Incidence and cost estimate of treating pediatric adverse drug reactions in Lagos, Nigeria

ABSTRACT CONTEXT AND OBJECTIVES: Adverse drug reactions (ADRs) may cause prolonged hospital admissions with high treatment costs. The burden of ADRs in children has never been evaluated in Nigeria. The incidence of pediatric ADRs and the estimated cost of treatment over an 18-month period were determined in this study. DESIGN AND SETTING: Prospective observational study on children admitted to the pediatric wards of the Lagos State University Teaching Hospital (LASUTH) in Nigeria, between July 2006 and December 2007. METHODS: Each patient was assessed for ADRs throughout admission. Medical and non-medical costs to the hospital and patient were estimated for each ADR by reviewing the medical and pharmacy bills, medical charts and diagnostic request forms and by interviewing the parents. Cost estimates were performed in 2007 naira (Nigeria currency) from the perspectives of the hospital (government), service users (patients) and society (bearers of the total costs attributable to treating ADRs). The total estimated cost was expressed in 2007 United States dollars (USD). RESULTS: Two thousand and four children were admitted during the study; 12 (0.6%) were admitted because of ADRs and 23 (1.2%) developed ADR(s) during admission. Forty ADRs were suspected in these 35 patients and involved 53 medicines. Antibiotics (50%) were the most suspected medicines. Approximately 1.83 million naira (USD 15,466.60) was expended to manage all the patients admitted due to ADRs. CONCLUSIONS: Treating pediatric ADRs was very expensive. Pediatric drug use policies in Nigeria need to be reviewed so as to discourage self-medication, polypharmacy prescription and sales of prescription medicines without prescription.


INTRODUCTION
Adverse drug reactions (ADRs) occur frequently and globally, accounting for a significant number of fatalities each year. 1,2It has been estimated that fatalities directly attributable to ADRs are the fourth to sixth leading cause of death in hospitals in the United States, exceeding deaths caused by pneumonia and diabetes. 3Among a population of adults in Cameroon, the rate of ADRs was 3.5% 4 and among adult medical inpatients in South Africa, the rate was 12.6%. 5There is a relative dearth of epidemiological studies of ADRs in pediatric patients in Nigeria and other African countries.Previous studies have reported ADR rates of 2.1% to 9.5% in pediatric populations. 6,7However, these studies were conducted in developed countries where disease patterns, access to medicines, medicine use patterns and patient management differ significantly from those of developing countries. 8We have reported an ADR rate of 1.2% among pediatric patients in Nigeria. 2 The financial burden resulting from medicine-related morbidity and mortality is equally significant and has been conservatively estimated as United States dollars (USD) 30 billion annually in the United States. 9eaths resulting from ADRs have been reported in Nigeria. 2 In addition to the human costs, ADRs have a major impact on public health by imposing a considerable financial burden on society and the alreadystretched healthcare systems.In Spain, the minimum direct cost to the public health system of diagnosing and treating adult patients with suspected ADRs in a single month was estimated as 42,732 Ecus (USD 54299.57). 10Wu and Pantaleo 11 estimated the mean cost of treating an ADR per patient as USD 9,491 with 50% of this cost being the hospitalization or room charges alone.In India, Patel et al. 12 also estimated the total cost to a hospital due to hospitalization of patients with ADRs over a six-week period in an emergency room as USD 27,358.Although nearly all medicines are capable of causing injuries, certain medicines such as antibiotics, 7,13 immunosuppressive agents 14 and anticonvulsants 13,14 are more likely to be associated with ADRs in children.Antibiotics and sulfadoxine/pyrimethamine antimalarials are the leading cause of ADRs in children in Nigeria, 2 since they constitute the medicines most frequently self-medicated to children, 15 most regularly prescribed by doctors 15,16 and most frequently stocked at home by parents. 15revention of medicine-related morbidity and mortality has become an increasingly important requirement for reducing the morbidity, mortality and healthcare expenditure relating to ADRs.Estimates of treatment costs in hospital cost-effectiveness studies need to take the cost of medicine into consideration, but this should not be limited to its purchase price. 17The real cost of a medicine must also take into account the impact of ADRs potentially induced by this medicine. 18Despite the widespread impression that ADRs in hospitalized patients are costly because they require additional treatments and prolong the length of stay, 19 the exact cost attributed to ADRs has not been studied in children.
The various risk factors associated with ADRs in children and the likely medicines involved have previously been reported in Nigeria. 2 However, lack of national pediatric pharmacovigilance schemes makes information collation about ADRs and its reporting nationally poor, such that ADRs remain a clinical problem.A few studies have examined the clinical and epidemiological trends of ADRs in Nigerian children, 2 but none have specifically evaluated the cost of care associated with them.

