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Journal Articles [*Corresponding author; #Equal Contributions] [1]
Wen-Chi Yang#,
Su-Yu Liao, Thien Luan Phan#, Nguyen Van Hieu, Pei-Yi Chu, Chin-Chang Y#i,
Hsing-Ju Wu, Kang-Ming Chang*, Congo Tak-Shing Ching*. An Immunosensor
for the Detection of ULBP2 Biomarker. Micromachines 2020; 11: 568. doi.org/10.3390/mi11060568
(SCI) [2]
Thien Luan Phan
and Congo Tak-Shing Ching*. A Reusable Mask for Coronavirus Disease
2019 (COVID-19). Archives of Medical Research 2020; 51: 455-457 (SCI) [3]
Wei-Li Hsu#, Carl
PC Chen#, Mohammad Nikkhoo, Cheng-Feng Lin, Congo Tak-Shing Ching, Chi-Chien
Niu and Chih-Hsiu Cheng*. Fatigue changes neck muscle control and
deteriorates postural stability during arm movement perturbations in patients
with chronic neck pain. The Spine Journal 2020; 20: 530-537 (SCI) [4]
Kang-Ming Chang,
Hao-Chen Xu, Congo Tak-Shing Ching* and Shing-Hong Liu*. Wireless
Patrol Sign-In System with Mental Fatigue Detection. Journal of Healthcare
Engineering 2018, Article ID 6419064, (SCIE) [5]
Congo Tak-Shing
Ching*, Su-Yu Liao, Teng-Yun Cheng, Chih-Hsiu Cheng,
Tai-Ping Sun, Yan-Dong Yao, Chin-Sung Hsiao and Kang-Ming Chang*. A
Mechanical Sensor Designed for Dynamic Joint Angle Measurement. Journal of
Healthcare Engineering 2017; DOI: 10.1155/2017/8465212 (SCIE) [6]
Kang-Ming Chang,
Yu-Teng Chun, Sih-Huei Chen, Luo Lu, Hsiao-Ting Jannis Su, Hung-Meng Liang,
Jayasree Santhosh, Congo Tak-Shing Ching* and Shing-Hong Liu*. The
Evaluation of Physical Stillness with Wearable Chest and Arm Accelerometer
during Chan Ding Practice. Sensors 2016; 16: 1126 (SCI) [7]
Yen-Wei Pai#,
Peiyuan F. Hsieh*,#, Hsin Tung, Chun-Ying Wu, Congo Tak-Shing Ching
and Ming-Hong Chang. Prognosis of cerebral lipiodol embolism caused by
transarterial chemoembolization. Neurological Research 2016; DOI: 10.1080/01616412.2016.1201928
(SCI) [8]
Congo Tak-Shing
Ching*, Nguyen van Hieu, Teng-Yun Cheng, Lin-Shien Fu,
Tai-Ping Sun, Ming-Yen Liu, Su-Hua Huang* and Yan-Dong Yao. Liver Cancer
Detection by a Simple, Inexpensive and Effective Immunosensor with Zinc Oxide
Nanoparticles. Sensors 2015; 15: 29408–29418 (SCI) [9]
Congo Tak-Shing
Ching* and Jhih-Hao Chen. An Non-invasive,
Bioimpedance-based 2-Dimensional Imaging System for Detection and
Localization of Pathological Epithelial Tissues. Sensors and Actuators B:
Chemical 2015; 206: 319–326 (SCI) [10]
Congo Tak-Shing
Ching* and Wei-Yi Chih. Design and evaluation of an
affordable and programmable mobile device, capable of delivering constant
current and high voltage electric pulses of different waveforms for
biomedical and clinical applications. Sensors and Actuators B: Chemical 2014;
194: 361–370 (SCI) [11]
Congo Tak-Shing
Ching*, Kok-Khun Yong*, Yan-Dong Yao, Huan-Ting Shen,
Shiu-Man Hsieh, Deng-Yun Jheng, Tai-Ping Sun, Hsiu-Li Shieh. A new approach
for noninvasive transdermal determination of blood uric acid levels.
International Journal of Nanomedicine 2014; 9: 3069–3076 (SCI) [12]
Sheng-Yang Huang,
Chia-Man Chou, Tsung-Han Chen, Pei-Chuen Chiou, Vincent K. S. Hsiao, Congo
Tak-Shing Ching and Tai-Ping Sun. Enhanced Sensitivity Using
Microfluidic, Interdigitated Microelectrode Based Capacitance Glucose Sensor
Measured at 4 MHz. Journal of the Electrochemical Society 2014; 161:
B102–B105 (SCI) [13]
C.S. Hsiao, Y.J.
