Published on in Vol 5, No 7 (2017): July

Smartphone-Based Endoscope System for Advanced Point-of-Care Diagnostics: Feasibility Study

Smartphone-Based Endoscope System for Advanced Point-of-Care Diagnostics: Feasibility Study

Smartphone-Based Endoscope System for Advanced Point-of-Care Diagnostics: Feasibility Study

Journals

  1. Shen L, Wang S, Dai W, Zhang Z. Detecting the Interdisciplinary Nature and Topic Hotspots of Robotics in Surgery: Social Network Analysis and Bibliometric Study. Journal of Medical Internet Research 2019;21(3):e12625 View
  2. Alawsi T, Al‐Bawi Z. A review of smartphone point‐of‐care adapter design. Engineering Reports 2019;1(2) View
  3. Moon Y, Oh J, Hyun J, Kim Y, Choi J, Namgoong J, Kim J. Cost-Effective Smartphone-Based Articulable Endoscope Systems for Developing Countries: Instrument Validation Study. JMIR mHealth and uHealth 2020;8(9):e17057 View
  4. Davidson J, Ford K, Ade-Ajayi N, Paul A. Improvise, Adapt, Overcome: mobile phone LED used as a light source for cystoscopy and resection of posterior urethral valves in a low-cost setting. Journal of Pediatric Urology 2019;15(1):85 View
  5. Masuoka Y, Morikawa H, Kawai T, Nakagohri T. Use of Smartphone-Based Head-Mounted Display Devices to View a Three-Dimensional Dissection Model in a Virtual Reality Environment: Pilot Questionnaire Study. JMIR Medical Education 2019;5(1):e11921 View
  6. Bae J, Roh H, You J, Kim K, Ahn Y, Askaruly S, Park K, Yang H, Jang G, Moon K, Jung W. Quantitative Screening of Cervical Cancers for Low-Resource Settings: Pilot Study of Smartphone-Based Endoscopic Visual Inspection After Acetic Acid Using Machine Learning Techniques. JMIR mHealth and uHealth 2020;8(3):e16467 View
  7. Lazarus J, Ncube M. A low-cost wireless endoscope camera: a preliminary report. African Journal of Urology 2021;27(1) View
  8. Cukic O. Office‐Based Removal of Vocal Fold Polyp During the COVID‐19 Pandemic. The Laryngoscope 2022;132(1):103 View
  9. Kim Y, Oh J, Choi S, Jung A, Lee J, Lee Y, Kim J. A Portable Smartphone-Based Laryngoscope System for High-Speed Vocal Cord Imaging of Patients With Throat Disorders: Instrument Validation Study. JMIR mHealth and uHealth 2021;9(6):e25816 View
  10. Kim Y, Choi W, Oh J, Kim J. Compact Smartphone-Based Laser Speckle Contrast Imaging Endoscope Device for Point-of-Care Blood Flow Monitoring. Biosensors 2022;12(6):398 View
  11. Chen C, Huang C, Cheng H, Lin H, Chu Y, Chang C, Lai Y, Wang M, Cheng Y. Smartphone-Enabled versus Conventional Otoscopy in Detecting Middle Ear Disease: A Meta-Analysis. Diagnostics 2022;12(4):972 View
  12. Shen Jialin 沈, Zhang Peiming 张, Ni Jia 倪, Wang Ying 王, Liu Xiao 刘. 智能手机成像系统在临床辅助诊断中的应用. Laser & Optoelectronics Progress 2023;60(20):2000003 View
  13. Barzallo D, Ferrer L, Palacio E. Eco-friendly screening method for sulfonamides using a 3D handheld smartphone-based fluorescence detection device and graphene nanoplatelet-packed pipette tip microextraction. Journal of Environmental Chemical Engineering 2024;12(2):111888 View
  14. Chen K, Tzeng S, Chen H. Artificial intelligence-assisted grading for tear trough deformity. Journal of Plastic, Reconstructive & Aesthetic Surgery 2024;97:133 View
  15. de Lange J, Baatjes K, Marthinussen C, Correia J. Wireless Ultrasound Devices in Anatomy Education: Insights from Medical Undergraduates. Medical Science Educator 2024 View
  16. Song B, Liang R. Integrating artificial intelligence with smartphone-based imaging for cancer detection in vivo. Biosensors and Bioelectronics 2025;271:116982 View

Books/Policy Documents

  1. Boughizane S, Bannour B, Bannour I, Hacheni F, Masmoudi M, Boughizane J, Youssef S. Medical Education for the 21st Century. View
  2. Saylan Y, Akgönüllü S, Özgür E, Denizli A. Nanotechnology-Based Smart Remote Sensing Networks for Disaster Prevention. View
  3. Uzun Ozsahin D, Emegano D, Hassan A, Aldakhil M, Banat A, Duwa B, Ozsahin I. Practical Design and Applications of Medical Devices. View