Abstract
Gastrointestinal bleeding, especially obscure gastrointestinal bleeding (OGIB), is a common and serious clinical emergency with a notable incidence rate. However, the current diagnostic method, gastroscopy, is invasive and often struggles to efficiently detect microhemorrhagic lesions, leading to diagnostic challenges and potential misdiagnoses. Here, we developed an intelligently engineered bacterium utilizing synthetic biology techniques for in vivo localization detection of gastrointestinal bleeding. By constructing three gene circuit modules within E. coli Nissle 1917 for heme recognition, response, and output generation, we have successfully enabled specific heme sensing and real-time optical signal production in vivo. This innovative strategy overcomes the limitations of the existing diagnostic methods, offering a noninvasive and precise means of detecting gastrointestinal bleeding. These advancements hold promise for enhancing diagnostic accuracy and treatment efficacy in future clinical settings within the realm of gastroenterology.
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