Sensei robotic catheter system
Encyclopedia
The Sensei X robotic catheter is a medical robot
designed to enhance a physician’s ability to perform complex operations
using a small flexible tube called a catheter
. As open surgical procedures that require large incisions have given way to minimally invasive surgeries in which the surgeon gains access to the target organs through small incisions using specialized surgical tools. One important tool used in many of these procedures is a catheter used to deliver many of things a surgeon needs to do his work, to impact target tissue and deliver a variety of medicines or disinfecting agents to treat disease or infection.
Manufactured by Hansen Medical
, Sensei X is a specialized robotic catheter system that is controlled by a physician and is designed for accurate positioning, manipulation and stable control of catheter and catheter-based technologies during cardiovascular procedures
. The Sensei system obtained U.S. Food and Drug Administration
(FDA) clearance in 2007, after which the Cleveland Clinic
's electrophysiology
program, then directed by Dr. Andrea Natale, received the first placement. The Sensei Robotic Catheter System and Artisan Control Catheter allow physicians to navigate flexible catheters with greater stability and control during complex cardiac arrhythmia
procedures. Hansen Medical has related co-development agreements with the following industry leaders: St. Jude Medical
, GE Healthcare
, Siemens Healthcare, and Philips
Medical Systems.
Hansen Medical was founded by Dr. Frederic Moll, who had also co-founded Intuitive Surgical, manufacturer of the Da Vinci Surgical System, whose use has propelled medicinal robotics to the forefront of patient care. The Sensei system is indicated for use during the cardiac mapping phase of cardiac arrhythmia treatment in the US. Meanwhile, it has CE mark approval for facilitating the navigation of ablation catheters within the atria of the heart during complex arrhythmia procedures such as Atrial Fibrillation (AF).
In November 2010, Hansen Medical received unconditional Investigational Device Exemption (IDE) approval from the FDA initiating a clinical trial to investigate the use of the Sensei X Robotic Catheter System and the Artisan Control Catheter for treatment of AF, the most common cardiac arrhythmia. The Principal Investigator of the ARTISAN AF Trial is Dr. Andrea Natale, executive medical director for Texas Cardiac Arrhythmia Institute (TCAI). The first case in the trial was completed by Dr. Joseph Gallinghouse, an electrophysiologist, at the TCAI at St. David's Medical Center.
By the end of 2010, nearly 100 Sensei systems have been shipped worldwide since its 2007 release. The system has been used to perform almost 5,000 procedures. The Sensei system operates by guiding standard catheters through a manipulated robotically steerable sheath (hollow tube) in the patient's vasculature. The doctor performs the procedure at a control station with a technology called "IntelliSense" to proximally measure the forces applied along the shaft of the catheter as a result of catheter tissue contact. The Artisan catheter has two robotically controlled segments which provides six degrees of freedom and 270 degrees of bend articulation which can assist physicians in accessing hard-to-reach cardiac anatomy. The open lumen Artisan catheter accommodates 8F percutaneous EP catheters. Centers have reported acute and long term success rates consistent with manual procedures.
Use of robotic navigation for catheter ablation
was also designed to allow Electrophysiology to perform most of the procedure without being exposed to X-rays (or radiation). The radiation dose to the operator during a conventional manual ablation procedure is relatively small, although there is cumulative exposure that becomes an important consideration for operators performing procedures on a daily basis. By performing procedures a few metres away using a robotic system and seated in the leaded anteroom, the operator is shielded from X-rays and is less vulnerable to operator fatigue, which may affect operator performance in long complex cases. Use of robotic navigation has been shown to reduce fluoroscopy times in catheter ablation
of AF, resulting in reduced X-ray exposure for patients and other health care professionals present in the catheter laboratory.
These early studies have allowed others to incorporate changes to their technique, and hence recent work has produced complication rates for catheter ablation of AF comparable to procedures performed manually. The field of robotic ablation is growing and evolving rapidly, and randomised controlled trials comparing robotic to manual ablation are ongoing in Europe and the USA to see if these potential advantages will translate into better clinical outcomes.
