Technical Innovation in Critical Care in a World of Constraints: Lessons from the COVID-19 Pandemic

Armand Mekontso Dessap, Jean-Christophe Marie Richard, Tim Baker, Aurélie Godard, Guillaume Carteaux, Armand Mekontso Dessap, Jean-Christophe Marie Richard, Tim Baker, Aurélie Godard, Guillaume Carteaux

Abstract

The COVID-19 crisis was characterized by a massive need for respiratory support, which has unfortunately not been met globally. This situation mimicked those which gave rise to critical care in the past. Since the polio epidemic in the 50's, the technological evolution of respiratory support has enabled health professionals to save the lives of critically-ill patients worldwide every year. However, much of the current innovation work has turned around developing sophisticated, complex, and high-cost standards and approaches whose resilience is still questionable upon facing constrained environments or contexts, as seen in resuscitation work outside intensive care units, during pandemics, or in low-income countries. Ventilatory support is an essential life-saving tool for patients with respiratory distress. It requires an oxygen source combined to a ventilatory assistance device, an adequate monitoring system, and properly trained caregivers to operate it. Each of these elements can be subject to critical constraints, which we can no longer ignore. The innovation process should incorporate them as a prima materia, whilst focusing on the core need of the field using the concept of frugal innovation. Having a universal access to oxygen and respiratory support, irrespective of the context and constraints, necessitates: i) developing cost-effective, energy-efficient, and maintenance-free oxygen generation devices; ii) improving the design of non-invasive respiratory devices (for example, with oxygen saving properties); iii) conceiving fully frugal ventilators and universal monitoring systems; iv) broadening ventilation expertise by developing end-user training programs in ventilator assistance. The frugal innovation approach may give rise to a more resilient and inclusive critical care system. This paradigm shift is essential for the current and future challenges.

Keywords: COVID-19; constraint; frugal; innovation; respiratory support.

Figures

Figure 1.
Figure 1.
Ventilatory support facing pandemics. (A) Iron lungs at Rancho Los Amigos Hospital in Downey, California, in 1953. Reprinted by permission from Reference (59). (B) A young patient with poliomyelitis being manually ventilated by a medical student during the poliomyelitis epidemic in Copenhagen in 1953. Reprinted from reference (60). (C) Patients in the emergency room of the Nossa Senhora da Conceicao hospital during the COVID-19 outbreak in Porto Alegre, Brazil, in 2021. Reprinted by permission from (61).
Figure 2.
Figure 2.
Frugal innovation principles. Frugal innovation consists in transforming constraints into an opportunity to innovate by focusing on the core need and removing all that is superfluous.

