Robotically Assisted Cardiac Surgery: Minimally Invasive Techniques to Totally Endoscopic Heart Surgery

Over the past decade, advancements in cardiac surgery occurred secondary to improvements in technology and the desire for a less invasive approach to operations in general. Minimally invasive cardiac surgery has progressed from partial sternotomy incisions to totally endoscopic open-heart procedures with robotic-assistance. There are 2 major companies that produce robotic equipment for use in cardiac surgery. These companies must undergo Food and Drug Association (FDA) mandated clinical trials on each cardiac surgical procedure, before it can be approved for public use. The surgeon must demonstrate clinical proficiency to operate the robotic equipment per FDA approved company testing. The use of computer (robotic) enhancement is well documented for coronary artery bypass grafting and selected cardiac valve procedures. Recent advancements are now being directed at congenital heart disease. The use of robotic-assisted totally endoscopic atrial septal defect closure is a tremendous advancement in congenital cardiac surgery. The future of robotic cardiac surgery will hopefully expand to cover more advanced valve procedures, congenital heart defects, and other procedures once robots are further modified for pediatric use.

[1]  W. Boyd,et al.  Hybrid robotic coronary artery surgery and angioplasty in multivessel coronary artery disease. , 2002, The Annals of thoracic surgery.

[2]  W. Chitwood,et al.  Robotic mitral valve repair: experience with the da Vinci system. , 2003, The Annals of thoracic surgery.

[3]  M. Oz,et al.  Totally Endoscopic Atrial Septal Defect Repair With Robotic Assistance , 2003, Circulation.

[4]  O. Alfieri,et al.  Totally endoscopic atrial septal defect closure with a robotic system: experience with seven cases. , 2002, The heart surgery forum.

[5]  A. Barsotti,et al.  Left anterior descending coronary artery grafting via left anterior small thoracotomy without cardiopulmonary bypass. , 1996, The Annals of thoracic surgery.

[6]  P. Ewert,et al.  Transcatheter closure as standard treatment for most interatrial defects: experience in 200 patients treated with the Amplatzer ™ Septal Occluder , 1999, Cardiology in the Young.

[7]  M. Mack,et al.  Robotically assisted endoscopic coronary artery bypass procedures without cardiopulmonary bypass. , 1999, The Journal of thoracic and cardiovascular surgery.

[8]  R. S. Mitchell,et al.  Port-access coronary artery bypass with cardioplegic arrest: acute and chronic canine studies. , 1996, The Annals of thoracic surgery.

[9]  U. Kappert,et al.  Closed-chest coronary artery surgery on the beating heart with the use of a robotic system. , 2000, The Journal of thoracic and cardiovascular surgery.

[10]  D. R. Gross,et al.  Minimally Invasive Coronary Artery Bypass Grafting: A New Method Using an Anterior Mediastinotomy , 1995, Journal of cardiac surgery.

[11]  Carol Cucinelli Minimally invasive coronary artery bypass surgery. , 2000, Critical care nursing quarterly.

[12]  J. Fonger,et al.  Minimally invasive atrial septal defect closure using the subxyphoid approach. , 1998, The heart surgery forum.

[13]  G. Hausdorf,et al.  International experience with secundum atrial septal defect occlusion by the buttoned device. , 1994, American heart journal.

[14]  J. F. Keane,et al.  Double-umbrella closure of atrial defects. Initial clinical applications. , 1990, Circulation.

[15]  V I Kolessov,et al.  Mammary artery-coronary artery anastomosis as method of treatment for angina pectoris. , 1967, The Journal of thoracic and cardiovascular surgery.

[16]  M. Orringer,et al.  Statement of the AATS/STS Joint Committee on Thoracoscopy and Video Assisted Thoracic Surgery. , 1992, The Journal of thoracic and cardiovascular surgery.

[17]  R. Freedom,et al.  Minimally invasive repair of atrial septal defects. , 1998, The Annals of thoracic surgery.

[18]  M. Massetti,et al.  Operation for atrial septal defect through a right anterolateral thoracotomy: current outcome. , 1996, The Annals of thoracic surgery.