Robot
A robot is a mechanical or virtual intelligent agent that can perform tasks automatically or with guidance, typically by remote control. In practice a robot is usually an electro-mechanical machine that is guided by computer and electronic programming. Robots can be autonomous, semi-autonomous or...
designed to enhance a physician’s ability to perform complex operations
Surgery
Surgery is an ancient medical specialty that uses operative manual and instrumental techniques on a patient to investigate and/or treat a pathological condition such as disease or injury, or to help improve bodily function or appearance.An act of performing surgery may be called a surgical...
using a small flexible tube called a catheter
Catheter
In medicine, a catheter is a tube that can be inserted into a body cavity, duct, or vessel. Catheters thereby allow drainage, administration of fluids or gases, or access by surgical instruments. The process of inserting a catheter is catheterization...
. As open surgical procedures that require large incisions have given way to minimally invasive surgeries in which the surgeon gains access to the target organs through small incisions using specialized surgical tools. One important tool used in many of these procedures is a catheter used to deliver many of things a surgeon needs to do his work, to impact target tissue and deliver a variety of medicines or disinfecting agents to treat disease or infection.
Manufactured by Hansen Medical
Hansen Medical
Hansen Medical, headquartered in Mountain View, California, designs and manufactures medical robotics for the accurate positioning and control of catheter-based technologies. The Company manufactures Sensei Robotic Catheter Systems, including next-generation Sensei X Robotic Catheter Systems, and...
, Sensei X is a specialized robotic catheter system that is controlled by a physician and is designed for accurate positioning, manipulation and stable control of catheter and catheter-based technologies during cardiovascular procedures
Cardiac surgery
Cardiovascular surgery is surgery on the heart or great vessels performed by cardiac surgeons. Frequently, it is done to treat complications of ischemic heart disease , correct congenital heart disease, or treat valvular heart disease from various causes including endocarditis, rheumatic heart...
. The Sensei system obtained U.S. Food and Drug Administration
Food and Drug Administration
The Food and Drug Administration is an agency of the United States Department of Health and Human Services, one of the United States federal executive departments...
(FDA) clearance in 2007, after which the Cleveland Clinic
Cleveland Clinic
The Cleveland Clinic is a multispecialty academic medical center located in Cleveland, Ohio, United States. The Cleveland Clinic is currently regarded as one of the top 4 hospitals in the United States as rated by U.S. News & World Report...
's electrophysiology
Electrophysiology
Electrophysiology is the study of the electrical properties of biological cells and tissues. It involves measurements of voltage change or electric current on a wide variety of scales from single ion channel proteins to whole organs like the heart...
program, then directed by Dr. Andrea Natale, received the first placement. The Sensei Robotic Catheter System and Artisan Control Catheter allow physicians to navigate flexible catheters with greater stability and control during complex cardiac arrhythmia
Cardiac dysrhythmia
Cardiac dysrhythmia is any of a large and heterogeneous group of conditions in which there is abnormal electrical activity in the heart. The heart beat may be too fast or too slow, and may be regular or irregular.Some arrhythmias are life-threatening medical emergencies that can result in cardiac...
procedures. Hansen Medical has related co-development agreements with the following industry leaders: St. Jude Medical
St. Jude Medical
St. Jude Medical, Inc. is a $16 billion global medical device company, with headquarters in Little Canada, Minnesota, United States, a suburb of St. Paul. The company sells products in more than 100 countries and has over 20 operations and manufacturing facilities worldwide. Its principal...
, GE Healthcare
GE Healthcare
GE Healthcare is a division of GE Technology Infrastructure, which is itself a division of General Electric . It employs more than 46,000 people worldwide and is headquartered in Little Chalfont, Buckinghamshire, United Kingdom. GE Healthcare is the first GE business segment to be headquartered...
, Siemens Healthcare, and Philips
Philips
Koninklijke Philips Electronics N.V. , more commonly known as Philips, is a multinational Dutch electronics company....
Medical Systems.
Hansen Medical was founded by Dr. Frederic Moll, who had also co-founded Intuitive Surgical, manufacturer of the Da Vinci Surgical System, whose use has propelled medicinal robotics to the forefront of patient care. The Sensei system is indicated for use during the cardiac mapping phase of cardiac arrhythmia treatment in the US. Meanwhile, it has CE mark approval for facilitating the navigation of ablation catheters within the atria of the heart during complex arrhythmia procedures such as Atrial Fibrillation (AF).