References

    1. Roux-Dufort C. Apprendre des crises. Entre le statu quo et la transformation. Sci Soc . 1998;44:165–182.
    1. Lassen HCA. A preliminary report on the 1952 epidemic of poliomyelitis in Copenhagen with special reference to the treatment of acute respiratory insufficiency. Lancet . 1953;1:37–41.
    1. Pontoppidan H, Wilson RS, Rie MA, Schneider RC. Respiratory intensive care. Anesthesiology . 1977;47:96–116.
    1. Chopin C. L’histoire de la ventilation mécanique: des machines et des hommes. Reanimation . 2007;16:4–12.
    1. Uzawa Y, Yamada Y, Suzukawa M. Evaluation of the user interface simplicity in the modern generation of mechanical ventilators. Respir Care . 2008;53:329–337.
    1. Esteban A, Frutos-Vivar F, Muriel A, Ferguson ND, Peñuelas O, Abraira V, et al. Evolution of mortality over time in patients receiving mechanical ventilation. Am J Respir Crit Care Med . 2013;188:220–230.
    1. Bellani G, Laffey JG, Pham T, Fan E, Brochard L, Esteban A, et al. LUNG SAFE Investigators; ESICM Trials Group Epidemiology, patterns of care, and mortality for patients with acute respiratory distress syndrome in intensive care units in 50 countries. JAMA . 2016;315:788–800.
    1. Baker T, Schell CO, Petersen DB, Sawe H, Khalid K, Mndolo S, et al. Essential care of critical illness must not be forgotten in the COVID-19 pandemic. Lancet . 2020;395:1253–1254.
    1. Oxygen sources and distribution for COVID-19 treatment centres. Geneva: World Health Organization; 2020
    1. Medical oxygen: COVID-19 exposes a critical shortage in developing countries. Washington, DC: McKinsey & Company; 2020
    1. Chatburn RL, Branson RD. Shortages and vulnerabilities of hospital oxygen systems. Respir Care . 2022;67:1002–1010.
    1. Devereaux AV, Backer H, Salami A, Wright C, Christensen K, Rice K, et al. Oxygen and ventilator logistics during California’s COVID-19 surge: when oxygen becomes a scarce resource. Disaster Med Public Health Prep . 2021;17:e33.
    1. Lampotang S, DeStephens A, Zarour I, Lizdas D, Gravenstein N, Johnson W, et al. Manual conservation of supplemental oxygen in low-resource settings during the COVID-19 pandemic. Simul Healthc . 2022;17:136–137.
    1. Halpern NA, Goldman DA, Tan KS, Pastores SM. Trends in critical care beds and use among population groups and Medicare and Medicaid beneficiaries in the United States: 2000–2010. Crit Care Med . 2016;44:1490–1499.
    1. Vincent J-L, Marshall JC, Ñamendys-Silva SA, François B, Martin-Loeches I, Lipman J, et al. ICON investigators Assessment of the worldwide burden of critical illness: the intensive care over nations (ICON) audit. Lancet Respir Med . 2014;2:380–386.
    1. Galvani AP, Parpia AS, Pandey A, Sah P, Colón K, Friedman G, et al. Universal healthcare as pandemic preparedness: the lives and costs that could have been saved during the COVID-19 pandemic. Proc Natl Acad Sci USA . 2022;119:e2200536119.
    1. Weng L, Zeng XY, Yin P, Wang LJ, Wang CY, Jiang W, et al. China Critical Care Clinical Trials Group (CCCCTG) Sepsis-related mortality in China: a descriptive analysis. Intensive Care Med . 2018;44:1071–1080.
    1. Guidet B. Intensive care and covid [in French] Bull Acad Natl Med . 2022;206:65–72.
    1. Einstein AJ, Shaw LJ, Hirschfeld C, Williams MC, Villines TC, Better N, et al. INCAPS COVID Investigators Group International impact of COVID-19 on the diagnosis of heart disease. J Am Coll Cardiol . 2021;77:173–185.
    1. Tan YN, Vandekerckhove PJ, Verdonk P. The long road to recovery: at six months since the first COVID-19 wave, elective orthopedic care has still not fully recovered in Belgium. J Exp Orthop. 2020;7:99.
    1. Aziz S, Arabi YM, Alhazzani W, Evans L, Citerio G, Fischkoff K, et al. Managing ICU surge during the COVID-19 crisis: rapid guidelines. Intensive Care Med . 2020;46:1303–1325.
    1. Roberts L. How COVID is derailing the fight against HIV, TB and malaria. Nature . 2021;597:314–314.
    1. Hassan B, Arawi T. The care for non-COVID-19 patients: a matter of choice or moral obligation? Front Med (Lausanne) . 2020;7:564038.
    1. Indicateurs de suivi de l’épidémie de COVID-19 [Indicators for monitoring the COVID-19 epidemic]. 2022
    1. McCabe R, Kont MD, Schmit N, Whittaker C, Løchen A, Baguelin M, et al. Modelling intensive care unit capacity under different epidemiological scenarios of the COVID-19 pandemic in three Western European countries. Int J Epidemiol . 2021;50:753–767.
    1. Sandford A.2020.
    1. Meyerowitz-Katz G, Bhatt S, Ratmann O, Brauner JM, Flaxman S, Mishra S, et al. Is the cure really worse than the disease? The health impacts of lockdowns during COVID-19. BMJ Glob Health . 2021;6:e006653.
    1. Goldratt EM, Cox J. The goal: a process of ongoing improvement. 3. New York: Routledge; 2016.
    1. Reid T.2005.
    1. Truog RD, Mitchell C, Daley GQ. The toughest triage—allocating ventilators in a pandemic. N Engl J Med. 2020;382:1973–1975.
    1. Armour S. Rationing plans in coronavirus crisis draw growing discrimination complaints. Wall Street Journal . 2020
