Imperial College London

Dr Mohammad Reza Bahmanyar

Faculty of EngineeringDepartment of Electrical and Electronic Engineering

Research Fellow
 
 
 
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Contact

 

+44 (0)20 7594 0842m.bahmanyar

 
 
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Location

 

420BBessemer BuildingSouth Kensington Campus

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Summary

 

Publications

Publication Type
Year
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2 results found

Zou L, McLeod C, Bahmanyar MR, 2020, Wireless interrogation of implantable SAW sensors, IEEE Transactions on Biomedical Engineering, Vol: 67, Pages: 1409-1417, ISSN: 0018-9294

Implantable sensors provide long-term, accurate physiological measurements after a minimally invasive procedure, particularly when designed as transponders. Wireless interrogation of deeply implanted transponders with RF remains a challenge due to the high loss at the skin-air interface and large tissue RF absorption. This paper presents a system for wirelessly interrogating surface acoustic wave (SAW) sensors implanted in the main pulmonary artery (PA), where the pressure (PAP) is a very important parameter in the management of heart failure patients. The proposed PAP monitoring system consists of an implantable SAW pressure sensor integrated with an antenna and anchor in a housing, an external antenna and an electronic interrogator. The PAP is determined by measuring the frequency of the echo signal from SAW sensor accurately. An asymmetric antenna was designed and integrated with the sensor. The combination of simulation, theoretical calculation and phantom measurement indicates that the path loss to the implant location, about 6 cm below the skin, is around 25 dB. A portable interrogator was designed based on a dual conversion receiver and single echo high frequency sampling approach to assess achievable frequency estimation accuracy predicted by Cramer-Rao Lower Bound (CRLB) analysis. The system was characterized using a high quality (Q) factor SAW sensor, fabricated at wafer level, wire-connected to the interrogator via an attenuator to simulate path loss. The signal-to-noise ratio (SNR) of captured echo signals was calculated and used in CRLB analysis. The analysis indicates that without using signal post processing, the sensor sensitivity has to be at least 440 Hz/mmHg in order to achieve a target 1 mmHg accuracy. Although the current sensor sensitivity is only 200 Hz/mmHg, the in vivo measurement showed that acceptable accuracy can be obtained by signal post processing. The results from an invasive catheter tip transducer measured simultaneously with the SA

Journal article

Lee S, Aguib H, Chapron J, Bahmanyar R, Borghi A, Murphy O, McLeod C, ElGuindy A, Yacoub Met al., 2016, Spatial Orientation and Morphology of the Pulmonary Artery: Relevance to Optimising Design and Positioning of a Continuous Pressure Monitoring Device, Journal of Cardiovascular Translational Research, Vol: 9, Pages: 239-248, ISSN: 1937-5387

Personalised treatment of heart disease requires an understanding of the patient-specific characteristics,which can vary over time. A newly developed implantable surface acoustic wave pressure sensor, capable ofcontinuous monitoring of the left ventricle filling pressure, is a novel device for personalised management ofpatients with heart disease. However, a one-size-fits-all approach to device sizing will affect its positioningwithin the pulmonary artery and its relationship to the interrogating device on the chest wall on a patientspecificlevel. In this paper, we analyse the spatial orientation and morphology of the pulmonary artery and itsmain branches in patients who could benefit from the device and normal controls. The results could optimisethe design of the sensor, its stent, and importantly its placement, ensuring long-term monitoring in patientgroups.

Journal article

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