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BMC Health Services Research

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Open Access 01-12-2024 | Research

Contributing to health system resilience during pandemics via purchasing and supply strategies: an exploratory system dynamics approach

Authors: Paula Götz, Willem L. Auping, Saba Hinrichs-Krapels

Published in: BMC Health Services Research | Issue 1/2024

Abstract

Background

Health systems worldwide struggled to obtain sufficient personal protective equipment (PPE) and ventilators during the COVID-19 pandemic due to global supply chain disruptions. Our study’s aim was to create a proof-of-concept model that would simulate the effects of supply strategies under various scenarios, to ultimately help decision-makers decide on alternative supply strategies for future similar health system related crises.

Methods

We developed a system dynamics model that linked a disease transmission model structure (susceptible, exposed, infectious, recovered (SEIR)) with a model for the availability of critical supplies in hospitals; thereby connecting care demand (patients’ critical care in hospitals), with care supply (available critical equipment and supplies). To inform the model structure, we used data on critical decisions and events taking place surrounding purchase, supply, and availability of PPE and ventilators during the first phase of the COVID-19 pandemic within the English national health system. We used exploratory modelling and analysis to assess the effects of uncertainties on different supply strategies in the English health system under different scenarios. Strategies analysed were: (i) purchasing from the world market or (ii) through direct tender, (iii) stockpiling, (iv) domestic production, (v) supporting innovative supply strategies, or (vi) loaning ventilators from the private sector.

Results

We found through our exploratory analysis that a long-lasting shortage in PPE and ventilators is likely to be apparent in various scenarios. When considering the worst-case scenario, our proof-of-concept model shows that purchasing PPE and ventilators from the world market or through direct tender have the greatest influence on reducing supply shortages, compared to producing domestically or through supporting innovative supply strategies. However, these supply strategies are affected most by delays in their shipment time or set-up.

Conclusion

We demonstrated that using a system dynamics and exploratory modelling approach can be helpful in identifying the purchasing and supply chain strategies that contribute to the preparedness and responsiveness of health systems during crises. Our results suggest that to improve health systems’ resilience during pandemics or similar resource-constrained situations, purchasing and supply chain decision-makers can develop crisis frameworks that propose a plan of action and consequently accelerate and improve procurement processes and other governance processes during health-related crises; implement diverse supplier frameworks; and (re)consider stockpiling. This proof-of-concept model demonstrates the importance of including critical supply chain strategies as part of the preparedness and response activities to contribute to health system resilience.

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World Health Organization. The world health report. Geneva: 2000: Health systems: improving performance; 2000.

Bryce C, Ring P, Ashby S, Wardman JK. Resilience in the face of uncertainty: early lessons from the COVID-19 pandemic. J Risk Res. 2020;23(7–8):880–7.CrossRef

Cohen J, van der Meulen Rodgers Y. Contributing factors to personal protective equipment shortages during the COVID-19 pandemic. Prev Med. 2020;141:106263.PubMedPubMedCentralCrossRef

Hanefeld J, Mayhew S, Legido-Quigley H, Martineau F, Karanikolos M, Blanchet K, et al. Towards an understanding of resilience: responding to health systems shocks. Health Policy Plan. 2018;33(3):355–67.PubMedPubMedCentralCrossRef

Nuzzo JB, Meyer D, Snyder M, Ravi SJ, Lapascu A, Souleles J, et al. What makes health systems resilient against infectious disease outbreaks and natural hazards? Results from a scoping review. BMC Public Health. 2019;19(1):1310.PubMedPubMedCentralCrossRef

Therrien MC, Normandin JM, Denis JL. Bridging complexity theory and resilience to develop surge capacity in health systems. J Health Organ Manag. 2017;31(1):96–109.PubMedCrossRef

Day JM. Fostering emergent resilience: the complex adaptive supply network of disaster relief. Int J Prod Res. 2014;52(7):1970–88.CrossRef

Hohenstein NO, Feisel E, Hartmann E, Giunipero L. Research on the phenomenon of supply chain resilience: a systematic review and paths for further investigation. Maria Jesus Saenz P, Xenophon Koufteros D, editors. Int J Phys Distrib Logist Manag. 2015;45(1/2):90–117.CrossRef

World Health Organization. Everybody’s business - strengthening health systems to improve health outcomes: WHO’s framework for action. 2007. p. 44.

