Realized impact of COVID-19 related disruptions on the National Bowel Cancer Screening Program.

BACKGROUND: Colorectal cancer is the second most common cause of cancer mortality in Australia (1). The National Bowel Cancer Screening Program (NBCSP) aims to reduce mortality through early detection with a biennial faecal occult blood test for Australians aged 50-74 years (2). Modelling predicted COVID-19 would reduce participation and delay colonoscopies despite the NBCSP continuing during the pandemic (3). This study analyses the realized impact of COVID-19 related disruptions on the NBCSP and the effect on mortality. METHODS: NBCSP participation, time to colonoscopy and annualized mortality were compared before and during COVID-19. The effect on mortality was determined using a validated microsimulation model (4, 5). RESULTS: From 1 January 2018 to 31 December 2019, 2 497 317 people participated in the NBCSP and 168 390 received a colonoscopy, compared to 2 490 265 and 162 573 from 1 January 2020 to 31 December 2021. Relative participation decreased 6 % and the proportion of colonoscopies performed within the recommended 120 days increased 14.5%. A disproportionally greater impact was observed outside major cities and in lower socioeconomic areas. An estimated 98-111 additional colorectal cancer deaths resulted from 3 % fewer colonoscopies performed during the pandemic. CONCLUSION: This study presents the most comprehensive analysis of the realized impact of COVID-19 on the NBCSP. Catch-up screening would be best targeted at Australians from rural and lower socioeconomic areas where participation remains low. Streamlined referral pathways and additional colonoscopy provisioning is required as less than two thirds of screen positive patients receive a colonoscopy within the recommended 120 days.

Remarkable Rate of Water Evaporation through Naked Veins of Natural Tree Leaves.

In the form of leaves, nature designs the finest photothermal evaporators, and the tremendous evaporation efficiency of leaves is supported by a precisely designed network of veins. Here, we have demonstrated that the vein network of a natural leaf can be extracted through a simple water-assisted digestion process and exploited for low-energy steam generation. The naked leaf veins exhibit a remarkable flux (evaporation rate, 1.5 kg·m-2·h-1) of capillary evaporation under ambient conditions (25 °C and 30% RH), close to the photothermal material-based evaporators reported in the recent literature. Even inside a dark box, naked veins exhibit an evaporation rate up to 4.5 kg·m-2·h-1 (at 30% relative humidity (RH) and a wind speed of 22 km·h-1). The mechanistic studies performed with variable atmospheric conditions (temperature, humidity, and wind speed) suggest the evaporation process through the naked veins to be a kinetic-limited process. Naked veins with remarkable evaporation efficiency are found to be suitable for applications like water desalination and streaming potential harvesting. Experiments with the naked veins also unveiled that the biofluidic channels in leaves not only exhibit the characteristics of surface charge-governed ionic transport but also support an exceptional water transport velocity of 1444 µm·s-1.