Skip to main content

ORIGINAL RESEARCH article

Front. Med., 15 February 2024
Sec. Regulatory Science
This article is part of the Research Topic Process-based and Informatics-enabled Regulatory Healthcare View all articles

Assessment of the extent and monetary loss in the selected public hospitals in Jimma Zone, Ethiopia: expired medicine perspectives

\r\nHabtamu GetahunHabtamu Getahun1Sileshi BelewSileshi Belew2Gemmechu HasenGemmechu Hasen2Yesuneh Tefera Mekasha
Yesuneh Tefera Mekasha3*Sultan SulemanSultan Suleman2
  • 1Tullu Bolo General Hospital, Oromia Regional Health Bureau, Addis Ababa, Oromia, Ethiopia
  • 2Jimma University Laboratory of Drug Quality (JuLaDQ) and School of Pharmacy, Institute of Health, Jimma University, Jimma, Oromia, Ethiopia
  • 3Veterinary Pharmacy, Pharmaceutical Quality Assurance and Regulatory Affairs, University of Gondar, Gondar, Amhara, Ethiopia

Introduction: Medicine plays a crucial role in the field of healthcare as a therapeutically significant pharmaceutical product. By effectively preventing diseases, medicine has the power to save countless lives and improve the quality of life for people worldwide. However, despite hospitals' efforts to provide medical care to patients, a significant issue arises from the substantial amount of drugs that go unused due to expiration dates. This problem is particularly prevalent in resource-limited countries like Ethiopia, where the pharmaceutical supply system fails to adequately address the issue of expired drugs in public hospitals, leading to an unsatisfactory situation. Hence, the objective of this study was to assess the economic impact and volume of expired medicines in the selected public hospitals in Jimma Zone, Southwestern Ethiopia.

Methods: A hospital-based cross-sectional study design was conducted to assess the economic impact and volume of expired medicines available in the public hospitals in Jimma Zone. All available hospitals that fulfilled the EFDA guidelines were included. The medication expiration rate was calculated by dividing the total monetary value of expired medicines in a year by the total value of medicines received in the same year multiplied by 100. Then, the collected data was cleared, filtered, coded, and quantitatively analyzed using the Microsoft Excel 2010 version.

Results: The average medicine waste rate was 4.87% in the fiscal year of 2019/2020 and 2020/2021 in Jimma Zone public hospitals worth 32,453.3 US$. Additionally, the facility wasted an estimated of 2711.44 US$ on the disposal of expired medicines. The expiration of medicines has been linked to several issues, including near-expiry, irrational prescribing practices, and weak participation of clinicians in medicine selection and quantification of the facility. Additionally, only two hospitals had relatively good storage and handling practices.

Conclusion: Overall, the expiration rate of medicines in the public hospitals in Jimma Zone was greater than the allowed level of 2%. In order to optimize the allocation of healthcare funds and ensure the appropriate use of pharmacologically significant medications it is vital to conduct a comprehensive examination at the national level within a regional hospitals.

Introduction

Medicines are substances intended for use in the prevention, diagnosis, cure, mitigation, and treatment of disease (1). They are utilized in healthcare facilities to save millions of lives by preventing and treating diseases and to improve the human population's quality of life (2, 3). In the process of ensuring the availability of medicines to the population, particularly in public hospitals, there is a possibility that these medicines may be damaged or expired and become unsafe for use (4). For instance, it's crucial to be aware of the finished pharmaceutical product's typical expiration date. Zilker et al.'s systematic evaluation from 2019 found that the active pharmaceutical ingredient (API) content had to fall between 95 and 105% of the specified range for the entire time it was on the market (5). The finished pharmaceutical items are given a shelf life based on the outcomes of real-time and accelerated stability tests. The study showed that the average expiration period of medications is typically set in the range of 1–5 years (6). Manufacturers typically estimate expiration dates conservatively because conducting such thorough investigations is expensive and time-consuming. For hospitals, nursing homes, and organizations that stockpile significant quantities of medications, such as the German armed forces (Bundeswehr) and the US Department of Defense, short expiry dates of medical items present a financial obstacle (6). For instance, hospitals are an area where a great number of patients were admitted during the era of COVID-19 (7, 8). Additionally, a high amount of financial resources were spent on the health sector, which was estimated at 18.2 billion Ethiopian birr in 2015/16, and 21.7 billion Ethiopian birr, respectively (9).

Even with the high amount of money and the possibility of expired medicines found in the health sector, minimum attention is given to pharmaceuticals when compared with the public health impact (10). As evidenced, the gross domestic product of Ethiopia funded by medicinal and pharmaceutical products is estimated to be 1,765.335 US$ per year from 1995 to 2022 (11). According to a study, despite hospitals being sites where patients receive medical treatment, the projected total value of medications withdrawn owing to expiration dates in 2010 equaled 0.045% of the money spent on the acquisition of all drugs in the Clinical Center of Serbia (12). This revealed that hospital systems to combat expired medicine expenditures were limited. Manufacturing companies all around the world produced a large quantity of pharmaceuticals to ensure that the general population had access to medication (13). However, little emphasis was paid to combating expired medication in health facilities. The World Health Organization confirmed that the probability of detecting pharmaceutical or medical waste as “expired, and unused pharmaceutical products, drugs, vaccines, and sera in health institutions” exists (14).

Pharmaceutical wastage is caused by different factors like inadequate inventory management, long procurement processes, poor storage, inappropriate monitoring of drug expiry times, distribution issues, and irrational drug use (15). This led to a waste of financial resources, a lack of vital drugs, and a reduction in healthcare service quality (16). In developing countries, medicine waste due to expiration is a major problem that leads to economic losses. The national stores and public-sector health institutions in low- and middle-income countries like Uganda have large stockpiles of medicines that have passed their expiration dates (17, 18).

Pharmaceutical waste is a substantial source of economic loss. Such an impact is expected to be high in developing nations, given the budget constraints in their healthcare systems (17). A report from South Africa indicated that an estimated $66,000 worth of drugs had expired (19). From an Ethiopian legal framework standpoint, Suleman et al. confirmed that the existence of legislation alone does not guarantee the absence of unauthorized or illegal medicine sources, as effective implementation of the legislation is affected by the government's political commitment, resources, and intergovernmental cooperation (20). Furthermore, the country's pharmaceutical supply chain agency is not entirely robust in the regulation of medicine distribution to target sites, causing drug distribution to exceed the requirements of health facilities (2123). This was proved by long delivery times, frequent stockouts of essential medicines, inadequate skilled human power, an intermittent and inaccurate reporting system, and a lack of top-level management commitment, which in turn led to inflated product costs, a low rate of delivery of goods, and the flexibility of the organization (24).

According to the literature, inventory management practices in Ethiopia resulted in ~2.1% of medications being wasted in 1 year owing to expiration and damage (25). This resulted in a loss of more than $2 million. Another study conducted in Amhara regional state health facilities found that an average of 1.1% wastage rate was reported in auditable pharmaceutical and transaction systems implementing hospitals (26).