In November 2010, Hansen Medical received unconditional Investigational Device Exemption (IDE) approval from the FDA initiating a clinical trial to investigate the use of the Sensei X Robotic Catheter System and the Artisan Control Catheter for treatment of AF, the most common cardiac arrhythmia. The Principal Investigator of the ARTISAN AF Trial is Dr. Andrea Natale, executive medical director for Texas Cardiac Arrhythmia Institute (TCAI). The first case in the trial was completed by Dr. Joseph Gallinghouse, an electrophysiologist, at the TCAI at St. David's Medical Center.
By the end of 2010, nearly 100 Sensei systems have been shipped worldwide since its 2007 release. The system has been used to perform almost 5,000 procedures. The Sensei system operates by guiding standard catheters through a manipulated robotically steerable sheath (hollow tube) in the patient's vasculature. The doctor performs the procedure at a control station with a technology called "IntelliSense" to proximally measure the forces applied along the shaft of the catheter as a result of catheter tissue contact. The Artisan catheter has two robotically controlled segments which provides six degrees of freedom and 270 degrees of bend articulation which can assist physicians in accessing hard-to-reach cardiac anatomy. The open lumen Artisan catheter accommodates 8F percutaneous EP catheters. Centers have reported acute and long term success rates consistent with manual procedures.
The Sensei Robotic System in clinical use
Although the Sensei system was initially tested in a range of ablation procedures including SVT and typical atrial flutter, there is most excitement about it’s role in complex ablation procedures such as for atrial fibrillation (AF), where the ability to manipulate catheters to precise locations within the heart and keep them stable in the desired position is crucial. Achieving adequate tissue contact, ideally with a small amount of pressure being applied by the catheter during ablation, is also essential to effectively destroy the heart tissue responsible for arrhythmia. The ability to titrate catheter contact force using the Sensei system’s built-in pressure sensor technology (called intellisense) may allow operators to maximise the chance of creating effective burns across the thickness of the atrial wall, whilst minimising the risk of complication. Intracardiac echocardiography has also demonstrated that greater catheter stability is achieved with robotic compared to manual catheter delivery. Consequently, there is evidence that robotic ablation causes more effective and more efficient burns.Use of robotic navigation for catheter ablation
Catheter ablation
Catheter ablation is an invasive procedure used to remove a faulty electrical pathway from the hearts of those who are prone to developing cardiac arrhythmias such as atrial fibrillation, atrial flutter, supraventricular tachycardias and Wolff-Parkinson-White syndrome.It involves advancing several...
was also designed to allow Electrophysiology to perform most of the procedure without being exposed to X-rays (or radiation). The radiation dose to the operator during a conventional manual ablation procedure is relatively small, although there is cumulative exposure that becomes an important consideration for operators performing procedures on a daily basis. By performing procedures a few metres away using a robotic system and seated in the leaded anteroom, the operator is shielded from X-rays and is less vulnerable to operator fatigue, which may affect operator performance in long complex cases. Use of robotic navigation has been shown to reduce fluoroscopy times in catheter ablation
Catheter ablation
Catheter ablation is an invasive procedure used to remove a faulty electrical pathway from the hearts of those who are prone to developing cardiac arrhythmias such as atrial fibrillation, atrial flutter, supraventricular tachycardias and Wolff-Parkinson-White syndrome.It involves advancing several...
of AF, resulting in reduced X-ray exposure for patients and other health care professionals present in the catheter laboratory.
Early Experience with the Sensei Robotic System
The system has been the subject of several clinical trials in the USA and Europe, particularly for the catheter ablation of AF. There were early safety concerns after the ‘first-in-human’ studies suggested high complication rates. Wazni et al. reported experience with the first 71 catheter ablations for AF in their centre using the Hansen robotic navigation system starting from 2005.These early studies have allowed others to incorporate changes to their technique, and hence recent work has produced complication rates for catheter ablation of AF comparable to procedures performed manually. The field of robotic ablation is growing and evolving rapidly, and randomised controlled trials comparing robotic to manual ablation are ongoing in Europe and the USA to see if these potential advantages will translate into better clinical outcomes.