OBJECTIVE
The aims of this study were to determine the incidence of ADRs as a cause of pediatric admissions at the Lagos State University Teaching Hospital (LASUTH) over an 18-month period and to estimate the cost of treating these patients.The incidence of ADRs in pediatric inpatients, after hospital admission, was also determined over the study period.

Patients and settings
This prospective observational study was conducted at LASUTH in Nigeria and involved children admitted because of suspected ADRs, or who developed ADRs while on admission, in a 98-bed children's ward between July 2006 and December 2007.Patients admitted for less than 24 hours or with repeated admissions, and those whose medical records were unavailable for review, either during the admission or following discharge, were excluded from the study.
Lagos is the smallest but most populous state in Nigeria, with an estimated population of 15 million according to the 1991 national census.Both public and private healthcare systems are practiced in Nigeria.Primary health centers, general hospitals, federal medical centers and teaching hospitals constitute the public healthcare system; while individually owned hospitals and clinics constitute the private healthcare system.Lagos is served by two teaching hospitals: the Lagos University Teaching Hospital (LUTH) and Lagos State University Teaching Hospital (LA-SUTH).While LUTH is funded by the Federal Government, LASUTH is funded by the Lagos State Government.The facilities available and standard of care obtainable from the two hospitals are comparable.Of the two hospitals, pediatric health care is partly free at LASUTH; the cost of treating pediatric inpatients is borne partly by the Lagos State Government and partly by parents.Two pharmacies are in operation at LASUTH; the non-fee paying pharmacy (where antimalarials for all, medicines and other health products for children and the elderly are available free of charge) and the fee-paying pharmacy (a private venture that sells other medicines and health products for children and adults that are unavailable at the non-fee-paying pharmacy).Hospitalization, provider services and diagnostic investigations are free for pediatric and elderly patients at LASUTH.Parents are allowed to have investigations done that were unavailable in the hospital elsewhere without reimbursement.Also, medicines unavailable in the non-fee-paying pharmacy were either procured from the hospital fee-paying pharmacy or from community pharmacies.Since children neither pay for hospitalization nor pay for provider services at LASUTH, we decided to use the pediatric cost of hospitalization and provider services from LUTH.The cost of specific investigations done outside the hospital and the costs of medications obtained from both the fee-paying pharmacy and community pharmacies were also used to calculate the medical expenditures.The study therefore estimated the financial burden of ADRs from the perspectives of the service provider (government), service users (patients) and society (bearers of the total costs attributable to treating ADRs).

