Identification and Resolution of Drug-related Problems Encountered by Individuals with Epilepsy in Nigeria
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Original Article
VOLUME: 30 ISSUE: 3
P: 89 - 95
September 2024

Identification and Resolution of Drug-related Problems Encountered by Individuals with Epilepsy in Nigeria

Arch Epilepsy 2024;30(3):89-95
1. Department of Clinical Pharmacy and Biopharmacy University of Uyo, Uyo, Nigeria
2. Department of Clinical Pharmacy and Pharmacy Management University of Nigeria, Nsukka, Nigeria
No information available.
No information available
Received Date: 30.01.2024
Accepted Date: 07.03.2024
Online Date: 20.09.2024
Publish Date: 20.09.2024
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Abstract

Objective

Interventions by clinical pharmacists are required to identify and resolve medication-related problems. This study aimed to identify drug-related problems (DRPs) encountered by patients with epilepsy, provide pharmaceutical care (PC) interventions, and evaluate the impact of these clinical interventions.

Methods

A prospective longitudinal study was conducted on 95 patients with epilepsy attending the neurology/medical outpatient clinics of two epilepsy referral centers. During patient clinic visits, the pharmacist collected medication history, reviewed patient medication use, identified DRPs, provided PC services, and collaborated with physicians and patients to resolve identified DRPs. Documentation and classification of identified DRPs, categorization of the pharmacists’ interventions, categorization of acceptance of the pharmacist’s intervention proposals, and categorization of the status of the DRPs after the interventions were performed using the Pharmaceutical Care Network Europe Classification Scheme for DRPs V8.02.

Results

The total number of DRPs identified by the clinical pharmacists in the study population was 277. Three hundred and seventy-nine interventions were offered by the clinical pharmacists. Approximately 57.04% of the identified DRPs were patient-related, whereas 15.88% were dispensing-related. Approximately 64.12% of the research pharmacist’s interventions were at the patient level, whereas 24.01% of these interventions were at the prescriber level. Two hundred and eleven (55.67%) of the clinical pharmacist interventions were accepted and fully implemented. Approximately 61.73% of the identified DRPs were fully resolved.

Conclusion

Most DRPs encountered were resolved following the acceptance of the clinical pharmacist’s PC interventions by the patients and attending physicians. This study revealed the huge potential of clinical pharmacists in providing specialized care for patients with epilepsy.

Keywords:
Pharmaceutical care, epilepsy, drug-related problems

MAIN POINTS

• Involvement of pharmacists in the provision of specialized care to patients with epilepsy are lacking in Nigeria.

• Pharmaceutical care (PC) enables pharmacists to implement interventions to reduce inappropriate drug use.

• This study revealed the great potential of pharmacists in providing specialized care for persons with epilepsy.

• Providing justification for the integration of PC services with other elements of health care for patients with epilepsy.

INTRODUCTION

An estimated 70 million people are reportedly living with epilepsy globally, with approximately 95% of this population living in developing parts of the world. The disease is ranked as the second most frequently encountered neurological condition, with a worldwide prevalence of 5-9 persons per 1,000 population.1, 2

Anti-seizure medication is the first line of treatment for most epileptic patients with the goal of sustaining a normal lifestyle through absolute seizure control with minimal or no side effects.3

The role of pharmacists has evolved over the years to involve a variety of responsibilities, from dispensing medications to patient care, patient counselor, health care educator, and community service to clinical practice. Recommendations by the Joint Commission on Accreditation of Healthcare Organizations state that all prescriptions must be evaluated by pharmacists before dispensing and emphasize that outcomes should be documented as a result of direct patient care by the pharmacist.4

In 1990, Hepler and Strand5defined pharmaceutical care (PC) as ‘‘the responsible provision of drug therapy for the purpose of achieving definite outcomes that improve a patient’s quality of life’’. Medication errors are errors encountered during ordering, transcribing, dispensing, administering, and monitoring in the process of medication use. Interventions by pharmacists are required to identify and resolve drug-related problems (DRPs). Many of these problems can be prevented by educating healthcare providers about them. These clinical interventions by pharmacists have a positive impact on the healthcare system by enhancing patient care and reducing costs. It is important to ensure that all interventions by the pharmacist are documented. This will help justify pharmacists’ services to patients, healthcare administrators and providers, and patient care takers. It also helps to strengthen the profession and its image in thesociety.4, 6

PC is ideally provided by a clinical pharmacist who is part of a multidisciplinary team that provides care to the patient. Medication reviews are a part of PC interventions to reduce inappropriate prescribing and drug use. This is the process in which a pharmacist reviews the patient, their disease, and drug treatment. PC enables pharmacists to implement interventions designed to reduce inappropriate prescribing and drug use. It also helps identify unmet therapeutic needs.7

Reports from previous studies have shown that pharmacists’ interventions were essential to improving the health of patients with epilepsy. These reports indicate that pharmacists’ interventions can prevent drug therapy problems. However, more studies are needed to highlight the positive impacts of pharmaceutical services on the health of patients with epilepsy.8

In Nigeria, evidence of the involvement of pharmacists in the provision of specialized care to patients with epilepsy is lacking. This study aimed to identify DRPs encountered by patients with epilepsy using PC instruments; provide PC interventions to resolve identified DRPs; and determine the status of the DRPs after the implementation of PC interventions.

