An efficient capacitive sensing scheme for an ophthalmic regional anesthesia training system

Mukherjee, Biswarup; George, Boby; Sivaprakasam, Mohanasankar

doi:10.1109/embc.2013.6609645

Cited by 3 publications

(2 citation statements)

References 8 publications

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“…In 2001, the ophthalmic anesthesia simulation system (OASiS) developed by researchers from the Indian Institute of Technology Madras used a different concept to detect the needle tip position. They selected the electric field-based tracking system to capture the needle position in a manikin [21], [22]. Although the system provided a precise needle tip position, the needle was required to be attached with an additional circuit that could potentially cause difficulty during operation [22].…”

Section: Related Workmentioning

confidence: 99%

The Development of a Virtual Simulator for a Novel Design Non-Permanent Magnetic Needle Based Eye Anesthesia Training System

Borvorntanajanya

Suthakorn

2022

IEEE Access

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Ophthalmic anesthesia plays a crucial role in eye surgery. However, the conventional practice of this process is a blind procedure, in which a needle is inserted blindly into the cadaver. This paper introduces a needle tip tracking system for ophthalmic anesthesia training focusing on the Retrobulbar block procedure. The study presents a development in a prototyped system using Hall effect sensor arrays to track a 5D magnetized needle tip (X, Y, Z, θ, φ ). The orbital structure is fabricated with embedded Hall effect sensors. The extended Kalman filter and least square method are developed to select the observation model from multiple training sets and to estimate the needle tip coordinates. The robotic manipulator (ABB YUMI) is used to model the training set between the distance and the initial angle of the magnetized needle.The developed system provides the needle tip position with an RMS of Euclidean distance error up to 1.7398 ± 0.5288 mm. As a result, the system is capable of providing the needle tip positions with an acceptable error comparing the system's accuracy with the size of the retrobulbar target space and important anatomies.

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Section: Related Workmentioning

confidence: 99%

The Development of a Virtual Simulator for a Novel Design Non-Permanent Magnetic Needle Based Eye Anesthesia Training System

Borvorntanajanya

Suthakorn

2022

IEEE Access

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“…Mukherjee et al have built a new generation syringe training system based on a commercial Hall sensor (SS49E, Honeywell) as a displacement sensor. 97 To help students observe and practice the injection rate before injecting the human body. The design of the injection is shown in Fig.…”

Section: Biochemistry Applications and Future Directionsmentioning

confidence: 99%

Detection techniques of biological and chemical Hall sensors

et al. 2021

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A Multi-Electrode Electric Field Based Sensing System For Ophthalmic Anesthesia Training

Mukherjee

George

Sivaprakasam

2015

IEEE Trans. Biomed. Circuits Syst.

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Local anesthesia administration prior to ophthalmic surgery involves inserting a syringe needle into a confined intraorbital space at the proper position, angle and depth. During this procedure ocular structures must remain unhurt and systemic complications must be avoided while achieving quick akinesia and analgesia. Animal cadavers do not emulate human anatomy accurately and human subject based training entails risk to the patient. Therefore, a training system that closely replicates the human ocular and orbital anatomy and provides the trainee with real-time feedback on the safety and effectiveness of the block administered would help reduce risks involved with real life procedures. This paper presents an anatomically accurate, rapid-prototyped manikin based training system for ophthalmic anesthetic blocks. The depth of penetration of the needle, the proximity of the needle to extraocular muscles and the touch of the needle to the muscles or optic nerve is detected by a multi-electrode electric field/capacitive sensing system. The eye structure of the manikin does not have any electrical connections to it, rendering it replaceable, thus, enabling the emulation of anatomical variations due to pathologies of the eye. A virtual instrument measures and computes the position of the needle and displays it to the trainee through an intuitive GUI with a 3D display of the orbital anatomy. The proposed capacitive sensing scheme has been validated by tests performed on a prototype system, thus demonstrating its usefulness for practical training purposes.

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An efficient capacitive sensing scheme for an ophthalmic regional anesthesia training system

Cited by 3 publications

References 8 publications

The Development of a Virtual Simulator for a Novel Design Non-Permanent Magnetic Needle Based Eye Anesthesia Training System

The Development of a Virtual Simulator for a Novel Design Non-Permanent Magnetic Needle Based Eye Anesthesia Training System

Detection techniques of biological and chemical Hall sensors

A Multi-Electrode Electric Field Based Sensing System For Ophthalmic Anesthesia Training

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