Wastage of medicines through expiration is becoming a serious problem for the government in Ethiopia due to the financial crisis. A study in Ethiopia highlighted the extent of medicine waste in health facilities, and none of the studies reviewed looked into the pattern of pharmaceutical categories of wasted medicines. As evidenced, the study conducted in six facilities in Gondar town revealed that about 26,760 ETB were lost over 6 months due to expiration (27). Additionally, the study conducted from 29 March to 29 April 2016 in public health facilities in East Shewa Zone, Oromia Regional State, revealed that a total of 174,366.98 Ethiopian Birr was lost in health facilities because of expired medicines (28).

Ethiopia faces a significant challenge in effectively managing its medical supply chain, particularly when it comes to drug waste. The Health Sector Development Program (HSTP II) has set a national goal of reducing the wastage rate of medicines to < 2% (29). In Ethiopia, similar to other developing nations, it is imperative to closely monitor a health supply chain issue arising from drug wastage (30). During the assessment conducted in 2013/2014 while gathering baseline data for Auditable Pharmaceutical Transaction and Services (APTS) in government hospitals of the Federal and Addis Ababa City administrations, it was found that the average medicine wastage rate over a span of 3 years (2012, 2013, and 2014) in eight hospitals was 4.8%. This amounted to a total of 11,078,910.52 Ethiopian Birr (ETB) (29).

In the south-west districts, especially the Jimma Zone, where a huge pharmaceutical transaction was exchanged and high demand of business swapped targeted pharmaceutical products. Ethiopian hospitals' reform implementation was launched a guideline in 2010 regarding supply chain in hospitals. The reform recommended that guidelines be introduced with the aim of ensuring uninterrupted supply of quality, and cost-effective pharmaceuticals at all public hospitals, and these measures are also required to combat expired medicines (31). By considering the above pharmaceutical issues, the present study aimed to assess the extent and monetary loss due to expired medicines in the selected public hospitals in Jimma Zone, Ethiopia.

Materials and methods

Study setting

The study was conducted in Jimma Zone public hospitals. The zone is included in the south-west district of Oromia Regional State, Ethiopia. The expired medicines were collected from 2019/2020 to 2020/2021 that were expired and stored in the selected hospitals found in the study sites. The town is located 355 km away from the capital city of the country, Addis Ababa. According to the Jimma Zone Health Bureau reports, Jimma Zone has community pharmacies (n = 26), drug stores (n = 103), 11 hospitals (general hospitals = 3, referral hospitals = 1, and primary hospitals = 7), health centers (n = 126), and health posts (n = 555) that provide health services for the total population of 2,986,957, according to the 2017 Central Statistical Agency report (32).

Study design and research questions

A hospital-based cross-sectional study design was conducted to assess the economic impact of expired medicines in the public hospitals in Jimma Zone. The collected data from expired medicines were described quantitatively to estimate the extent and monetary loss due to expired medicines in the selected area. The 2-year financial loss was estimated from expired medicines. The research methodology was driven by the basic research question of (1) how much of the expired medicines are available in the health facilities and (2) what is the total cost of those expired medicines in the two fiscal years (2019/2020 and 2020/2021)? The research questions were answered through five data collection tools, which describe the expired medicines data collection (Supplementary material 1), the checklist on procedures for expired medicines storage and handling practice (Supplementary material 2), questionnaires on storage and disposal practice of expired medication (Supplementary material 3), questionnaires on storage and disposal practice of expired medication (Supplementary material 4), and perceived factors associated with medicines expiry at the public health facility (Supplementary material 5).

Source and study population

All of the public hospitals found (n = 11) in Jimma Zone, Ethiopia, were used as a source of population. However, only nine hospitals (9/11) were involved in the study by considering adequate records of expired medicines. The three hospitals were not included because of inadequate information concerning expired medicines.

Sampling size determination and sampling technique

The sample size was determined by considering the availability of the hospitals found in the Jimma Zone that provide health services. By taking into account the Food, Medicine, and Healthcare Administration and Control Authority guidelines, only nine hospitals (n = 9) were selected for this study from among the available hospitals. They provide a wide range of services, important information, and adequate records on expired drugs. Ethiopian Food, Medicine, and Healthcare Administration and Control Authority recommends that the health sector have critical medical information, an adequate unused drug record system, and provide a wide range of services for the whole public, taking into account any scientific findings and drawing possible solutions for the pharmaceutical situation that happened in the system (33). There was no sampling technique employed to choose the health facilities. All hospitals in the zone were included. The extent and monetary value were determined from expired medicines recorded with prices from the two fiscal years (2019/2020 and 2020/2021). The pharmacy store manager and pharmacy head were purposefully selected regarding factors contributing to the expiration of medicines in the hospitals because they are supposed to be more information-rich than other health professionals. The quantitative data were collected using a standard checklist through observation, document review from the literature, and the expired medicines register book. The closed-ended and self-administered questionnaires were employed to collect information on expired medicines in their respective facilities.

Inclusion and exclusion criteria

Inclusion criteria

The nine selected hospitals (n = 9) found in the Jimma Zone that are active and fulfill the Food, Medicine, and Healthcare Administration and Control Authority guidelines were included. Additionally, volunteer public facilities with records of expired medicines and data on expired medicines for at least 1 year prior to the collecting period were included. All pharmacy professionals who were present at the study site and volunteered to participate in the study during the study period were included, as were all expired medicines recorded with prices in the previous two fiscal years (2019/2020 and 2020/2021).

Exclusion criteria

The public facilities that had inadequate data records, expired medicines from the program, and anticancer drugs were excluded for volume and cost analysis. Furthermore, expired supplies and laboratory commodities were excluded from the estimation of the extent, and cost assessments were also excluded.

Data collection tools

Previously published literature and guidelines were used for the quantitative study to review all records of the expired medicine file and to abstract secondary data on the extent and types of expired medicines, cost loss, and disposal practice. Expired medicines found at each hospital were studied for their type, unit, dosage forms, cost, and quantity using the adopted format from Ethiopian pharmaceutical disposal rules. The questionnaires used for assessing factors associated with drug expiry in the hospitals that were distributed to the store manager and pharmacy head were adopted with some modifications from the previously published peer-reviewed journals (3337).

The five-point Likert scale was employed for assessing factors associated with the expiration of medicines in the studied health facilities. The facility was assessed through a total of 19 questionnaires prepared as per a Likert scale that ranged from strongly disagree (n = 1) to strongly agree (n = 5). The observational checklist and close-ended questionnaire were adopted using Ethiopian pharmaceutical disposal rules to assess the storage conditions and disposal practices of expired pharmaceuticals at the facility (33).

The storage and handling practice of expired medicines in public hospitals were settled by using 10 selection criteria (Supplementary material 2). The facility fulfillments of the storage condition: those facilities that fulfilled the criteria more than or equal to 80% (mean) were considered as good, while those fulfilled < 80% were considered as poor storage conditions (28).

