Abstract: A robotic arm especially suited for laparoscopic surgery, having a torsional joint and a flexural joint forming serially arranged joints is described. The joints provide respective degrees of freedom for the arm, which further receives drive means for such joints. The robotic arm also has transmission means placed between the drive means have and the joints. The transmission means a first and a second assembly of three gear wheels, preferably conical gear wheels, and a train of three additional gear wheels, preferably straight-cut gear wheels, which couple the first and second assembly to form a differential mechanism.

Abstract: Systems and methods are described for providing carbon dioxide insufflation. The system includes a first chamber, a second chamber, and a mixing chamber. The first chamber contains an acid and the second chamber contains a base. The mixing chamber is configured to receive the acid from the first chamber and the base from the second chamber. The mixing chamber is also coupleable to an endoscope and configured to provide an amount of carbon dioxide generated by mixing the acid and the base to the endoscope.

Abstract: Robotic platform for mini-invasive surgery comprising robotic arms (4a, 4b) suitable to be placed in the body of a patient, introduced through a single access port, which are an extension of external robotic manipulators (19). The continuity between external (1) and internal (4a, 4b) robotic arms is guaranteed by means of a trans-abdominal magnetic connection (6) between the internal robotic arm integral with the external one. The trans-abdominal magnetic coupling not only guarantees a stable anchoring, but most of all it transfers degrees of freedom to the internal robotic arms, inducing the motion of internal magnets by means of the automatized motion of external magnets. It is also possible to reposition the internal robotic arms without requiring having to additionally perform incisions on the abdomen. Using the external robotic arms allows translating the internal ones on the entire abdomen thus providing a working space not bound to the point of insertion and theoretically unlimited.

Abstract: A system and method for detecting a tissue property. The system comprises a first unit positioned outside a patient body and a second unit positioned inside the patient's body. The first unit includes a first housing, and a magnetic field source supported by the first housing. The second unit includes a second housing, a pressure sensor supported by the second housing, a localization module supported by the second housing, a controller, and a power source. The pressure sensor is configured to detect an indentation force applied to the tissue, and the second unit is configured to wirelessly transmit the indentation force data and localization data to a computer to generate a volumetric stiffness map for the tissue.

Abstract: A system and method of wireless controlled CO2 insufflation for use in colon capsule endoscopy. The system includes a device to inflate the colon through the use of a swallowable capsule including a first compound and a second compound for generating a biocompatible chemical reaction that provides a level of insufflation to enhance visualization and to allow for magnetic locomotion within the colon. The chemical reaction achieves relevant colon insufflation (enough to enable diagnostic relevance) by producing CO2 (carbon dioxide).

Abstract: A system and method of detecting and assessing a tissue surface property without a separate access port to internal anatomical structures. The system includes a first unit positioned outside the patient's body and a second unit positioned inside the patient's body. The first unit includes a magnetic field source and a force sensor and is positioned outside the patient's body in a position that enables magnetic coupling with the second unit, which is inside the patient's body. The second unit includes a magnetic field source, a processor, a sensor, a telemetry unit, a power source, and an optional actuator or other components. The resulting attractive force between the internal and external magnetic field sources can be perceived by the force sensor of the first unit. By varying the distance between the two units, the attractive force triggers a variable stress on the tissue surrounding the second unit in the direction of the magnetic field source in the first unit.

Abstract: A system for insufflating a body cavity comprising a swallowable capsule comprising a chamber (11) containing a fluid capable to generate biocompatible gas or vapour by phase transition or chemical reaction, the chamber (11) being formed with at least one orifice (7) for placing it in communication with the outside. The orifice (7) is blocked by a shutter (4, 6; 26) made of magnetic material and there are provided elastic means (8) able to generate an elastic force sufficient to keep said shutter sealingly engaged in the orifice. The system further comprises magnetic actuating means (12; 34) external to the body cavity for generating a magnetic force having strength sufficient to overcome the elastic force of the elastic means disengaging the shutter from the orifice.

Abstract: A method of actuating a surgical device is described. A surgical tool is inserted into a body cavity of a patient through a natural orifice. A distal end of an actuation tool is inserted through a surgical access port in the body of the patient. The distal end of the actuation tool is positioned proximal to an external wall of the body cavity opposite the surgical tool. A magnetic coupling is established between the distal end of the actuation tool and the surgical tool. When the magnetic coupling is established, distal end of the actuation tool is located at the external wall of the body cavity and the surgical tool is located at the internal wall of the body cavity. The surgical tool is manipulated using the actuation tool through the magnetic coupling.

Abstract: A robotic arm especially suited for laparoscopic surgery, having a torsional joint and a flexural joint forming serially arranged joints is described. The joints provide respective degrees of freedom for the arm, which further receives drive means for such joints. The robotic arm also has transmission means placed between the drive means have and the joints. The transmission means a first and a second assembly of three gear wheels, preferably conical gear wheels, and a train of three additional gear wheels, preferably straight-cut gear wheels, which couple the first and second assembly to form a differential mechanism.

Abstract: A micro-robotic platform and a method for deploying the platform in a body cavity for performing endoluminal surgical interventions in a fully bimanual fashion. The platform comprises a first (1) and a second (2) surgical robot each provided with a surgical tool (5, 6) and being configured to be attached to the body cavity wall. The first and the second surgical robot each comprises a first (11) and a second (12) snake-like robotic unit, the first snake-like robotic unit (11) comprising a first central unit (13) and first articulated attachment means (7a, b; 8a, b; 9) extending from said first central unit (13) for attaching the first central unit to the body cavity wall.

Abstract: A support device for sensors and/or actuators, of a node element or End Device (10) of a wireless network of sensors/actuators which support device comprises a base body or base module (1) with a plurality of faces (2), to which a sensor and/or actuator module or block (3) is mounted, and an electrical supply block/module (4). The main feature of the base body (1) is the possibility of adding to the node element (10) further sensors and/or actuators (3) as well as adapter elements, bridge interface element) meats (60) or expansion modules (50). The base body (1) can have a plurality of connection faces (2) with positive engagement means (54), which allow to assemble the above described modules. The positive engagement means (54) ensures an electromechanical connection between the many modules and, furthermore, assists an easy and intuitive accessibility for a user.