In Vivo Measurement of Surface Pressures and Retraction Distances Applied on Abdominal Organs During Surgery

Shah, Dignesh; Alderson, Andrew; Corden, James; Satyadas, Thomas; Augustine, Titus

doi:10.1177/1553350617745952

Cited by 3 publications

(4 citation statements)

References 7 publications

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“…The retraction already caused significant challenges due to its large size. Based on a 2018 study, it was determined that 11.25 N force is required to retract the liver [21]. Notable, this is already reaching the physical limits of the original da Vinci tools.…”

Section: Basic Functional Requirementsmentioning

confidence: 99%

“…The fundamental idea of the magnetic solution was to design an insertable magnetic structure that can act as an internal anchor point for liver manipulation, so that the abdominal wall could remain intact during retraction. In this concept, the distance between the insertable magnetic structure and the external magnet would be equivalent to the abdominal wall thickness, over which sufficient magnetic force would need to be maintained so that the internal structure could hold the weight of the liver [21]. It should be noted that the wall thickness and physiological parameters vary from patient to patient, within a wide range.…”

Section: Design Considerationsmentioning

confidence: 99%

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Magnetic Anchoring Considerations for Retractors Supporting Manual and Robot-Assisted Minimally Invasive Surgery

2022

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The rise and advancement of minimally invasive surgery (MIS) has significantly improved patient outcomes, yet its technical challenges—such as tissue manipulation and tissue retraction—are not yet overcome. Robotic surgery offers some compensation for the ergonomic challenges, as retraction typically requires an extra robotic arm, which makes the complete system more costly. Our research aimed to explore the potential of rapidly deployable structures for soft tissue actuation and retraction, developing clinical and technical requirements and putting forward a critically evaluated concept design. With systematic measurements, we aimed to assess the load capacities and force tolerance of different magnetic constructions. Experimental and simulation work was conducted on the magnetic coupling technology to investigate the conditions where the clinically required lifting force of 11.25 N could be achieved for liver retraction. Various structure designs were investigated and tested with N52 neodymium magnets to create stable mechanisms for tissue retraction. The simplified design of a new MIS laparoscopic instrument was developed, including a deployable structure connecting the three internal rod magnets with joints and linkages that could act as an actuator for liver retraction. The deployable structure was designed to anchor strings or bands that could facilitate the lifting or sideways folding of the liver creating sufficient workspace for the target upper abdominal procedures. The critical analysis of the project concluded a notable potential of the developed solution for achieving improved liver retraction with minimal tissue damage and minimal distraction of the surgeon from the main focus of the operation, which could be beneficial, in principle, even at robot-assisted procedures.

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Section: Basic Functional Requirementsmentioning

confidence: 99%

Section: Design Considerationsmentioning

confidence: 99%

Magnetic Anchoring Considerations for Retractors Supporting Manual and Robot-Assisted Minimally Invasive Surgery

2022

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“…Among the large abdominal organs, such as the liver, stomach and bowels, the liver was chosen since it covers and obstructs the largest workspace of abdominal procedures, and the retraction of which still causes significant challenges due to its large size. Based on a 2018 study it was determined that 11.25 N force is required to retract the liver [9]. The liver retraction solution therefore will focus on achieving sufficient lifting of the right or the left lobe of the liver where the former is necessary for cholecystectomy procedures where the Calot's triangle needs clear exposure [10] and the latter for bariatric procedures where the hiatus needs exposure [11].…”

Section: A Basic Functional Requirementsmentioning

confidence: 99%

“…The fundamental idea of the magnetic solution was to design an insertable magnetic structure that would act as inter- nal anchor points for liver retraction, so that the abdominal wall could remain intact during retraction. In this concept, the distance between the insertable magnetic structure and the external magnet would be equivalent to the abdominal wall thickness, over which sufficient magnetic force would need to be maintained so that the internal structure could support the weight of the liver [9]. This solution would consist of multiple internal rod magnets, each anchored externally by magnets positioned outside the human body.…”

Section: B Design Considerationsmentioning

confidence: 99%

Stability and Retraction Force Verification of a New Retractor Design for Minimally Invasive Surgery

Nigicser

Oldfield

Haidegger

2021

2021 IEEE 25th International Conference on Intelligent Engineering Systems (INES)

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Minimally Invasive Surgery (MIS) needs continuous tool design innovation to support and facilitate the complex task executions of surgeons. In this article, an easily deployable magnetic structure design is presented, which is developed to retract the liver during MIS procedures. During the concept designing phase, a most critical research question, the stability of magnetic anchoring was investigated and analyzed through various experiments. The clinically relevant pulling forces have been applied to N52 neodymium magnets in different size, shape and arrangement to derive the maximum force certain retractor designs could withheld. The numeric results confirmed that the distributed load arrangement would be able to perform a stable human liver retraction. Magnetic encoring technology could have a significant future, encouraging other researchers to investigate the potential of magnetic tissue retraction in MIS procedures that could lead to the development of specialized tools for human clinical deployment.

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A System for Characterizing Intraoperative Force Distribution During Operative Laryngoscopy

Ponukumati

Kahng³

et al. 2020

IEEE Trans. Biomed. Eng.

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In Vivo Measurement of Surface Pressures and Retraction Distances Applied on Abdominal Organs During Surgery

Cited by 3 publications

References 7 publications

Magnetic Anchoring Considerations for Retractors Supporting Manual and Robot-Assisted Minimally Invasive Surgery

Magnetic Anchoring Considerations for Retractors Supporting Manual and Robot-Assisted Minimally Invasive Surgery

Stability and Retraction Force Verification of a New Retractor Design for Minimally Invasive Surgery

A System for Characterizing Intraoperative Force Distribution During Operative Laryngoscopy

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