10.

Rowan NJ, Laffey JG. Challenges and solutions for addressing critical shortage of supply chain for personal and protective equipment (PPE) arising from Coronavirus disease (COVID19) pandemic – Case study from the Republic of Ireland. Sci Total Environ. 2020;725:138532.PubMedPubMedCentralCrossRef

11.

Sharma N, Hasan Z, Velayudhan A, Emil E, Mangal DK, Gupta SD. Personal protective equipment: challenges and strategies to combat COVID-19 in India: a narrative review. J Health Manag. 2020;22(2):157–68.CrossRef

12.

Miller FA, Young SB, Dobrow M, Shojania KG. Vulnerability of the medical product supply chain: the wake-up call of COVID-19. BMJ Qual Saf. 2021;30(4):331–5.PubMedCrossRef

13.

Folkers A. Freezing time, preparing for the future: the stockpile as a temporal matter of security. Secur Dialogue. 2019;50(6):493–511.CrossRef

14.

Jiang B, Rigobon D, Rigobon R. From just-in-time, to just-in-case, to just-in-worst-case: simple models of a global supply chain under uncertain aggregate shocks. IMF Econ Rev. 2022;70(1):141–84.CrossRef

15.

Dai T, Zaman MH, Padula WV, Davidson PM. Supply chain failures amid Covid-19 signal a new pillar for global health preparedness. J Clin Nurs. 2021;30(1–2):e1–3.PubMed

16.

Adelman D. Thousands of lives could be saved in the US during the COVID-19 pandemic if states exchanged ventilators. Health Aff Proj Hope. 2020;39(7):1247–52.CrossRef

17.

Dow W, Lee K, Lucia L. Economic and Health Benefits of a PPE Stockpile. UC Berkeley Labor Center. 2020. Available from: https://laborcenter.berkeley.edu/economic-and-health-benefits-of-a-ppe-stockpile/. Cited 6 Jan 2022.

18.

Patel A, D’Alessandro MM, Ireland KJ, Burel WG, Wencil EB, Rasmussen SA. Personal protective equipment supply chain: lessons learned from recent public health emergency responses. Health Secur. 2017;15(3):244–52.PubMedCrossRef

19.

Best S, Williams SJ. What have we learnt about the sourcing of personal protective equipment during pandemics? Leadership and management in healthcare supply chain management: a scoping review. Front Public Health. 2021;9:765501.PubMedPubMedCentralCrossRef

20.

Winkelmann J, Webb E, Williams GA, Hernández-Quevedo C, Maier CB, Panteli D. European countries’ responses in ensuring sufficient physical infrastructure and workforce capacity during the first COVID-19 wave. Health Policy Amst Neth. 2021;S0168–8510(21)00172-X.

21.

Bhaskar S, Tan J, Bogers MLAM, Minssen T, Badaruddin H, Israeli-Korn S, et al. At the epicenter of COVID-19-the tragic failure of the global supply chain for medical supplies. Front Public Health. 2020;8:562882.PubMedPubMedCentralCrossRef

22.

Kelley KC, Kamler J, Garg M, Stawicki SP. Answering the challenge of COVID-19 pandemic through innovation and ingenuity. Adv Exp Med Biol. 2021;1318:859–73.PubMedCrossRef

23.

OECD. Stocktaking report on immediate public procurement and infrastructure responses to COVID-19. Tackling Coronavirus (Covid-19) Contributing to a global effort. 2020. Available from: https://www.oecd.org/coronavirus/policy-responses/stocktaking-report-on-immediate-public-procurement-and-infrastructure-responses-to-covid-19-248d0646/#section-d1e2249. Cited 11 Oct 2021.

24.

National Audit Office. Investigation into how government increased the number of ventilators available to the NHS in response to COVID-19. London: National Audit Office; 2020. Report No.: HC 731.

25.

National Audit Office. The supply of personal protective equipment (PPE) during the COVID-19 pandemic. London: Department of Health & Social Care; 2020 p. 71. Report No.: HC 961.

26.

