The Swiss approach to the COVID-19 outbreak.

Abstract

To the Editor: Angelico et al described the impact of the novel coronavirus (COVID-19) outbreak on organ transplantation in Italy,1Angelico R, Trapani S, Manzia TM, Lombardini L, Tisone G, Cardillo M. The COVID-19 outbreak in Italy: initial implications for organ transplantation programs [published online ahead of print 2020]. Am J Transplant. https://doi.org/10.1111/ajt.15904.Google Scholar where only one center in Milan has limited transplant activity to most urgent cases. The rest of the country continued with the regular allocation policy.1Angelico R, Trapani S, Manzia TM, Lombardini L, Tisone G, Cardillo M. The COVID-19 outbreak in Italy: initial implications for organ transplantation programs [published online ahead of print 2020]. Am J Transplant. https://doi.org/10.1111/ajt.15904.Google Scholar In Switzerland, which has more COVID-19 cases per capita than Italy,2COVID-19 Information for Switzerland. 2020. https://www.corona-data.ch/.Google Scholar we have opted for a stepwise approach3Ahn C, Amer H, Anglicheau D, et al. Global transplantation COVID report March 2020 [published online ahead of print 2020]. Transplantation. https://doi.org/10.1097/TP.0000000000003258.Google Scholar:1Stop live donor transplantations;2Stop pancreas and islet transplants;3Stop deceased donor kidney transplants;4A tailored approach to urgent status transplants;5Only urgent transplants to be performed;6Stop all transplants. In Geneva, a regional hotspot,2COVID-19 Information for Switzerland. 2020. https://www.corona-data.ch/.Google Scholar we halted all transplantation activity, except for urgent cases (level 5). Less affected centers have continued their activity at level 4 (Table 1). Overall, the number of transplanted organs in March has decreased to 26 (−38% compared to the monthly average of 2019). Our projections indicate a 26% decrease of the transplantation activity in 2020 (estimated 368 vs 501 organs in 2019). Between February and March 2020, the decrease in transplantations already led to an increase in median waiting time of 21.2% and 40.2% for kidney and liver transplant candidates, respectively.4Swisstransplant. Monthly analysis (COVID-19): key figures regarding organ transplantation in Switzerland. https://www.swisstransplant.org/en/information-material/for-professionals/information-about-the-coronavirus/monthly-reports/. Published 2020. Accessed April 9, 2020.Google ScholarTABLE 1Impact of the COVID-19 pandemic on liver transplantation activity in SwitzerlandChange of transplantation activity in March 2020aCompared to the average monthly number of liver transplantations in 2019.COVID infection rate1Angelico R, Trapani S, Manzia TM, Lombardini L, Tisone G, Cardillo M. The COVID-19 outbreak in Italy: initial implications for organ transplantation programs [published online ahead of print 2020]. Am J Transplant. https://doi.org/10.1111/ajt.15904.Google Scholar,2COVID-19 Information for Switzerland. 2020. https://www.corona-data.ch/.Google ScholarbConfirmed cases/million inhabitants.Patients in ICU care2COVID-19 Information for Switzerland. 2020. https://www.corona-data.ch/.Google ScholarcPatients treated in ICU/million inhabitants.Geneva−100%844194.19Zurich−6%190532.83Bern−50%129031.88Italy−25%230766.16a Compared to the average monthly number of liver transplantations in 2019.b Confirmed cases/million inhabitants.c Patients treated in ICU/million inhabitants. Open table in a new tab This development is concerning on two levels. Firstly, the increase in waiting time will likely increase the waitlist mortality after the pandemic. This raises the question whether it is ethical to trade-off immediate COVID-19-related mortality for a projected increase in waitlist mortality. Jeopardizing the survival of patients on the waiting list cannot be an acceptable long-term option but might be inevitable in the short-term. In extreme situations, requiring triage of resources and delaying access to a life-saving organ is also a triage decision. However, a staged resumption of transplantation activity, once the pandemic has reached a plateau, is essential. Secondly, in a setting where transplantation activity is significantly reduced, patients with a Model End Stage Liver Disease (MELD) exception will inevitably gain points merely by waiting. It is crucial to avoid putting patients with a true laboratory MELD at a disadvantage in the post-COVID-19 period. Regarding testing, we disagree that it should be limited to areas affected by COVID-19.5Guidance on Coronavirus Disease 2019 (COVID-19) for Transplant Clinicians. https://tts.org/tid-about/tid-presidents-message/23-tid/tid-news/657-tid-update-and-guidance-on-2019-novel-coronavirus-2019-ncov-for-transplant-id-clinicians. Accessed April 9, 2020.Google Scholar The past few weeks have shown how dynamic the epidemiological situation is. We cannot take risks and expose transplanted patients to an unknown hazard. In the current setting, we would prefer to transplant patients who already developed an immunity against SARS CoV2, as they are likely protected against COVID-19 in the short term. We therefore advocate for serological testing of waitlisted patients and wide molecular testing of all patients immediately before transplantation. However, one also needs to consider the limitations of serological testing, of which the specificity (cross-reactivity with other coronaviruses) and sensitivity still have to be determined. Overall, we suggest the decision to halt transplantation activity must be integrated in a global public health perspective and taken only when absolutely necessary. Furthermore, we advocate for broad testing of donors and recipients, even in regions that are not COVID-19 hotspots. The authors of this manuscript have no conflicts of interest to disclose as described by the American Journal of Transplantation.