and fractures	Avoid scheduled use for >8 weeks. (Avoided with exceptions)
4. Enoxaparin	26	Anticoagulant	In Crcl<30 Increased risk of bleeding	Reduce dose
5. Corticosteroids	12	Anti-inflammatory medications	1. Potential of inducing or worsening delirium. 2. Corticosteroids with NSAIDs increased risk of Peptic ulcer disease or gastrointestinal bleeding.	1. Avoid in older adults with or at high risk of delirium. 2. Avoid; if not possible, provide gastrointestinal protection
6. Alprazolam	11	Antianxiety	1. Older adults have increased sensitivity to benzodiazepines and decreased metabolism of long-acting agents.	1. Avoid
			2. May cause ataxia, impaired psychomotor function, syncope, additional falls; shorter-acting benzodiazepines are not safer than long-acting ones	2. Avoid in patients with History of falls or fractures unless safer alternatives are not available; (Avoided with exceptions)
7. lansoprazole	8	Proton pump inhibitors (PPIs).	Risk of Clostridium difficile infection and bone loss and fractures.	Avoid scheduled use for >8 weeks. (Avoided with exceptions)
8. Thiazide	5	Diuretics	May exacerbate or cause syndrome of inappropriate antidiuretic hormone secretion or hyponatremia; monitor sodium level closely when starting or changing dosages in older adults.	Use with caution
9. Esomeprazole	5	Proton pump inhibitors (PPIs).	Risk of Clostridium difficile infection and bone loss and fractures.	Avoid scheduled use for >8 weeks. (Avoided with exceptions)
10. Spironolactone	4	Potassium-sparing diuretic	In Crcl<30 Increased potassium	Avoid
11. Digoxin	4	Antiarrhythmic	1. Use in atrial fibrillation	1. Avoid as first-line therapy for atrial fibrillation
			2. Use in heart failure	2. Avoid as first-line therapy for heart failure.
12. Amiodarone	4	Antiarrhythmic	Amiodarone is effective for maintaining sinus rhythm but has greater toxicities than other antiarrhythmics used in atrial fibrillation.	Avoid amiodarone as first-line therapy for atrial fibrillation unless patient has heart failure or substantial left ventricular hypertrophy.
13. Diazepam	4	Antianxiety"calming agent"	May be appropriate for seizure disorders, rapid eye movement sleep disorders, benzodiazepine withdrawal, ethanol withdrawal, severe generalized anxiety disorder, and periprocedural anesthesia	–
14. Ranitidine	3	Histamine H2 receptor antagonis	1. Potential of inducing or worsening delirium.	1. Avoid in older adults with or at high risk of delirium.
15. Olanzapine	3	Atypical antipsychotic	1. Increases risk of orthostatic hypotension or bradycardia	1. Avoid in patient with Syncope
16. Famotidine	3	Histamine H2 receptor antagonist	1. Potential of inducing or worsening delirium.	1. Avoid in older adults with or at high risk of delirium.
17. Citalopram	3	Antidepressant	1. May exacerbate or cause syndrome of inappropriate antidiuretic hormone secretion or hyponatremia; monitor sodium level closely when starting or changing dosages in older adults	1. Use with caution
			2. Use with ≥2 other CNS-active drugs increased risk of Falls	2. Avoid total of ≥3 CNS-active drugs; minimize number of CNS- active drugs
18. Tramadol	2	Narcotic-like pain reliever.	1. Lowers seizure threshold; may be acceptable in individuals with well- controlled seizures in whom alternative agents have not been effective.	1. Avoid (Avoided with exceptions)
			2. Crcl<30 CNS adverse effects	2. Immediate release: reduce dose Extended release: avoid
19. Doxazosin	2	Alpha-adrenergic blockers	1. Increases risk of orthostatic hypotension or bradycardia	1. Avoid in patient with Syncope.
			2. Aggravation of incontinence	2. Avoid in women (Avoided with exceptions)
20. Aspirin	2	NSAIDs	1. Aspirin >325mg/d: Increased risk of gastrointestinal bleeding or peptic ulcer disease	1 Avoid chronic use, or with history of gastric or duodenal ulcers (Avoided with exceptions)
			Primary prevention of Lack of evidence of benefit versus risk in adults aged ≥80 ≥80.	2. Use with caution in adults aged ≥80.
21. Terazosin	1	alpha-adrenergic blockers	1, 2. Increases risk of orthostatic hypotension or bradycardia	1. Avoid in patient with Syncope.
22. Modafinil	1	Wakefulness- promoting agent.	CNS stimulant effects	Avoid in Insomnia
23. Clonazepam	1	Anti-anxiety and anti-convulsant	May be appropriate for seizure disorders, rapid eye movement sleep disorders, benzodiazepine withdrawal, ethanol withdrawal, severe generalized anxiety disorder, and periprocedural anesthesia	–
24. Buprofen	1	Nonsteroidal anti- inflammatory drug (NSAID)	Increased risk of gastrointestinal bleeding or peptic ulcer disease	Avoid chronic use (Avoided with exceptions)
25. Rivaroxaban	1	Anticoagulants	In Crcl 30-50 increased risk of bleeding	Reduce dose
26. Atropine	1	Anticholinergic	(excludes ophthalmic) Highly anticholinergic, uncertain effectiveness	Avoid
27. Mirtazapine	1	atypical antipsychotic	May exacerbate or cause syndrome of inappropriate antidiuretic hormone secretion or hyponatremia; monitor sodium level closely when starting or changing dosages in older adults	Use with caution
28. Nitrofurantoin	1	Antibiotic	Potential for pulmonary toxicity, hepatoxicity, and peripheral neuropathy, especially with long- term use	Avoid in individuals with creatinine clearance <30mL/ min or for long-term suppression of bacteria. (Avoided with exceptions)
29. Metoclopramide	1	Dopamine receptor blocker	1. Can cause extrapyramidal effects, including tardive dyskinesia.	1. Avoid, unless for gastroparesis(Avoided with exceptions)
30. Scopolamine	1	Anti-motion sickness	Highly anticholinergic, uncertain effectiveness	Avoid