Patient evaluation and data collection on ADRs
During the study period, a research team comprising a pediatric clinical pharmacologist, pediatricians and two hospital pharmacists, who were members of the ADR monitoring committee of LASUTH, prospectively assessed all admissions to the pediatric wards to determine whether patients had been admitted as a result of a suspected ADR or whether an ADR had occurred after admission.All the members of the research team had been trained many times on how to recognize, assess and report suspected ADRs.The team members had also acquired additional experience from participating in previous studies on pediatric ADRs. 2 On each day of the study period, a specific questionnaire was completed for all children newly admitted.All children were evaluated daily for the presence of ADRs, by the research team, and were observed until discharge to ascertain the final diagnosis.Patient evaluation was usually carried out about two hours before the normal ward rounds.The evaluation consisted of examining medical and nursing records, reviewing prescription charts and attending clinical rounds.All the pediatricians, junior doctors and nurses were asked to participate in the study and to report or record any suspected ADR.
ADRs were defined in accordance with Edwards and Aronson. 20his definition excludes ADRs that require no intervention and has been applied in a previous ADR study on adults. 21If a suspected ADR was reported, the research team usually evaluated all the suspected cases.The pediatric clinical pharmacologist and the more senior of the two pharmacists assisted in assessing the suspected ADRs for causality, severity and avoidability.ADRs were identified on the basis that they were well recognized as shown by their inclusion in the summary of product characteristics, 22 the Nigerian National Drug Formulary 23 and the pediatric British National Formulary, 24 or in previously published case reports.ADRs were also classified as type A (dose dependent and predictable from known pharmacology) or type B (idiosyncratic, no clear dose response and not predictable from the known pharmacology), in accordance with the classification of Rawlins and Thompson. 25ata on the particular suspected medicines and reactions were collected in a suitably designed ADR documentation form.All relevant data, including all medicines the patient had received before the onset of the reactions, their respective doses, the routes of administration with their frequency, laboratory test results present in the medical records, clinical details (system-organ class involvement) and the treatment (pharmacological and non-pharmacological), were noted.In addition, where the documented medicine history was unclear, the patient's medication history was taken from the patients or parents/guardians or the attending physicians, and comorbidity was identified to assess the causal relationship between the suspected medicine and the reaction.Information regarding previous medicine use was obtained by interviewing parents, relatives, nurses, or others, as necessary.A modified list of trigger events requiring further assessment for medicine-related causes (Table 1) was adapted from the work of Rozich et al., 26 to increase the sensitivity to possible ADRs on admission.All the members of the research team familiarized themselves with the list, and the document was used as a pocket reference.In situations in which an identical reaction occurred more than once in the same patient during the same hospital stay, the patient was documented as having experienced a single reaction.The suspected ADRs and the suspected medicines were classified in accordance with the World Health Organization (WHO) classification. 27The causality relationship between the suspected ADR and the suspected medicine therapy was assessed case by case using the Jones method. 28Severity was classified according to the Schirm et al. 29 classification for pediatric age group: fatal (resulting in near death or eventual death for the patient); severe (directly life-threatening and/or prolonged hospitalization, associated with organ or system dysfunction and permanent harm); moderate (requiring treatment intervention, and patient temporarily harmed); and mild (uncomplicated primary disease, increased patient monitoring, no treatment required and drug discontinuation not necessary).Avoidability was assessed within the local context of medicine management for the patient.A reaction was considered to be "avoidable" if it met the criteria of Schumock and Thornton, 30 i.e. the medicine involved in the ADR was inappropriate for the patient's age, weight and disease state; the dose, route or frequency of administration were inappropriate for the patient's age, weight and disease state; required therapeutic drug monitoring or other necessary laboratory tests were not performed; past history of allergy or previous reactions to the medicine; documented toxic serum drug level; and deviation from the recommended dose.
Analysis for causality, severity and avoidability was done independently by two of the investigators (KAO and HAC).Overall, there was approximately 70% agreement in the causality and avoidability assessments, using the kappa statistics.Any discrepancies were then discussed with other investigators to achieve a consensus.
The length of stay was calculated separately for each admission and was used to determine the total number of bed days and the mean length of stay.The ADR admission rate was determined based on the number of patients admitted at least once with an ADR during the study.

Health cost of ADRs
Only the 12 patients admitted because of ADRs were evaluated for the health cost of ADRs.We excluded the patients who developed ADRs while on admission, because they had not fully recovered from the primary disease for which they were admitted.It was also difficult to ascertain whether prolonged hospitalization was due to the primary disease or to the ADRs.Only the cost of treating moderate and severe ADRs (including the two fatal cases) was estimated, since most cases of mild ADRs were treated at the outpatient clinic.
Admissions due to an ADR were evaluated for the total length of hospitalization as well as the direct and indirect costs of treatment.Any case that did not involve stopping the offending medicine or continuation of treatment without any change was considered as nil.The costs of managing an ADR were determined as highlighted below.The total estimated cost of treating ADRs was expressed in United States dollars (USD) of 2007, at a rate of 1 USD equals 118 naira ( ) (i.e.2007 naira values).

