TY - GEN A1 - Cao, Jie A1 - Jafta, Charl J. A1 - Gong, Jiang A1 - Ran, Qidi A1 - Lin, Xianzhong A1 - Duarte, Roberto Felix A1 - Wilks, Regan G. A1 - Bär, Marcus A1 - Yuan, Jiayin A1 - Ballauff, Matthias A1 - Lu, Yan T1 - Synthesis of Dispersible Mesoporous Nitrogen-Doped Hollow Carbon Nanoplates with Uniform Hexagonal Morphologies for Supercapacitors T2 - ACS Applied Materials & Interfaces Y1 - 2016 U6 - https://doi.org/10.1021/acsami.6b08946 SN - 1944-8244 SN - 1944-8252 VL - 8 IS - 43 SP - 29628 EP - 29636 ER - TY - GEN A1 - Hall, Braeden A1 - Schmidt, Kathleen A1 - Wagge, Jordan A1 - Lewis, Savannah C. A1 - Weissgerber, Sophia C. A1 - Kiunke, Felix A1 - Pfuhl, Gerit A1 - Stieger, Stefan A1 - Tran, Ulrich S. A1 - Barzykowski, Krystian A1 - Bogatyreva, Natalia A1 - Kowal, Marta A1 - Massar, KarlIJn A1 - Pernerstofer, Felizitas A1 - Sorokowski, Piotr A1 - Voracek, Martin A1 - Chartier, Christopher R. A1 - Brandt, Mark J. A1 - Grahe, Jon E. A1 - Özdoğru, Asil A. A1 - Andreychik, Michael R. A1 - Chen, Sau-Chin A1 - Evans, Thomas R. A1 - Hautekiet, Caro A1 - IJzerman, Hans A1 - Kačmár, Pavol A1 - Krafnick, Anthony J. A1 - Musser, Erica D. A1 - Vergauwe, Evie A1 - Werner, Kaitlyn M. A1 - Aczel, Balazs A1 - Arriaga, Patrícia A1 - Batres, Carlota A1 - Beaudry, Jennifer L. A1 - Cova, Florian A1 - Ďurbisová, Simona A1 - Cramblet Alvarez, Leslie D. A1 - Feldman, Gilad A1 - Godbersen, Hendrik A1 - Gottfried, Jaroslav A1 - Haeffel, Gerald J. A1 - Hartanto, Andree A1 - Isloi, Chris A1 - McFall, Joseph P. A1 - Milyavskaya, Marina A1 - Moreau, David A1 - Nosáľová, Ester A1 - Papaioannou, Kostas A1 - Ruiz-Fernandez, Susana A1 - Schrötter, Jana A1 - Storage, Daniel A1 - Vezirian, Kevin A1 - Volz, Leonhard A1 - Weisberg, Yanna J. A1 - Xiao, Qinyu A1 - Awlia, Dana A1 - Branit, Hannah W. A1 - Dunn, Megan R. A1 - Groyecka-Bernard, Agata A1 - Haneda, Ricky A1 - Kielinska, Julita A1 - Kolle, Caroline A1 - Lubomski, Paweł A1 - Miller, Alexys M. A1 - Mækelæ, Martin J. A1 - Pantazi, Mytro A1 - Ribeiro, Rafael R. A1 - Ross, Robert M. A1 - Sorokowska, Agnieszka A1 - Aberson, Christopher L. A1 - Vassiliou, Xanthippi Alexi A1 - Baker, Bradley J. A1 - Bognar, Miklos A1 - Cong, Chin Wen A1 - Danvers, Alex F. A1 - Davis, William E. A1 - Dranseika, Vilius A1 - Dumbravă, Andrei A1 - Farmer, Harry A1 - Field, Andy P. A1 - Forscher, Patrick S. A1 - Graton, Aurélien A1 - Hajdu, Nandor A1 - Howlett, Peter A. A1 - Kabut, Radosław A1 - Larsen, Emmett M. A1 - Lee, Sean T. H. A1 - Legate, Nicole A1 - Levitan, Carmel A. A1 - Levy, Neil A1 - Lu, Jackson G. A1 - Misiak, Michał A1 - Morariu, Roxana E. A1 - Novak, Jennifer A1 - Pronizius, Ekaterina A1 - Prusova, Irina A1 - Rathnayake, Athulya S. A1 - Romanova, Marina O. A1 - Röer, Jan P. A1 - Sampaio, Waldir M. A1 - Schild, Christoph A1 - Schulte-Mecklenbeck, Michael A1 - Stephen, Ian D. A1 - Szecsi, Peter A1 - Takacs, Elizabeth A1 - Teeter, Julia N. A1 - Thiele-Evans, Elian H. A1 - Valeiro-Paterlini, Julia A1 - Vilares, Iris A1 - Villafana, Louise A1 - Wang, Ke A1 - Wu, Raymond A1 - Álvarez-Solas, Sara A1 - Moshontz, Hannah A1 - Buchanan, Erin M. T1 - Registered Replication Report: A Large Multilab Cross-Cultural Conceptual Replication of Turri et al. (2015) T2 - Advances in