Of the patients found to be using PIMs during hospitalization, one PIM was prescribed to 28% (n = 30). While at discharge, from 53.4% (n = 57) patients who had PIMs, one PIM was prescribed to 23.4% (n = 25) of the patients [Table 3].

Table 3

Comparison of PIM use during hospitalization and at Discharge

Number of PIM per patients	Number of PIMs During Hospitalization	Number of PIMs Patient at Discharge
1	36.6% (n = 30)	43.8% (n = 25)
2	30.5% (n = 25)	38.6% (n = 22)
3	23.2% (n = 19)	14% (n = 8)
4 or more	9.7% (n = 8)	3.5% (n = 2)

From 107 patients, 76.6% (n = 82) had PIMs in their medications according to Beers Criteria; most potentially inappropriate medicines used during hospitalization were administered to cardiology patients (40.2%; n = 33), followed by internal medicine patients (13.4%; n = 11), respiratory patients (12.2%; n = 10), and then geriatrics (11%; n = 9), surgery (7.3%; n = 6), infections (6.1%; n = 5), oncology (6.1%; n = 5), and neurology patients (3.6%; n = 3).

Proton-pump inhibitors (PPIs) were the most prescribed PIM for patients during hospitalization (n = 69) and on discharge. From the PPIs, pantoprazole was prescribed most frequently during hospitalization, although some were stopped on discharge. Diuretics such as furosemide was the second most commonly prescribed PIM drug also classed as PIM even on discharge for a number of patients. Enoxaparin was the third most commonly prescribed medication during hospitalization; however, it was not the third prescribed PIMs furthermore it was stopped in all cases at discharge [Table 2].

In this study, there is a correlation between polypharmacy and the number of PIMs; patients who has polypharmacy significantly had more PIMs on both discharge and during hospitalization (r = 0.273).

PIMs PROFILE

According to the first component in BC, which are PIMs, there were 48.8% (n = 86) of PIMs included in this component. Of the drugs, 11.6% (n = 10) were recommended as to be avoided and 74.4%as to be avoided with exceptions, with 71.6% as high quality of evidence and 100% as strongly recommended. While for discharge, 52% of PIMs belonged to the absolute PIMs category and 62.2% of these drugs were recommended as to be avoided with exceptions. These groups of components involve drugs that require monitoring or avoidance during the selected period. In addition, some drugs should not be used as the primary choice and some should be avoided in elderly adults [Tables 4 and 5].