Direct medical costs to the hospital
The medical and pharmacy bills, as well as medical charts, were reviewed for each patient admitted due to ADRs, in order to document all medications received by the patient and the diagnostic tests associated with ADRs.Medicines bought at the hospital pharmacy or from community pharmacies, as well as investigations done outside the hospital, were excluded at this stage.
ADR management was symptomatic and varied according to severities and the organ or system involved.Thus, a wide variety of medications and diagnostic investigations were involved in the management.Unit costs were therefore calculated for medications and diagnostics associated with each case of ADRs, as well as the costs for hospital beddays for each patient.Medications were assigned wholesale medicine costs per unit, based on the LASUTH fee-paying pharmacy prices, while the laboratory manager provided pre-calculated costs for each diagnostic test.The total quantity of each medication used per patient multiplied by its unit cost, and the total number of specific diagnostic investigations performed on each patient multiplied by the unit cost were summed to yield the direct medical cost to the hospital incurred per patient.The total direct medical cost to the hospital incurred by all the patients is presented in Table 2. Ideally, patients with severe ADRs were supposed to be nursed in a pediatric intensive care unit (PICU) but such a facility was not available in the hospital; therefore, we did not include the cost of PICU.The total medication and diagnostic costs to the healthcare system equaled the sum of the individual unit costs multiplied by the quantity of medications and diagnostic tests ordered, respectively.
The hospital care and bed-day costing included staff salaries per day, electricity, linen, water supplies, building and equipment depreciation, maintenance and medical record expenses incurred by the healthcare facility, with inpatient expenses calculated at 80% occupancy rate.Follow-up visits, after discharge, were arranged so that the patients' relative stability could be monitored.The actual charge for any prior visit before the appointment dates or subsequent consultation with any general or specialist doctors and other paramedics within the hospital were included in the total visit cost.
The direct medical costs to the hospital equaled the sum of all medication, diagnostic and visit costs.The direct medical cost incurred in managing patients admitted because of ADRs was calculated as the total amount spent by the hospital on the patients divided by the total number of patients admitted due to ADRs.

Direct medical costs to the patient
This refers to any bill incurred by the patient on medications, diagnostic investigations or medical procedures while on admission or during follow-up visits.This was recorded for all medications procured at the fee-paying pharmacy and community pharmacies, and for all diagnostic tests associated with ADRs that were done outside the hospital.This was achieved by reviewing all the prescriptions, medical bills and charts in the case file, and by interviewing the parents.Patient-reported costs of outside private practitioner visits at the onset of ADRs and for follow-up were included.The direct medical cost to the patient therefore equaled the sum of previous and present admissions due to ADRs, medication and diagnostic costs.

Direct non-medical costs
The direct non-medical costs equaled the sum of all transportation, food and hotel expenses incurred during the hospital admission for ADRs since some of the patients were referred from distant health centers.

Indirect costs
The indirect costs of the ADRs per household refer to the wages lost by each parent caused by nursing a child with an ADR.These were calculated by using the human capital method, which measures the parents' average monthly wages.The indirect cost equaled the sum of each parent's estimated daily wage based on the minimum monthly wage (7,500 naira of 2007) for workers in Lagos multiplied by lost workdays.An individual employee in Lagos would work for an average of 9 hours per day or 45 hours per week.Each parent who spent up to 9 hours or more per day with an ADR patient was considered to have lost a day of work.

Ethical issues and statistical analyses
The study protocol was approved by the ethics committee of LA-SUTH.All data from the questionnaires and the medical records were coded and statistical analysis on the results was performed using the Statistical Package for the Social Sciences (SPSS), version 13.Comparisons between ADR and non-ADR patients with regard to continuous data were made using the t-test or the Mann-Whitney U-test, depending on skewness, and the chi-square test was used for comparisons of continuous data between ADR patients at a significance level of P < 0.05.