Methods and Practices in Psychological Science Y1 - 2024 U6 - https://doi.org/10.1177/25152459241267902 SN - 2515-2459 VL - 7 IS - 4 SP - 1 EP - 38 PB - SAGE Publications ER - TY - GEN A1 - Grießhammer, Stefan G. A1 - Malessa, Anke A1 - Lu, Hui A1 - Yip, Julia A1 - Leuschner, Julie A1 - Christgau, Florian A1 - Albrecht, Nils C. A1 - Oesten, Marie A1 - Tran, Thanh Truc A1 - Richer, Robert A1 - Heckel, Maria A1 - Eskofier, Bjoern M. A1 - Koelpin, Alexander A1 - Steigleder, Tobias A1 - Ostgathe, Christoph T1 - Contactless radar-based heart rate estimation in palliative care : a feasibility study and possible use in symptom management T2 - BMC palliative care N2 - Background Heart rate (HR) monitoring is a medical standard to provide information about a patient’s health status. In palliative care, relationship and social engagement are crucial therapeutic concepts. For fear of disrupting communication, social contact, and care, continuous HR monitoring is underutilised despite its potential to inform on symptom burden and therapeutic effects. This study investigates radar-based HR monitoring as an innovative and burden-free approach for palliative care patients, compares its accuracy with conventional ECG methods, and shows potential for therapeutic guidance. Methods A single-centre, comparative clinical trial was conducted with palliative care patients at the ward of the Department of Palliative Medicine of the University Hospital of Erlangen. The HR measurements obtained with radar were compared with Holter ECG (study arm I, overnight) and Task Force ® Monitor (TFM)-based ECG validation recordings (study arm II, one hour). In addition, long-term radar measurements without validation were analysed in comparison with clinical health records (study arm III). Results Both validation methods showed correlation by scatter plot, modified Bland-Altman plot, and equivalence testing. N  = 34 patients participated in study arm I. HR of 4,079 five-minute intervals was analysed. Radar measurements and ECG showed high agreement: difference of HRs was within 5 bpm in 3780 of 4079 (92.67%) and within ±13.4 bpm ( 1.96 times the SD of the mean) in 3979 (97.55%) intervals, respectively. In study arm II, n  = 19 patients participated. 57,048 heart beats were analysed. The HR difference was within 5 bpm for 53,583 out of 57,048 beats (93.93%) and within 8.2 bpm ( ± 1.96 times the SD of the mean) in 55,439 beats (97.18%), respectively. Arm III showed HR changes extracted from radar data in correlation with symptoms and treatment. Conclusion Radar-based HR monitoring shows a high agreement in comparison with ECG-based HR monitoring and thus offers an option for continuous and above all burden-free HR assessment, with the potential for use in symptom management in palliative care, among others. Further research and technological advancements are still necessary to fully realize this innovative approach in enhancing palliative care practices. KW - Palliative Care KW - Symptom management KW - Radar technology KW - Vital signs KW - Machine learning KW - Artificial intelligence Y1 - 2024 U6 - https://doi.org/10.1186/s12904-024-01592-3 SN - 1472-684X VL - 23 IS - 1 SP - 1 EP - 14 PB - BioMed Central CY - London ER -