Chiang, Likarn Wang, T.S. Ching. An Efficient Numerical Full-Vectorial
Mode Solver Based on Fourier Series Expansion Method. IEEE Photonics Journal
2014; 6: 1-17 (SCI) [14]
Congo Tak-Shing
Ching*, Kang-Ming Chang, Yu-Lung Hung*, Chin-Kang Chen,
Kok-Khun Yong, Yue-Xiu Jiang, Tai-Ping Sun* and Hsiu-Li Shieh. An array
configuration to increase the performance of a biosensor. Sensors and
Actuators B: Chemical 2013; 178: 465–472 (SCI) [15]
Congo Tak-Shing
Ching*, Yueh-Chi Chen, Li-Hua Lu, Peiyuan F. Hsieh,
Chin-Sung Hsiao, Tai-Ping Sun*, Hsiu-Li Shieh and Kang-Ming Chang*.
Characterization of the Muscle Electrical Properties in Low Back Pain
Patients by Electrical Impedance Myography. Plos One 2013; 8: e61639 (SCI) [16]
Congo Tak-Shing
Ching*, Tai-Ping Sun, Wei-Ti Huang, Su-Hua Huang,
Chin-Sung Hsiao and Kang-Ming Chang*. A circuit design of a low-cost,
portable and programmable electroporation device for biomedical applications.
Sensors and Actuators B: Chemical 2012; 166–167: 292–300 (SCI) [17]
Congo Tak-Shing
Ching*, Lin-Shien Fu, Tai-Ping Sun, Tzu-Hsiang Hsu and
Kang-Ming Chang*. Use of electroporation and reverse iontophoresis for
extraction of transdermal multibiomarkers. International Journal of
Nanomedicine 2012; 7: 885–894 (SCI) [18]
Kang-Ming
Chang*,#, Shu-Yi Luo, Sih-Huei Chen, Tuan-PingWang, and Congo Tak-Shing
Ching*,#. Body Massage Performance Investigation by Brain Activity
Analysis. Evidence-Based Complementary and Alternative Medicine 2012;
doi:10.1155/2012/252163 (SCI) [19]
Kang-Ming Chang,
Sih-Huei Chen, Hsin-Yi Lee, Tak-Shing Ching# and Chun-Lung Huang. A
Wireless Accelerometer-Based Body Posture Stability Detection System and Its
Application for Meditation Practitioners. Sensors 2012; 12: 17620–17632 (SCI) [20]
Sih-Huei Chen, Congo
Tak-Shing Ching and Kang-Ming Chang. Heart rate variability and pulse transit
time performance of leg crossing on meditation practitioner. Scientific
Research and Essays 2012; 7: 3179–3185 [21]
Congo Tak-Shing
Ching*, Mei-Yun Chou, Siou-Jhen Jiang, Su-Hua Huang,
Tai-Ping Sun, Wei-Hao Liu, and Chia-Ming Liu. Tissue electrical properties
monitoring for the prevention of pressure sore. Prosthetics & Orthotics
International 2011; 35: 392–400 (SCI) [22]
Congo Tak-Shing
Ching*, Jen-Wei Chang, Tai-Ping Sun, Hsiu-Li Shieh,
Chun-Lang Tsai, Hsin-Wei Huang, Wei-Hao Liu, Chia-Ming Liu, Wei-Chung Yeh and
Jia-Hao Li. An Amperometric Biosensor Array for Precise Determination of
Homocysteine. Sensors and Actuators B: Chemical 2011; 152: 94–98 (SCI) [23]
Congo Tak-Shing
Ching*, Tzong-Ru Chou, Tai-Ping Sun and Shiow-Yuan Huang.
Simultaneous, non-invasive and transdermal extraction of urea and
homocysteine by reverse iontophoresis. International Journal of Nanomedicine
2011; 6: 417–423 (SCI) [24]
Hung Y L, Ching
T S*, Sun T P, Chien M Y, Chen C M, Jhan C W, Shieh H L. The Accuracy of
Commercial Blood Uric Acid Meters on Blood Uric Acid Level Measurement.
