A fully integrated duplex RT-LAMP device for the detection of viral infections
In this study, we showed and evaluated a prototype of a microfluidic system, and showed that duplex RT-LAMP can detect and distinguish between the two viruses, with LoDs of 2,000 copies/ml for bovine coronavirus and 200 copies/ml for influenza A/X-31 virus.PMID:37682413 | PMC:PMC10491696 | DOI:10.1007/s10544-023-00676-w (Source: Biomedical Microdevices)
Source: Biomedical Microdevices - September 8, 2023 Category: Biomedical Engineering Authors: Nicolas Mytzka Skaiste Arbaciauskaite Natalia Sandetskaya Kai Mattern Dirk Kuhlmeier Source Type: research
A fully integrated duplex RT-LAMP device for the detection of viral infections
In this study, we showed and evaluated a prototype of a microfluidic system, and showed that duplex RT-LAMP can detect and distinguish between the two viruses, with LoDs of 2,000 copies/ml for bovine coronavirus and 200 copies/ml for influenza A/X-31 virus.PMID:37682413 | PMC:PMC10491696 | DOI:10.1007/s10544-023-00676-w (Source: Biomedical Microdevices)
Source: Biomedical Microdevices - September 8, 2023 Category: Biomedical Engineering Authors: Nicolas Mytzka Skaiste Arbaciauskaite Natalia Sandetskaya Kai Mattern Dirk Kuhlmeier Source Type: research
A fully integrated duplex RT-LAMP device for the detection of viral infections
In this study, we showed and evaluated a prototype of a microfluidic system, and showed that duplex RT-LAMP can detect and distinguish between the two viruses, with LoDs of 2,000 copies/ml for bovine coronavirus and 200 copies/ml for influenza A/X-31 virus.PMID:37682413 | PMC:PMC10491696 | DOI:10.1007/s10544-023-00676-w (Source: Biomedical Microdevices)
Source: Biomedical Microdevices - September 8, 2023 Category: Biomedical Engineering Authors: Nicolas Mytzka Skaiste Arbaciauskaite Natalia Sandetskaya Kai Mattern Dirk Kuhlmeier Source Type: research
A fully integrated duplex RT-LAMP device for the detection of viral infections
In this study, we showed and evaluated a prototype of a microfluidic system, and showed that duplex RT-LAMP can detect and distinguish between the two viruses, with LoDs of 2,000 copies/ml for bovine coronavirus and 200 copies/ml for influenza A/X-31 virus.PMID:37682413 | PMC:PMC10491696 | DOI:10.1007/s10544-023-00676-w (Source: Biomedical Microdevices)
Source: Biomedical Microdevices - September 8, 2023 Category: Biomedical Engineering Authors: Nicolas Mytzka Skaiste Arbaciauskaite Natalia Sandetskaya Kai Mattern Dirk Kuhlmeier Source Type: research
A fully integrated duplex RT-LAMP device for the detection of viral infections
In this study, we showed and evaluated a prototype of a microfluidic system, and showed that duplex RT-LAMP can detect and distinguish between the two viruses, with LoDs of 2,000 copies/ml for bovine coronavirus and 200 copies/ml for influenza A/X-31 virus.PMID:37682413 | PMC:PMC10491696 | DOI:10.1007/s10544-023-00676-w (Source: Biomedical Microdevices)
Source: Biomedical Microdevices - September 8, 2023 Category: Biomedical Engineering Authors: Nicolas Mytzka Skaiste Arbaciauskaite Natalia Sandetskaya Kai Mattern Dirk Kuhlmeier Source Type: research
A fully integrated duplex RT-LAMP device for the detection of viral infections
In this study, we showed and evaluated a prototype of a microfluidic system, and showed that duplex RT-LAMP can detect and distinguish between the two viruses, with LoDs of 2,000 copies/ml for bovine coronavirus and 200 copies/ml for influenza A/X-31 virus.PMID:37682413 | PMC:PMC10491696 | DOI:10.1007/s10544-023-00676-w (Source: Biomedical Microdevices)
