Body-mounted robotic assistant for MRI-guided low back pain injection

Li, Gang; Patel, Niravkumar; Hagemeister, Jan; Yan, Jingwei; Wu, Di; Sharma, Karun; Cleary, Kevin; Iordachita, Iulian

doi:10.1007/s11548-019-02080-3

Cited by 18 publications

(21 citation statements)

References 39 publications

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“…The experiment results indicate four main factors that lead to the cannula placement errors of the robot-assisted approach: (1) mechanism errors, including fabrication/assembly tolerance, backlash of timing belts, deformation of plastic materials, etc., (2) imaging errors, including image resolution, registration accuracy, cannula artifacts, etc., (3) skin elasticity variations at the entry point, and (4) cannula bending. The error sources of the mechanism and imaging factors were analyzed in our previous study on free space evaluation and MRI phantom study with a reported target position error of 1.70±0.21mm and insertion angle error of 0.66±0.43 • [23]. Significant skin deformation at the entry point was observed during the initial test insertions into the cadaver, especially as the tissue dried out over the time, which caused bending and deviation of the cannula trajectory and consequently failure of reaching targets.…”

Section: Discussionmentioning

confidence: 99%

“…Hence, this system is considered to be an MRI-Conditional system. A detailed description of the mechanical design is reported in [23].…”

Section: Mr-conditional Cannula Placement Manipulatormentioning

confidence: 99%

“…The desired target and entry points are determined by the radiologist on the surgical planning workstation and transmitted to the robot control software through the OpenIGTLink communication protocol [26]. Based on that, the robot control software solves the kinematics [23] and generates motion commands for each axis, which are transferred to the robot controller to move the robot and align the cannula to the planned pose. Once the cannula is aligned, the radiologist will insert the cannula manually.…”

Section: Clinical System Integrationmentioning

confidence: 99%

“…In our previous study, we have developed a 4-DOF body-mounted robotic assistant for low back injections under intraoperative MRI guidance [23]. The mechanical design, robot kinematics and registration were reported, and the system positioning accuracy was assessed in free space and with an MRI-guided phantom study.…”

Section: Introductionmentioning

confidence: 99%

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MRI-guided lumbar spinal injections with body-mounted robotic system: cadaver studies

Patel

Melzer

et al. 2020

Minimally Invasive Therapy & Allied Technologies

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Introduction: This paper reports the system integration and cadaveric assessment of a body-mounted robotic system for MRI-guided lumbar spine injections. The system is developed to enable MR-guided interventions in close bore magnet and avoid problems due to patient movement during cannula guidance. Material and methods:The robot is comprised by a lightweight and compact structure so that it can be mounted directly onto the lower back of a patient using straps. Therefore, it can minimize the influence of patient movement by moving with the patient. The MR-Conditional robot is integrated with an image-guided surgical planning workstation. A dedicated clinical workflow is created for the robot-assisted procedure to improve the conventional freehand MRI-guided procedure.Results: Cadaver studies were performed with both freehand and robot-assisted approaches to validate the feasibility of the clinical workflow and to assess the positioning accuracy of the robotic system. The experiment results demonstrate that the root mean square (RMS) error of the target position to be 2.57±1.09mm and of the insertion angle to be 2.17±0.89 • . Conclusion:The robot-assisted approach is able to provide more accurate and reproducible cannula placements than the freehand procedure, as well as reduce the number of insertion attempts.

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Section: Discussionmentioning

confidence: 99%

“…Hence, this system is considered to be an MRI-Conditional system. A detailed description of the mechanical design is reported in [23].…”

Section: Mr-conditional Cannula Placement Manipulatormentioning

confidence: 99%

Section: Clinical System Integrationmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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MRI-guided lumbar spinal injections with body-mounted robotic system: cadaver studies

Patel

Melzer

et al. 2020

Minimally Invasive Therapy & Allied Technologies

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“…7 Body-mounted robotic assistant for magnetic resonance imaging (MRI)-guided low back pain injections is another budding modality in the armamentarium for refractory low back pain without exposure to radiation. 8 General anesthesia is usually preferred for all kinds of surgical procedures involving the spine due to better patient tolerance, secure airway, better surgical exposure under muscle relaxants, early postoperative exam without the confounding results from conventional epidural anesthetic agents, and better control of intraoperative hemodynamic changes. However, it has its own risks, particularly in patients with increased age and cardiopulmonary disorders.…”

Section: Introductionmentioning

confidence: 99%

Anesthetic considerations in spine surgery: What orthopaedic surgeon should know!

Khanna

Sarkar

Garg

2020

Journal of Clinical Orthopaedics and Trauma

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With clinical innovation and technological advancement, the paradigm of surgical procedures on the spine and spinal cord along with the perioperative management are rapidly evolving. Irrespective of different modes the anesthetic management of spine surgery is challenging in view of significant blood loss, prolong procedure, position-related complications, and complex pain management. The enhanced recovery after surgery (ERAS) for this kind of surgery is yet to be finalized. The aim of this article is to highlight the current evidence-based major perioperative considerations for patients undergoing spine surgery.

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Passive needle guide tracking with radial acquisition and phase‐only cross‐correlation

Reichert

Reiss

Krafft

et al. 2020

Magnetic Resonance in Med

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Purpose Acceleration of a passive tracking sequence based on phase‐only cross‐correlation (POCC) using radial undersampling. Methods The phase‐only cross‐correlation (POCC) algorithm allows passive tracking of interventional instruments in real‐time. In a POCC sequence, two cross‐sectional images of a needle guide with a positive MR contrast are continuously acquired from which the instrument trajectory is calculated. Conventional Cartesian imaging for tracking is very time consuming; here, a higher temporal resolution is achieved using a highly undersampled radial acquisition together with a modified POCC algorithm that incorporates the point‐spread‐function. Targeting and needle insertion is performed in two phantom experiments with 16 fiducial targets, each using 4 and 16 radial projections for passive tracking. Additionally, targeting of eight deep lying basivertebral veins in the lumbar spines is performed for in vivo proof‐of‐application with four radial projections for needle guide tracking. Results The radially undersampled POCC sequence yielded in the phantom experiments a lateral targeting accuracy of 1.1 ± 0.4 mm and 1.0 ± 0.5 mm for 16 and 4 radial projections, respectively, without any statistically significant difference. In the in vivo application, a mean targeting duration of 62 ± 13 s was measured. Conclusion Radial undersampling can drastically reduce the acquisition time for passive tracking in a POCC sequences for MR‐guided needle interventions without compromising the targeting accuracy.

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Body-mounted robotic assistant for MRI-guided low back pain injection

Cited by 18 publications

References 39 publications

MRI-guided lumbar spinal injections with body-mounted robotic system: cadaver studies

MRI-guided lumbar spinal injections with body-mounted robotic system: cadaver studies

Anesthetic considerations in spine surgery: What orthopaedic surgeon should know!

Passive needle guide tracking with radial acquisition and phase‐only cross‐correlation

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