Author(s)3: Dorthe B. Saadi, George Tanev, Morten Flintrup, Armin Osmanagic, Kenneth Egstrup, Karsten Hoppe, Poul Jennum, Jorgen L. Jeppesen, Helle K. Iversen, Helge B. D. Sorensen
Automatic Real-time Embedded QRS Complex Detection for a Novel Patch-Type Electrocardiogram Recorderhttps://www.embs.org/jtehm/wp-content/uploads/sites/17/2015/04/automatic-real-time-embedded-qrs.jpg540339IEEE Journal of Translational Engineering in Health and Medicine (JTEHM)IEEE Journal of Translational Engineering in Health and Medicine (JTEHM)//www.embs.org/jtehm/wp-content/uploads/sites/17/2022/06/ieee-jtehm-logo2x.png
The design and optimization of our novel automatic QRS complex detection algorithm was performed on two different databases: The MIT-BIH Arrhythmia Database (Se=99.90%, P+=99.87) and a private ePatch Training Database (Se=99.88%, P+=99.37%).…
Author(s)3: Yantao Fan, Naze G. Avci, Duong T. Nguyen, Andrei Dragomir, Yasemin M. Akay, Feng Xu, Metin Akay
Engineering a High-Throughput 3D in vitro Glioblastoma Modelhttps://www.embs.org/jtehm/wp-content/uploads/sites/17/2015/03/engineering-a-high-throughput.jpg540275IEEE Journal of Translational Engineering in Health and Medicine (JTEHM)IEEE Journal of Translational Engineering in Health and Medicine (JTEHM)//www.embs.org/jtehm/wp-content/uploads/sites/17/2022/06/ieee-jtehm-logo2x.png
Glioblastoma multiforme (GBM) is the most common and malignant primary brain tumor in adults. The existing treatment for GBM, which involves a combination of resection, chemotherapy and radiotherapy, has a…
Author(s)3: Mehrdad Sangi, Benjamin Thompson, Jason Turuwhenua
An Optokinetic Nystagmus Detection Method for Use with Young Childrenhttps://www.embs.org/jtehm/wp-content/uploads/sites/17/2015/03/optokinetic.jpg516570IEEE Journal of Translational Engineering in Health and Medicine (JTEHM)IEEE Journal of Translational Engineering in Health and Medicine (JTEHM)//www.embs.org/jtehm/wp-content/uploads/sites/17/2022/06/ieee-jtehm-logo2x.png
, , The detection of vision problems in early childhood can prevent neuro-developmental disorders such as amblyopia. However, accurate clinical assessment of visual function in young children is challenging. Optokinetic…
Author(s)3: Alexander Komashie, Ali Mousavi, P Johnson Clarkson, Terry Young
An Integrated Model of Patient and Staff Satisfaction Using Queuing Theoryhttps://www.embs.org/jtehm/wp-content/uploads/sites/17/2015/02/JTEHM-00015-2014-GraphicalAbstract-1.png540315IEEE Journal of Translational Engineering in Health and Medicine (JTEHM)IEEE Journal of Translational Engineering in Health and Medicine (JTEHM)//www.embs.org/jtehm/wp-content/uploads/sites/17/2022/06/ieee-jtehm-logo2x.png
This paper investigates the connection between patient satisfaction, waiting time, staff satisfaction and service time. It uses a variety of models to enable improvement against experiential and operational health service…
Principal Dynamic Mode Analysis of EEG Data for Assisting the Diagnosis of Alzheimer’s Diseasehttps://www.embs.org/jtehm/wp-content/uploads/sites/17/2015/02/graphic_abstractgray.jpg540284IEEE Journal of Translational Engineering in Health and Medicine (JTEHM)IEEE Journal of Translational Engineering in Health and Medicine (JTEHM)//www.embs.org/jtehm/wp-content/uploads/sites/17/2022/06/ieee-jtehm-logo2x.png
We examine whether modeling of the causal dynamic relationships between frontal and occipital electroencephalogram (EEG) time-series recordings reveal reliable differentiating characteristics of Alzheimer’s patients versus control subjects in a manner…
Author(s)3: Utkarsh Jindal, Mehak Sood, Anirban Dutta, Shubhajit Roy Chowdhury
Development of Point of Care Testing Device for Neurovascular Coupling from Simultaneous Recording of EEG and NIRS During Anodal Transcranial Direct Current Stimulationhttps://www.embs.org/jtehm/wp-content/uploads/sites/17/2015/01/development-poc-feat.jpg540348IEEE Journal of Translational Engineering in Health and Medicine (JTEHM)IEEE Journal of Translational Engineering in Health and Medicine (JTEHM)//www.embs.org/jtehm/wp-content/uploads/sites/17/2022/06/ieee-jtehm-logo2x.png
This paper presents a point-of-care testing device for bedside measurement of cerebral blood flow and cerebrovascular reserve. The device detects neurovascular coupling (NVC) from simultaneous recording of electroencephalogram and near…
Automated Lung Segmentation and Image Quality Assessment for Clinical 3-D/4-D-Computed Tomographyhttps://www.embs.org/jtehm/wp-content/uploads/sites/17/2015/01/automated-lung-feat.jpg540267IEEE Journal of Translational Engineering in Health and Medicine (JTEHM)IEEE Journal of Translational Engineering in Health and Medicine (JTEHM)//www.embs.org/jtehm/wp-content/uploads/sites/17/2022/06/ieee-jtehm-logo2x.png
4-dimensional computed tomography (4DCT) provides not only a new dimension of patient-specific information for radiation therapy planning and treatment but also a challenging scale of data volume to process and…
Identifying Cancer Biomarkers From Microarray Data Using Feature Selection and Semisupervised Learninghttps://www.embs.org/jtehm/wp-content/uploads/sites/17/2014/12/identifying-cancer-feat.jpg540295IEEE Journal of Translational Engineering in Health and Medicine (JTEHM)IEEE Journal of Translational Engineering in Health and Medicine (JTEHM)//www.embs.org/jtehm/wp-content/uploads/sites/17/2022/06/ieee-jtehm-logo2x.png
Microarrays have now gone from obscurity to being almost ubiquitous in biological research. At the same time, the statistical methodology for microarray analysis has progressed from simple visual assessments of…
Author(s)3: Yi-Hsin Yu, Shao-Wei Lu, Lun-De Liao, Chin-Teng Lin
Design, Fabrication and Experimental Validation of Novel Flexible Silicon-based Dry Sensors for Electroencephalography Signal Measurementshttps://www.embs.org/jtehm/wp-content/uploads/sites/17/2014/12/abstract.jpg540395IEEE Journal of Translational Engineering in Health and Medicine (JTEHM)IEEE Journal of Translational Engineering in Health and Medicine (JTEHM)//www.embs.org/jtehm/wp-content/uploads/sites/17/2022/06/ieee-jtehm-logo2x.png
(A) Length and width of the forehead-SBDS electrode are 15 mm in each dimension. Five electrodes are embedded in the forehead-SBDS substrate. (B) Thickness of the forehead-SBDS substrate is approximately…