Application of Multi-Criteria Decision Approach in the Assessment of Medical Waste Management Systems in Nigeria

Etim, Mmemek-Abasi; Academe, S.O.; Emenike, PraiseGod C; Omole, David O.

doi:10.3390/su131910914

Cited by 24 publications

(13 citation statements)

References 38 publications

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“…Poor segregation of the waste leads to an increased quantity of infectious components since all waste that has come in contact with infectious components is classified as infectious [16]. Waste segregation is therefore a critical determinant of effective healthcare waste management [38]. Hence diligent segregation of waste will yield more quantities of clean stream that would be easier, safer, and cost-effective to manage through recycling, landfilling, and composting [39].…”

Section: Waste Segregationmentioning

confidence: 99%

“…However, there is a significant number of case studies on the level of training and awareness in hospitals (tertiary, secondary, and primary) at different city locations across the country [39,[45][46][47][48][51][52][53][54]. More studies have been done on government-owned hospitals than on private hospitals [38,44]. In the majority of the studies, training of healthcare workers occurs only once after employment and there is little or no subsequent training to update the knowledge of the workers [24,55].…”

Section: Training and Awarenessmentioning

confidence: 99%

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Healthcare Waste Management in Nigeria: A Review

Ezeudu

Ezeudu²,

Ugochukwu

et al. 2022

Recycling

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Healthcare waste management has become an important aspect of medical care delivery globally. This is simply because of its hazardous and infectious components that have greater potential for adverse health and environmental impacts. As such, certain guidelines and procedures have been developed by international aid agencies and conventions to guide national governments and local administrations in formulating policies and practices for effective healthcare waste management. In this work, we reviewed the existing literature to appraise the status of healthcare waste management practices in Nigeria. This included generation, segregation, collection, storage, transportation, treatment, and disposal. The current work further reviewed the other essential elements of healthcare waste management, such as policy landscapes, training, awareness, and waste characterization, and discusses challenges and opportunities for effective healthcare waste management in Nigeria. Among the challenges are poor funding, inadequate training, ineffective legislature, and absence of data. However, there are available low-cost technologies that are suitable for the treatment of waste in a developing country like Nigeria. This technology variant offers an opportunity for a circular economy as it can simultaneously achieve energy production, waste management, and other socioeconomic advantages.

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Section: Waste Segregationmentioning

confidence: 99%

Section: Training and Awarenessmentioning

confidence: 99%

Healthcare Waste Management in Nigeria: A Review

Ezeudu

Ezeudu²,

Ugochukwu

et al. 2022

Recycling

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“…Wassie et al [ 60 ] state that African countries, especially Ethiopia, do not perform proper healthcare waste management practices, and the average rate of HCW generation in Africa is 0.8 kg/bed/day; Ethiopia has an average of 1.1 kg/bed/day alone [ 61 , 62 ]. Moreover, in Nigeria, the HCW generation is between 0.562 and 0.670 kg/bed/day, with a peak rate of 1.68 kg/bed/day [ 63 , 64 , 65 ]. Hamoda et al [ 66 ] stated that the medical wastes produced by two public hospitals in Kuwait were 4.89–5.4 kg/day/patient and 3.65–3.97 kg/day/patient, respectively.…”

Section: Healthcare/medical Wastes Quantities and Generation Ratesmentioning

confidence: 99%

“…This situation gets even worse if we take into account that the HCW produced during the last three years of the COVID-19 pandemic has increased dramatically, along with the lack of healthcare professionals that are needed to manage HCW but do not due to the increased demand for healthcare services during the pandemic; the pandemic is considered to have a vital impact to the environment and public health [ 63 ]. According to the United Nations Environment Programme [ 74 ], the pandemic has increased the amount of hazardous healthcare waste by 3.4 kg/bed/day, which is almost ten times more than the average volume of hazardous healthcare waste, which ranges from 0.2 to 0.5 kg/bed/day [ 50 ].…”

Section: Healthcare/medical Wastes Quantities and Generation Ratesmentioning

confidence: 99%

Identifying and Predicting Healthcare Waste Management Costs for an Optimal Sustainable Management System: Evidence from the Greek Public Sector