    1. Emanuel EJ, Persad G, Upshur R, Thome B, Parker M, Glickman A, et al. Fair allocation of scarce medical resources in the time of Covid-19. N Engl J Med . 2020;382:2049–2055.
    1. White DB, Angus DC. A proposed lottery system to allocate scarce COVID-19 medications: promoting fairness and generating knowledge. JAMA . 2020;324:329–330.
    1. Beitler JR, Mittel AM, Kallet R, Kacmarek R, Hess D, Branson R, et al. Ventilator sharing during an acute shortage caused by the COVID-19 pandemic. Am J Respir Crit Care Med . 2020;202:600–604.
    1. Weintraub K. Not just ventilators: staff trained to run them are in short supply. Scientific American . 2020
    1. Mekontso Dessap A. Frugal innovation for critical care. Intensive Care Med . 2019;45:252–254.
    1. World Health Organization. 2017.
    1. High level independent panel urges the G20 to launch a “global deal” to prevent catastrophic costs of future pandemics [Press release]. Toronto: G20 Research Group; 2021
    1. Weyrauch T, Herstatt C. What is frugal innovation? Three defining criteria. J Frugal Innov . 2017;2:1.
    1. Sounderajah V, Patel V, Varatharajan L, Harling L, Normahani P, Symons J, et al. Are disruptive innovations recognised in the healthcare literature? A systematic review. BMJ Innov . 2021;7:208–216.
    1. Brochard L, Isabey D, Piquet J, Amaro P, Mancebo J, Messadi AA, et al. Reversal of acute exacerbations of chronic obstructive lung disease by inspiratory assistance with a face mask. N Engl J Med . 1990;323:1523–1530.
    1. Allam RJ. Improved oxygen production technologies. Energy Procedia . 2009;1:461–470.
    1. Carteaux G, Pons M, Morin F, Tuffet S, Lesimple A, Badat B, et al. Continuous positive airway pressure for respiratory support during COVID-19 pandemic: a frugal approach from bench to bedside. Ann Intensive Care . 2021;11:38.
    1. Bailey TM, Webster S, Tully R, Eltringham R, Bourdeaux C. An assessment of the efficiency of the Glostavent ventilator. Anaesthesia . 2009;64:899–902.
    1. Gallah S, Benzerara Y, Tankovic J, Woerther P-L, Bensekri H, Mainardi J-L, et al. β LACTA test performance for detection of extended-spectrum β-lactamase-producing Gram-negative bacilli directly on bronchial aspirates samples: a validation study. Clin Microbiol Infect . 2018;24:402–408.
    1. Hariri G, Joffre J, Leblanc G, Bonsey M, Lavillegrand J-R, Urbina T, et al. Narrative review: clinical assessment of peripheral tissue perfusion in septic shock. Ann Intensive Care . 2019;9:37.
    1. Mayo PH, Chew M, Douflé G, Mekontso-Dessap A, Narasimhan M, Vieillard-Baron A. Machines that save lives in the intensive care unit: the ultrasonography machine. Intensive Care Med . 2022;48:1429–1438.
    1. Prabhu J. Frugal innovation: doing more with less for more. Philos Trans A Math Phys Eng Sci . 2017;375:20160372.
    1. Girou E, Brun-Buisson C, Taillé S, Lemaire F, Brochard L. Secular trends in nosocomial infections and mortality associated with noninvasive ventilation in patients with exacerbation of COPD and pulmonary edema. JAMA . 2003;290:2985–2991.
    1. Sustainable development. Geneva: World Health Organization; 2023
    1. Maitland K, Kiguli S, Opoka RO, Engoru C, Olupot-Olupot P, Akech SO, et al. FEAST Trial Group Mortality after fluid bolus in African children with severe infection. N Engl J Med . 2011;364:2483–2495.
    1. Andrews B, Muchemwa L, Kelly P, Lakhi S, Heimburger DC, Bernard GR. Simplified severe sepsis protocol: a randomized controlled trial of modified early goal-directed therapy in Zambia. Crit Care Med . 2014;42:2315–2324.
    1. Andrews B, Semler MW, Muchemwa L, Kelly P, Lakhi S, Heimburger DC, et al. Effect of an early resuscitation protocol on in-hospital mortality among adults with sepsis and hypotension: a randomized clinical trial. JAMA . 2017;318:1233–1240.
    1. Schell CO, Gerdin Wärnberg M, Hvarfner A, Höög A, Baker U, Castegren M, et al. The global need for essential emergency and critical care. Crit Care . 2018;22:284.
    1. Schell CO, Khalid K, Wharton-Smith A, Oliwa J, Sawe HR, Roy N, et al. EECC Collaborators EECC Collaborators*. Essential emergency and critical care: a consensus among global clinical experts. BMJ Glob Health . 2021;6:e006585.
    1. Kayambankadzanja RK, Schell CO, Mbingwani I, Mndolo SK, Castegren M, Baker T. Unmet need of essential treatments for critical illness in Malawi. PLoS One . 2021;16:e0256361.
    1. World Health Organization. A WHO foresight initiative: imagining the future of pandemics and epidemics in the next 5 years. Wkly Epidemiol Rec . 2022;97:55–59.
    1. Nuzzo JB, Bell JA, Cameron EE. Suboptimal US response to COVID-19 despite robust capabilities and resources. JAMA . 2020;324:1391–1392.
    1. Pictures of Polio. Downey, CA: Polio Survivors Association; 1953.
    1. Severinghaus JW, Astrup P, Murray JF. Blood gas analysis and critical care medicine. Am J Respir Crit Care Med . 1998;157:S114–S122.
    1. Brazil hospitals pushed to limit as COVID-19 death toll soars; 2021.:

Source: PubMed

Sponsorer och medarbetare

Medicinska tillstånd

Läkemedelsinterventioner

3
Prenumerera