Handfield R, Finkenstadt DJ, Schneller ES, Godfrey AB, Guinto P. A commons for a supply chain in the Post-COVID-19 Era: the case for a reformed strategic national stockpile. Milbank Q. 2020;98(4):1058–90.PubMedPubMedCentralCrossRef

27.

van Hoek R. Research opportunities for a more resilient post-COVID-19 supply chain – closing the gap between research findings and industry practice. Int J Oper Prod Manag. 2020;40(4):341–55.CrossRef

28.

FalagaraSigala I, Sirenko M, Comes T, Kovács G. Mitigating personal protective equipment (PPE) supply chain disruptions in pandemics – a system dynamics approach. Int J Oper Prod Manag. 2022;42(13):128–54.CrossRef

29.

Bankes S. Exploratory modeling for policy analysis. Oper Res. 1993;41(3):435–49.CrossRef

30.

Auping WL. Modelling Uncertainty. Delft University of Technology; 2018. Available from: http://resolver.tudelft.nl/uuid:0e0da51a-e2c9-4aa0-80cc-d930b685fc53. Cited 3 Apr 2022.

31.

Forrester JW. Industrial Dynamics. Cambridge: MIT Press; 1961.

32.

Pauchant TC, Mitroff I. Transforming the Crisis-Prone Organization: Preventing Individual, Organizational and Environmental Tragedies. San Francisco: Jossey-Bass; 1992. p. 15.

33.

Bankes S, Walker WE, Kwakkel JH. Exploratory Modeling and Analysis. In: Gass SI, Fu MC, editors. Encyclopedia of Operations Research and Management Science. Boston, MA: Springer US; 2013. p. 532–7. Available from: https://doi.org/10.1007/978-1-4419-1153-7_314. Cited 22 Jan 2023.

34.

Sterman JD. Business dynamics: systems thinking and modeling for a complex world. Boston: Irwin/McGraw-Hill; 2000. p. 982.

35.

Cassidy R, Singh NS, Schiratti PR, Semwanga A, Binyaruka P, Sachingongu N, et al. Mathematical modelling for health systems research: a systematic review of system dynamics and agent-based models. BMC Health Serv Res. 2019;19(1):845.PubMedPubMedCentralCrossRef

36.

Ford DN. A system dynamics glossary. Syst Dyn Rev. 2019;35(4):369–79.CrossRef

37.

Currie DJ, Smith C, Jagals P. The application of system dynamics modelling to environmental health decision-making and policy - a scoping review. BMC Public Health. 2018;18(1):402.PubMedPubMedCentralCrossRef

38.

Darabi N, Hosseinichimeh N. System dynamics modeling in health and medicine: a systematic literature review. Syst Dyn Rev. 2020;36(1):29–73.CrossRef

39.

Davahli MR, Karwowski W, Taiar R. A system dynamics simulation applied to healthcare: a systematic review. Int J Environ Res Public Health. 2020;17(16):E5741.CrossRef

40.

Homer JB, Hirsch GB. System dynamics modeling for public health: background and opportunities. Am J Public Health. 2006;96(3):452–8.PubMedPubMedCentralCrossRef

41.

Ho WR, Maghazei O, Netland TH. Understanding manufacturing repurposing: a multiple-case study of ad hoc healthcare product production during COVID-19. Oper Manag Res. 2022; Available from: https://doi.org/10.1007/s12063-022-00297-1. Cited 30 Oct 2022.

42.

Queiroz MM, Ivanov D, Dolgui A, Fosso Wamba S. Impacts of epidemic outbreaks on supply chains: mapping a research agenda amid the COVID-19 pandemic through a structured literature review. Ann Oper Res. 2020; Available from: https://doi.org/10.1007/s10479-020-03685-7. Cited 30 Oct 2022.

43.

Singh A, Parida R. Decision-making models for healthcare supply chain disruptions: review and insights for post-pandemic era. Int J Glob Bus Compet. 2022;17(2):130–41.

44.

Angerhofer BJ, Angelides MC. System dynamics modelling in supply chain management: research review. In: Proceedings of the 32nd conference on Winter simulation. San Diego, CA, USA: Society for Computer Simulation International; 2000. p. 342–51. (WSC ’00).

45.

Bam L, McLaren ZM, Coetzee E, von Leipzig KH. Reducing stock-outs of essential tuberculosis medicines: a system dynamics modelling approach to supply chain management. Health Policy Plan. 2017;32(8):1127–34.PubMedCrossRef

46.