Sepetis

Zaza

Rizos

et al. 2022

IJERPH

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The healthcare sector is an ever-growing industry which produces a vast amount of waste each year, and it is crucial for healthcare systems to have an effective and sustainable medical waste management system in order to protect public health. Greek public hospitals in 2018 produced 9500 tons of hazardous healthcare wastes, and it is expected to reach 18,200 tons in 2025 and exceed 18,800 tons in 2030. In this paper, we investigated the factors that affect healthcare wastes. We obtained data from all Greek public hospitals and conducted a regression analysis, with the management cost of waste and the kilos of waste as the dependent variables, and a number of variables reflecting the characteristics of each hospital and its output as the independent variables. We applied and compared several models. Our study shows that healthcare wastes are affected by several individual-hospital characteristics, such as the number of beds, the type of the hospital, the services the hospital provides, the number of annual inpatients, the days of stay, the total number of surgeries, the existence of special units, and the total number of employees. Finally, our study presents two prediction models concerning the management costs and quantities of infectious waste for Greece’s public hospitals and proposes specific actions to reduce healthcare wastes and the respective costs, as well as to implement and adopt certain tools, in terms of sustainability.

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“…Topics Singleuse vs. reuse (Esmizadeh et al, 2021) Qualitative environmental & economic considerations X (Etim et al, 2021) Medical waste reduction (Farrell & Smyth, 2021) Medical waste reduction (Feldman & Hui, 1997) Health economics (Gaberik et al, 2021) Qualitative environmental & economic considerations (Garay et al, 2017) Health economics X (Ghodrat & Samali, 2018) Economics & environment (Gobbi, 2011) Economics & waste reduction (Goel et al, 2021) Life cycle assessment (Grimmond et al, 2021) Life cycle assessment X (Hazem & Fahim, 2021) Economics & waste reduction (Hemmes, 1991) Health economics X (Ho & Copeland, 2020) Qualitative environmental & economic considerations (Hospodkova & Vochyanova, 2019) Health economics (Houngbo et al, 2008) Health economics (Hoyle, 2011) Health economics (Hsu et al, 2008) Health economics (Hughes et al, 2021) Health economics X (Hunstiger, 1988) Health economics (Hunt et al, 2011) Qualitative environmental & economic considerations (Iyer, 2018) Life cycle assessment (Jordan, 1996) Economics & waste reduction (Kane et al, 2018) Economics & environment (Keyes et al, 1993) Health economics (Khan & Ali, 2014) Medical waste reduction (Kim et al, 2018) Health economics (Koch & James, 1995) Health economics X (Korambayil et al, 2020) Economics & life cycle assessment (Kumar, 2021) Qualitative environmental & economic considerations (Kwakye et al, 2010) Economics & environment X ( Larsen et al, 2019) Health economics X (Latta et al, 2021) Life cycle assessment (Lee & Kim, 2019) Health economics X ( …”

Section: Referencementioning

confidence: 99%

A review of environmental and economic aspects of medical devices, illustrated with a comparative study of double-lumen tubes used for one-lung ventilation

Sørensen

Larsen

Andersen

2022

Environ Dev Sustain

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When health care management considers implementing a new technology such as a medical device, it is crucial to take workflow, clinical outcome, economy, and environmental impacts into consideration in the decision-making process. This study outlines the knowledge status of this complex challenge via a systematic literature review (SLR). The SLR found 133 of 1570 screened publications that covered relevant frameworks for choosing hospital equipment (i.e., related economics, life cycle assessment, waste generation and health issues). Yet, just five publications addressed choosing single-use vs. reuse of tubes or similar types of equipment by economic and environmental considerations through a systematic quantitative approach. The SLR reveals few publicly available peer-reviewed studies for the optimal sustainable choice of equipment. This study assesses environmental impacts of carbon dioxide (CO2) emissions as CO2-equivalents and resource consumption of a single-use double-lumen tube (DLT) combined with a reusable bronchoscope were compared to a single-use DLT with an integrated single-use camera. Camera DLTs exclude or minimize the need for a bronchoscope to verify correct tube placement during one-lung ventilation. The life cycle assessment shows that the materials and energy used and needed for personnel protective equipment and cleaning of the reusable bronchoscope contribute significantly to CO2-equivalent emissions. To ensure the sustainable choice of equipment this aspect must not be overlooked. Secondly, future reuse of plastic waste materials from the use can contribute significantly to better environmental performance.

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Application of Multi-Criteria Decision Approach in the Assessment of Medical Waste Management Systems in Nigeria

Cited by 24 publications

References 38 publications

Healthcare Waste Management in Nigeria: A Review

Healthcare Waste Management in Nigeria: A Review

Identifying and Predicting Healthcare Waste Management Costs for an Optimal Sustainable Management System: Evidence from the Greek Public Sector

A review of environmental and economic aspects of medical devices, illustrated with a comparative study of double-lumen tubes used for one-lung ventilation

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