Table 4

Beers criteria recommendations for potentially inappropriate medications during hospitalization

Beers criteria Components	Number of PIM	Recommendations
		Avoid	Avoid as 1stchoice	Avoid with exceptions	Use with caution	Reduce dose
Drugs to be avoided	48%	11.6%	13.9%	74.4%	–	–
	(n = 86)	(n = 10)	(n = 12)	(n = 64)
Drug-disease interaction	22%	52.6%	34.2%	13.2%	–	–
	(n = 39)	(n = 20)	(n = 13)	(n = 6)
Use with caution	19.4%	–	–	–	100%	–
	(n = 34)				(n = 34)
Drug-drug interaction	1.7%	33.3%	–	66.7%	–	–
	(n = 3)	(n = 1)		(n = 2)
Based in kidney function	7.95%	42.9%	–	21.4%	–	35.7%
	(n = 14)	(n = 6)		(n = 3)		(n = 5)

Table 5

Beers criteria recommendations for potentially inappropriate medications at discharge

Beerscriteria Components	Number of PIM	Recommendations
		Avoid	Avoid as 1st choice	Avoid with exceptions	Use with caution	Reduce dose
Drugsto be avoided	52%	13.8%	16.9%	69.2%	–	–
	(n = 65)	(n = 9)	(n = 11)	(n = 45)
Drug-disease interaction	24.8%	61.3%	29%	9.7%	–	–
	(n = 31)	(n = 19)	(n = 9)	(n = 3)
Use with caution	18.4%	–	–	–	100%	–
	(n = 23)				(n = 23)
Drug-drug interaction	0.8%	100%	–	–	–	–
	(n = 1)	(n = 1)
Based in kidneyfunction	3.1%	80%	–	–	–	20%
	(n = 5)	(n = 4)				(n = 1)

The drugs selected as the second component in BC for PIMs that may exacerbate the disease or syndrome were 22% (n = 39). Of the drugs, 52.6% (n = 20) interact with delirium whereas 3.9% (n = 5) may interact with history of fall and history of syncope. Furthermore, 19.4% (n = 34) of PIMs used during hospitalization were labeled to be used with caution in elderly patients (antipsychotic medications, diuretics, mirtazapine, and selective serotonin reuptake inhibitors [SSRIs]). While on discharge, there were 18.4% (n = 23) drugs that should be used with caution in elderly patients. In the component of non-anti-infective drugs that should be avoided in older adults, 1.7% (n = 3) were used in hospitalization and 0.8% (n = 1) at discharge. Noninfective medications that should be avoided or have their dosage reduced with varying levels of kidney functions were found as 7.9% (n = 14) during hospitalization and 3.1% (n = 5) at discharge [Tables 4 and 5].

DISCUSSION

Pharmacists are increasingly requested by many health systems, providers, and primary care teams to improve outcomes and delivery of care.[10] Evidence-based pharmacy practice or the conscientious, explicit, and judicious use of current best evidence in making decisions about the care of individual patients is currently considered as a major requirement to assure good pharmacy practice. The use of the best available evidence by pharmacists in assessing patterns of drug use and guideline utilization periodically in hospitals aids in achieving rational drug use in these settings.

In this study, 107 prescriptions and 1039 medications were analyzed with the aim of evaluating the rational use of prescribed medicine to elderly patients in light of the Beers Criteria 2015 recommendations during hospitalization and at discharge in order to determine incidence of PIMs prescribed to them and to identify the drugs that require monitoring or caution during use. The majority of patients in this study were men aged 65–75 years, taking a minimum of 1 drug and a maximum of 23 drugs. In a comparable study that was conducted in Navodaya Medical College and Hospital, the majority of admitted patients were male and patients who were in the age group 60–79 years. It also reported that majority of patients were predominantly admitted to the respiratory clinic followed by cardiology clinic.[15] Whereas in this study, majority of patients were admitted to the cardiology clinic followed by respiratory clinic.

According to guideline utilization studies and expert panels’ recommendations, the findings of this study appear to be comparable to ranges reported by other observers from different parts of the world. From all the 1039 prescribed medicines, 16.9% were classified as PIM, compared to 32.19% reported by Abraham et al.[16] who used Beers 2012. In this study also, 76.6% of patients’ prescriptions were found to be compliant with the AGS Beers Criteria 2015 compared to a study in Japan that reported 63% patients’ prescriptions were in compliance with AGS Beers Criteria 2015.[17]

Not surprisingly, polypharmacy was observed in 79.4% of all cases. The frequency of PIM was not associated with the patients’ gender or age; however, it was associated with polypharmacy. Similarly was reported by studies at San Cecilio University Hospital, Granada,[18] and in Istanbul, Turkey, in which potentially inappropriate drugs were more prevalent in polypharmacy.[19]

PIMs during hospitalization were 16.9% (n = 176) whereas at discharge were 12% (n = 125). The decrease in PIMs at discharge comparing to in hospitalization may be due to the ability of monitoring patients during hospitalization because Beers Criteria 2015 included PIM that should be used with caution or adjusting the dose according the kidney function, while most of these medications are discontinued on discharge by physicians.