WebmedCentral Biomedical Engineering 2011; 2: WMC001778. [25]
Chih-Kuei Lee, Congo
Tak-Shing Ching*, Tai-Ping Sun, Chun-Lang Tsai, Wei Huang, Hsin-Hung
Huang, Jen-Fu Kuo, Li-Hang Lai, Mei-Ya Chien, Hsin-Hui Tseng, Hui-Tzu Pan,
Shiow-Yuan Huang, Hsiu-Li Shieh, Wei-Hao Liu, Chia-Ming Liu and Hsin-Wei
Huang. Noninvasive and Transdermal Measurement of Blood Uric Acid Level in
Human by Electroporation and Reverse Iontophoresis. International Journal of
Nanomedicine 2010; 5: 343–349 (SCI) [26]
Tai-Ping Sun#,
Hsiu-Li Shieh, Congo Tak-Shing Ching*,#, Su-Hua Huang, Chia-Ming Liu,
Wei-Hao Liu and Chung-Yuan Chen. Carbon Nanotube Composites for Glucose
Biosensor Incorporated with Reverse Iontophoresis Function for Noninvasive
Glucose Monitoring. International Journal of Nanomedicine 2010; 5: 343–349
(SCI) [27]
Tai-Ping Sun#, Congo
Tak-Shing Ching*,#, Chi-Sheng Cheng#, Su-Hua Huang, Yi-Juai Chen,
Chin-Sung Hsiao, Ching-Haur Chang, Shiow-Yuan Huang, Hsiu-Li Shieh, Wei-Hao
Liu, Chia-Ming Liu and Chung-Yuan Chen. The use of bioimpedance in the
detection/screening of tongue cancer. Cancer Epidemiology 2010; 34: 207-211
(SCI) [28]
Congo Tak-Shing
Ching, Tai-Ping Sun*, Su-Hua Huang, Chin-Sung Hsiao,
Ching-Haur Chang, Shiow-Yuan Huang, Yi-Juai Chen, Chi-Sheng Cheng, Hsiu-Li
Shieh and Chung-Yuan Chen. A Preliminary Study of the Use of Bioimpedance in
the Screening of Squamous Tongue Cancer. International Journal of
Nanomedicine 2010; 5: 213-220 (SCI) [29]
Congo Tak-Shing
Ching*, Tai-Ping Sun, Su-Hua Huang, Hsiu-Li Shieh and
Chung-Yuan Chen. A Mediated Glucose Biosensor Incorporated with Reverse
Iontophoresis Function for Noninvasive Glucose Monitoring. Annals of
Biomedical Engineering 2010; 38: 1548-1555 (SCI) [30]
CTS Ching*, Y Buisson and P Connolly. The effect of pulsed
bipolar DC current waveform on the simultaneous extraction of glucose and
lactate by reverse iontophoresis. Sensors and Actuators B: Chemical 2008;
129: 504-509 (SCI) [31]
CTS Ching* and P Connolly. Reverse Iontophoresis: A
Non-Invasive Technique for Measuring Blood Lactate Level. Sensors and
Actuators B: Chemical 2008; 129: 352-358 (SCI) [32]
CTS Ching* and P Connolly. A Novel Diffusion Cell Ideal for
the Study of Membrane Extraction/Permeation Processes and for Device/Sensor
Development. Sensors and Actuators B: Chemical 2008; 129: 30-34 (SCI) [33]
TS Ching and P Connolly*. Simultaneous transdermal
extraction of glucose and lactate from human subjects by reverse
iontophoresis. International Journal of Nanomedicine 2008; 3: 211-223 (SCI) [34]
CTS Ching* and P Connolly. Reverse iontophoresis: a new
approach to measure blood glucose level. Asian Journal of Health and
Information Sciences 2007; 1:393-410 [35]
CTS Ching, I Camilleri and P Connolly*. A low-cost,
programmable device for versatile current delivery in iontophoresis applications.
Sensors and Actuators B: Chemical 2005; 106: 534-540 (SCI) [36]
CTS Ching, DHK Chow*, FYD Yao and AD Holmes. Changes in
nuclear composition following cyclic compression of the intervertebral disc
in an in vivo rat-tail model. Medical Engineering & Physics 2004; 26:
587-594 (SCI) [37]
CTS Ching, DHK Chow*, FYD Yao and AD Holmes. The effect of
cyclic compression on the mechanical properties of the inter-vertebral disc:
An in vivo study in a rat tail model. Clinical Biomechanics 2003; 18: 182-189
(SCI) |
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