D. Fotiadis scite author profile

D. Fotiadis

4Publications

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Aristotle University of Thessaloniki

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Experimental Evaluation of an Invasive Medical Instrument Based on a Displacement Measurement System

Fotiadis

Astaras

Bamidis

et al. 2015

IEEE J. Biomed. Health Inform.

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This paper presents a novel method for tracking the position of a medical instrument's tip. The system is based on phase locking a high frequency signal transmitted from the medical instrument's tip to a reference signal. Displacement measurement is established having the loop open, in order to get a low frequency voltage representing the medical instrument's movement; therefore, positioning is established by means of conventional measuring techniques. The voltage-controlled oscillator stage of the phase-locked loop (PLL), combined to an appropriate antenna, comprises the associated transmitter located inside the medical instrument tip. All the other low frequency PLL components, low noise amplifier and mixer, are located outside the human body, forming the receiver part of the system. The operating details of the proposed system were coded in Verilog-AMS. Simulation results indicate robust medical instrument tracking in 1-D. Experimental evaluation of the proposed position tracking system is also presented. The experiments described in this paper are based on a transmitter moving opposite a stationary receiver performing either constant velocity or uniformly accelerated movement, and also together with two stationary receivers performing constant velocity movement again. This latter setup is implemented in order to demonstrate the prototype's accuracy for planar (2-D) motion measurements. Error analysis and time-domain analysis are presented for system performance characterization. Furthermore, preliminary experimental assessment using a saline solution container to more closely approximate the human body as a radio frequency wave transmission medium has proved the system's capability of operating underneath the skin.

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Displacement Measurement of a Medical Instrument Inside the Human Body

Fotiadis

Astaras

Kalfas

et al. 2014

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A novel signal processing method based on the frequency modality for intra-body medical instrument tracking

Fotiadis¹,

Astaras

Kalfas

et al. 2016

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IN MEMORIAM. Ioannis Kazazis (1947-2021)

Fotiadis

2021

Кафедра

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D. Fotiadis

Experimental Evaluation of an Invasive Medical Instrument Based on a Displacement Measurement System

Displacement Measurement of a Medical Instrument Inside the Human Body

A novel signal processing method based on the frequency modality for intra-body medical instrument tracking

IN MEMORIAM. Ioannis Kazazis (1947-2021)

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