METHODS

Study Design and Setting

This was a prospective longitudinal study with a 6-month
follow up period.

The study sites were the University of Uyo Teaching Hospital in Uyo, Akwa Ibom State, and the University of Calabar Teaching Hospital in Calabar, Cross River State. These selected hospitals are major referral centers for epilepsy management in Southern Nigeria. Patients were recruited from the neurology and medical outpatient clinics of the hospitals.

Study Population

Ninety-five patients diagnosed with epilepsy and receiving treatment for epilepsy at selected hospitals who fulfilled the inclusion criteria were identified and recruited into the study. The Inclusion criteria were patients diagnosed with epilepsy and receiving treatment for epilepsy at the study sites, those who provided written informed consent to participate in the study, and those who expressed willingness to abide by the rules of the study.

The exclusion criteria were patients who were diagnosed with non-epileptic seizures only, those aged less than 16 years, those who expressed willingness to withdraw from the study, those with intellectual disabilities, and those with acute psychiatric illness.

Pharmaceutical Services

In this study, PC intervention was aimed at identifying and resolving DRPs encountered by patients. The research clinical pharmacist interacted with the physicians and patients during each clinic visit to optimize therapy with anti-seizure medications. PC was provided in a stepwise approach:

Setting priorities for patient care;

Assessing patients’ specific educational needs and identifying DRPs;

Developing a comprehensive and achievable PC plan in collaboration with the patient and physician;

Implementation of this plan;

Monitoring and review of the plan from time to time according to the needs of the patient.

During each clinic visit, patients met with the research pharmacist prior to visiting their physician. The research pharmacist collected medication history, identified DRPs, collaborated with the physician and patients to resolve identified problems, answered questions on drug therapy, and encouraged adherence.

The research pharmacist also provided counseling services to the patients during their clinic visits. When necessary, the pharmacist provided relevant recommendations for consideration by the physician when making an overall treatment plan. Patients were also provided with a report diary with the time and date of an appointment following each visit. The patient report diary contains a table for the patients to record the time that they took their anti-seizure drugs and the time that they had a seizure or experienced unusual symptoms. The patients were also requested to document in the diary the name and dose of the anti-seizure medication taken, the frequency of administration, the time each dose was taken, the side effects experienced (if any), and the anti-seizure medication suspected.

Assessment of Pharmaceutical Intervention

The type and incidence of DRPs, as well as the type of intervention provided, the acceptance or rejection of the intervention, and whether the problem was resolved or not were documented using the Pharmaceutical Care Network Europe (PCNE) Classification Scheme for Drug-related Problems version 8.02.

The PCNE classification is used for research into the nature, prevalence, and incidence of DRPs. Moreover, it is used as a process indicator in experimental studies on PC outcomes. This tool is intended to help healthcare professionals document DRP information during the PC process.

The following official definition of PCNE-DRP is the basis for the classification:

A Drug-Related Problem is an event or circumstance involving drug therapy that actually or potentially interferes with desired health outcomes”.9

The basic PCNE classification now has 3 primary domains for problems, 8 primary domains for causes and 5 primary domains for Interventions. A section called ‘Acceptance of the Intervention Proposals’ is added, including 3 domains. However, on a more detailed level there are 7 grouped sub-domains for problems, 35 grouped sub-domains for causes, 16 grouped sub-domains for interventions, and 10 sub-domains for intervention acceptance. These sub-domains can be considered an explanation of the principal domains. A scale is also added to indicate whether or to what extent the problem has been solved, containing 4 primary domains and 7 sub-domains.9

Statistical Analysis

Data were analyzed using IBM Statistical Products and Services Solutions (SPSS) for Windows, version 25.0 (IBM Corp, version 25.0 Armonk, NY, USA). Frequencies and proportions were used to summarize the data. The analyzed data were presented using the PCNE classification scheme for DRPs version 8.02.

Ethical Approval

The research protocol was approved by the Health Research Ethics Committees of the University of Uyo Teaching Hospital and University of Calabar Teaching Hospital (reference numbers: UUTH/AD/S/96/VOL.XIV/571 & UCTH/HREC/33/454. Dates: 25: 04: 2016 & 11: 04: 2016 respectively). In addition, informed consent was obtained from the participants prior to their recruitment into the study.

RESULTS

Ninety-five patients with epilepsy were recruited into the study. The sociodemographic and clinical profiles of the patients are presented in Table 1.

Identification and Resolution of Drug-related Problems

The classification and sub-classification of DRPs, categorization and sub-categorization of interventions by the research pharmacist, acceptance of the research pharmacist’s intervention proposals, and the categorization of the status of the DRPs after the intervention proposals are presented in Tables 2, 3, 4, and 5, respectively.

