Making robots mill bone more like human surgeons: Using bone density and anatomic information to mill safely and efficiently

Dillon, Neal P.; Fichera, Loris; Wellborn, Patrick S.; Labadie, Robert F.; Webster, Robert J.

doi:10.1109/iros.2016.7759292

Cited by 15 publications

(7 citation statements)

References 21 publications

(25 reference statements)

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“…19 Compared to Couldwell et al's approach, this system used features of bone density and porosity during planning to optimise the drilling force and revolutions per minute near vital structures. 18,20 The strategy was shown to reduce mean force near vital structures by 63%, thereby reducing the risk of accidental collisions and reducing the rate of thermal energy transferred to the surrounding structures. 20 The performance was evaluated by drilling the temporal bone funnel for vestibular schwannoma resections on five cadaver heads.…”

Section: Intra-operative Registration and Automatic Trajectory Drillingmentioning

confidence: 99%

“…18,20 The strategy was shown to reduce mean force near vital structures by 63%, thereby reducing the risk of accidental collisions and reducing the rate of thermal energy transferred to the surrounding structures. 20 The performance was evaluated by drilling the temporal bone funnel for vestibular schwannoma resections on five cadaver heads. 19 The time taken to complete the tasks ranged from 32.7 to 57 min for targeted volumes ranging in sizes from 5.03 to 11.67 cm 2 .…”

Section: Intra-operative Registration and Automatic Trajectory Drillingmentioning

confidence: 99%

See 1 more Smart Citation

A systematic review of robotic surgery: From supervised paradigms to fully autonomous robotic approaches

Han

Davids

Ashrafian

et al. 2021

Robotics Computer Surgery

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Background:From traditional open surgery to laparoscopic surgery and robotassisted surgery, advances in robotics, machine learning, and imaging are pushing the surgical approach to-wards better clinical outcomes. Pre-clinical and clinical evidence suggests that automation may standardise techniques, increase efficiency, and reduce clinical complications.Methods: A PRISMA-guided search was conducted across PubMed and OVID.Results: Of the 89 screened articles, 51 met the inclusion criteria, with 10 included in the final review. Automatic data segmentation, trajectory planning, intraoperative registration, trajectory drilling, and soft tissue robotic surgery were discussed. Conclusion:Although automated surgical systems remain conceptual, several research groups have developed supervised autonomous robotic surgical systems with increasing consideration for ethico-legal issues for automation. Automation paves the way for precision surgery and improved safety and opens new possibilities for deploying more robust artificial intelligence models, better imaging modalities and robotics to improve clinical outcomes.

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Section: Intra-operative Registration and Automatic Trajectory Drillingmentioning

confidence: 99%

Section: Intra-operative Registration and Automatic Trajectory Drillingmentioning

confidence: 99%

A systematic review of robotic surgery: From supervised paradigms to fully autonomous robotic approaches

Han

Davids

Ashrafian

et al. 2021

Robotics Computer Surgery

View full text Add to dashboard Cite

show abstract

“…Using preoperative high-resolution computed tomography for surgical planning and intraoperative navigation, the precise trajectory required for cochlear access can be planned by the surgeon, resulting in a minimally invasive surgical approach that minimizes trauma to the endosteal membrane and other cochlear tissues (Brett et al, 2007; Coulson et al, 2008; Majdani et al, 2009). In a comparison of manual versus robotic cochleostomy, there are significantly less intracochlear pressure disturbances using a robotic micro-drill (Assadi et al, 2013; Coulson et al, 2013; Dillon et al, 2016). A minimally traumatic cochleostomy can be achieved using an automatic or semi-automatic robotic drill, hand-guided robotic drill, or with laser (Brett et al, 2014; Hussong et al, 2008; Wimmer et al, 2014; Zhang et al, 2014).…”

Section: Translation Of Inner Ear Drug Delivery To Clinical Applicmentioning

confidence: 99%

Outlook and future of inner ear therapy

2018

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Drug delivery to the inner ear is an ideal method to treat a wide variety of otologic conditions. A broad range of potential applications is just beginning to be explored. New approaches combine principles of inner ear pharmacokinetics with emerging technologies of drug delivery including novel delivery systems, drug-device combinations, and new categories of drugs. Strategies include cell-specific targeting, manipulation of gene expression, local activation following systemic delivery, and use of stem cells, viral vectors, and gene editing systems. Translation of these therapies to the clinic remains challenging given the potential risks of intracochlear and intralabyrinthine trauma, our limited understanding of the etiologies of particular inner ear disorders, and paucity of accurate diagnostic tools at the cellular level. This review provides an overview of future methods, delivery systems, disease targets, and clinical considerations required for translation to clinical medicine.

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“…Lessard et al [29] developed a static balancing parallel robot for medical 3D ultrasound using counterweights and torsional springs on actuated and passive revolute joints. Dillon et al [30] designed a milling device as an otology surgery robot. They produced patient-specific plans, optimizing the velocity and incidence angles for spherical cutting burrs using image-based density.…”

Section: Introductionmentioning

confidence: 99%

A Static Balancing Method for Variable Payloads by Combination of a Counterweight and Spring and Its Application as a Surgical Platform

Woo

Seo

2019

Applied Sciences

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Stackable mechanism architecture has demonstrated effective gravity-balancing over entire workspaces. Adjustable balancing is required when balancing is broken due to changing the payload at the distal end of a mechanism. In this paper, adjustable balancing of the stackable mechanism for a variable payload is investigated. For this, balancing conditions for three adjustable balancing methods are suggested, and a new balancing method combining a spring and counterweight is considered as an effective means of adjustable balancing for variable payloads. The excellent performance of the system is proven through experiments. Electromyography (EMG) sensors are employed to measure the amount of energy expenditure during the drilling task. It was verified through several tests that an operator holding a drill mounted at the distal end of a stackable arm felt less energy compared to an operator holding the drill directly in free space. The developed balancing arm was successfully applied during a mastoidectomy. A 3-step warning algorithm along with a braking function was found to be effective for safe surgery.

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Making robots mill bone more like human surgeons: Using bone density and anatomic information to mill safely and efficiently

Cited by 15 publications

References 21 publications

A systematic review of robotic surgery: From supervised paradigms to fully autonomous robotic approaches

A systematic review of robotic surgery: From supervised paradigms to fully autonomous robotic approaches

Outlook and future of inner ear therapy

A Static Balancing Method for Variable Payloads by Combination of a Counterweight and Spring and Its Application as a Surgical Platform

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