Data quality control

The study questionnaire was designed after reviewing various literature and guidelines published in English by the Pharmaceutical Supply Chain Agency and the Ethiopian Food, Medicine, and Healthcare Administration and Control Authority. Prolonged engagement with data, persistent observation, negative case analysis, and information adequacy were all strategies employed for data quality control, all of which can be utilized to boost the credibility of quantitative studies. Data from all selected hospitals were coded, reviewed for accuracy, consistency, and omissions, and then prepared for analysis using approved data collection forms. The quality of the data was checked by the research team (HG, GH, SB, YT, and SS) by providing training for 2 days for three professionals prior to embarking on the data collection process (Supplementary material 6) regarding expired medicines to give trainers information about where the data were collected, types of data included and excluded, as well as general information about the medicine's environment (name, strength, class, etc.).

The self-administered questionnaires were administered prior to collecting the data, and a pilot study was done to standardize the validity of the data collection tool. Those facilities that participated in the pilot study were excluded from the study samples. The principal investigator was assigned to supervise the data collection process, and any inconsistencies were taken into account before the next phase of sample collection started.

Data analysis and interpretation

The collected data were entered, filtered, coded, and analyzed using the Microsoft Excel 2010 version. The economic impact of expired medicines was evaluated as per Health Economic Evaluation Reporting Standards (38). The rate of medicine wastage was determined by calculating the percentage obtained by dividing the monetary value of wasted medicines by the total value of medicines received in the same year (39, 40) using Equation 1.

Medicine wastage rate(%)=Value of wasted medicines in a yearTotal value of medicines received during the same year x 100    (1)

If the rate of medicine wastage exceeds the permitted level of 2%, it indicates a higher rate of medicine wastage (29). Then descriptive statistics were generated and evaluated to provide the requisite data from the available information. The categorical data were calculated as frequencies and percentages. Finally, the results and findings were presented in graphs and tables, depending on the nature of the variables under consideration.

Ethics statement

Ethical approval was obtained from the Ethics Review Committee of the Institute of Health, Jimma University (JHRGn/248/21) and the Jimma Zone Health Bureau. The study was then carried out following approval from each individual public health facility. The goal of the study was explained to the study participants, and their verbal informed consent was obtained. The ethics review committee authorized verbal informed permission for this investigation, and the confidentiality of study participants' data was upheld throughout.

Results

Volume and cost loss of expired medicines

By considering the adequacy of expired medicine data, nine hospitals from the 11 found in the Jimma Zone were included in the study. The data of 2 years, from 2019/2020 to 2020/2021, of expired medicines from manual and electronic records were reviewed, and pharmaceutical logistic data were collected. The result showed that 32,453.3 US$ were lost in value in the studied public hospitals due to the expiration of medicines.

As can be revealed in Table 1, without the involvement of Hospital-3, about 4.86% of losses were investigated due to expired medicines in the year 2019/2020. On the other hand, about 4.87% of losses were recorded due to expired medicines found in nine hospitals (n = 9) in the years 2019/2020 to 2021. The overall aggregated mean wastage rate of expired medicines in the study hospitals was ~4.87% in the two fiscal years. The volumes of expired medicines per public hospital are presented in Table 1.

Table 1
www.frontiersin.org

Table 1. Volume of expired medicines in the facilities by year.

Overall, 478 dosage forms were found to be recorded in the assessed public health facilities. Solid dosage forms (51.99%) and liquid dosage forms (45.34%) were the most commonly expired medicines in the evaluated hospitals with a significant budget. Semisolid dosage forms (1.72%) and inhalational dosage forms (0.95%) were the least exposed to expiration in public hospitals. From the types of dosage forms based on route of administration, an estimated 50.7% of injectable dosages were lost, followed by tablets as well as capsules, which both accounted for 42% of losses in the respective hospitals (Figure 1).

Figure 1
www.frontiersin.org

Figure 1. Types of expired drugs based on their route of administration.

From the therapeutic class of drugs, the central nervous system and anti-infective drugs were the highest expired classes of drugs in the hospitals, accounting for 21.6 and 19.6%, respectively. The overall expired medicines according to the anatomical therapeutic class are depicted in Figure 2.

Figure 2
www.frontiersin.org

Figure 2. Expired medicines based on their ATC classifications.

From a single form of drug point of view (Figure 3), tetanus-antitoxin injection (8.95%), neostigmine 0.5 mg/ml injection (5.31%), and crystalline penicillin G injection (4.61%) were the three most expired drugs in the facilities, respectively (Figure 3).

Figure 3
www.frontiersin.org

Figure 3. Top 10 expired medicines in the assessed facilities.

Factors associated with expiry of medicines

The hospitals were assessed as per a Likert scale that ranged from strongly disagree (n = 1) to strongly agree (n = 5). A total of 19 questionnaires were distributed to 18 respondents and received a 100% response rate. Two study participants (1 = store manager and 1 = pharmacy head) were selected from each of the nine hospitals that represented the staff who work in the health facilities. Near-expiry and irrational prescriptions were found to be the most associated factors with medicines expiring in public health facilities, with an average response of 4.3 and 4, respectively. Another 3.7% of average respondents agreed that clinicians' weak involvement in the selection and procurement of pharmaceuticals was among the factors leading to medicine expiry in the public health facilities studied (Figure 4 and Table 2). The general description of the factors that are likely associated with medicine expiration in public hospitals is described in Table 2.

Figure 4
www.frontiersin.org

Figure 4. The mean of factors associated with medicine expiration in the study area. A1, A2, A3, A4, A5, A6, A7, A8, A9, A10, A12, A13, A14, A15, A16, A17, A18, and A19 stand for factors associated with the expiry of medicines in the studied health facilities that are described in Table 2, respectively.

Table 2
www.frontiersin.org

Table 2. Factors associated with the expiry of medicines in the studied health facilities.

Storage and handling practice of expired medicines in the public hospitals

Depending on the selected 10 criteria, the storage and handling practices of expired medicines were assessed through an observational checklist. The facility fulfillment of the storage condition: those facilities that fulfilled the criteria more than or equal to 80% were considered as good, while those fulfilled < 80% were considered as poor storage and handling practice conditions (29, 31, 41). Accordingly, hospitals that scored greater than or equal to the average result (≥80%) were assigned as good, and those that scored less than the average (< 80%) results were assigned as poor storage and handling practices. The lack of labeling of storage space and the storage of drugs without regard to their pharmacological groups (Table 3) were the two common problems encountered in all assessed hospitals. Additionally, poor management was evident in some public hospitals in the separation of expired medicines depending on their disposal method due to a lack of storage space. The findings of all elements used to evaluate the storage and handling practices of expired medicines in the selected hospitals of the Jimma Zone are described in Table 3. As can be seen in Figure 5, Hospital-5 and Hospital-2 fulfilled the eight (8/10) criteria for the storage and handling practice of expired medicines. This suggests that only two hospitals had relatively good storage and handling practices for expired medicines (80%). The remaining seven hospitals deviated from storage and handling compliance by scoring < 60%.

