Flexible biomedical RF sensors to quantify the purity of medical grade glycerol and glucose concentrations

Tiwari, Nilesh Kumar; Singh, Surya Prakash; Mondal, Debasish; Akhtar, M. Jaleel

doi:10.1017/s1759078719001089

Cited by 33 publications

(21 citation statements)

References 34 publications

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“…Another important key restrict factor is the limited measurement applications based on microwave planar resonators. Most of the researchers focused on the liquid materials’ detection along with their binary mixtures or concentrations [ 82 , 95 , 118 , 133 , 134 , 135 , 136 ], while others focused on certain applications such as solid material detection [ 93 , 137 , 138 ], aqueous glucose detection [ 10 , 83 , 134 , 139 ] and food detection [ 74 ]. Therefore, there is the desire for novel sensors that could be applied in various measurement applications and offer an enhanced performance with lower production cost.…”

Section: Discussion and Research Challengesmentioning

confidence: 99%

“…The transmission and reflection measurement techniques are considered in this comparison. Most of the researchers focused on liquid materials' detection along with their binary mixtures or concentrations [82,95,118,[133][134][135][136], while others focused on certain applications such as solid material detection [93,137,138], aqueous glucose detection [10,83,134,139] and food detection [74].…”

Section: Open Challengesmentioning

confidence: 99%

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Review of Recent Microwave Planar Resonator-Based Sensors: Techniques of Complex Permittivity Extraction, Applications, Open Challenges and Future Research Directions

Alahnomi

Zakaria

Yussof

et al. 2021

Sensors

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Recent developments in the field of microwave planar sensors have led to a renewed interest in industrial, chemical, biological and medical applications that are capable of performing real-time and non-invasive measurement of material properties. Among the plausible advantages of microwave planar sensors is that they have a compact size, a low cost and the ease of fabrication and integration compared to prevailing sensors. However, some of their main drawbacks can be considered that restrict their usage and limit the range of applications such as their sensitivity and selectivity. The development of high-sensitivity microwave planar sensors is required for highly accurate complex permittivity measurements to monitor the small variations among different material samples. Therefore, the purpose of this paper is to review recent research on the development of microwave planar sensors and further challenges of their sensitivity and selectivity. Furthermore, the techniques of the complex permittivity extraction (real and imaginary parts) are discussed based on the different approaches of mathematical models. The outcomes of this review may facilitate improvements of and an alternative solution for the enhancement of microwave planar sensors’ normalized sensitivity for material characterization, especially in biochemical and beverage industry applications.

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Section: Discussion and Research Challengesmentioning

confidence: 99%

Section: Open Challengesmentioning

confidence: 99%

Review of Recent Microwave Planar Resonator-Based Sensors: Techniques of Complex Permittivity Extraction, Applications, Open Challenges and Future Research Directions

Alahnomi

Zakaria

Yussof

et al. 2021

Sensors

View full text Add to dashboard Cite

show abstract

“…More complex approaches combining a larger number of SRR have reported interesting sensitivity raises [41]. In order to increase the line capacitance of the sensor, interdigital capacitor gaps have been considered in different configurations for water-glucose measurements [30,124,125]. The use of complementary electric LC resonators has also been reported for microfluidic applications with aqueous and biological samples [108,126] (see Figure 3b).…”

Section: Resonant Frequency-based Sensorsmentioning

confidence: 99%

Microwave Planar Resonant Solutions for Glucose Concentration Sensing: A Systematic Review

et al. 2021

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The measurement of glucose concentration finds interesting potential applications in both industry and biomedical contexts. Among the proposed solutions, the use of microwave planar resonant sensors has led to remarkable scientific activity during the last years. These sensors rely on the changes in the dielectric properties of the medium due to variations in the glucose concentration. These devices show electrical responses dependent on the surrounding dielectric properties, and therefore the changes in their response can be related to variations in the glucose content. This work shows an up-to-date review of this sensing approach after more than one decade of research and development. The attempts involved are sorted by the sensing parameter, and the computation of a common relative sensitivity to glucose is proposed as general comparison tool. The manuscript also discusses the key points of each sensor category and the possible future lines and challenges of the sensing approach.

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“…Glucose sensing is an area in which a lot of different sensors have been developed [ 18 , 19 , 20 , 21 ]. Microwave sensors developed on flexible substrate materials are also researched with the added benefit of having a sensor that is conformal to the body and not a rigid structure [ 22 , 23 , 24 ]. Also, the feasibility of using the fat channel for intra-body communication at microwave frequencies has been studied [ 25 ].…”

Section: Introductionmentioning

confidence: 99%

MAS: Standalone Microwave Resonator to Assess Muscle Quality

Mattsson

Ackermans

Mandal

et al. 2021

Sensors

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Microwave-based sensing for tissue analysis is recently gaining interest due to advantages such as non-ionizing radiation and non-invasiveness. We have developed a set of transmission sensors for microwave-based real-time sensing to quantify muscle mass and quality. In connection, we verified the sensors by 3D simulations, tested them in a laboratory on a homogeneous three-layer tissue model, and collected pilot clinical data in 20 patients and 25 healthy volunteers. This report focuses on initial sensor designs for the Muscle Analyzer System (MAS), their simulation, laboratory trials and clinical trials followed by developing three new sensors and their performance comparison. In the clinical studies, correlation studies were done to compare MAS performance with other clinical standards, specifically the skeletal muscle index, for muscle mass quantification. The results showed limited signal penetration depth for the Split Ring Resonator (SRR) sensor. New sensors were designed incorporating Substrate Integrated Waveguides (SIW) and a bandstop filter to overcome this problem. The sensors were validated through 3D simulations in which they showed increased penetration depth through tissue when compared to the SRR. The second-generation sensors offer higher penetration depth which will improve clinical data collection and validation. The bandstop filter is fabricated and studied in a group of volunteers, showing more reliable data that warrants further continuation of this development.

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Flexible biomedical RF sensors to quantify the purity of medical grade glycerol and glucose concentrations

Cited by 33 publications

References 34 publications

Review of Recent Microwave Planar Resonator-Based Sensors: Techniques of Complex Permittivity Extraction, Applications, Open Challenges and Future Research Directions

Review of Recent Microwave Planar Resonator-Based Sensors: Techniques of Complex Permittivity Extraction, Applications, Open Challenges and Future Research Directions

Microwave Planar Resonant Solutions for Glucose Concentration Sensing: A Systematic Review

MAS: Standalone Microwave Resonator to Assess Muscle Quality

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