The total number of DRPs identified by the research pharmacist among patients with epilepsy was 277. Three hundred and seventy nine (379) interventions were offered by the research pharmacist.

Approximately 57.04% of the identified DRPs were patient-related, whereas 15.88% were dispensing-related. Approximately 64.12% of the research pharmacist’s interventions were at the patient level, whereas 24.01% of these interventions were at the prescriber level. Approximately 61.73% of the identified DRPs were fully resolved after implementation of PC interventions.

DISCUSSION

PC involves identifying the medication needs of an individual patient and providing not only the required medicines but also the necessary clinical services before, during, or after treatment to ensure an optimally safe and effective drug therapy.10 This describes the principal essence of clinical pharmacy, from where it was adopted as a professional practice rather than merely a health science, and provides a way for clinical pharmacists, particularly specialists and subspecialists, to coordinate their clinical work more effectively.11

Two hundred and seventy-seven DRPs were identified by the research pharmacist among the patients who participated in the study. Three hundred and seventy-nine intervention proposals were offered by the research pharmacist, while one hundred and sixty-one of the identified DRPs were fully resolved. Although interventions were made at both the prescriber and patient levels, most of the interventions in this study were at the patient level. This is because most of the identified DRPs were patient-related.

All intervention proposals from the research pharmacist to attending physicians that were aimed at resolving identified DRPs were accepted. At the patient level, the research pharmacist’s interventions principally consisted of health education, counseling, and psychotherapy. The research pharmacist emphasized medication adherence, drug storage, inappropriate timing or dosing interval, and irrational drug use. Patients were also discouraged from dual health-seeking behavior, i.e., patients combining traditional remedies with conventional pharmacotherapeutic management of epilepsy. Patients were also counseled about the need to undergo prescribed medical laboratory and radiological investigations.

We found that the doses and dosing of anti-seizure medicines prescribed as documented in the prescription sheets and patient case notes were appropriate in a large majority of the cases studied. Furthermore, there were no contraindications to the use of prescribed anti-seizure medicines in the cases studied. This is commendable, but expected, given that the study was conducted in a tertiary health facility with specialized services. However, therapeutic drug monitoring was not performed in any of the cases studied. The measurement and interpretation of serum antiepileptic drug concentrations can be beneficial for the treatment of uncontrollable seizures. Therapeutic drug monitoring enables a more decisive and effective optimization of therapy and disease management.12 The lack of therapeutic drug monitoring in these facilities, as revealed in this study, may be due to the pervasive problem of the non-availability of the facilities required to conduct such investigations, a problem that appears to be common in resource-poor settings.

Studies have shown that clinical pharmacists can identify, resolve, and prevent clinically significant DRPs.13 Interventions by the research pharmacist in this study resulted in the resolution of a significant proportion, about sixty-two percent, of the identified DRPs. This finding indicates the efficacy of PC interventions in identifying and resolving DRPs. This finding is in agreement with the results of a previous study in which it was found that PC interventions by pharmacists positively influenced clinical outcomes, including a reduction in the frequency of hospital re-admissions, length of patient stay in the hospital, and halting disease regression.13

Pharmacists, through pharmacotherapeutic monitoring, can detect the emergence of health problems and prevent the progression of co-morbidities.14

A previous study on the implementation of PC interventions on patients with HIV in primary healthcare found that pharmacist interventions were able to significantly reduce DRPs.15 Other studies have also suggested that pharmacist interventions can reduce DRPs, particularly problems related to drug safety and adverse reactions.13, 16-20

Acceptance of the research pharmacist’s intervention proposals by prescribers indicates good interprofessional collaboration between physicians and clinical pharmacists. A fundamental requirement for creating collaborative practice systems between pharmacists and other healthcare providers is to appreciate the potential contributions of pharmacists to provide safer and more effective drug therapies for the management of various diseases and the overall good of the larger society.10 Clinical pharmacists should be involved in the selection of suitable pharmacotherapeutic agents for patients and should actively participate in clinical case discussions.13, 15, 17, 21There is a compelling need for pharmacists to review all prescriptions before dispensing to patients. Furthermore, the therapeutic outcomes of direct patient care by pharmacists should be monitored and duly documented.4

A review of the available literature by Reis et al.8 found that pharmacists’ interventions were essential to improving the health of patients with epilepsy. These reports indicate that pharmacists’ interventions can prevent drug therapy problems and improve adherence and response to anti-seizure medications. These studies also reveal significant achievements recorded by pharmacists and confirm that including pharmacists in the therapeutic team produces effective results for the success of pharmacotherapy and the quality of life of people with epilepsy.

Study Limitations

The researchers could not determine the outcomes of some pharmaceutical interventions during the study. However, the results showed that the interventions were effective in resolving most DRPs.

CONCLUSION

The most frequently encountered DRPs were patient related, which revolved around improper patient counseling and relaying medication information to caregivers rather than patients themselves. Most DRPs encountered were resolved following the acceptance of the pharmacist’s PC interventions by the patients and attending physicians. PC interventions are effective in identifying and resolving DRPs.

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