Table 3
www.frontiersin.org

Table 3. Handling and storage practice of expired medicines in public hospitals.

Figure 5
www.frontiersin.org

Figure 5. Handling and storage practice of expired medicines in the studied hospitals. H1, H2, H4, H5, H6, H7, H8, and H9 stand for list of hospitals.

Disposal practices of expired medicines in public hospitals

In the study, except for one hospital, all of the public hospitals investigated have a history of disposing of pharmaceuticals (Table 4). All of them obtained approval from the appropriate regulatory agency before disposing of expired medicines. The minimum year for storing expired medicines in the facility was found to be one and a maximum of 5 years. Only one hospital disposed of expired medicines every year, while three others disposed of those medicines stored for a minimum of 2 years at once, and five assessed hospitals still have expired medicines that have passed their expiration date by a minimum of 1 year and a maximum of 5 years. In addition to the value lost as a result of expired drugs, the facility wasted an estimated 2,711.49 US$ for the disposal of expired medicines. Open burning and landfills were the two most regularly used methods for disposing of expired medicines. A shortage of storage space was the most commonly reported concern arising from the long-term storage of expired medicines in public health facilities. The most commonly reported barrier to disposing of expired pharmaceuticals in public hospitals was a lack of disposal facilities (Table 4).

Table 4
www.frontiersin.org

Table 4. Maximum years of expired medicines stored in assessed public hospitals and associated cost loss due to disposal.

Discussion

From an Ethiopian health facility point of view, effectively using pharmaceutical products in the health environment requires urgent action to be taken to implement a policy on pharmaceutical supply chain monitoring, which has a greater contribution to safely using health budgets in the healthcare system (42, 43). The study's findings provide solid pharmaceutical information about the extent of and monetary losses caused by expired medicine, storage and handling practices, and disposal procedures in the public hospitals in the Jimma Zone.

Medicine waste has a significant financial impact on the healthcare system as well as negative environmental consequences. In addition to this, access to quality medicines is a global public health problem, especially in resource-limited countries (44, 45). However, a large number of expired medicines are available in Ethiopian public health facilities, as they are in other developing countries around the world. Thus, evaluating the extent and associated cost of these medicines is important for further targeted interventions. In this study, a total of nine public hospitals found in the Jimma Zone of Oromia Regional State were included.

In this study, the data of 2 years, from 2019/2020 to 2020/2021, of expired medicines from manual and electronic records were reviewed, and pharmaceutical logistic data were collected. The result showed that 32,453.3 US$ were lost in value in the studied public hospitals due to the expiration of medicines. Similarly, studies from South African hospitals found that R700,000 was lost due to expired medicines (46). Also in Uganda, about $1,307 was lost only from 13 expired essential medicines (47). This study showed that financial loss due to expired medicines remains common in the studied public health facilities across African countries.

Additionally, about 4.86% of losses were investigated due to expired medicines in the year 2019/2020. On the other hand, about 4.87% of losses were recorded due to expired medicines found in nine hospitals (n = 9) in the years 2019/2020 to 2021. The overall wastage rate of expired medicines in the study hospitals was ~4.87% in the two fiscal years. The wastage rate of medicines must be kept below 2% in accordance with the national objective of reducing the wastage rate of medicines set by the Health Sector Development Program (HSTP II) (29). Therefore, the current investigation has indicated that the disposal rate of medications in public hospitals exceeded the permitted national waste rate of 2%.

Solid dosage forms (51.99%) and liquid dosage forms (45.34%) were the most commonly expired medicines in value found in the evaluated hospitals. Different study findings reported from the health facilities of the central Oromia region in south-west Shoa (34) and the west Wollega zone (48) revealed that the percentage wastage rate of expired medicines was high (7.5%) and 8.04% as compared to the present study, respectively. However, the findings of the current study were reported as high when compared with a study conducted in Amara region, Dessie town, Ethiopia, which reported that about 3.68% of medicine expired in the health facilities (49). This could be due to the variety of public health institutions covered, the types of drugs used, and the study period's fluctuation. This study found a relatively high percentage of drug waste in the public health institutions investigated. According to the study, from the types of dosage forms based on route of administration, an estimated 50.7% of injectable dosages were lost, followed by tablets as well as capsules, which both accounted for 42% of losses in the respective hospitals. In line with this study, an identical finding was reported from Ethiopian health facilities, which showed that tablets (20.78%) and injectables (16.49%) constituted the highest wasted dosage forms (49). From the therapeutic class of drugs, the central nervous system and anti-infective drugs were the highest expired classes of drugs in the hospitals, accounting for 21.6 and 19.6%, respectively. The presence of anti-infective drugs that are expired shows the probability of bacterial resistance if inappropriately disposed of, and central nervous system drugs may lead to reuse and misuse because they consist of narcotic drugs (50). Similarly, the study carried out at a tertiary hospital in Dar Es Salaam (51) and Awi Zone in Ethiopia (36) showed that anti-infective drugs were the most frequently expired medications, with wastage rates of 18.9 and 36.4%, respectively. The study also attempts to report the prevalence of expired medicine from a single form of drug. Accordingly, tetanus-antitoxin injection (8.95%), Neostigmine 0.5 mg/ml injection (5.31%), and crystalline penicillin G injection (4.61%) were the three most expired drugs in the facilities, respectively. Identical findings were reported from the Ethiopian Western cluster of pharmaceutical supply chains, which reported that tetanus antitoxin (TAT), in terms of single drug value, had the highest drug expiry (4,110,426.43 ETB: 20%) (52).

Nineteen self-administered questionnaires were distributed to 18 respondents in order to determine the key factors that contribute to the expiration of medicines in health facilities from the perspective of medicine exposure. In the current study, near-expiry and irrational prescriptions were found to be the most associated factors with medicine expiry in public hospitals. These situations may increase antimicrobial drug resistance. The study conducted in 2019 indicated that an estimated 1.27 million deaths were directly attributed to bacterial antimicrobial resistance (AMR), with sub-Saharan Africa having the greatest burden (53). This discovery suggests that it is crucial for healthcare professionals to receive training on rational antimicrobial prescribing or antimicrobial stewardship as a fundamental component of initiatives aimed at reducing antimicrobial resistance.

One of the issues of health supply chain management in underdeveloped nations, particularly Ethiopia, is pharmaceutical expiration. This was due to a lack of reliable data on the detailed underlying variables related to expired drugs in public hospitals. Medicine wastage not only hampers therapeutic benefits but also affects financial capability.

On average, countries spend about 25% of their total health expenditure on medicines. Of these, according to Management Science for Health estimations, 70% of the total funds invested in essential medicines are wasted in normal supply systems (54). This was addressed by identifying elements that contribute to drug expiration. According to a study, factors linked to drug waste in healthcare settings are not extensively documented in low-income countries. According to a report, the majority was attributed to inadequate supply chain management systems (55, 56).