Demographic data on the patients and their parents
Two thousand and four children were admitted during the 18month prospective study, of whom 1222 (61%) were males.The admission rate was 111 per month.Twelve patients (0.6%) were admitted due to ADRs, and 23 inpatients (1.2%) developed ADRs, thus giving an overall incidence of 1.8%.Male patients experienced significantly more ADRs (23; 65.7%) than female patients (12; 34.3%; P = 0.02) but there was no significant gender difference between the ADR and non-ADR patients (male-to-female ratios of 1.92 and 1.50, respectively) (P = 0.08).The mean age of the patients admitted due to ADRs was 8.9 ± 3.4 years (age range, 3-12 years) and was not significantly different from the mean age of the inpatients who developed ADRs (5.1 ± 3.8 years; range, 2 days-12 years) (P = 0.81).The overall mean age of the ADR patients (5.0 ± 3.2 years) was not significantly different from the mean age of the non-ADR patients (6.4 ± 4.1 years) (P = 0.72).
The mothers' education levels, their occupations, annual household income (in naira) and costing data for the hospital are presented in Table 3.
The patients were admitted because of a variety of diseases, but mainly malaria (842; 42%) and meningitis (365; 18.2%).A total of 8,417 medicines were received by the 2,004 patients (4.2 medicines per patient; range, 2-10).The most frequently used medicines were cefuroxime and gentamicin.The inpatients who developed ADRs were prescribed a total of 67 medicines, including multivitamins, hematinics and antioxidants * the bed costs during admission; † the doctors' and paramedics' fees for managing the patient during admission; ‡ the costs of medicines obtained free of charge from the non-fee-paying pharmacy; § the costs of investigation done free of charge during hospital admission; || Others refers to the mean cost of electricity, linen, water supplies, building and equipment depreciation, maintenance and medical record expenses incurred by the healthcare facility with inpatient expenses calculated at an 80% occupancy rate; ¶ medication, diagnostic and procedure costs rendered free of charge to the patients during follow up visit; : 2007 naira (Nigerian currency).
(mean of 4.5 medicines per patient; range 4-8).There was no significant difference in the mean number of medicines received between the inpatients who developed ADRs (4.5 medicines per patient) and the non-ADR inpatients (4.1 medicines per patient) (P = 0.08).

ADRs detected, drugs incriminated and organs or systems affected
Table 4 summarizes the ADRs detected according to the organ or system affected.Cutaneous manifestation (17; 43%) was the commonest means.Tables 5 and 6 show the pattern of ADRs and the suspected medicines recorded during the study period.Erythema multiforme rash (7) and pustular rash (4) were the commonest clinical manifestations.In all, 53 medicines were suspected of causing 40 ADRs (Table 4).Half of the medicines were antibiotics.

Causality and avoidability of ADRs
Because many of the patients used multiple numbers of medicines with potentials for ADRs, we did causality assessment for each of the suspected medicines.Nine ADRs were considered definite, 18 probable and 26 possible.Only eight ADRs were judged to be avoidable: electrolyte disturbance and hyperglycemia due to prolonged use of prednisolone; erythema multiforme due to prolonged use of phenobarbitone; electrolyte disturbance and ileus due to prolonged use of frusemide; hemolysis due to the use of co-trimoxazole in a glucose-6-phosphatase dehydrogenase deficient patient; and red man syndrome due to rapid administration of intravenous vancomycin (Tables 5 and 6).Out of the 12 patients admitted due to ADRs (Table 5), three were due to the use of non-prescribed medicines (parental self-medication).Type A accounted for 33 (82.5%) of the ADRs while the remaining seven (dystonia due to amodiaquine, artesunate or cefixime; hypothermia due to amodiaquine, artesunate or cefixime; macular and morbiliform rash due to albendazole; anemia due to carbamazepine; angioneurotic edema due to amodiaquine; seizure due to cefixime; and transient loss of vision due to quinine) were idiosyncratic.

Case description of ADRs
Fifteen ADRs (37.5%) were severe and 23 (57.5%) were moderate (Tables 5 and 6).ADRs were the cause of death in two fatal cases.Most of the survivors recovered without long-term sequelae.The two deaths resulted from Stevens-Johnson syndrome (SJS).Erythema multiforme was the most frequent form of severe ADR manifested by the patients.The two most frequently experienced moderate ADRs were pustular rashes (4) from the use of vancomycin, and macular and morbiliform rashes (3) from the use of ampicillin, albendazole and cefotaxime.

