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Nick Brombach

Nick Brombach
E-Mail: nick.brombach(at)uni-siegen.de

 

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Vita

Nick Brombach studierte sowohl den Bachelor als auch den Master in Wirtschaftsinformatik an der Universität Siegen. Während seines Studiums arbeitete er zunächst am Forschungskolleg der Universität Siegen und später bei der Digitalen Modellregion Gesundheit Dreiländereck. Dort entwickelte er im Projekt Data Health eine Lösung für das Monitoring von Vitaldaten zur Unterstützung der Gesundheitsversorgung im ländlichen Raum. Während seines Studiums arbeitete er zunächst am Forschungskolleg der Universität Siegen und später bei der Digitalen Modellregion Gesundheit Dreiländereck.During his studies, he first worked at the Research College of the University of Siegen and later at the “Digitalen Modellregion Gesundheit Dreiländereck”. Dort entwickelte er im Projekt Data Health eine Lösung für die Überwachung von Vitaldaten zur Unterstützung der Gesundheitsversorgung in ländlichen Gebieten.

Dazu untersuchte er in seiner Masterarbeit die partizipative Softwareentwicklung von mobilen Gesundheitsinformationssystemen in Zusammenarbeit mit den verschiedenen Akteuren des Gesundheitssektors. Nick Brombach erhielt von 2017 bis 2022 ein Stipendium der Christian Goswin Stiftung. Außerdem wurde er im Wintersemester 2021/22 in die Dean’s List in the winter semester of 2021/22 des Studienganges Wirtschaftsinformatik aufgenommen.

Seit November 2022 arbeitet Nick Brombach als wissenschaftlicher Mitarbeiter an der Universität Siegen am Lehrstuhl für Cyber-Physical Systems. Hier ist er am Projekt „ATLAS – Automotive Transformationsplattform Südwestfalen“ und dem „European Digital Innovation Hub (EDIH) Südwestfalen“ beteiligt.

Publikationen

2023

  • Keil, A., Brombach, N., Gaus, O., Brück, R. & Hahn, K. (2023)Opportunities of Data Medicine: Telemonitoring of Multimodal Medical Data in Outpatient Care

    The Latest Developments and Challenges in Biomedical Engineering. Cham, Publisher: Springer Nature Switzerland, Pages: 381–394 doi:10.1007/978-3-031-38430-1_29
    [BibTeX] [Download PDF] 
    @inproceedings{strumillo_opportunities_2023,
address = {Cham},
title = {Opportunities of {Data} {Medicine}: {Telemonitoring} of {Multimodal} {Medical} {Data} in {Outpatient} {Care}},
volume = {746},
isbn = {978-3-031-38429-5 978-3-031-38430-1},
shorttitle = {Opportunities of {Data} {Medicine}},
url = {https://link.springer.com/10.1007/978-3-031-38430-1_29},
language = {en},
urldate = {2023-09-12},
booktitle = {The {Latest} {Developments} and {Challenges} in {Biomedical} {Engineering}},
publisher = {Springer Nature Switzerland},
author = {Keil, Alexander and Brombach, Nick and Gaus, Olaf and Brück, Rainer and Hahn, Kai},
editor = {Strumiłło, Paweł and Klepaczko, Artur and Strzelecki, Michał and Bociąga, Dorota},
year = {2023},
doi = {10.1007/978-3-031-38430-1_29},
pages = {381--394},
}

  • Brombach, N., Keil, A., Brück, R., Ludwig, T. & Gaus, O. (2023)Designing a Vital Data Transmission in Rural Areas with Elderly Persons in Nursing Homes and at Home

