<p>By profiling the immune response to the <a href="https://www.deccanherald.com/tag/coronavirus" target="_blank">novel coronavirus</a> in critically-ill Covid-19 patients, scientists have identified a unique pattern of six molecules which could be used as therapeutic targets for the disease.</p>.<p>The researchers from the Lawson Health Research Institute in the UK assessed blood samples taken from critically-ill patients at the London Health Sciences Centre (LHSC).</p>.<p><a href="https://www.deccanherald.com/national/coronavirus-news-live-updates-indias-tally-crosses-4-lakh-toll-jumps-to-12825-851629.html" target="_blank"><strong>For latest updates and live news on coronavirus, click here</strong></a></p>.<p>Based on the analysis, published in the journal <em>Critical Care Explorations</em>, the scientists found top six molecules in the blood of Covid-19 positive patients in the intensive care unit (ICU), which distinguished them from those without the disease.</p>.<p>According to the scientists, the immune system of some Covid-19 patients overreacts to the virus and causes a 'cytokine storm' in which elevated levels of their body's natural inflammatory molecules damage healthy cells.</p>.<p>"Clinicians have been trying to address this hyper-inflammation but without evidence of what to target," explained study co-author Douglas Fraser from Lawson and Western's Schulich School of Medicine & Dentistry.</p>.<p>"Our study takes away the guessing by identifying potential therapeutic targets for the first time," Fraser said.</p>.<p>In the research, the scientists assessed 30 participants -- 10 Covid-19 patients and 10 patients with other infections admitted to LHSC's intensive care unit (ICU), as well as 10 healthy control participants.</p>.<p>They drew blood from the patients daily for the first seven days of ICU admission, processed the samples in a lab, and then analysed the data using statistical methods.</p>.<p>Of the 57 inflammatory molecules that the scientists studied in the patient samples, they found that six were uniquely elevated in Covid-19 ICU patients.</p>.<p>These were the molecules tumour necrosis factor, granzyme B, heat shock protein 70, interleukin-18, interferon-gamma-inducible protein 10, and elastase.</p>.<p>When the researchers used artificial intelligence to validate their results, they found that inflammation profiling was able to predict the presence of Covid-19 in critically ill patients with 98 per cent accuracy. The team also found that one of the molecules -- heat shock protein 70 -- was strongly associated with an increased risk of death when measured in the blood early during the illness.</p>.<p>"Inflammation profiling predicted Covid-19 status with 98 percent accuracy, whereas elevated heat shock protein 70 was strongly associated with mortality," the scientists noted in the study.</p>.<p>According to Fraser, understanding the immune response is paramount to finding the best treatments for Covid-19.</p>.<p>Citing the limitations of the study, the researchers said they only studied a small number of patients, and could not determine the inflammatory changes contributing to ICU admissions.</p>.<p>"Our next step is to test drugs that block the harmful effects of several of these molecules while still allowing the immune system to fight the virus," Fraser added. </p>
<p>By profiling the immune response to the <a href="https://www.deccanherald.com/tag/coronavirus" target="_blank">novel coronavirus</a> in critically-ill Covid-19 patients, scientists have identified a unique pattern of six molecules which could be used as therapeutic targets for the disease.</p>.<p>The researchers from the Lawson Health Research Institute in the UK assessed blood samples taken from critically-ill patients at the London Health Sciences Centre (LHSC).</p>.<p><a href="https://www.deccanherald.com/national/coronavirus-news-live-updates-indias-tally-crosses-4-lakh-toll-jumps-to-12825-851629.html" target="_blank"><strong>For latest updates and live news on coronavirus, click here</strong></a></p>.<p>Based on the analysis, published in the journal <em>Critical Care Explorations</em>, the scientists found top six molecules in the blood of Covid-19 positive patients in the intensive care unit (ICU), which distinguished them from those without the disease.</p>.<p>According to the scientists, the immune system of some Covid-19 patients overreacts to the virus and causes a 'cytokine storm' in which elevated levels of their body's natural inflammatory molecules damage healthy cells.</p>.<p>"Clinicians have been trying to address this hyper-inflammation but without evidence of what to target," explained study co-author Douglas Fraser from Lawson and Western's Schulich School of Medicine & Dentistry.</p>.<p>"Our study takes away the guessing by identifying potential therapeutic targets for the first time," Fraser said.</p>.<p>In the research, the scientists assessed 30 participants -- 10 Covid-19 patients and 10 patients with other infections admitted to LHSC's intensive care unit (ICU), as well as 10 healthy control participants.</p>.<p>They drew blood from the patients daily for the first seven days of ICU admission, processed the samples in a lab, and then analysed the data using statistical methods.</p>.<p>Of the 57 inflammatory molecules that the scientists studied in the patient samples, they found that six were uniquely elevated in Covid-19 ICU patients.</p>.<p>These were the molecules tumour necrosis factor, granzyme B, heat shock protein 70, interleukin-18, interferon-gamma-inducible protein 10, and elastase.</p>.<p>When the researchers used artificial intelligence to validate their results, they found that inflammation profiling was able to predict the presence of Covid-19 in critically ill patients with 98 per cent accuracy. The team also found that one of the molecules -- heat shock protein 70 -- was strongly associated with an increased risk of death when measured in the blood early during the illness.</p>.<p>"Inflammation profiling predicted Covid-19 status with 98 percent accuracy, whereas elevated heat shock protein 70 was strongly associated with mortality," the scientists noted in the study.</p>.<p>According to Fraser, understanding the immune response is paramount to finding the best treatments for Covid-19.</p>.<p>Citing the limitations of the study, the researchers said they only studied a small number of patients, and could not determine the inflammatory changes contributing to ICU admissions.</p>.<p>"Our next step is to test drugs that block the harmful effects of several of these molecules while still allowing the immune system to fight the virus," Fraser added. </p>