Direct medical costs of ADRs to the hospital
The mean costs per moderate and severe ADR to the hospital are reported in

Direct medical costs, direct non-medical costs and indirect costs of ADRs to patients
The mean total direct costs to parents for treating moderate and severe ADRs are summarized in Table 7.The total direct cost is the sum of the direct medical costs, direct non-medical costs and indirect costs of ADRs.The cost incurred by the parents for treating severe ADRs was significantly higher than the cost of treating moderate ADRs ( 162,713.00 ± 32,422.00;USD 1,376.92± 274.76 versus 21,246.00± 1,786.00;USD 180.05 ± 15.13; P < 0.001).

Total cost of treating ADRs
The mean cost per ADR treatment is presented in

DISCUSSION
It is evident from this study that ADRs in children pose a financial burden both to parents and to hospitals in Nigeria.The overall incidence (1.8%) of ADRs in this study is comparable with the 1.1% previously reported in Nigeria. 3 However, when this rate is compared with results (2.1% to 9.5%) from developed countries, 6,7 ADRs are still grossly underreported in Nigeria.
More males than females were affected with ADRs, probably because more males than females were admitted over the study period.Moreover, parents tend to seek healthcare earlier for male than for female children, 31 probably due to male child preference. 32The proportion of children admitted due to suspected ADRs (0.6%) was half the proportion who developed ADRs while on admission (1.2%).This disparity may be as a result of the exclusion of mild ADRs from the admissions.Parents in Nigeria traditionally consider skin manifestation of ADRs as measles rash.Measles is usually perceived as a punishment for breaking family taboos or as an evil deed from witches or enemies. 33arents may therefore not seek modern medical care for children with measles or skin manifestation of ADRs, which might have invariably contributed towards the low proportion of children admitted due to suspected moderate and severe ADRs.
One study has reported poor perceptions of ADR reporting among doctors working in a teaching hospital in Nigeria. 34At LASUTH, only doctors and nurses usually participate in ward rounds and they are likely to underreport ADRs.Previous studies showed that many doctors do not record all the symptoms of ADRs reported to them by adult patients. 35Therefore, a multidisciplinary approach towards ADR surveillance, as practiced in this study, may be necessary for effective pediatric pharmacovigilance in Nigeria.
We have previously reported that antibiotics and antimalarials are associated with ADRs in children. 2 This trend has remained unchanged in the present study, since antibiotics and antimalarials remained the most frequently incriminated medicines in ADRs.Thus, it appears that infectious diseases are still a menace to children in Lagos, Nigeria.