Source: Biomedical Microdevices - September 8, 2023 Category: Biomedical Engineering Authors: Nicolas Mytzka Skaiste Arbaciauskaite Natalia Sandetskaya Kai Mattern Dirk Kuhlmeier Source Type: research
A fully integrated duplex RT-LAMP device for the detection of viral infections
In this study, we showed and evaluated a prototype of a microfluidic system, and showed that duplex RT-LAMP can detect and distinguish between the two viruses, with LoDs of 2,000 copies/ml for bovine coronavirus and 200 copies/ml for influenza A/X-31 virus.PMID:37682413 | PMC:PMC10491696 | DOI:10.1007/s10544-023-00676-w (Source: Biomedical Microdevices)
Source: Biomedical Microdevices - September 8, 2023 Category: Biomedical Engineering Authors: Nicolas Mytzka Skaiste Arbaciauskaite Natalia Sandetskaya Kai Mattern Dirk Kuhlmeier Source Type: research
A fully integrated duplex RT-LAMP device for the detection of viral infections
In this study, we showed and evaluated a prototype of a microfluidic system, and showed that duplex RT-LAMP can detect and distinguish between the two viruses, with LoDs of 2,000 copies/ml for bovine coronavirus and 200 copies/ml for influenza A/X-31 virus.PMID:37682413 | PMC:PMC10491696 | DOI:10.1007/s10544-023-00676-w (Source: Biomedical Microdevices)
Source: Biomedical Microdevices - September 8, 2023 Category: Biomedical Engineering Authors: Nicolas Mytzka Skaiste Arbaciauskaite Natalia Sandetskaya Kai Mattern Dirk Kuhlmeier Source Type: research
A fully integrated duplex RT-LAMP device for the detection of viral infections
In this study, we showed and evaluated a prototype of a microfluidic system, and showed that duplex RT-LAMP can detect and distinguish between the two viruses, with LoDs of 2,000 copies/ml for bovine coronavirus and 200 copies/ml for influenza A/X-31 virus.PMID:37682413 | PMC:PMC10491696 | DOI:10.1007/s10544-023-00676-w (Source: Biomedical Microdevices)
Source: Biomedical Microdevices - September 8, 2023 Category: Biomedical Engineering Authors: Nicolas Mytzka Skaiste Arbaciauskaite Natalia Sandetskaya Kai Mattern Dirk Kuhlmeier Source Type: research
A fully integrated duplex RT-LAMP device for the detection of viral infections
In this study, we showed and evaluated a prototype of a microfluidic system, and showed that duplex RT-LAMP can detect and distinguish between the two viruses, with LoDs of 2,000 copies/ml for bovine coronavirus and 200 copies/ml for influenza A/X-31 virus.PMID:37682413 | DOI:10.1007/s10544-023-00676-w (Source: Biomedical Microdevices)
Source: Biomedical Microdevices - September 8, 2023 Category: Biomedical Engineering Authors: Nicolas Mytzka Skaiste Arbaciauskaite Natalia Sandetskaya Kai Mattern Dirk Kuhlmeier Source Type: research
A flexible implant for acute intrapancreatic electrophysiology
Biomed Microdevices. 2023 Aug 30;25(3):35. doi: 10.1007/s10544-023-00662-2.ABSTRACTMicroelectrode arrays (MEAs) have proven to be a powerful tool to study electrophysiological processes over the last decades with most technology developed for investigation of the heart or brain. Other targets in the field of bioelectronic medicine are the peripheral nervous system and its innervation of various organs. Beyond the heart and nervous systems, the beta cells of the pancreatic islets of Langerhans generate action potentials during the production of insulin. In vitro experiments have demonstrated that their activity is a biomark...
