Design Optimization and Tradeoff Analysis of an Actuated Continuum Probe for Pulmonary Nodule Localization and Resection-Reference-Cited by-同舟云学术

Design Optimization and Tradeoff Analysis of an Actuated Continuum Probe for Pulmonary Nodule Localization and Resection

Published:2024-04-24 Issue:5 Volume:11 Page:417
ISSN:2306-5354
Container-title:Bioengineering
language:en
Short-container-title:Bioengineering

Author:

McCullough Madison D.¹,Muller Marie¹^ORCID,Egan Thomas M.²,Buckner Gregory D.¹^ORCID

Affiliation:

1. Department of Mechanical and Aerospace Engineering, North Carolina State University, Raleigh, NC 27695, USA

2. Division of Cardiothoracic Surgery, Department of Surgery, University of North Carolina at Chapel Hill School of Medicine, Chapel Hill, NC 27599, USA

Abstract

Pulmonary nodules are abnormal tissue masses in the lungs, typically less than 3.0 cm in diameter, commonly detected during imaging of the chest and lungs. While most pulmonary nodules are not cancerous, surgical resection may be required if growth is detected between scans. This resection is typically performed without the benefit of intraoperative imaging, making it difficult for surgeons to confidently provide appropriate margins. To enhance the efficacy of wedge resection, researchers have developed a modified ultrasound imaging approach that utilizes both multiple scattering (MS) and single scattering (SS) to enhance the accuracy of margin delineation. Clinical deployment of this novel ultrasound technology requires a highly maneuverable ultrasound probe, ideally one that could be deployed and actuated with minimal invasiveness. This study details the design optimization and tradeoff analysis of an actuated continuum probe for pulmonary nodule localization and resection. This device, deployed through intercostal ports, would enable the intraoperative imaging and precise mapping of nodules for improved margin delineation and patient outcomes. To achieve this objective, multiple objective genetic algorithms (MOGAs) and a design of experiments (DOE) study are used to explore the design space and quantify key dimensional relationships and their effects on probe actuation.

Funder

North Carolina State University Research Innovation Seed Funding

UNC Lung Transplant Research Fund

Cornelia D. Condon Memorial Fund for Lung Transplant Research

ational Cancer Institute of the National Institutes of Health

Publisher

MDPI AG

Link

https://www.mdpi.com/2306-5354/11/5/417/pdf

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