GIT manifestation
Constipation Metronidazole (1), Amoxicillin *more than one medicine was suspected for a single adverse reaction; CNS = central nervous system; GIT = gastrointestinal tract.
The most common organs and systems associated with ADRs in this study were the skin and the circulatory system (Table 4).Previous studies equally identified dermatological manifestations as the most common presentation of ADRs in children 29 and adults. 36Erythema multiforme was the most frequent skin manifestation of ADR in this study, and was associated with antibiotics (ampicillin and co-trimoxazole), antimalarials (sulfadoxine/pyrimethamine) and anticonvulsants (phenobarbitone).The association between these medicines and erythema multiforme had been reported earlier. 2 Polypharmacy was practiced by many of our patients, and more than one medicine was often suspected to be the cause of the ADRs.We therefore undertook causality assessment for the individual medicine using the Jones method. 28In order to improve the accuracy of our assessments, two expert members of the research team undertook the causality assessment, which yielded 70% agreement.Any disagreements were resolved by consensus discussions with other members of the team.Causality assessments are difficult, and inter-rater agreements may vary. 37It was impossible for us to ascertain definite causality between the ADRs and many of the suspected medicines because this requires re-challenge: a procedure that the parents would not consent to.However, the majority of the ADRs were suspected to be probably based on de-challenge.This limitation therefore highlights the special challenge that faces ADR assessment in children.
Unlike the previous studies in adult populations, in which most of the ADRs were avoidable, 38 only 20% of the ADRs observed in this study were avoidable, which is consistent with the proportion reported in another pediatric population by Weiss et al. 6 The government may therefore need to review the policy on sales and use of pediatric medicines in Nigeria, which should be complemented with development and implementation of preventive strategies against ADRs.Given the wide variety of medicines implicated and the array of ADRs identified in this study, affecting many organ systems in the body, prevention is likely to require complex multifaceted intervention strategies.Computerized prescribing and monitoring systems 39 have been adopted in developed countries to prevent ADRs, but may be too expensive to implement in Nigeria.However, less expensive methods like participation of pharmacists in ward rounds, 40 drug treatment monitoring, 41 and enhanced education and training in prescribing 42 can be implemented in Nigeria to reduce the burden of ADRs.Previous studies that looked into the estimated cost of ADRs in developed countries focused only on adult populations, and estimates were mainly based on the cost of hospitalizing the patients. 10,11Contrarily, in the developing countries where attempts had been made to estimate the cost of ADRs, pediatric children were studied along with adults.The direct medical and direct non-medical costs to the patients were not considered in previous studies, 43,44 thus underestimating the financial burden of ADRs.However, the present study focused on a pediatric population and estimated the direct and indirect medical costs as well as the non-medical costs to both the hospital and the parents.
Among the estimated medical expenditures, the mean costs of hospitalization for moderate ADRs ( 2,080.00 ± 420.00; USD 17.63 ± 3.56) and severe ( 3,140.00 ± 680.00; USD 26.61 ± 5.76) were relatively cheaper than the costs reported in previous studies from developed countries 10,11 and other developing countries. 12The differences in the cost may be attributed to the high level of poverty in Nigeria and lack of sophisticated and advanced technology to investigate and monitor patients with ADRs.Similarly, a high cost of hospitalization, similar to the costs reported in previous studies, [10][11][12] 45 Expending 10.8% to 87.20% of their annual income to treat just one hospitalized case of moderate to severe ADRs is worrisome.Thus, these data indicate that the treatment of ADRs may place a large financial burden on Nigerian households.If pediatric health care were completely free, the hospital would have expended approximately 1.83 million naira (USD 15,466.60) to treat the 12 patients admitted due to ADRs over an 18-month period.This sum of money is staggering and represents a significant financial burden on the government, especially in a resource-poor country.
The fourth Millennium Development Goal (MDG4) is to reduce child mortality by two-thirds between 1990 and 2015 through prevention and adequate treatment of common killer childhood dis-eases. 46These diseases include pneumonia, diarrhea, malaria, measles and meningitis.In spite of the efforts of the Nigerian government to achieve this goal, children are still dying of these killer diseases in high numbers. 47The mean cost estimates for malaria and meningitis during hospital admission, over the 18-month period, were not determined.However, a mean cost per admission in the range of USD 47 to USD 96 and USD 54 to USD 285 has been reported in Kenyan public regional and national hospitals for treating malaria and meningitis, respectively. 48These cost estimates included the cost of hospitalization and may be extrapolated to the treatment cost for malaria and meningitis in Nigeria because of the similarities in the gross domestic product (GDP) of the two countries.Considering the high proportion of children who were afflicted with malaria and meningitis in this study, and the potential risks of morbidity and mortality that may complicate these diseases, it will be more reasonable for the government to direct the large sum of money expended on the few cases of ADRs to fight the killer childhood diseases and implement preventive measures against ADRs.
In this study, we were unable to statistically determine the risk factors associated with ADRs due to the small number of cases with suspected ADRs.It would have been more appropriate to compare the mean estimated cost of suspected ADRs with the mean cost of treating non-ADR patients while on admission, or to compare the estimated cost of ADRs with the proportion of total annual hospitalization costs for all the children.However, lack of access to detailed information on all the non-ADR patients made this impossible.We compared the cost estimates of ADRs in children with those of adults because of a lack of data on children.This therefore calls for caution in interpreting our results.Another limitation of this study is that the indirect costs involving the lost work days and productivity cost to the parents due to morbidity and mortality of the patients were not included in the cost estimates.Lack of records of the yearly population of pediatric patients who developed ADRs in the hospital has also made it impossible for us to calculate the annual cost of treating ADRs.
It is very likely that we have underestimated the financial burden of ADRs because all the patients were managed in the open wards, instead of managing the severe and fatal cases in a pediatric intensive care unit.Some very important investigations such as arterial blood gas levels were not done due to lack of facilities.The costs of these facilities and investigations, if available, may be very high.The exclusion of mild cases of suspected ADRs and the inpatients who developed ADRs might also have contributed towards the underestimation of the financial burden of ADRs in this study.
ADRs are a significant public health problem that is associated with prolonged hospitalization, morbidity and mortality.In spite of a number of methodological limitations, this study has provided data for future reference to the estimated cost of ADRs in children.The cost of treating ADRs in children was substantial and imparted a significant financial burden on both the parents and the hospital.Public enlightenment campaigns on rational use of medicines, strengthening of policies on the sale and use of prescribed medicines, promotion of pharmaco-economic studies and cooperation between clinicians, clinical pharmacologists and pharmacists in pharmacovigilance remain the cornerstone for preventing ADRs and decreasing their costs.More efforts should be devoted to achieving these interventions.

