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Top-notch new technologies for tissues and bacterial cultures: New wireless diagnostics and new techniques in training

Poster Session 83

  • Location:
    Room Amsterdam, North Hall (Level 1)
  • Chairs:
     T.E. Bjerklund Johansen, Oslo (NO)
     Y.S. Kyung, Seoul (KR)
  • Aims and objectives of this session

    To identify new technologies for training, diagnosing infections and wireless diagnostics for urological applications.

  • Poster viewing of 20 minutes. Presentations will take place on stage. Standard presentations are 2 minutes in length, followed by 2 minutes for discussion.
1098
Dynamic imaging of urine flow at bladder neck during voiding by wireless capsule endoscopes in vivo

By: Yamamoto T.1, Mizuno H.1, Soh S.2, Funanshi Y.1, Matsukawa Y.1, Nakamura M.3, Gotoh M.1

Institutes: 1Nagoya University Graduate School of Medicine, Dept. of Urology, Nagoya, Japan, 2Dokkyo Medical University, Dept. of Urology, Koshigaya, Japan, 3Nagoya University Graduate School of Medicine, Dept. of Gastroenterology, Nagoya, Japan

1099
Wireless micro-robots for endoscopic applications in urology

By: Adams F.1, Qiu T.2, Mark A.2, Melde K.2, Palagi S.2, Miernik A.1, Fischer P.2

Institutes: 1University Hospital Freiburg, Dept. of Urology, Freiburg, Germany, 2Max Planck Institute For Intelligent Systems, Micro Nano and Molecular Systems, Stuttgart, Germany

1100
Measures of pelvic floor strength by age and parity using the Elvie device

By: Coggins J. 1, Cartwright R.2, Bergmann J.3

Institutes: 1Chiaro Technology Ltd., Data Science Department, London, United Kingdom, 2Imperial College London, Faculty of Medicine, School of Public Health, London, United Kingdom, 3University of Oxford, Institute of Biomedical Engineering, Oxford, United Kingdom

1101
Experimental study on establishing tissue engineered bionic urethra by cell sheet technology and labeled by ultrasmall super-paramagnetic iron oxide (USPIO) for full-thickness urethral reconstruction

By: Fu Q., Zhou S.

Institutes: Shanghai Sixth People’s Hospital, Dept. of Urology, Shanghai, China

1102
Modifying the surface chemistry of biomaterials designed for surgical treatment of stress urinary incontinence to reduce bacterial adhesion

By: Roman S.1, Mangir N.1, Chapple C.2, McArthur S.L.3, MacNeil S.1

Institutes: 1University of Sheffield, Dept. of Material Science and Engineering, Sheffield, United Kingdom, 2Royal Hallamshire Hospital, Dept. of Urology, Sheffield, United Kingdom, 3Swinburne University of Thechnology, Biointerface Engineering Group and Polymer Nanointerface Engineering Group, Melbourne, Australia

1103
Surface acoustic waves prevent bacterial colonization in indwelling urinary catheters

By: Rosenblum J.1, Markowitz S.2, Goldstein M.3

Institutes: 1Shaarei Zedek Medical Center, Dept. of Urology, Bet Shemesh, Israel, 2Shaarei Zedek Medical Center, Dept of Urology, Bet Shemesh, Israel, 3Private Practice, Dept. of Urology, Bet Shemesh, Israel

1104
Photodynamic therapy’s use in reduction in vitro of prevalent bacteria in Fournier’s gangrene

By: Pereira N., Feitosa L., Navarro R., Kozusni-Andreani D., Carvalho N.

Institutes: Unicastelo, Dept. of Biomedical Engineering, São Paulo, Brazil

1105
Analysis of errors in 3D printing phantoms for partial nephrectomy

By: Kyung Y.S.1, Choi S.Y.3, Kim G.B.2, Song H.K.2, Kim H.2, You D.3, Jeong I.G.3, Homg J.H.3, Kim N.2, Kim C-S.3

Institutes: 1University of Ulsan College of Medicine, Asan Medical Center, Dept. of Health Screening and Promotion Center, Seoul, South Korea, 2University of Ulsan College of Medicine, Asan Medical Center, Dept. of Biomedical Engineering Research Center, Seoul, South Korea, 3University of Ulsan College of Medicine, Asan Medical Center, Dept. of Urology, Seoul, South Korea

1106
Feasibility and safety of augmented reality-assisted urological surgery

By: Rodríguez Socarrás M.E.1, Tortolero Blanco L.2, Salem J.3, Tsaur I.4, Gomez-Rivas J.5, Barret E.6, Borgmann H.4

Institutes: 1University Hospital Alvaro Cunqueiro, Dept. of Urology, Vigo, Spain, 2University Hospital Vinalopo, Dept. of Urology, Elche, Spain, 3University Hospital Cologne, Dept. of Urology, Cologne, Germany, 4University Hospital Mainz, Dept. of Urology, Mainz, Germany, 5University Hospital La Paz, Dept. of Urology, Madrid, Spain, 6Institut Montsouris, Université Paris-Descartes, Dept. of Urology, Paris, France

1107
Video analysis of skill and technique (VAST): Machine learning to assess the technical skill of surgeons performing robotic prostatectomy

By: Ghani K.1, Liu Y.2, Law H.2, He D.2, Miller D.1, Montie J.1, Deng J.2

Institutes: 1University of Michigan, Dept. of Urology, Ann Arbor, United States of America, 2University of Michigan, Dept. of Computer Science & Engineering, Ann Arbor, United States of America

1108
During endoscopic surgery, eye fatigue in surgeons can be reduced by wearing polarized lens glasses

By: Iwabuchi T., Kawano Y., Narumi S., Oiwa Y., Ottomo T., Yokoyama H., Noda Y., Ishikawa S., Watanabe H., Uetani M., Yamamoto R., Hriu K., Minowada S.

Institutes: Tokyo Nephro Urology Center, Yamato Hospital, Dept. of Urology, Tokyo, Japan

1109
Folic acid-conjugated AuAg nanoparticles combined surface enhanced Raman spectroscopy for rapid detection of bladder cancers in urine

By: Chuang T.Y.1, Chiu Y.C.1, Yang Y.T.2, Lin C.H.3, Liao M.Y.4, Huang C.C.3

Institutes: 1Taipei City Hospital, Zhongxiao Branch, Dept. of Urology, Taipei, Taiwan, 2National Pingtung University, Dept. of Applied Chemistry, Pingtung, Taiwan, 3Center For Micro/Nano Science and Technology and Advanced Optoelectronic Technology Center, National, Dept. of Photonics, Tainan, Taiwan, 4National Cheng Kung University, Medical Laboratory Science and Biotechnology, Tainan, Taiwan

Summary
 E. Liatsikos, Patras (GR)