An Intracardiac Soft Robotic Device for Augmentation of Blood Ejection from the Failing Right Ventricle

Horvath, Markus A.; Wamala, Isaac; Rytkin, Eric; Doyle, Elizabeth; Payne, Christopher J.; Thalhofer, Thomas; Berra, Ignacio; Solovyeva, A. Е.; Saeed, Mossab; Hendren, Sara; Roche, Ellen T.; Nido, Pedro J. del; Walsh, Conor J.; Vasilyev, Nikolay V.

doi:10.1007/s10439-017-1855-z

Cited by 32 publications

(25 citation statements)

References 28 publications

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“…We have previously reported an intracardiac soft robotic device for RV augmentation (25). The device was based on a single McKibben actuator positioned inside the RV perpendicular between the free wall and septum.…”

Section: Discussionmentioning

confidence: 99%

“…We varied both systolic actuation period (defined as a percentage fraction of the total cardiac cycle) and the time delay after the initial pacemaker signal. The device was actuated during HF for all combinations of systolic periods (25,30,35, and 40% of the cardiac cycle period) and delay periods of 0, 5, and 10% of the total cardiac cycle period (Fig. 5D).…”

Section: Preliminary Rv Device Characterization Using a Pacing Hf Modelmentioning

confidence: 99%

“…This distortion of the IVS cannot be corrected with direct cardiac compression devices and can even be exacerbated after implantation of traditional VADs (42). To augment septal motion in HF, a contractile actuator that can be fully implanted inside the RV has been proposed to cause approximation of the RV free wall and the septum during ventricular contraction (25). However, the cardiac augmentation performance of this approach is limited by the contractile range of the actuator and by the fact that the force can only be applied at a single point on the ventricular free wall.…”

Section: Introductionmentioning

confidence: 99%

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Soft robotic ventricular assist device with septal bracing for therapy of heart failure

et al. 2017

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Previous soft robotic ventricular assist devices have generally targeted biventricular heart failure and have not engaged the interventricular septum that plays a critical role in blood ejection from the ventricle. We propose implantable soft robotic devices to augment cardiac function in isolated left or right heart failure by applying rhythmic loading to either ventricle. Our devices anchor to the interventricular septum and apply forces to the free wall of the ventricle to cause approximation of the septum and free wall in systole and assist with recoil in diastole. Physiological sensing of the native hemodynamics enables organ-in-the-loop control of these robotic implants for fully autonomous augmentation of heart function. The devices are implanted on the beating heart under echocardiography guidance. We demonstrate the concept on both the right and the left ventricles through in vivo studies in a porcine model. Different heart failure models were used to demonstrate device function across a spectrum of hemodynamic conditions associated with right and left heart failure. These acute in vivo studies demonstrate recovery of blood flow and pressure from the baseline heart failure conditions. Significant reductions in diastolic ventricle pressure were also observed, demonstrating improved filling of the ventricles during diastole, which enables sustainable cardiac output.

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Section: Discussionmentioning

confidence: 99%

Section: Preliminary Rv Device Characterization Using a Pacing Hf Modelmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Soft robotic ventricular assist device with septal bracing for therapy of heart failure

et al. 2017

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“…With the growing interest in the use of soft materials [1] for the creation of highly dexterous robots, soft material robotics has established itself as an important research topic within soft robotics. Some roboticists argue that soft robotic technologies will play a key role in the 4 th industrial revolution [2], for safe human-robot interaction in manufacturing [3]- [5], healthcare [6], and minimally invasive surgery (MIS) [7]. Numerous proposals for novel flexible robots, based on soft and hybrid materials, are continuously emerging [8].…”

Section: Introductionmentioning

confidence: 99%

Static Kinematics for an Antagonistically Actuated Robot Based on a Beam-Mechanics-Based Model

Stilli

Kolokotronis

Fraś

et al. 2018

2018 IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS)

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Soft robotic structures might play a major role in the 4 th industrial revolution. Researchers have successfully demonstrated advantages of soft robotics over traditional robots made of rigid links and joints in several application areas including manufacturing, healthcare and surgical interventions. However, soft robots have limited ability to exert higher forces when it comes to interaction with the environment, hence, change their stiffness on demand over a wide range. One stiffness mechanism embodies tendon-driven and pneumatic air actuation in an antagonistic way achieving variable stiffness values. In this paper, we apply a beammechanics-based model to this type of soft stiffness controllable robot. This mathematical model takes into account the various stiffness levels of the soft robotic manipulator as well as interaction forces with the environment at the tip of the manipulator. The analytical model is implemented into a robotic actuation system made of motorised linear rails with load cells (obtaining applied forces to the tendons) and a pressure regulator. Here, we present and analyse the performance and limitations of our model.

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“…A clear indication is the growth of publications about innovative soft material robots in recently appearing monothematic journals such as "Soft Robotics" [2] and dedicated sessions at major robotics conferences, e.g., ICRA and IROS. Some roboticists argue that soft robotic technologies will play a key role in the 4th industrial revolution [3] for safe human-robot interaction in manufacturing [4,6], healthcare [7], and minimally invasive surgery (MIS) [8]. Numerous proposals for novel flexible robots based on soft and hybrid materials are continuously emerging [9].…”

Section: Introductionmentioning

confidence: 99%

Soft Robotics. Bio-inspired Antagonistic Stiffening

Stilli

Althoefer

Würdemann

2018

Biosystems &Amp; Biorobotics

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An Intracardiac Soft Robotic Device for Augmentation of Blood Ejection from the Failing Right Ventricle

Cited by 32 publications

References 28 publications

Soft robotic ventricular assist device with septal bracing for therapy of heart failure

Soft robotic ventricular assist device with septal bracing for therapy of heart failure

Static Kinematics for an Antagonistically Actuated Robot Based on a Beam-Mechanics-Based Model

Soft Robotics. Bio-inspired Antagonistic Stiffening

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