The drugs were classified according to the type of inappropriateness categories that were identified in the Beers Criteria 2015 components. During hospitalization, 86 PIMs (48% of total PIMs) belonged to the first component, which includes absolute PIMs in elderly patients, comparing to 256 PIMs (100% of total PIMs) that were reported in a study carried out by Goudanavar et al.[15] Also during hospitalization, it was found that 39 PIMs (22%) may interact with diseases and other syndromes. The most prevalent syndrome that patients were at risk of experiencing was delirium whereas in a study carried in an urban tertiary hospital at Sydney, Australia, 18.4% of the PIMs were identified as drugs that could interact with diseases and syndromes, and fall (or syncope) was the most prevalent syndrome associated with PIMs according to Beers Criteria 2012.[20] The most commonly identified PIM in this study were PPIs (69), as well reported by Kose et al.[17] also using Beers Criteria 2015. Whereas a study held in Turkey using Beers Criteria 2012 showed that antipsychotics were most prescribed PIMs, followed by SSRIs and then nonsteroidal anti-inflammatory drugs.[21]

Many things can lead to such a high prevalence of PIMs such as multiple diseases, polypharmacy, easy access to medications in Turkey (both over-the-counter drug [OTC and non-OTC), multiple different hospitalizations with lack of geriatric specialty clinics, as well as the lack of clinical pharmacists and Medication Therapy Management services that could reduce the prevalence of PIM in elderly patients and possibly the lack of medication review services by pharmacists or other qualified health care providers. All these and other factors may further increase the prevalence of PIM among such vulnerable population.[22]

Strategies to overcome these problems and to further enhance elderly patient care may include specialized pharmacists conducting regular medication chart reviews, frequent awareness activities such as workshops and hospital seminars, and health care providers. Also computerized interventions to reduce PIMs based on newly released guidelines may be helpful in hospital settings.[2324]

To the best of our knowledge, this is one of the first studies to assess the medications of elderly patients according to 2015 updated BC in Northern Cyprus. The high prevalence of PIMs in elderly patients reported in this study necessitates a nationwide assessment, and responsible bodies should act accordingly to reduce and adopt strategies that may reduce and overcome the reported high prevalence. Furthermore, the sampled population in this study came from different clinics and represented a wide range of pathologies and chronic illness populations.

Further studies should be conducted nationwide using a multicenter approach, and such assessments should also consider the level of awareness and thus assess both pre- and post-awareness continuous medical education (CMEs) activities. Furthermore, other health care facilities and settings should implement such assessments continuously, while it is also important to trace readmission in geriatrics, particularly to follow-up medications that are classified as used with caution and also to be vigilant for new possible candidates to be classified as PIMs.

Yet a major limitation of our study is the fact that it was uni-centered study; hence, limiting the generalizability of its results nationwide. Also incidence of PIM reported could be less than real incidence because we use the 2015 update of Beers Criteria, which contains PIMs’ recommendation as “use with caution” or only in specific conditions whereas hospitals in North Cyprus lack proper documentation and daily progress note writing. Another limitation is not assessing providers’ knowledge and awareness of the latest BC, which is significantly different than Beers 2012; also currently a new version Beers 2018 is released, necessitating to be adapted and to create awareness within prescribers and other health care professionals to limit the incidence of PIMs.

CONCLUSION

By evaluating the current patterns of drug use in elderly patients in light of the updated Beers Criteria 2015, a high prevalence of PIMs was observed, significantly more in inpatients than on discharge. Polypharmacy was observed in almost 80% of patients, whereas 76.6% of patients were at least on one PIM during hospitalization. The high prevalence of PIMs in elderly patients reported by this study necessitates a nationwide assessment and responsible bodies to act to reduce and adopt strategies that may reduce or overcome such high prevalence.

Financial support and sponsorship

Nil.

Conflicts of interest

There are no conflicts of interest.