Additionally, clinicians' weak involvement in the selection and procurement of pharmaceuticals was among the factors leading to medicine expiry in the public health facilities studied. In line with this study, a study from Uganda (56) and another study from Ethiopia (40) reported that poor procurement planning and the management of medicines near expiration were the most associated factors with the expiration of medicines. This may show that factors related to pharmaceutical expiry are a continuous problem in today's medicine supply chain in public health facilities. The study also identified a lack of electronic stock management tools in health facilities as another cause of medicine wastage. A similar study done in Ethiopia indicates a lack of electronic stock management tools that automatically capture drug information was the cause of medicine wastage in the facilities (40).

Another finding of the study revealed that inadequate stock management practices, such as the absence of both FIFO and FEFO methods, played a significant role in the occurrence of medication expiration in public health facilities. A study conducted in Ethiopia by Diriba et al. also highlighted similar results, stating that ineffective store management, policies, and standards were the primary factors leading to medicine expiration at the health facility level, as reported by key informants (52). To address the issue of medicine expiration in health facilities, it is crucial for all pharmaceutical supply chain agencies at both the federal and regional levels to prioritize and adopt strong inventory management systems. These systems will ensure the efficient supply of medicines to health facilities, thereby defending against contributing factors that lead to expiration.

The presence of overstocked medicines in the facility was also a factor contributing to the medication wastage, as per the present findings. Similarly, a study performed in Uganda (35) and Tanzania (51) showed that overstocking of medicines was one of the major contributing factors to the expiration of medicines. Overstocking of medicines normally leads to a high number of expired medicines, a high cost of storing excess stock, and high incidences of pilferage of highly potent medicines (40, 57). Consequently, this situation can lead to suboptimal utilization of consumption data and a lack of involvement from healthcare professionals in the process of forecasting and selecting medicines. Therefore, a substantial endeavor is required within public health facilities to diminish the expiration rate by enhancing the quantification and selection of medicines.

It is critical to maintain optimal storage conditions in healthcare facilities in order to decrease pharmaceutical waste caused by environmental variables. The expiration of medicines in healthcare institutions may result in the waste of potentially life-saving drugs as well as wasteful costs for the disposal of those outdated medicines (48). In the study, the handling and storage practices of the public hospitals were assessed based on an observational checklist consisting of 10 selected criteria. The result showed that only two hospitals had relatively good storage and handling practices for expired medicines. Separation of expired drugs from unexpired medicines and registration of expired medicines were both well-maintained in the facilities investigated. The lack of labeling of storage space and the storage of drugs without regard to their pharmacological groups were the two common problems encountered in all assessed hospitals. Poor management was evident in some public hospitals in the separation of expired medicines depending on their disposal method due to a lack of storage space. This pharmaceutical expiration might also lead to disruptions in healthcare delivery and poor quality of care, impeding the achievement of universal health coverage (58).

In addition to costs incurred from expired medicines, health facilities can face additional cost losses from the disposal of those medicines. In some of the studied health facilities, expired medicines were stored for more than a year past their expiration date. In contrast, the EFDA guidelines recommend that expired pharmaceuticals after expiry should not be stored for more than 6 months (55). With the exception of one hospital, the other studied hospitals disposed of their accumulated expired medicines when the prerequisites for destruction were met. In the surveyed public health institutions, open burning and landfills were the two most commonly employed techniques for disposing of obsolete pharmaceuticals. The environmental risk of pollution may result from the poor quality of landfills constructed and open burning practiced at low temperatures. The absence of appropriate disposal places was the main problem reported at the studied public health facilities. This was similar to a study conducted in Ethiopia, which stated that there was a massive accumulation of drug waste due to the absence of an appropriate disposal place (59).

The presence of expired medications in the sewage might result in an increase in antibiotic resistance to the various types of microorganisms found there, which can transform from harmless microbes into harmful and resistant pathogens (60). Due to improper disposal of outdated and expired medications, trace amounts of antibiotics have recently been found to be the cause of antibiotic resistance in humans. Non-steroidal anti-inflammatory medication (NSAID) contamination of the environment, particularly diclofenac, has been found to result in renal failure in vultures after they consume carrion from treated cattle (61). Estrogenic compounds used in oral contraceptives like 17-α-ethinylestradiol feminize fish in minute concentrations, leading to infertility (62). In addition, leftover medicines constitute another dominant cause of environmental contamination with drugs. Improper disposal of leftover medication usually contaminates the environment to a great extent (32). Drug residues from formulations like transdermal patches also leave a significant amount of drug in the environment. Transdermal patches containing fentanyl are reported to retain 28–84% of the loaded drug after removal from the skin (32). Even published literature warns that incorrect disposal of pharmaceutical wastes can cause contamination and a variety of human and animal hazards. By drinking contaminated water, people can become exposed to or accumulate traces or residues of medications from the environment (30).

The storage of expired drugs in public health facilities for more than a year resulted in significant financial losses and environmental consequences for the facilities. Expired drugs may cause financial loss to organizations for the reason of disposal, in addition to shortening of storage space. In the studied health facilities, it was reported that about 2,711.49 US$ were lost due to the disposal of those medicines for every disposal. In another country, for example, India, about 2% of their pharmaceutical budget were spent on the disposal of expired medicines (37). Shortening of storage space due to the long-term storage and disposal costs of expired drugs is another financial strain on public health facilities.

Conclusion and recommendation

The study revealed that a total of 310,756.05 US$ was wasted in public hospitals within the Jimma Zone during the fiscal years spanning from 2019/2020 to 2020/2021. Additionally, the hospitals incur an estimated cost of 2,711.49 US$ for the disposal of expired medicines. The study revealed that the Jimma Zone public hospital medicine waste rate was above the acceptable limit of 2%. The overall waste rate of expired medicines was ~4.87%. The expiration of medicines has been linked to several issues, including near-expiry, irrational prescribing practices, and weak participation of clinicians in medicine selection and quantification of the facility. Additionally, unsatisfactory storage, handling, and disposal practices for expired medicines were observed in the public hospitals.

The lack of proper supply chain systems, policies, and program execution in Ethiopian health institutions has led to the predictable expiration of medicines. Inadequate disposal systems, inventory management, and insufficient record keeping have all contributed to the loss of drugs due to expiration. To address this issue, it is crucial for the Ethiopian Food, Medicines, and Healthcare Administration, along with the Control Authority, researchers, and healthcare professionals, to collaborate and enhance medicine procurement strategies, disposal systems, and the promotion of good storage practices. By doing so, they can effectively prevent medicine expiration in health facilities, which not only impacts the distribution of the health budget but also ecopharmacovigilance and the overall public health of the country.