Table 1 .
List of triggers and process identified in children with adverse drug reactions (ADR) * Adverse event Event suspected to be drug-related * by doctor, nurse or parents Suspected ADR

Table 2 .
Mean cost to the hospital per single adverse drug reaction (ADR) admission in 2007 naira ( ) n = number of patients with ADRs;

Table 3 .
Baseline demographics of the mothers and costing data for the hospital (Lagos State University Teaching Hospital, LASUTH) *Other cost per day ---* Other cost refers to the mean cost of electricity, linen, water supplies, building and equipment depreciation, maintenance and medical record expenses incurred by the healthcare facility with inpatient expenses calculated at an 80% occupancy rate.n = number of patients with adverse drug reactions (ADRs); = naira.

Table 4 .
Systemic-organ classes of adverse drug reactions (ADRs) and the suspected medicines

Table 5 .
Clinical details and characteristics of patients admitted due to adverse drug reactions and the suspected medicines (ADR) Medicine prescribed at the Lagos State University Teaching Hospital outpatient clinic; † a patient who presented with two types of suspected adverse drug reactions (dystonia and hypothermia) to more than one medicine; ‡ a patient who presented with two types of suspected adverse drug reactions (electrolyte disturbances and hyperglycemia) to a single suspected medicine; § self-medicated medicine (medicine not prescribed by a doctor); || medicine prescribed at a primary healthcare center; ¶ medicine prescribed by a general practitioner.URTI = upper respiratory tract infection. *

Table 8 .
Mean cost per adverse drug reaction (ADR) treatment in 2007 naira

Table 7 .
Mean cost to a single patient per adverse drug reaction (ADR) admission in 2007 naira all transportation, food and hotel expenses incurred during hospital admission for ADRs; † expenses incurred on medications, investigations and procedures during initial visit to a private hospital; ‡ expenses incurred on medications, investigations and procedures during admission at LASUTH; § expenses incurred on medications, investigations and procedures during follow up visits to LASUTH or a private hospital; || lost by each parent, caused by nursing a child with an ADR.
n = number of patients with ADRs.= 2007 naira (Nigerian currency).USD = United States dollar.* the sum of may discourage patients with ADRs from seeking hospital care.The total estimated cost per moderate and per severe ADR were 36,563.32± 3,668.61(USD 309.86 ± 31.09) and 234,606.00± 48,942.10(USD 1,988.19± 414.76) respectively, which are five to thirty times the minimum monthly wage ( 7,500 = USD 63.56) of an average worker in Lagos.The mean annual income of the parents ranged from 186,608.00 ± 32,318.44 (USD 1581.42 ± 273.89) to 210,825.00 ± 15,225.70 (USD 1786.65 ± 129.03), thus indicating that the parents were from low socioeconomic classes.