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Literature DB >> 15617259

Current problems and potential techniques in in vivo glucose monitoring.

Abstract

Accurate in vivo monitoring of glucose concentration would be a valuable asset, particularly for management of diabetes and preterm infants during critical care. In vivo glucose monitoring devices can be divided into two categories: implanted and non-invasive. Extensive research into in vivo glucose monitoring over recent decades has not resulted in the widespread use of clinically reliable monitoring systems. For implanted devices, poor biocompatibility of the materials used for fabrication remains a major challenge, whilst progress in the commercial development of non-invasive devices is hampered by the problem of multiple interference between the detected signals and the biological components. In this review, the methods available for in in-vivo glucose monitoring are described and the associated problems are discussed.

Entities: Chemical Disease Species

Mesh：

Substances：
Blood Glucose

Year: 2004 PMID： 15617259 DOI： 10.1023/b:jofl.0000039339.36839.19

Source DB: PubMed Journal: J Fluoresc ISSN： 1053-0509 Impact factor: 2.217

45 in total

1. Simulations of the frequency response of implantable glucose sensors.

Authors: M Jablecki; D A Gough
Journal: Anal Chem Date: 2000-04-15 Impact factor: 6.986

Review 2. The MiniMed Continuous Glucose Monitoring System (CGMS).

Authors: J Mastrototaro
Journal: J Pediatr Endocrinol Metab Date: 1999 Impact factor: 1.634

3. Electrochemically mediated electrodeposition/electropolymerization to yield a glucose microbiosensor with improved characteristics.

Authors: Xiaohong Chen; Norio Matsumoto; Yibai Hu; George S Wilson
Journal: Anal Chem Date: 2002-01-15 Impact factor: 6.986

4. Electrode systems for continuous monitoring in cardiovascular surgery.

Authors: L C CLARK; C LYONS
Journal: Ann N Y Acad Sci Date: 1962-10-31 Impact factor: 5.691

5. Improved performance of intravascular pO2 sensor incorporating poly(MPC-co-BMA) membrane.

Authors: S Zhang; G Wright; M A Kingston; P Rolfe
Journal: Med Biol Eng Comput Date: 1996-07 Impact factor: 2.602

Review 6. Non-invasive glucose monitoring.

Authors: M A Arnold
Journal: Curr Opin Biotechnol Date: 1996-02 Impact factor: 9.740

7. Reverse iontophoretic monitoring in premature neonates: feasibility and potential.

Authors: N Sekkat; A Naik; Y N Kalia; P Glikfeld; R H Guy
Journal: J Control Release Date: 2002-05-17 Impact factor: 9.776

8. Continuous subcutaneous glucose monitoring in diabetic patients: a multicenter analysis.

Authors: Alberto Maran; Cristina Crepaldi; Antonio Tiengo; Giorgio Grassi; Emanuela Vitali; Gianfranco Pagano; Sergio Bistoni; Giuseppe Calabrese; Fausto Santeusanio; Frida Leonetti; Maria Ribaudo; Umberto Di Mario; Giovanni Annuzzi; Salvatore Genovese; Gabriele Riccardi; Marcello Previti; Domenico Cucinotta; Francesco Giorgino; Aurelia Bellomo; Riccardo Giorgino; Alessandro Poscia; Maurizio Varalli
Journal: Diabetes Care Date: 2002-02 Impact factor: 19.112

9. Continuous glucose monitoring: reliable measurements for up to 4 days with the SCGM1 system.

Authors: Christoph Kapitza; Volker Lodwig; Karin Obermaier; Klaas Jan C Wientjes; Klaas Hoogenberg; Karsten Jungheim; Lutz Heinemann
Journal: Diabetes Technol Ther Date: 2003 Impact factor: 6.118

10. A Glucose Sensing Contact Lens: A Non-Invasive Technique for Continuous Physiological Glucose Monitoring.

Authors: Ramachandram Badugu; Joseph R Lakowicz; Chris D Geddes
Journal: J Fluoresc Date: 2003-09 Impact factor: 2.217

15 in total

Review 1. A glucose-sensing contact lens: from bench top to patient.

Authors: Ramachandram Badugu; Joseph R Lakowicz; Chris D Geddes
Journal: Curr Opin Biotechnol Date: 2005-02 Impact factor: 9.740

2. Recent advances in continuous glucose monitoring: biocompatibility of glucose sensors for implantation in subcutis.

Authors: Peter H Kvist; Henrik E Jensen
Journal: J Diabetes Sci Technol Date: 2007-09

3. "Smart tattoo" glucose biosensors and effect of coencapsulated anti-inflammatory agents.

Authors: Rohit Srivastava; Rahul Dev Jayant; Ayesha Chaudhary; Michael J McShane
Journal: J Diabetes Sci Technol Date: 2011-01-01

Review 4. Single walled carbon nanotubes as reporters for the optical detection of glucose.

Authors: Paul W Barone; Michael S Strano
Journal: J Diabetes Sci Technol Date: 2009-03-01

Review 5. Single-walled carbon nanotube-based near-infrared optical glucose sensors toward in vivo continuous glucose monitoring.

Authors: Kyungsuk Yum; Thomas P McNicholas; Bin Mu; Michael S Strano
Journal: J Diabetes Sci Technol Date: 2013-01-01

9. Noninvasive ultrasonic glucose sensing with large pigs (approximately 200 pounds) using a lightweight cymbal transducer array and biosensors.

Authors: Eun-Joo Park; Jacob Werner; Joshua Beebe; Samantha Chan; Nadine Barrie Smith
Journal: J Diabetes Sci Technol Date: 2009-05-01

Review 10. Recent advances in fluorescent arylboronic acids for glucose sensing.

Authors: Jon Stefan Hansen; Jørn Bolstad Christensen
Journal: Biosensors (Basel) Date: 2013-12-10