Trends of Pediatric Outpatients Prescribing in Umm Al Quwain, United Arab Emirates ()
1. Introduction
Irrational drug use increases the cost of treatment, incidence of adverse drug reactions and hospitalization. On the other hand, rational prescribing can be evaluated through prescription analysis to study the patterns of prescribing among physicians. Periodical evaluation of trends of prescribing is essential to point out areas for improvement and increase the awareness of prescribers to possible errors in their daily practice. In studying prescribing patterns, focus is mainly on errors which may be in the form of incomplete prescription or incorrect content [1] . It has been suggested that as community pharmacists have no access to patient’s information, their use of scientific knowledge is not possible in cases of prescriptions with errors or incomplete information [2] . On the other hand, the situation in hospital practice is different. However, it is still possible to demonstrate encounters with errors or incomplete information.
The World Health Organization (WHO) [3] has formulated a set of core drug use indicators (Table 1), which measure the performance of prescribers, patients experience at health facilities and whether the health personnel can function effectively. The assessment of drug use indicators according to WHO guidelines on how to investigate drug use in health facilities is prescribing indicators, patient care indicators, facility indicators and complementary indicators [4] .
Studies that investigated the prescribing trends in adults [5] -[20] are far in excess of those in pediatric patients [21] -[28] . It has been pointed out that drugs marketed for adult use, may possibly, be used in an off-label manner in children [2] . It has been shown that 80% - 93% of medications used in European and Australian neonatal wards are off-label or unlicensed [29] .
Moreover, harmful medication errors are three times more common in pediatric than adult patients [30] . It must be remembered that most of the drugs prescribed for children have not been tested in the pediatric population due to the difficulties in carrying out clinical studies in children and ethical issues due to children not being able to make their own decisions to participate in a clinical trial. Therefore, many medications have not been approved by the Food and Drug Administration for children [31] . An essential component in rational drug prescribing is the availability of an approved guideline such as a list of essential drugs. For prescribing for children, the first guideline was issued by the WHO in October, 2007 [32] .
Children are among the most vulnerable groups to possible harmful adverse effects of drugs and studies on drug use in children in UAE are lacking. The present study was undertaken to evaluate patterns of prescribing in paediatric population.
Table 1. Core drug use indicators in pediatric outpatients of a general hospital.
2. Methods
A hospital base cross sectional study was carried out on prescriptions issued to pediatric outpatients. The study was approved by the Ethics Committee of the Medical Campus of the University of Sharjah and hospital approval was obtained prior to collecting prescriptions. A total of 707 prescriptions were collected from a governmental general hospital in the Emirate of Umm Al Quwain, United Arab Emirates. All prescription were issued during the months of June and July, 2014. All collected encounters were electronic prescriptions issued to outpatient aged one week to 19 years. A total of 187 prescriptions issued to patients older than 12 years of age were rejected and not included in the study. The rest (520) of prescription were subjected to the study. These prescriptions were subjected to analysis according to WHO core indicators for drug use in health facilities [3] . Indicators (Table 1) addressed include prescribing indicators such as average number of drugs per encounter, % of drugs prescribed by generic name, % of encounters with an antibiotic prescribed, % of encounters with an injection prescribed and % of drugs prescribed from essential drugs list or formulary. Under patient care indicators, we determined average consultation and dispensing times, % of drugs actually dispensed and those adequately labeled. For facility indicators, availability of key drugs and a copy of essential drugs list or formulary were determined. Collected prescriptions were also analyzed for the presence of information with regard to prescriber, patient and prescribed drugs. These include patient’s name, age, sex, and address, and the physician’s name, address, signature, and license number. The number of drugs per prescription, dosage, frequency of administration, duration of treatment, duplicate drugs of the same therapeutic class, possible drug-drug interactions and whether prescription is clear and illegible were also considered. We also studied the most commonly prescribed therapeutic classes and the most frequently prescribed drug of each common class were counted. Documentation of history of allergy and brief diagnosis of the condition were observed. We also determined the % of prescriptions with increasing number of drugs and the most common pathological conditions for which drugs were prescribed
3. Results
3.1. Prescribing Indicators
As shown in Table 1 the number of prescriptions studied was 520 with a total number of 1,336 drugs prescribed and an average number of 2.6 drugs per prescription. The percentages of encounters with an antibiotic and those with an injection were 44.6% and 0.38% respectively. All prescribed drugs were from a formulary namely embedded in the electronic prescribing system used in the hospital.
