Bimetallic Nanocatalysts Immobilized in Nanoporous Hydrogels for Long‐Term Robust Continuous Glucose Monitoring of Smart Contact Lens
Smart contact lenses for continuous glucose monitoring (CGM) have great potential for huge clinical impact. To date, their development has been limited by challenges in accurate detection of glucose without hysteresis for tear glucose monitoring to track the blood glucose levels. Here, long‐term rob...
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| Published in: | Advanced materials (Weinheim) Vol. 34; no. 18; pp. e2110536 - n/a |
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| Main Authors: | , , , , , , , , , , , |
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| Abstract | Smart contact lenses for continuous glucose monitoring (CGM) have great potential for huge clinical impact. To date, their development has been limited by challenges in accurate detection of glucose without hysteresis for tear glucose monitoring to track the blood glucose levels. Here, long‐term robust CGM in diabetic rabbits is demonstrated by using bimetallic nanocatalysts immobilized in nanoporous hydrogels in smart contact lenses. After redox reaction of glucose oxidase, the nanocatalysts facilitate rapid decomposition of hydrogen peroxide and nanoparticle‐mediated charge transfer with drastically improved diffusion via rapid swelling of nanoporous hydrogels. The ocular glucose sensors result in high sensitivity, fast response time, low detection limit, low hysteresis, and rapid sensor warming‐up time. In diabetic rabbits, smart contact lens can detect tear glucose levels consistent with blood glucose levels measured by a glucometer and a CGM device, reflecting rapid concentration changes without hysteresis. The CGM in a human demonstrates the feasibility of smart contact lenses for further clinical applications.
Smart contact lenses containing bimetallic nanocatalysts immobilized in nanoporous hydrogels are developed for long‐term and robust continuous glucose monitoring. The smart contact lenses can accurately monitor increasing and decreasing blood glucose levels with 92.2% acceptable data in diabetic and normal rabbits. Finally, the clinical feasibility and safety of smart contact lenses are evaluated on the eyes of a human patient. |
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| AbstractList | Smart contact lenses for continuous glucose monitoring (CGM) have great potential for huge clinical impact. To date, their development has been limited by challenges in accurate detection of glucose without hysteresis for tear glucose monitoring to track the blood glucose levels. Here, long-term robust CGM in diabetic rabbits is demonstrated by using bimetallic nanocatalysts immobilized in nanoporous hydrogels in smart contact lenses. After redox reaction of glucose oxidase, the nanocatalysts facilitate rapid decomposition of hydrogen peroxide and nanoparticle-mediated charge transfer with drastically improved diffusion via rapid swelling of nanoporous hydrogels. The ocular glucose sensors result in high sensitivity, fast response time, low detection limit, low hysteresis, and rapid sensor warming-up time. In diabetic rabbits, smart contact lens can detect tear glucose levels consistent with blood glucose levels measured by a glucometer and a CGM device, reflecting rapid concentration changes without hysteresis. The CGM in a human demonstrates the feasibility of smart contact lenses for further clinical applications. Smart contact lenses for continuous glucose monitoring (CGM) have great potential for huge clinical impact. To date, their development has been limited by challenges in accurate detection of glucose without hysteresis for tear glucose monitoring to track the blood glucose levels. Here, long‐term robust CGM in diabetic rabbits is demonstrated by using bimetallic nanocatalysts immobilized in nanoporous hydrogels in smart contact lenses. After redox reaction of glucose oxidase, the nanocatalysts facilitate rapid decomposition of hydrogen peroxide and nanoparticle‐mediated charge transfer with drastically improved diffusion via rapid swelling of nanoporous hydrogels. The ocular glucose sensors result in high sensitivity, fast response time, low detection limit, low hysteresis, and rapid sensor warming‐up time. In diabetic rabbits, smart contact lens can detect tear glucose levels consistent with blood glucose levels measured by a glucometer and a CGM device, reflecting rapid concentration changes without hysteresis. The CGM in a human demonstrates the feasibility of smart contact lenses for further clinical applications. Smart contact lenses containing bimetallic nanocatalysts immobilized in nanoporous hydrogels are developed for long‐term and robust continuous glucose monitoring. The smart contact lenses can accurately monitor increasing and decreasing blood glucose levels with 92.2% acceptable data in diabetic and normal rabbits. Finally, the clinical feasibility and safety of smart contact lenses are evaluated on the eyes of a human patient. |
| Author | Lee, Geon‐Hui Joo, Choun‐Ki Jeon, Cheonhoo Kim, Seong‐Jong Bao, Zhenan Hahn, Sei Kwang Han, Hye Hyeon Mok, Jee Won Myung, David Kim, Su‐Kyoung Shin, Sangbaie Sim, Jae‐Yoon |
| Author_xml | – sequence: 1 givenname: Su‐Kyoung surname: Kim fullname: Kim, Su‐Kyoung organization: Pohang University of Science and Technology (POSTECH) – sequence: 2 givenname: Geon‐Hui surname: Lee fullname: Lee, Geon‐Hui organization: Pohang University of Science and Technology (POSTECH) – sequence: 3 givenname: Cheonhoo surname: Jeon fullname: Jeon, Cheonhoo organization: POSTECH – sequence: 4 givenname: Hye Hyeon surname: Han fullname: Han, Hye Hyeon organization: Pohang University of Science and Technology (POSTECH) – sequence: 5 givenname: Seong‐Jong surname: Kim fullname: Kim, Seong‐Jong organization: Pohang University of Science and Technology (POSTECH) – sequence: 6 givenname: Jee Won surname: Mok fullname: Mok, Jee Won organization: The Catholic University of Korea – sequence: 7 givenname: Choun‐Ki surname: Joo fullname: Joo, Choun‐Ki organization: The Catholic University of Korea – sequence: 8 givenname: Sangbaie surname: Shin fullname: Shin, Sangbaie organization: PHI BIOMED Co – sequence: 9 givenname: Jae‐Yoon surname: Sim fullname: Sim, Jae‐Yoon organization: POSTECH – sequence: 10 givenname: David surname: Myung fullname: Myung, David organization: Byers Eye Institute at Stanford University School of Medicine – sequence: 11 givenname: Zhenan surname: Bao fullname: Bao, Zhenan organization: Stanford University – sequence: 12 givenname: Sei Kwang orcidid: 0000-0002-7718-6259 surname: Hahn fullname: Hahn, Sei Kwang email: skhanb@postech.ac.kr organization: PHI BIOMED Co |
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| Keywords | diabetic diagnosis hydrogels wearable healthcare devices bimetallic nanocatalysts continuous glucose monitoring nanoporous structure contact lens devices |
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| Snippet | Smart contact lenses for continuous glucose monitoring (CGM) have great potential for huge clinical impact. To date, their development has been limited by... |
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| SubjectTerms | Animals bimetallic nanocatalysts Bimetals Blood Blood Glucose Blood Glucose Self-Monitoring Charge transfer contact lens devices Contact Lenses continuous glucose monitoring Decomposition reactions Diabetes Diabetes Mellitus diabetic diagnosis Glucose Glucose monitoring Glucose oxidase Hydrogels Hydrogen peroxide Hysteresis Materials science Monitoring Nanoparticles Nanopores nanoporous structure Rabbits Redox reactions Response time Robustness wearable healthcare devices |
| Title | Bimetallic Nanocatalysts Immobilized in Nanoporous Hydrogels for Long‐Term Robust Continuous Glucose Monitoring of Smart Contact Lens |
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