Rebs T, Brandenburg M, Seuring S. System dynamics modeling for sustainable supply chain management: a literature review and systems thinking approach. J Clean Prod. 2019;208:1265–80.CrossRef

47.

He S, Peng Y, Sun K. SEIR modeling of the COVID-19 and its dynamics. Nonlinear Dyn. 2020;101:1667–80.PubMedPubMedCentralCrossRef

48.

Pagliacolo E, Pavka E. Design Takes Action: Innovations for the COVID-19 Crisis. Azure Magazine. 2020. Available from: https://www.azuremagazine.com/article/design-innovations-covid-19-ppe/. Cited 11 Mar 2022.

49.

UK Foreign, Commonwealth & Development Office (FCDO). 2020. “COVID-19—PPE Demand and Supply Perspectives.” Updated in March 2021. https://www.ifc.org/wps/wcm/connect/1d32e536-76cc-4023-9430-1333d6b92cc6/210402_FCDO_GlobalPPE_Final+report_v14updated_gja.pdf?MOD=AJPERES&CVID=nyiUnTU.

50.

Dixon M. KUDOS! The companies finding creative ways to help fight COVID-19. Global Marketing Alliance. 2020. Available from: http://www.the-gma.com/revealed-the-companies-finding-creative-ways-to-fight-covid-19. Cited 28 Jan 2022.

51.

Gandrup-Marino K, Pearson L, Alkenbrack S, Zhao F, Chawla M, Li L, et al. Transforming the medical PPE Ecosystem. The Global Fund; 2021 p. 25. Available from: https://www.theglobalfund.org/media/11243/publication_ppe-synthesis_paper_en.pdf.

52.

Department of Health & Social Care UK. Experimental statistics – personal protective equipment distributed for use by health and social care services in England: 6 July to 12 July 2020. GOV.UK. 2021. Available from: https://www.gov.uk/government/statistics/ppe-deliveries-england-6-july-to-12-july/experimental-statistics-personal-protective-equipment-distributed-for-use-by-health-and-social-care-services-in-england-6-july-to-12-july-2020. Cited 9 Oct 2021.

53.

Lane DC. Diagramming conventions in system dynamics. J Oper Res Soc. 2000;51(2):241–5.CrossRef

54.

Forrester JW, Senge PM. Tests for Building Confidence in System Dynamics Models. In: Lagasto AA, Forrester JW, Lyneis JM, editors. TIMS Studies in the Management Sciences. TIMS Studies in the Management Sciences. 14. Amsterdam, Netherlands: North-Holland Publishing Company; 1980. p. 209–28.

55.

Oreskes N, Shrader-Frechette K, Belitz K. Verification, validation, and confirmation of numerical models in the earth sciences. Science Magazine. 1994;263(5147):641–6.

56.

Allain-Dupré D, Chatry I, Kornprobst A, Michalun MV. The territorial impact of COVID-19: Managing the crisis across levels of government. OECD; 2020. Available from: https://www.oecd.org/coronavirus/policy-responses/the-territorial-impact-of-covid-19-managing-the-crisis-across-levels-of-government-d3e314e1/#section-d1e182. Cited 6 Mar 2022.

57.

Gifford R, Fleuren B, van de Baan F, Ruwaard D, Poesen L, Zijlstra F, et al. To uncertainty and beyond: identifying the capabilities needed by hospitals to function in dynamic environments. Med Care Res Rev. 2021;10775587211057416.

58.

Kasprzyk JR, Nataraj S, Reed PM, Lempert RJ. Many objective robust decision making for complex environmental systems undergoing change. Environ Model Softw. 2013;42:55–71.CrossRef

59.

Kwakkel JH. The exploratory modeling workbench: an open source toolkit for exploratory modeling, scenario discovery, and (multi-objective) robust decision making. Environ Model Softw. 2017;96:239–50.CrossRef

60.

Bryant BP, Lempert RJ. Thinking inside the box: a participatory, computer-assisted approach to scenario discovery. Technol Forecast Soc Change. 2010;77(1):34–49.CrossRef

61.

HisoMedical. Top 9 Surgical Gown Manufacturers in China - HisoMedical. 2020. Available from: https://www.hisomedical.com/surgical-gown-manufacturers-china/. Cited 10 Feb 2022.

62.