The strength of the study

The study demonstrated its robustness in addressing the identified gap and provided a comprehensive evaluation of the research question pertaining to the economic consequences of expired medications in the public hospitals of Jimma Zone. Drug expiration in public hospitals costs the distribution of health budgets and negatively affects the quality of service. The current study attempts to find out the main cause of expired medicines in public hospitals where a great number of patients are admitted. Additionally, the study found the economic impact of expired medicines and the wastage rate among the studied hospitals. The study may serve as a baseline for future findings and provide input for drug policymakers for economic analysis of the health budget.

Limitation of the study

The study had some statistical limitations for generalizing the findings because the sampling technique used for picking the pharmacy shop manager and pharmacy store head was deliberate, which influenced the study's ultimate conclusion. The study included just a small amount of data that may or may not explain the precise number of expired medicines in the country's public hospitals. The study's findings were not compared to those of other institutions, such as the Ethiopian Pharmaceutical Supply Agency (EPSA), which had substantially better-expired pharmaceutical storage management.

Data availability statement

The original contributions presented in the study are included in the article/Supplementary material, further inquiries can be directed to the corresponding author.

Author contributions

YT: Methodology, Writing – original draft, Writing – review & editing. HG: Conceptualization, Data curation, Formal analysis, Investigation, Methodology, Validation, Writing – review & editing. SB: Conceptualization, Data curation, Methodology, Project administration, Validation, Writing – review & editing. GH: Conceptualization, Data curation, Methodology, Project administration, Validation, Writing – review & editing. SS: Project administration, Supervision, Writing – review & editing.

Funding

The author(s) declare that no financial support was received for the research, authorship, and/or publication of this article.

Acknowledgments

We would like to extend our appreciation and thank our data collectors. We also extend our sincere gratitude to healthcare professionals and managers at hospitals for providing us with necessary data and information, kind cooperation, and assistance throughout the data collection process. Additionally, we would like to express our heartfelt gratitude to Jimma University for financially supporting this research.

Conflict of interest

The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest.

Publisher's note

All claims expressed in this article are solely those of the authors and do not necessarily represent those of their affiliated organizations, or those of the publisher, the editors and the reviewers. Any product that may be evaluated in this article, or claim that may be made by its manufacturer, is not guaranteed or endorsed by the publisher.

Supplementary material

The Supplementary Material for this article can be found online at: https://www.frontiersin.org/articles/10.3389/fmed.2024.1283070/full#supplementary-material

References

1. WHO. Access to Controlled Medications Programme. Geneva: WHO (2009).

Google Scholar

2. Mol MPG, Zolnikov TR, Neves AC, Dos Santos GR, Tolentino JLL, de Vasconcelos Barros RT, et al. Healthcare waste generation in hospitals per continent: a systematic review. Environ Sci Pollut Res. (2022) 29:42466–75. doi: 10.1007/s11356-022-19995-1

Crossref Full Text | Google Scholar

3. Ezeudu OB, Ezeudu TS, Ugochukwu UC, Tenebe IT, Ajogu AP, Nwadi UV, et al. Healthcare waste management in Nigeria: a review. Recycling. (2022) 7:87. doi: 10.3390/recycling7060087

Crossref Full Text | Google Scholar

4. Tong AY, Peake BM, Braund R. Disposal practices for unused medications around the world. Environ Int. (2011) 37:292–8. doi: 10.1016/j.envint.2010.10.002

Crossref Full Text | Google Scholar

5. Zilker M, Sörgel F, Dr. Holzgrabe U. A systematic review of the stability of finished pharmaceutical products and drug substances beyond their labeled expiry dates. J Pharmaceut Biomed Anal. (2019) 166:16. doi: 10.1016/j.jpba.2019.01.016

PubMed Abstract | Crossref Full Text | Google Scholar

6. Hoellein L, Holzgrabe U. Ficts and facts of epinephrine and norepinephrine stability in injectable solutions. Int J Pharm. (2012) 434:468–80. doi: 10.1016/j.ijpharm.2012.05.017

PubMed Abstract | Crossref Full Text | Google Scholar

7. Mei H, Dong X, Wang Y, Tang L, Hu Y. Managing patients with cancer during the COVID-19 pandemic: frontline experience from Wuhan. Lancet Oncol. (2020) 21:634–6. doi: 10.1016/S1470-2045(20)30238-2

PubMed Abstract | Crossref Full Text | Google Scholar

8. Schalekamp S, Huisman M, van Dijk RA, Boomsma MF, Freire Jorge PJ, de Boer WS, et al. Model-based prediction of critical illness in hospitalized patients with COVID-19. Radiology. (2021) 298:E46–54. doi: 10.1148/radiol.2020202723

PubMed Abstract | Crossref Full Text | Google Scholar

9. Asmamaw G. The Financial Burden of Out of Pocket Payment for Medicines among Households in Ethiopia. (Thesis Work) (2021).

Google Scholar

10. Kamat VR, Nichter M. Pharmacies, self-medication and pharmaceutical marketing in Bombay, India. Soc Sci Med. (1998) 47:779–94. doi: 10.1016/S0277-9536(98)00134-8

PubMed Abstract | Crossref Full Text | Google Scholar

11. CEIC. Ethiopian Gross Domestic Products on Medicinal and Pharmaceutical Products From the Year of 1995–2022.

Google Scholar

12. Tomic M, Perovic V, Matijasevic S. The possibilities for hospital pharmacists in reducing of expired drugs expenditures. Eur J Hospit Pharm. (2012) 19:214. doi: 10.1136/ejhpharm-2012-000074.339

Crossref Full Text | Google Scholar

13. Hayford DAaT. Research and Development in the Pharmaceutical Industry. United States, April, 2021 (2021).

Google Scholar

14. WHO. Guidelines for Safe Disposal of Unwanted Pharmaceuticals in and After Emergencies. Geneva: WHO (1999).

Google Scholar

15. Kokilam MB, Joshi HG, Kamath VG. Assessment of pharmaceutical store and inventory management in rural public health facilities—a study with reference to Udupi District, Karnataka. Pharmaceut Methods. (2015) 6:7. doi: 10.5530/phm.2015.6.7

Crossref Full Text | Google Scholar

16. Wauna S, Obwogi J. An assessment of the effects of inventory management procedures on performance of Kengen. Int J Sci Res Publ. (2015) 5:1–15.

Google Scholar

17. Tull K. Drug Expiry Standards in Developing Countries. Leeds: University of Leeds; Nuffield Centre for International Health and Development (2018).

Google Scholar

18. Kamba PF, Ireeta ME, Balikuna S, Kaggwa B. Threats posed by stockpiles of expired pharmaceuticals in low-and middle-income countries: a Ugandan perspective. Bull World Health Organ. (2017) 95:594. doi: 10.2471/BLT.16.186650

PubMed Abstract | Crossref Full Text | Google Scholar

19. Motlanthe EK. A Study on Medicine Expiry Within the Supply Chain in Limpopo Province. University of Limpopo (Medunsa Campus) (2012).