3.2. Patient Care Indicators
Average consultation and dispensing times were 20 and 12 minutes respectively. All prescribed drugs were adequately labeled using the electronic system, and almost all (98%) of the prescribed drugs were actually dispensed. Parent’s knowledge of correct dosage was not assessed in the present study (Table 1).
3.3. Facility Indicators
The electronic system of the hospital relies on an electronic drug formulary. In addition, the British National Formulary (BNF) was also available (Table 1).
Patients were distributed into males (56.34%) and females (43.65%). The majority (53.46%) of patients were 13 months - 6 years of age. Neonates comprised (1.15%), infants (5 weeks - 1 year, 13.65%) and the rest (31.73%) were 6 - 12 years of age (Table 2).
All prescriptions were electronic and were head lettered by the name of the hospital. As shown in Table 3, patient’s name, age and gender were present in 100% of the prescriptions. Patients address, history of allergy and brief diagnosis of the condition were present in 21.15%, 83.26% and 64.42% of the prescriptions respectively. Regarding the prescriber information, the name was present in 100 % of the prescriptions while signature of the prescriber was an electronic one.
Table 3, also shows that the dose, route of administration, frequency of administration and the duration of treatment were present in all prescriptions. All drugs were prescribed by generic name. As shown in Table 4, patients were prescribed one, two, three, four or more than four drugs per prescription in 24%, 28%, 26.53%, 12.69% and 8.65% respectively.
Table 2. Distribution of pediatric outpatients according to age and gender.
Table 3. Percentages of prescriptions containing prescriber’s, patient’s and prescribed drug’s information.
Table 4. Number of drugs per prescription.
Antibiotics were the most commonly (44.6%) prescribed drugs with amoxicillin being the most frequently (40%) given drug. Second in ranking were antihistmaines (43.65%) with xylometazoline (61.23%) and third are the analgesic/antipyretic drugs (32.30%) with paracetamol (87.5%) as number one of this class (Table 5). The most frequent diagnosis encountered were in the order of; dermatological disorders, tonsillitis, rhinitis, otitis media, gastroenteritis, upper respiratory tract infection, bronchial asthma, acute bronchitis, fever, iron deficiency anemia, mouth ulceration, urinary tract infection, conjunctivitis, cerebral palsy, cough, enuresis, cerumen impaction, and seizures (Table 6).
4. Discussion
Several tools have been introduced to evaluate the quality of prescribing. The aim of this study was to determine
Table 5. Most commonly prescribed therapeutic classes and drugs of each class.
Table 6. Number and percentage of diagnosed conditions for which drugs were prescribed.
the quality of prescribing in paediatric outpatients in a general hospital in one of the Emirates of United Arab Emirates using the WHO core indicators for drug use. In the present study, the average number of drugs per encounter was 2.6. This is higher than the recommended figure of 2, however, it is similar to 2.5 in India [2] , more than that in Ethiopia [21] but less than that in KSA [22] . Prescribing large number of drugs to a child increases the risk of adverse effects, drug interactions, dispensing errors and leads to less understanding of parents of dosages regimens [23] [26] . It has been suggested that the optimal indicator values for the average number of drugs per encounter, and prescribing antibiotics and injections largely depend on disease patterns, policies and treatment guidelines and therefore may vary from country to country and over time [33] .
