Mohammad Reza Bahmanyar scite author profile

In this paper, the development of a fully implantable wireless sensor able to provide continuous real-time accurate pressure measurements is presented. Surface Acoustic Wave (SAW) technology was used to deposit resonators on crystalline quartz wafers; the wafers were then assembled to produce a pressure sensitive device. Excitation and reading via a miniature antenna attached to the pressure sensor enables continuous external interrogation. The main advantages of such a configuration are the long term stability of quartz and the low power necessary for the interrogation, which allows 24/7 interrogation by means of a hand-held, battery powered device. Such data are of vital importance to clinicians monitoring and treating the effects of hypertension and heart failure. A prototype was designed and tested using both a bio-phantom test rig and an animal model. The pressure traces for both compare very well with a commercially available catheter tip pressure transducer. The work presented in this paper is the first known wireless pressure data from the left ventricle of the heart of a living swine.

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Automated Aortic Doppler Flow Tracing for Reproducible Research and Clinical Measurements

Zolgharni

Dhutia

Cole

et al. 2014

IEEE Trans. Med. Imaging

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A numerical design study of chaotic mixing of magnetic particles in a microfluidic bio-separator

Zolgharni¹,

Azimi²,

Bahmanyar³

et al. 2007

Microfluid Nanofluid

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A two-dimensional numerical investigation into the mixing of magnetic microparticles with bio-cells in a chaotic micromixer is carried out by using a multiphysics finite element analysis package. Fluid and magnetic problems are simulated in steady-state and time-dependent modes, respectively. Intensity of segregation is utilized as the main index to examine the efficiency of the mixer. Trajectories of the particles are used in order to detect chaos in their motion and quantify its extent. Moreover, probability of the collision between particles and target bio-cells is examined as a supplemental index to study the effects of driving parameters on the mixing process. Simulation results reveal that while in some ranges of operating conditions all indices are in good agreement, there are some ranges where they appear to predict contradicting results which is discussed in details. It is found that optimum operating conditions for the system is obtained when the Strouhal number is less than 0.6, which corresponds to the efficiency of about 85% in a mixing length of 500 lm (The mixer design described here is patent pending).

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Wireless Interrogation of Implantable SAW Sensors

Zou¹,

McLeod

Bahmanyar

2020

IEEE Trans. Biomed. Eng.

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A technique for advanced manufacturing systems capability evaluation and comparison (ACEC)

Mousavi

Bahmanyar

Sarhadi

et al. 2006

Int J Adv Manuf Technol

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