Google Scholar

20. Suleman S, Woliyi A, Woldemichael K, Tushune K, Duchateau L, Degroote A, et al. Pharmaceutical regulatory framework in Ethiopia: a critical evaluation of its legal basis and implementation. Ethiop J Health Sci. (2016) 26:259–76. doi: 10.4314/ejhs.v26i3.9

PubMed Abstract | Crossref Full Text | Google Scholar

21. Damtie TA, Ibrahim AJ, Yikna BB. Supply chain management performance of HIV/AIDS commodities and factors affecting it at health facilities of SNNPRS of Ethiopia; from the perspective of achieving 90-90-90 strategies. Integr Pharm Res Practice. (2020) 2020:11–21. doi: 10.2147/IPRP.S228162

PubMed Abstract | Crossref Full Text | Google Scholar

22. Tiye K, Gudeta T. Logistics management information system performance for program drugs in public health facilities of East Wollega Zone, Oromia regional state, Ethiopia. BMC Med Inform Decis Mak. (2018) 18:1–13. doi: 10.1186/s12911-018-0720-9

PubMed Abstract | Crossref Full Text | Google Scholar

23. Desale A, Taye B, Belay G, Nigatu A. Assessment of laboratory logistics management information system practice for HIV/AIDS and tuberculosis laboratory commodities in selected public health facilities in Addis Ababa, Ethiopia. Pan Afri Med J. (2013) 15:1969. doi: 10.11604/pamj.2013.15.46.1969

PubMed Abstract | Crossref Full Text | Google Scholar

24. Birhanu Y, Gizaw T, Teshome D, Boche B, Gudeta T. The mediating effect of information sharing on pharmaceutical supply chain integration and operational performance in Ethiopia: an analytical cross-sectional study. J Pharmaceut Pol Practice. (2022) 15:44. doi: 10.1186/s40545-022-00440-0

PubMed Abstract | Crossref Full Text | Google Scholar

25. Boche B, Mulugeta T, Gudeta T. Assessment of inventory management practices at the Ethiopian pharmaceuticals supply agency, Addis Ababa, Ethiopia. Integr Pharm Res Practice. (2020) 2020:175–83. doi: 10.2147/IPRP.S269421

PubMed Abstract | Crossref Full Text | Google Scholar

26. Gebregeorgise D, Fenta T, Assefa T, Teni F, Institutet K. Outcomes of Auditable Pharmaceutical Transactions and Services (APTS) Implementation: Assessment Report. FMOH, EPA, SIAPS (2016).

Google Scholar

27. Fentie M, Fenta A, Moges F, Oumer H, Belay S, Sebhat Y, et al. Availability of essential medicines and inventory management practice in primary public health facilities of Gondar town, north West Ethiopia. J PharmaSciTech. (2015) 4:54–6. Available online at: http://www.pharmascitech.in

Google Scholar

28. Gurmu TG, Ibrahim AJ. Inventory management performance of key essential medicines in health facilities of East Shewa Zone, Oromia Regional State, Ethiopia. Cukurova Med J. (2017) 42:277–91. doi: 10.17826/cutf.322908

Crossref Full Text | Google Scholar

29. Ethiopia TFDRo Pharmaceuticals Fund and Supply Agency. USAID. Deliver Project. National Survey of the Integrated Pharmaceutical Logistics System (2012).

Google Scholar

30. Michael I, Ogbonna B, Sunday N, Anetoh M, Matthew O. Assessment of disposal practices of expired and unused medications among community pharmacies in Anambra State southeast Nigeria: a mixed study design. JPPP. (2019) 12:1–10. doi: 10.1186/s40545-019-0174-1

PubMed Abstract | Crossref Full Text | Google Scholar

31. Federa Democratic Republic of Ethiopia Ministry of Health. Ethiopian Hospital Reform Implementation Guidelines. (2010).

Google Scholar

32. Federal Democratic Republic of Ethiopia. Population Projection of Ethiopia for all Regions at Wereda Level From 2014–2017. Addis Ababa: Central Statistical Agency (2013).

Google Scholar

33. EFMHACA. Medicines Waste Management and Disposal Directive. Addis Ababa: EFMHACA (2011).

Google Scholar

34. Gebremariam ET. Assessment of Medicines Wastage and Its Contributing Factors in Selected Public Health Facilities in South West Shoa Zone, Oromia Regional State, Ethiopia. (Ph.D. thesis). (2017).

PubMed Abstract | Google Scholar

35. Nakyanzi JK, Kitutu FE, Oria H, Kamba PF. Expiry of medicines in supply outlets in Uganda. Bull World Health Organ. (2010) 88:154–8. doi: 10.2471/BLT.08.057471

PubMed Abstract | Crossref Full Text | Google Scholar

36. Ebrahim AJ, Teni FS, Yimenu DK. Unused and expired medications: are they a threat? A facility-based cross-sectional study. J Prim Care Commun Health. (2019) 10:2150132719847857. doi: 10.1177/2150132719847857

PubMed Abstract | Crossref Full Text | Google Scholar

37. Kadam A, Patil S, Patil S, Tumkur A. Pharmaceutical waste management an overview. Ind J Pharm Practice. (2016) 9:2. doi: 10.5530/ijopp.9.1.2

Crossref Full Text | Google Scholar

38. CHEERS2022. Consolidated Health Economic Evaluation Reporting Standards 2022 (CHEERS2022) Statement: Updated Reporting Guidance for Health Economic Evaluations.

Google Scholar

39. Guadie M, Asemahagn MA, Tefera A, Melkam W, Habteweld HA, Derebe D. Medicines wastage and its contributing factors in public health facilities of South Gondar Zone, Amhara Regional State, Ethiopia. Integr Pharm Res Practice. (2023) 2023:157–70. doi: 10.2147/IPRP.S415375

PubMed Abstract | Crossref Full Text | Google Scholar

40. Alemu AB, Ibrahim NA, Argaw KW. Magnitude of medicine wastage and perceived contributing factors among public health facilities in Dire-Dawa City administration, in mid COVID-19 pandemic in Ethiopia: retrospective, cross-sectional study. Integr Pharm Res Practice. (2023) 2023:61–75. doi: 10.2147/IPRP.S395102

PubMed Abstract | Crossref Full Text | Google Scholar

41. Gerber W, Steyn JD, Kotzé AF, Hamman JH. Beneficial pharmacokinetic drug interactions: a tool to improve the bioavailability of poorly permeable drugs. Pharmaceutics. (2018) 10:106. doi: 10.3390/pharmaceutics10030106

PubMed Abstract | Crossref Full Text | Google Scholar

42. Bahiru Tefera B, Tilahun Anbessa G. Pharmaceutical supply chain practices and its associated factors in public health facilities, West Gojjam Zone, Ethiopia: Cross-Sectional Study. Hosp Pharm. (2022) 57:622–32. doi: 10.1177/00185787211067375

PubMed Abstract | Crossref Full Text | Google Scholar

43. Legesse H, Seyoum H, Abdo A, Ameha A, Abdulber S, Sylla M, et al. Supply chain management for community-based newborn care in Rural Ethiopia: challenges, strategies implemented and recommendations. Ethiop Med J. (2019) 247–53.

