M. Quirini scite author profile

We present design and experimental performance results for a novel mechanism for robotic legged locomotion at the mesoscale (from hundreds of microns to tens of centimeters). The new mechanism is compact and strikes a balance between conflicting design objectives, exhibiting high foot forces and low power consumption. It enables a small robot to traverse a compliant, slippery, tubular environment, even while climbing against gravity. This mechanism is useful for many mesoscale locomotion tasks, including endoscopic capsule robot locomotion in the gastrointestinal tract. It has enabled fabrication of the first legged endoscopic capsule robot whose mechanical components match the dimensions of commercial pill cameras (11 mm diameter by 25 mm long). A novel slot-follower mechanism driven via lead screw enables the mechanical components of the capsule robot to be as small while simultaneously generating 0.63 N average propulsive force at each leg tip. In this paper, we describe kinematic and static analyses of the lead screw and slot-follower mechanisms, optimization of design parameters, and experimental design and tuning of a gait suitable for locomotion. A series of ex vivo experiments demonstrate capsule performance and ability to traverse the intestine in a manner suitable for inspection of the colon in a time period equivalent to standard colonoscopy.

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Design and Fabrication of a Motor Legged Capsule for the Active Exploration of the Gastrointestinal Tract

Quirini

Menciassi

Scapellato

et al. 2008

IEEE/ASME Trans. Mechatron.

141

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Feasibility proof of a legged locomotion capsule for the GI tract

Quirini¹,

Menciassi²,

Scapellato³

et al. 2008

Gastrointestinal Endoscopy

100

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Design of a Pill-Sized 12-legged Endoscopic Capsule Robot

Quirini

Webster

Menciassi

et al. 2007

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Microrobotics for future gastrointestinal endoscopy

Menciassi

Quirini

Dario

2007

Minimally Invasive Therapy & Allied Technologies

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The impulse given by robotic technologies and imaging techniques to the development of a new way to conceive and perform surgery is clearly visible. Nowadays, minimally invasive surgical (MIS) procedures are often performed with the assistance of robots, such as the Da Vinci master-slave system, the AESOP robot with voice control, etc. In addition, mechatronic technologies are becoming the elective technologies for designing advanced hand-held surgical tools. The introduction of robotic technologies in endoscopy has been slower than in MIS, since the development of miniaturized robotic components for entering the small orifices of the human body is difficult. On the other hand, the large contribution that robotic technologies could bring to endoluminal techniques has been evident since the first development of instrumented catheters. In the 1990s, there was an increasing activity in the application of robotic technologies to improve endoscopic procedures in the gastrointestinal tract. The objective of robotic colonoscopy and gastroscopy was to obtain more effective diagnoses in terms of reduced pain for the patients, and to make uniform the diagnostic procedures, which too often depended on the manual abilities of the endoscopist. Currently, the availability of more reliable robotic technologies for miniaturization of size and integration of functions has allowed to conceive and develop robotic pills for the early screening of the digestive tract, with dramatic potential advantages for patients, endoscopists, and healthcare system.

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M. Quirini

A New Mechanism for Mesoscale Legged Locomotion in Compliant Tubular Environments

Design and Fabrication of a Motor Legged Capsule for the Active Exploration of the Gastrointestinal Tract

Feasibility proof of a legged locomotion capsule for the GI tract

Design of a Pill-Sized 12-legged Endoscopic Capsule Robot

Microrobotics for future gastrointestinal endoscopy

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