Source: Biomedical Microdevices - August 30, 2023 Category: Biomedical Engineering Authors: Domenic Pascual Lisa Brauns Ruth Domes Matthias Tisler Marco K ögel Angelika Stumpf Andreas Kirschniak Jens Rolinger Udo Kraushaar Peter D Jones Source Type: research
A flexible implant for acute intrapancreatic electrophysiology
Biomed Microdevices. 2023 Aug 30;25(3):35. doi: 10.1007/s10544-023-00662-2.ABSTRACTMicroelectrode arrays (MEAs) have proven to be a powerful tool to study electrophysiological processes over the last decades with most technology developed for investigation of the heart or brain. Other targets in the field of bioelectronic medicine are the peripheral nervous system and its innervation of various organs. Beyond the heart and nervous systems, the beta cells of the pancreatic islets of Langerhans generate action potentials during the production of insulin. In vitro experiments have demonstrated that their activity is a biomark...
Source: Biomedical Microdevices - August 30, 2023 Category: Biomedical Engineering Authors: Domenic Pascual Lisa Brauns Ruth Domes Matthias Tisler Marco K ögel Angelika Stumpf Andreas Kirschniak Jens Rolinger Udo Kraushaar Peter D Jones Source Type: research
A flexible implant for acute intrapancreatic electrophysiology
Biomed Microdevices. 2023 Aug 30;25(3):35. doi: 10.1007/s10544-023-00662-2.ABSTRACTMicroelectrode arrays (MEAs) have proven to be a powerful tool to study electrophysiological processes over the last decades with most technology developed for investigation of the heart or brain. Other targets in the field of bioelectronic medicine are the peripheral nervous system and its innervation of various organs. Beyond the heart and nervous systems, the beta cells of the pancreatic islets of Langerhans generate action potentials during the production of insulin. In vitro experiments have demonstrated that their activity is a biomark...
Source: Biomedical Microdevices - August 30, 2023 Category: Biomedical Engineering Authors: Domenic Pascual Lisa Brauns Ruth Domes Matthias Tisler Marco K ögel Angelika Stumpf Andreas Kirschniak Jens Rolinger Udo Kraushaar Peter D Jones Source Type: research
A flexible implant for acute intrapancreatic electrophysiology
Biomed Microdevices. 2023 Aug 30;25(3):35. doi: 10.1007/s10544-023-00662-2.ABSTRACTMicroelectrode arrays (MEAs) have proven to be a powerful tool to study electrophysiological processes over the last decades with most technology developed for investigation of the heart or brain. Other targets in the field of bioelectronic medicine are the peripheral nervous system and its innervation of various organs. Beyond the heart and nervous systems, the beta cells of the pancreatic islets of Langerhans generate action potentials during the production of insulin. In vitro experiments have demonstrated that their activity is a biomark...
Source: Biomedical Microdevices - August 30, 2023 Category: Biomedical Engineering Authors: Domenic Pascual Lisa Brauns Ruth Domes Matthias Tisler Marco K ögel Angelika Stumpf Andreas Kirschniak Jens Rolinger Udo Kraushaar Peter D Jones Source Type: research
A flexible implant for acute intrapancreatic electrophysiology
Biomed Microdevices. 2023 Aug 30;25(3):35. doi: 10.1007/s10544-023-00662-2.ABSTRACTMicroelectrode arrays (MEAs) have proven to be a powerful tool to study electrophysiological processes over the last decades with most technology developed for investigation of the heart or brain. Other targets in the field of bioelectronic medicine are the peripheral nervous system and its innervation of various organs. Beyond the heart and nervous systems, the beta cells of the pancreatic islets of Langerhans generate action potentials during the production of insulin. In vitro experiments have demonstrated that their activity is a biomark...
Source: Biomedical Microdevices - August 30, 2023 Category: Biomedical Engineering Authors: Domenic Pascual Lisa Brauns Ruth Domes Matthias Tisler Marco K ögel Angelika Stumpf Andreas Kirschniak Jens Rolinger Udo Kraushaar Peter D Jones Source Type: research