Google Scholar

44. Newton PN, Green MD, Fernández FM. Impact of poor-quality medicines in the 'developing' world. Trends Pharmacol Sci. (2010) 31:99–101. doi: 10.1016/j.tips.2009.11.005

PubMed Abstract | Crossref Full Text | Google Scholar

45. Fernandez FM, Hostetler D, Powell K, Kaur H, Green MD, Mildenhall DC, et al. Poor quality drugs: grand challenges in high throughput detection, countrywide sampling, and forensics in developing countries. Analyst. (2011) 136:3073–82. doi: 10.1039/C0AN00627K

PubMed Abstract | Crossref Full Text | Google Scholar

46. Kachwee M, Hartmann D. Hospital Supply Chain Management and Optimisation. Southern African Institute of Industrial Engineering (2013).

Google Scholar

47. Tumwine Y, Kutyabami P, Odoi RA, Kalyango JN. Availability and expiry of essential medicines and supplies during the 'pull' and 'push' drug acquisition systems in a rural Ugandan hospital. Trop J Pharmaceut Res. (2010) 9:63555. doi: 10.4314/tjpr.v9i6.63555

Crossref Full Text | Google Scholar

48. Kebede O, Tilahun G, Feyissa D. Storage management and wastage of reproductive health medicines and associated challenges in west Wollega zone of Ethiopia: a mixed cross-sectional descriptive study. BMC Health Serv Res. (2021) 21:1–11. doi: 10.1186/s12913-021-06291-w

PubMed Abstract | Crossref Full Text | Google Scholar

49. Kassahun H, Tesfaye D. Disposal practices of unused medications among patients in public health centers of Dessie town, northeast Ethiopia: a cross-sectional study. Curr Drug Saf. (2020) 15:105–10. doi: 10.2174/1574886315666200331140400

PubMed Abstract | Crossref Full Text | Google Scholar

50. Manyi-Loh C, Mamphweli S, Meyer E, Okoh A. Antibiotic use in agriculture and its consequential resistance in environmental sources: potential public health implications. Molecules. (2018) 23:795. doi: 10.3390/molecules23040795

PubMed Abstract | Crossref Full Text | Google Scholar

51. Kagashe GA, Makenya FB, Buma D. Medicines wastage at a tertiary hospital in Dar Es Salaam Tanzania. J Appl Pharmaceuti Sci. (2014) 4:98–102. doi: 10.7324/JAPS.2014.40615

Crossref Full Text | Google Scholar

52. Diriba G, Hasen G, Tefera Y, Suleman S. Assessment of the magnitude and contributing factors of expired medicines in the public pharmaceutical supply chains of Western Ethiopia. BMC Health Serv Res. (2023) 23:9776. doi: 10.1186/s12913-023-09776-y

Crossref Full Text | Google Scholar

53. Murray CJ, Ikuta KS, Sharara F, Swetschinski L, Aguilar GR, Gray A, et al. Global burden of bacterial antimicrobial resistance in 2019: a systematic analysis. Lancet. (2022) 399:629–55.

Google Scholar

54. Vriesendorp S, De la Peza L, Perry GP, Seltzer JB, O'Neil M, Reimann S, et al. Health Systems in Action: an E Handbook for Leaders and Managers: Management Sciences for Health (2010).

Google Scholar

55. Khan BA, Cheng L, Khan AA, Ahmed H. Healthcare waste management in Asian developing countries: a mini review. Waste Manag Res. (2019) 37:863–75. doi: 10.1177/0734242X19857470

Crossref Full Text | Google Scholar

56. Ali M, Wang W, Chaudhry N, Geng Y. Hospital waste management in developing countries: a mini review. Waste Manag Res. (2017) 35:581–92. doi: 10.1177/0734242X17691344

Crossref Full Text | Google Scholar

57. MSH. MDS-3: managing access to medicines and health technologies. Manag Sci Heal. (2012) 2022:23.

Google Scholar

58. Harper J, Gyansa-Lutterodt M. The Viability of Pharmaceutical Manufacturing in Ghana to Address Priority Endemic Diseases in the West African Sub-region. Frankfurt: Federal Ministry of Economic corporation and Development (2007).

Google Scholar

59. Petrova E. Innovation in the Pharmaceutical Industry: The Process of Drug Discovery and Development. Innovation and Marketing in the Pharmaceutical Industry: Emerging Practices, Research, and Policies. New York, NY: Springer (2013). p. 19–81.

Google Scholar

60. Serwecińska L. Antimicrobials and antibiotic-resistant bacteria: a risk to the environment and to public health. Water. (2020) 12:3313. doi: 10.3390/w12123313

Crossref Full Text | Google Scholar

61. Galligan TH, Green RE, Wolter K, Taggart MA, Duncan N, Mallord JW, et al. The non-steroidal anti-inflammatory drug nimesulide kills Gyps vultures at concentrations found in the muscle of treated cattle. Sci Tot Environ. (2022) 807:150788. doi: 10.1016/j.scitotenv.2021.150788

PubMed Abstract | Crossref Full Text | Google Scholar

62. Scholz S, Gutzeit H. 17-α-ethinylestradiol affects reproduction, sexual differentiation and aromatase gene expression of the medaka (Oryzias latipes). Aquat Toxicol. (2000) 50:363–73. doi: 10.1016/S0166-445X(00)00090-4

PubMed Abstract | Crossref Full Text | Google Scholar

Keywords: cross-sectional study, wastage rate, monetary loss, expired medicines, hospitals

Citation: Getahun H, Belew S, Hasen G, Tefera Mekasha Y and Suleman S (2024) Assessment of the extent and monetary loss in the selected public hospitals in Jimma Zone, Ethiopia: expired medicine perspectives. Front. Med. 11:1283070. doi: 10.3389/fmed.2024.1283070

Received: 25 August 2023; Accepted: 19 January 2024;
Published: 15 February 2024.

Edited by:

Mohammed Odeh, King Hussein Cancer Center, Jordan

Reviewed by:

Rafaela Dos Santos Costa, Federal University of Rio Grande do Norte, Brazil
Raphael Zozimus Sangeda, Muhimbili University of Health and Allied Sciences, Tanzania

Copyright © 2024 Getahun, Belew, Hasen, Tefera Mekasha and Suleman. This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) and the copyright owner(s) are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms.

*Correspondence: Yesuneh Tefera Mekasha, yetefera29@gmail.com; yesuneh.tefera@uog.edu.et

Disclaimer: All claims expressed in this article are solely those of the authors and do not necessarily represent those of their affiliated organizations, or those of the publisher, the editors and the reviewers. Any product that may be evaluated in this article or claim that may be made by its manufacturer is not guaranteed or endorsed by the publisher.