![False-negative diagnosis of high anion gap in patients with end-stage kidney disease | Scientific Reports False-negative diagnosis of high anion gap in patients with end-stage kidney disease | Scientific Reports](https://media.springernature.com/full/springer-static/image/art%3A10.1038%2Fs41598-021-84087-y/MediaObjects/41598_2021_84087_Fig1_HTML.png)
False-negative diagnosis of high anion gap in patients with end-stage kidney disease | Scientific Reports
![Direct conversion of carbon dioxide to liquid hydrocarbons over K-modified CoFeOx/zeolite multifunctional catalysts - ScienceDirect Direct conversion of carbon dioxide to liquid hydrocarbons over K-modified CoFeOx/zeolite multifunctional catalysts - ScienceDirect](https://ars.els-cdn.com/content/image/1-s2.0-S2212982022003274-gr2.jpg)
Direct conversion of carbon dioxide to liquid hydrocarbons over K-modified CoFeOx/zeolite multifunctional catalysts - ScienceDirect
![Mike Turk on Twitter: "I am preparing a presentation for medical students on basic Acid-Base physiology. What are some can't-miss pearls #NephTwitter would include? #AskRenal" / Twitter Mike Turk on Twitter: "I am preparing a presentation for medical students on basic Acid-Base physiology. What are some can't-miss pearls #NephTwitter would include? #AskRenal" / Twitter](https://pbs.twimg.com/media/FZJ2nk5WYAAv7KE.jpg)
Mike Turk on Twitter: "I am preparing a presentation for medical students on basic Acid-Base physiology. What are some can't-miss pearls #NephTwitter would include? #AskRenal" / Twitter
![Edgar V. Lerma 🇵🇭 on Twitter: "Not all OSMOLAR GAPS are due to alcohol intoxications #Nephpearls From @UpToDate http://t.co/ckyxtAn88Y" / Twitter Edgar V. Lerma 🇵🇭 on Twitter: "Not all OSMOLAR GAPS are due to alcohol intoxications #Nephpearls From @UpToDate http://t.co/ckyxtAn88Y" / Twitter](https://pbs.twimg.com/media/Bzsm3NOIcAAdPXS.jpg)
Edgar V. Lerma 🇵🇭 on Twitter: "Not all OSMOLAR GAPS are due to alcohol intoxications #Nephpearls From @UpToDate http://t.co/ckyxtAn88Y" / Twitter
![Development of a prognostic model for mortality in COVID-19 infection using machine learning | Modern Pathology Development of a prognostic model for mortality in COVID-19 infection using machine learning | Modern Pathology](https://media.springernature.com/full/springer-static/image/art%3A10.1038%2Fs41379-020-00700-x/MediaObjects/41379_2020_700_Fig1_HTML.png)