    doi:10.48340/IHC2023_PD032
    [BibTeX] [Abstract] [Download PDF]
    In this paper, we present a vital data transmission system, which aims to support general practitioners (GPs) in the process of digital vital data acquisition. The system consists of (1) an app that displays the GP’s prescribed vital signs and transmits the data recorded via medically certified devices to a medically certified cloud, and (2) a web interface through which the physician can create prescriptions and view vital signs. In addition, it provides further services such as a support functionality for patients and getting feedback from physicians on vital signs. It facilitates the …
    @article{brombach_designing_2023,
title = {Designing a {Vital} {Data} {Transmission} in {Rural} {Areas} with {Elderly} {Persons} in {Nursing} {Homes} and at {Home}},
issn = {2510-2591},
url = {https://dl.eusset.eu/handle/20.500.12015/5025},
doi = {10.48340/IHC2023_PD032},
abstract = {In this paper, we present a vital data transmission system, which aims to support general practitioners (GPs) in the process of digital vital data acquisition. The system consists of (1) an app that displays the GP’s prescribed vital signs and transmits the data recorded via medically certified devices to a medically certified cloud, and (2) a web interface through which the physician can create prescriptions and view vital signs. In addition, it provides further services such as a support functionality for patients and getting feedback from physicians on vital signs. It facilitates the ...},
language = {en},
urldate = {2023-09-08},
author = {Brombach, Nick and Keil, Alexander and Brück, Rainer and Ludwig, Thomas and Gaus, Olaf},
year = {2023},
}

2022

  • Keil, A., Hahn, K., Brombach, N., Brück, R., Farhan, N. & Gaus, O. (2022)Acquisition and Processing of Biomedical Data for Outpatient Care in Rural Areas

    IN Current Directions in Biomedical Engineering, Vol. 8, Pages: 81–84 doi:10.1515/cdbme-2022-1022
    [BibTeX] [Abstract] [Download PDF]
    Abstract Acquisition of medical data such as blood pressure, ECG, pulse, and other values is currently often carried out in doctor’s offices by physicians or medical staff. This requires valuable time of patients as well as of practices’ personel and can deliver specific data only of the time of the visit. In this paper we describe a different approach. Patients measure their biomedical vital data at home. Therefore a technical infrastructure together with a workflow were developed and applied within a current project with patients in a rural area. Vital data is transferred via smartphone apps to a cloud environment where doctors can easily access and assess the data.
    @article{keil_acquisition_2022,
title = {Acquisition and {Processing} of {Biomedical} {Data} for {Outpatient} {Care} in {Rural} {Areas}},
volume = {8},
issn = {2364-5504},
url = {https://www.degruyter.com/document/doi/10.1515/cdbme-2022-1022/html},
doi = {10.1515/cdbme-2022-1022},
abstract = {Abstract
Acquisition of medical data such as blood pressure, ECG, pulse, and other values is currently often carried out in doctor’s offices by physicians or medical staff. This requires valuable time of patients as well as of practices’ personel and can deliver specific data only of the time of the visit. In this paper we describe a different approach. Patients measure their biomedical vital data at home. Therefore a technical infrastructure together with a workflow were developed and applied within a current project with patients in a rural area. Vital data is transferred via smartphone apps to a cloud environment where doctors can easily access and assess the data.},
language = {en},
number = {2},
urldate = {2022-11-09},
journal = {Current Directions in Biomedical Engineering},
author = {Keil, Alexander and Hahn, Kai and Brombach, Nick and Brück, Rainer and Farhan, Nabeel and Gaus, Olaf},
month = sep,
year = {2022},
pages = {81--84},
}

  • Keil, A., Hahn, K., Brück, R., Brombach, N., Farhan, N. & Gaus, O. (2022)Cloud-Based System for Vital Data Recording at Patients’ Home

    IN Pietka, E., Badura, P., Kawa, J. & Wieclawek, W. (Eds.), Information Technology in Biomedicine Cham doi:10.1007/978-3-031-09135-3_2
    [BibTeX] [Download PDF] 
    @incollection{pietka_cloud-based_2022,
address = {Cham},
title = {Cloud-{Based} {System} for {Vital} {Data} {Recording} at {Patients}’ {Home}},
volume = {1429},
isbn = {978-3-031-09134-6 978-3-031-09135-3},
url = {https://link.springer.com/10.1007/978-3-031-09135-3_2},
language = {en},
urldate = {2022-11-09},
booktitle = {Information {Technology} in {Biomedicine}},
publisher = {Springer International Publishing},
author = {Keil, Alexander and Hahn, Kai and Brück, Rainer and Brombach, Nick and Farhan, Nabeel and Gaus, Olaf},
editor = {Pietka, Ewa and Badura, Pawel and Kawa, Jacek and Wieclawek, Wojciech},
year = {2022},
doi = {10.1007/978-3-031-09135-3_2},
pages = {15--27},
}