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Feasibility Evaluation of Metamaterial Microwave Sensors for Non-Invasive Blood Glucose Monitoring
L. Malena, O. Fiser, PR. Stauffer, T. Drizdal, J. Vrba, D. Vrba
Jazyk angličtina Země Švýcarsko
Typ dokumentu časopisecké články
        Grantová podpora
          
              LTC19031; SGS21/179/OHK4/3T/17 
          
      Ministry of Education, Youth and Sports of the Czech Republic; Student Grant Competition of CTU   
      
      
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      Directory of Open Access Journals
   
    od 2001
   
      PubMed Central
   
    od 2003
   
      Europe PubMed Central
   
    od 2003
   
      ProQuest Central
   
    od 2001-01-01
   
      Open Access Digital Library
   
    od 2001-01-01
   
      Open Access Digital Library
   
    od 2003-01-01
   
      Health & Medicine (ProQuest)
   
    od 2001-01-01
   
      ROAD: Directory of Open Access Scholarly Resources
   
    od 2001
    
    PubMed
          
           34696084
           
          
          
    DOI
          
           10.3390/s21206871
           
          
          
  
    Knihovny.cz E-zdroje
    
  
              
      
- MeSH
- krevní glukóza * MeSH
- lidé MeSH
- mikrovlny MeSH
- monitorování fyziologických funkcí MeSH
- selfmonitoring glykemie * MeSH
- studie proveditelnosti MeSH
- Check Tag
- lidé MeSH
- Publikační typ
- časopisecké články MeSH
The use of microwave technology is currently under investigation for non-invasive estimation of glycemia in patients with diabetes. Due to their construction, metamaterial (MTM)-based sensors have the potential to provide higher sensitivity of the phase shift of the S21 parameter (∠S21) to changes in glucose concentration compared to standard microstrip transmission line (MSTL)-based sensors. In this study, a MSTL sensor and three MTM sensors with 5, 7, and 9 MTM unit cells are exposed to liquid phantoms with different dielectric properties mimicking a change in blood glucose concentration from 0 to 14 mmol/L. Numerical models were created for the individual experiments, and the calculated S-parameters show good agreement with experimental results, expressed by the maximum relative error of 8.89% and 0.96% at a frequency of 1.99 GHz for MSTL and MTM sensor with nine unit cells, respectively. MTM sensors with an increasing number of cells show higher sensitivity of 0.62° per mmol/L and unit cell to blood glucose concentration as measured by changes in ∠S21. In accordance with the numerical simulations, the MTM sensor with nine unit cells showed the highest sensitivity of the sensors proposed by us, with an average of 3.66° per mmol/L at a frequency of 1.99 GHz, compared to only 0.48° per mmol/L for the MSTL sensor. The multi-cell MTM sensor has the potential to proceed with evaluation of human blood samples.
Department of Radiation Oncology Thomas Jefferson University Philadelphia PA 19107 USA
Faculty of Biomedical Engineering Czech Technical University Prague 160 00 Prague Czech Republic
Citace poskytuje Crossref.org
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