Liver Care and Surveillance: The Global Impact of the COVID‐19 Pandemic

To the Editor: To address the coronavirus (Covid-19) pandemic, 1 strict social containment measures have been adopted worldwide, and health care systems have been reorganized to cope with the enormous increase in the numbers of acutely ill patients. 2,3 During this same period, some changes in the pattern of hospital admissions for other conditions have been noted. The aim of the present analysis is to investigate the rate of hospital admissions for acute coronary syndrome (ACS) during the early days of the Covid-19 outbreak. In this study, we performed a retrospective analysis of clinical and angiographic characteristics of consecutive patients who were admitted for ACS at 15 hospitals in northern Italy. All the hospitals were hubs of local networks for treatment involving primary percutaneous coronary intervention. The study period was defined as the time between the first confirmed case of Covid-19 in Italy (February 20, 2020) and March 31, 2020. We compared hospitalization rates between the study period and two control periods: a corresponding period during the previous year (February 20 to March 31, 2019) and an earlier period during the same year (January 1 to February 19, 2020). The primary outcome was the overall rate of hospital admissions for ACS. We calculated incidence rates for the primary outcome by dividing the number of cumulative admissions by the number of days for each time period. Incidence rate ratios comparing the study period with each of the control periods were calculated with the use of Poisson regression. (Details regarding the study methods are provided in the Supplementary Appendix, available with the full text of this letter at NEJM.org.) Of the 547 patients who were hospitalized for ACS during the study period, 420 (76.8%) were males; the mean (±SD) age was 68±12 years. Of these patients, 248 (45.3%) presented with ST-segment elevation myocardial infarction (STEMI). The mean admission rate for ACS during the study period was 13.3 admissions per day. This rate was significantly lower than either the rate during the earlier period in the same year (total number of admissions, 899; 18.0 admissions per day; incidence rate ratio, 0.74; 95% confidence interval [CI], 0.66 to 0.82; P<0.001) or the rate during the previous year (total number of admissions, 756; 18.9 admissions per day; incidence rate ratio, 0.70; 95% CI, 0.63 to 0.78; P<0.001). The incidence rate ratios for individual ACS subtypes are presented in Table 1. After the national lockdown was implemented on March 8, 2020, 4 a further reduction in ACS admissions was reported. (Details regarding the full secondary analyses are provided in the Supplementary Appendix.) This report shows a significant decrease in ACS-related hospitalization rates across several cardiovascular centers in northern Italy during the early days of the Covid-19 outbreak. Recent data suggest a significant increase in mortality during this period that was not fully explained by Covid-19 cases alone. 5 This observation and data from our study raise the question of whether some patients have died from ACS without seeking medical attention during the Covid-19 pandemic.