Madewell ZJ, Yang Y, Longini IM Jr, Halloran ME, Dean NE. Household transmission of SARS-CoV-2: a systematic review and meta-analysis. JAMA Netw Open. 2020;3(12):e2031756.PubMedPubMedCentralCrossRef

63.

Qiu X, Nergiz AI, Maraolo AE, Bogoch II, Low N, Cevik M. The role of asymptomatic and pre-symptomatic infection in SARS-CoV-2 transmission – a living systematic review. 2021. p. 2020.09.01.20135194. Available from: https://doi.org/10.1101/2020.09.01.20135194v4. Cited 20 Nov 2021.

64.

McKay MD, Beckman RJ, Conover WJ. A comparison of three methods for selecting values of input variables in the analysis of output from a computer code. Technometrics. 1979;21(2):239.

65.

Friedman JH, Fisher NI. Bump hunting in high-dimensional data. Stat Comput. 1999;9(2):123–43.CrossRef

66.

Frauscher K, Hussain H, Brown S. 5 procurement strategies for navigating the COVID-19 crisis from around the world. Open Contracting Partnership. 2020. Available from: https://www.open-contracting.org/2020/04/08/5-procurement-strategies-for-navigating-the-covid-19-crisis-from-around-the-world/. Cited 9 Oct 2021.

67.

Okeagu CN, Reed DS, Sun L, Colontonio MM, Rezayev A, Ghaffar YA, et al. Principles of supply chain management in the time of crisis. Best Pract Res Clin Anaesthesiol. 2021;35(3):369–76.PubMedCrossRef

68.

Vecchi V, Cusumano N, Boyer EJ. Medical supply acquisition in Italy and the United States in the era of COVID-19: the case for strategic procurement and public-private partnerships. Am Rev Public Adm. 2020;50(6–7):642–9.CrossRef

69.

Chen YJ, Chiang PJ, Cheng YH, Huang CW, Kao HY, Chang CK, et al. Stockpile model of personal protective equipment in Taiwan. Health Secur. 2017;15(2):170–4.PubMedPubMedCentralCrossRef

70.

Huang HC, Araz OM, Morton DP, Johnson GP, Damien P, Clements B, et al. Stockpiling ventilators for influenza pandemics. Emerg Infect Dis. 2017;23(6):914–21.PubMedPubMedCentralCrossRef

71.

Greenawald LA, Moore SM, Wizner K, Yorio PL. Developing a methodology to collect empirical data that informs policy and practices for stockpiling personal protective equipment. Am J Infect Control. 2021;49(2):166–73.PubMedCrossRef

72.

Mehrabi A, Dillon P, Kelly K, Hitchins K, Malatino E, Gorman S, et al. Experimental studies on performance of ventilators stored in the Strategic National Stockpile. J Emerg Manag. 2018;16(5):321–36.PubMedCrossRef

73.

Wilgis J. Strategies for providing mechanical ventilation in a mass casualty incident: distribution versus stockpiling. Respir Care. 2008;53(1):96–100.PubMed

74.

Yorio PL, Rottach DR, Dubaniewicz M. Quality assurance sampling plans in US stockpiles for personal protective equipment. Health Secur. 2019;17(2):140–51.PubMedCrossRef

75.

Sodhi MS, Tang CS, Willenson ET. Research opportunities in preparing supply chains of essential goods for future pandemics. Int J Prod Res. 2021;0(0):1–16.

76.

Dey S, Cheng Q, Tan J. All for one and one for all: Why a pandemic preparedness league of nations?. Health Policy Technol. 2020;9(2):179–84.

Title: Contributing to health system resilience during pandemics via purchasing and supply strategies: an exploratory system dynamics approach
Authors: Paula Götz
Willem L. Auping
Saba Hinrichs-Krapels
Publication date: 01-12-2024
Publisher: BioMed Central
Published in: BMC Health Services Research / Issue 1/2024
Electronic ISSN: 1472-6963
DOI: https://doi.org/10.1186/s12913-023-10487-7

Keynote webinar | Spotlight on medication adherence

Springer Medicine

Contributing to health system resilience during pandemics via purchasing and supply strategies: an exploratory system dynamics approach

Abstract

Background

Methods

Results

Conclusion

Keynote webinar | Spotlight on medication adherence

Springer Medicine

Abstract

Background

Methods

Results

Conclusion

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