Real-Time Multi-Modal Sensing and Feedback for Catheterization in Porcine Tissue

Heunis, Christoff; Šuligoj, Filip; Fambuena Santos, Carlos; Misra, Sarthak

izvor podataka: crosbi !

Real-Time Multi-Modal Sensing and Feedback for Catheterization in Porcine Tissue (CROSBI ID 304143)

Prilog u časopisu | izvorni znanstveni rad | međunarodna recenzija

Heunis, Christoff ; Šuligoj, Filip ; Fambuena Santos, Carlos ; Misra, Sarthak Real-Time Multi-Modal Sensing and Feedback for Catheterization in Porcine Tissue // Sensors, 21 (2021), 1; 1, 20. doi: 10.3390/s21010273

Podaci o odgovornosti

Autori

Heunis, Christoff ; Šuligoj, Filip ; Fambuena Santos, Carlos ; Misra, Sarthak

Osnovni podaci na izvornom jeziku
Osnovni podaci na ostalim jezicima

Jezik

engleski

Naslov

Real-Time Multi-Modal Sensing and Feedback for Catheterization in Porcine Tissue

Sažetak

Abstract: Objective: In this study, we introduce a multi-modal sensing and feedback framework aimed at assisting clinicians during endovascular surgeries and catheterization procedures. This framework utilizes state-of-the-art imaging and sensing sub-systems to produce a 3D visualization of an endovascular catheter and surrounding vasculature without the need for intra-operative X-rays. Methods: The catheterization experiments within this study are conducted inside a porcine limb undergoing motions. A hybrid position-force controller of a robotically-actuated ultrasound (US) transducer for uneven porcine tissue surfaces is introduced. The tissue, vasculature, and catheter are visualized by integrated real-time US images, 3D surface imaging, and Fiber Bragg Grating (FBG) sensors. Results: During externally-induced limb motions, the vasculature and catheter can be reliably reconstructed at mean accuracies of 1.9 ± 0.3 mm and 0.82 ± 0.21 mm, respectively. Conclusions: The conventional use of intra- operative X-ray imaging to visualize instruments and vasculature in the human body can be reduced by employing improved diagnostic technologies that do not operate via ionizing radiation or nephrotoxic contrast agents. Significance: The presented multi-modal framework enables the radiation-free and accurate reconstruction of significant tissues and instruments involved in catheterization procedures.

Ključne riječi

image-guided surgery ; medical robotics ; multi-modal sensing ; robotic registration

Napomena

nije evidentirano

Jezik

nije evidentirano

Naslov

nije evidentirano

Sažetak

nije evidentirano

Ključne riječi

nije evidentirano

Napomena

nije evidentirano

Podaci o izdanju

Časopis

Sensors

Volumen (broj)

21 (1)

Godina

2021.

Broj rada

Broj stranica

Status objave rada

objavljeno

e-ISSN

1424-8220

DOI

10.3390/s21010273

Povezanost rada

Povezane osobe

Filip Šuligoj (autor/i)

Povezane ustanove

Fakultet strojarstva i brodogradnje (120) (autorova ustanova)

Područje

Interdisciplinarne biotehničke znanosti, Strojarstvo

Poveznice

doi.org

mdpi.com

Indeksiranost

Scopus

Current Contents Connect (CCC)

Medline

Web of Science Core Collection, Science Citation Index Expanded (WoSCC-SCI-Exp)

Web of Science Core Collection, SCI-Exp, SSCI & A&HCI (WoSCC-SCI-Exp, SSCI, A&HCI)