Recent studies using the Sensei Robotic system
Since there are no completed randomised controlled trials comparing robotic ablation to manual ablation, comparing the modalities remains difficult. Techniques, complication rates and clinical results vary widely between centres for both manual and robotic procedures, making registry data difficult to compare. Typical ranges for procedures performed manually are: major complication rates of 3-5%, and success rates of approximately 80-90% for paroxysmal AF and 70-75% for persistent AF (depending on the length of follow-up). The following are recent reports in medical journals detailing experience of the Sensei system in the catheter ablation of AF, and demonstrate approximate success and complication rates at the time of writing:| Study | Parameter | Robotic ablation | Manual ablation | |
|---|---|---|---|---|
| Prague 2011 |
Number of subjects | 100 total All paroxysmal |
(No comparator group) | |
| Pulmonary vein isolation achieved acutely | 100% | |||
| Procedure time | 3.7 ± 0.9 hours | |||
| Fluoroscopy time | 11.9 ± 7.8 minutes | |||
| Clinical success (Freedom from AF ) |
63% at 15 ± (3-28) month, 86% after 21 patients had a repeat procedure |
|||
| Safety | Total complications 0% | |||
| Texas Group 2009 |
Number of subjects | 193 total 135 paroxysmal 55 persistent 6 long-lasting persistent |
197 total (registry cohort) 127 paroxysmal 55 persistent 11 long-lasting persistent |
|
| Pulmonary vein isolation achieved acutely | 100% | 100% | ||
| Procedure time | 3.1 ± 0.8 hours | 3.1 ± 0.8 hours | ||
| Fluoroscopy time | 48.9 ± 24.6 minutes | 58.4 ± 20.4 minutes | ||
| Clinical success (Freedom from AF ) |
Overall 85% at 14 ± 1 month Paroxysmal AF 90% Persistent AF 71% Long-lasting 100% (of only 6) |
Overall 81% at 14 ± 1 month Paroxysmal AF 85% Persistent AF 73% Long lasting 67% |
||
| Safety | Total complications 1.5% 1 % tamponade |
Total complications 1.0% 0.5 % tamponade |
||
| Hamburg 2010 |
Number of subjects | 64 total (all paroxysmal) | (No comparator group) | |
| Pulmonary vein isolation achieved acutely | 100% | |||
| Procedure time | 3.0 ((2.5- 3.8) 1.5 hours | |||
| Fluoroscopy time | 24 (12-34) minutes | |||
| Clinical success (Freedom from AF) |
81% at 12 months | |||
| Safety | Total complications 0% | |||
| Hamburg 2009 |
Number of subjects | 65 total Paroxysmal 43 Persistent 22 |
||
| Pulmonary vein isolation achieved acutely | 95% (remainder completed manually) |
|||
| Procedure time | 3.3 ± 0.7 hours | |||
| Fluoroscopy time | 17 ± 7 minutes | |||
| Clinical success (Freedom from AF ) |
73% at 8 months 76% Paroxysmal 78% persistent |
|||
| Safety | Total complications 5% Tamponade 1.5% |
|||
| Prague 2009 |
Number of subjects | 22 total All paroxysmal |
16 total (registry cohort) All paroxysmal |
|
| Pulmonary vein isolation achieved acutely | 100% | 100% | ||
| Procedure time | 3.5 ± 0.5 hours | 4.2 ± 1.0 hours | ||
| Fluoroscopy time | 15 ± 5 minutes | 27 ± 9 minutes | ||
| Clinical success (Freedom from AF ) |
91% at 5 ± 1 month | 81% at 9 ± 3 month | ||
| Safety | Total complications 0% | Total complications 0% | ||
| Multicenter group (France, Germany, Italy, Prague, USA) 2008 |
Number of subjects | 40 total Paroxysmal 29 Persistent 11 |
(No compartor group) | |
| Pulmonary vein isolation achieved acutely | 100% | |||
| Procedure time | 2.8 ± 1.5 hours | |||
| Fluoroscopy time | 64 ± 33 minutes | |||
| Clinical success (Freedom from AF ) |
98% at 12 months | |||
| Safety | Total complications 5% Tamponade 5% (nil else) |