Our results indicate that there is a tendency for polypharmacy as almost 47.87% of prescriptions contain three drugs and more. However, since all prescriptions were electronic, the possible risks of interaction is reduced as the electronic system reminds the prescriber of such possible interactions. Again the electronic system must have had an influence on prescribing as in all encounters only generic drugs were prescribed. Increasing generic prescribing would rationalize the use and reduce the cost of drugs [34] . It has been reported that usually poor generic prescribing is due to non-availability of the pediatric formulations in the hospital pharmacy [27] [35] . In the present study, almost all (98%) of the prescribed drugs were dispensed.
Drug doses, dosing interval, and duration of dosing were present in all encounters. Selection of drugs to be prescribed from an electronic drug database verifies prescriptions and ensures the consideration of all drug related parameters, such as dose, route, and duration of treatment [5] .
In the present study, the information on patient’s name, age, and gender were present in all encounters. However, address of patient was missing from about 80% of prescriptions. This may not be a problem if the prescriber or pharmacist need to correct an error of prescribing or dispensing or to follow up with the patient because the hospital have the address of the patient in his file. Not mentioning the patient’s address constitutes a problem only if the patient has to seek medications outside the hospital and a dispensing error need to be corrected by the community pharmacist who dispensed the medication.
Allergy was not documented in 17% of the prescriptions. This is important particularly in paediatric population and when one consider the high % of encounters (44.6%) with antibiotics. Such use of antibiotics is similar to 43.19% in India [36] , much higher than (21%) reported for Omani pediatric population [37] and less than (53.42%) reported in Ethiopia [21] . It is a fact that antibiotics are routinely used for the treatment of pediatric illnesses and still irrationally used for inappropriate indications such as upper respiratory tract infections, acute otitis media and acute gastroenteritis. These three condition were among the most frequently diagnosed in the present study. The irrational use of antibiotics calls for more efforts and effective interventions to promote rational antibiotic use particularly in pediatric population. It is important to stress on the importance of continuous monitoring of drug use in pediatrics as part of evaluation of risk/benefit of therapeutics in children [38] .
Results of our study indicate that about one third of encounters did not mention the diagnosis. A brief diagnosis of the condition is also helpful to the pharmacist to ensure that the drugs prescribed are appropriate for the patient’s condition [5] and also can be helpful to the pharmacist in correcting, in consultation with the prescriber, any possible medication error. With regard to the prescriber’s information, all encounters were letter headed in the name and address of hospital, name of prescriber was mentioned and each encounter carried an electronic signature of the prescriber.
The most commonly prescribed therapeutic class was antibiotics These were encountered in (44.6%) of all prescriptions studied, and amoxicillin (40.0%) was the most commonly prescribed of this class. Antihistamines were the second most commonly (43.65%) prescribed class and xylometazoline (61.23%) was the most common antihistamine used. Third on the list were analgesic antipyretic drugs (32.30%) with paracetamol (87.5%) being the most common drug of the class. Studies from Sweden, the Netherlands, and Denmark showed that anti-infective drugs, respiratory drugs, and dermatological drugs were the most commonly prescribed drugs in pediatric patients [39] -[41] . On the other hand, the most frequently diagnosed conditions were; dermatological disorders, tonsillitis, rhinitis, otitis media, gastroenteritis, upper respiratory tract infection, bronchial asthma, acute bronchitis, fever, iron deficiency anemia. This may have bearing on the most commonly prescribed drug classes.
5. Conclusion
In conclusion, the present study provides baseline data useful for comparison with results of future local pediatric drug utilization studies. Results of the present study indicate that there is, in general, a trend for rational prescribing practice in pediatrics ward of the hospital, especially with regard to information concerning prescriber, patient and prescribed drugs. Attention must be made to document the diagnosed condition and history of allergy. Irrational use of antibiotic for inappropriate indications such as upper respiratory tract infections and acute Otitis media should be discouraged through proper and effective interventions. This could be achieved by stressing on rational drug use, evidence-based medicine and the hazards of irrational antibiotic use in medical curriculum, and continuing medical education and healthcare professional development programs.
Acknowledgements
We are grateful to the administration of Umm Al Qwuain Hospital and Umm Al Qwuain Medical District for their kind cooperation during data collection process.
NOTES
*Corresponding author.