The dreadful consequences of coronavirus disease 2019 (COVID-19) put an unprecedented pressure on health-care services across the globe. 1 The Netherlands, a country with 17·4 million inhabitants that provides its citizens with universal access to essential health-care services—with the general practitioner as the gatekeeper to secondary care—is no exception in this regard. The first patient with COVID-19 in the Netherlands was confirmed on Feb 27, 2020, in the southern part of the country. 2 Thereafter, the disease spread rapidly throughout the country. Subsequently, strict social distancing policies were implemented by the Dutch government as of March 15, 2020, to mitigate the spread of COVID-19.3, 4 The mayhem caused by COVID-19 has brought about substantial changes in cancer diagnosis in the Netherlands. Data from the nationwide Netherlands Cancer Registry in the period between Feb 24, 2020, and April 12, 2020—which are based on initial case ascertainment through pathological cancer notifications from the Nationwide Network of Histopathology and Cytopathology—show that there is a notable decrease in cancer diagnoses when compared with the period before the COVID-19 outbreak. This effect was most pronounced for skin cancers (figure ) and observed across all age groups and geographical regions, and almost all cancer sites (appendix). Several arguments might explain this decrease. First, individuals with potential, non-specific symptoms of cancer might have barriers to consulting a general practitioner, including moral concerns about wasting the general practitioner's time for non-COVID-19-related symptoms, assumptions about insufficient capacity for essential non-COVID-19-related health-care services, and anxiety about acquiring COVID-19 in a health-care setting. Second, most of the general practitioner consultations for non-acute issues are transitioned to telehealth. A general practitioner might, therefore, postpone initial investigations for symptoms that do not immediately hint towards a potential cancer diagnosis, resulting in delayed or postponed hospital referrals. Third, hospitals might have postponed diagnostic evaluation or have longer turnaround times for diagnostic evaluation because many hospital-based resources are being allocated to tackle COVID-19. Lastly, national screening programmes for breast, colorectal, and cervical cancer are temporarily halted as of March 16, 2020, to alleviate the demand on the health-care system due to COVID-19. The effect of this pause in cancer diagnosis might be more pronounced after extended periods of follow-up. However, this effect might be less notable for cervical cancer because screening aims to identify precancerous lesions. Collectively, fewer cancer diagnoses in the COVID-19 era will result from patient, doctor, and system factors. 5 Figure Number of cancer diagnoses by week in the Netherlands in the period between Jan 6, 2020 (calendar week 2) and April 12, 2020 (calendar week 15) Basal cell carcinoma of the skin is not included in the statistics. The point estimates for the change in cancer diagnoses per calendar week are based on the mean total number of cancer diagnoses in the calendar weeks from 2 to 8; that is, the period before the COVID-19 outbreak in the Netherlands. Approximately 3400 malignancies were notified per week to the Netherlands Cancer Registry in the calendar weeks from 2 to 8. Of note, these figures do not yet include cases diagnosed in one of the 74 hospitals in the Netherlands. COVID-19=coronavirus disease 2019. The upsetting findings of fewer cancer diagnoses were initially disseminated among the Dutch community on April 2, 2020, and again on April 15, 2020, by the Netherlands Comprehensive Cancer Organisation—which hosts the Netherlands Cancer Registry—to create awareness of this issue. The aims of this dissemination were multifold. First, individuals were encouraged to consult their general practitioner whenever symptoms continued to be troublesome. Second, general practitioners were encouraged to refer patients with suspected cancer to oncology specialists. Third, an appeal was made to restart national cancer screening programmes. Lastly, misconceptions were eliminated about a heightened risk of contracting COVID-19 in a health-care setting because of inadequate policies for infection control at the institutional level and resource constraints in the delivery of essential oncological care. Priorities for cancer care amid the COVID-19 pandemic will be meticulously triaged on the basis of a multitude of factors that are outside the scope of this Comment. General frameworks to inform cancer treatment decisions during the COVID-19 pandemic are discussed elsewhere.6, 7, 8, 9 It does merit brief acknowledgment that the effect of a reasonable delay in the management of particular low-risk malignancies (eg, many skin cancers) will only marginally affect the quantity and quality of life. Conversely, the treatment for potentially curable cancers with an imminent risk of early death (eg, acute leukaemias) cannot be safely postponed. The data discussed here support the National Oncology Taskforce and the National Coordination Centre for Patient Distribution to safeguard optimal patient access to essential oncological care throughout all hospitals in the Netherlands. The Netherlands Cancer Registry will, in due course, complete the registration of current and new cases via retrospective medical records review. These more detailed data—including various patient (eg, COVID-19 positivity), tumour, and treatment characteristics, and follow-up—will ultimately establish the effect of the COVID-19 outbreak on oncological care in the Netherlands. This information can also guide the public, policymakers, and physicians in the future whenever an outbreak of a similar magnitude occurs. This online publication has been corrected. The corrected version first appeared at thelancet.com/oncology on May 4, 2020

On March 13, 2020, the president of the United States declared a national emergency in response to the coronavirus disease 2019 (COVID-19) pandemic (1). With reports of laboratory-confirmed cases in all 50 states by that time (2), disruptions were anticipated in the U.S. health care system's ability to continue providing routine preventive and other nonemergency care. In addition, many states and localities issued shelter-in-place or stay-at-home orders to reduce the spread of COVID-19, limiting movement outside the home to essential activities (3). On March 24, CDC posted guidance emphasizing the importance of routine well child care and immunization, particularly for children aged ≤24 months, when many childhood vaccines are recommended.