Port-access coronary artery bypass grafting: a proposed surgical method.
about
Minimally Invasive Mitral Valve Surgery I: Patient Selection, Evaluation, and Planning.Endoscopic skull base surgery II: a new animal model for surgery of the posterior fossa.Minimally invasive valve surgery.The golden age of minimally invasive cardiothoracic surgery: current and future perspectives.Minimally invasive coronary artery bypass grafting decreases hospital stay and cost.Cardiopulmonary bypass for less invasive procedures.Selective molecular potassium channel blockade prevents atrial fibrillationA Brief History of Cardiopulmonary Bypass.Negative fluid displacement: an alternative method to assess patency of arterial line cannulation.Limited-access coronary artery bypass grafting. The Texas Heart Institute experience.Minimally invasive valve surgery: different techniques and approaches.Intraoperative transcranial ultrasonic monitoring for cardiac and vascular surgery.Robotic mitral valve surgery: a technologic and economic revolution for heart centers.Recent trends in minimally invasive cardiac surgery.Surgical Outcomes of Congenital Atrial Septal Defect Using da VinciTM Surgical Robot System.A novel survival model of cardioplegic arrest and cardiopulmonary bypass in rats: a methodology paper.Minimally invasive mitral valve surgery: a systematic reviewCoronary artery bypass grafting in a case with severe aortic atheromatosis associated with abdominal aortic aneurysm.A novel technique for cardiopulmonary bypass using vacuum system for venous drainage with pressure relief valve: an experimental study.Endoscopic skull base surgery I: a new animal model for pituitary surgery.Minimally invasive cardiac surgery by the port-access method.Economic evaluation of different minimally invasive procedures for the treatment of coronary artery disease.Minimally invasive cardiac surgery: current status and perspective.Minimal access coronary artery surgery.Extracorporeal circulation for port-access cardiac surgery.A 5-year experience with surgical repair of atrial septal defect employing limited exposure.Less invasive coronary artery bypass grafting: without cardiopulmonary bypass and via reduced surgical access.Minimally invasive pediatric surgery in uncomplicated congenital heart disease.Patient selection for Port-Access multi vessel revascularization.Safety of beating heart anastomosis during video-assisted coronary surgery attested by cardiac troponin I.Minimally invasive endoscopic port-access intracardiac surgery with one lung ventilation: impact on gas exchange and anaesthesia resources.Arterial injuries from femoral artery cannulation with port access cardiac surgery.Experience with a new OR dedicated to robotic surgery.Complications of port-access cardiac surgery.Quality of computer enhanced totally endoscopic coronary bypass graft anastomosis--comparison to conventional technique.
P2860
Q30275873-840B2989-4446-4898-ABD7-962F5DA9331CQ30325984-6718A7B3-40E7-4F85-9128-9E502E206EA8Q30393768-CD27E7EC-1EFD-4796-B19E-F392CFC5F06FQ30469960-54E95B51-038A-4E45-82C0-E175DBD45B13Q30470777-E10E114A-3656-448F-B2A0-61946E7EE088Q33717281-4B00214C-157C-4B4C-BAC3-B9A9FA4E23ADQ33943789-3BF711D7-6CB2-47A4-B405-C8B5B8FD0C9BQ34040597-036887B2-F15E-4F2D-B103-F2E292BD7712Q35111221-3FD16F13-D33D-4B7C-B755-1905C3AE5D28Q35664746-44747B1A-23AE-4F2C-AC21-46FCD7DD72D4Q35777364-888EC3EA-6CA2-4729-A4D6-C50B6C90C314Q35833432-22D77B29-A44D-40C3-8FAE-7F77454DEE86Q36077820-5E3F14A3-9A92-4D6F-99B4-FE071A8EF4CAQ36551288-3487D6E9-94D3-4C98-9341-66E1C3415E53Q36782531-69C6A714-5CDE-49F1-A7EB-955A4D7C9B2FQ36908215-DDD395A9-9F4D-4614-B0C3-AE7AD7AD11E5Q38100791-BCF6070A-832B-40F8-ABC2-F2B1C6E2809AQ39225532-EE5E3B16-A440-49A9-91F6-B1229BE188AAQ39449098-5B10A449-9D6D-4A4E-9399-74A119C1F703Q39524706-D957312A-D908-4CDD-ABF2-CF4961508EC9Q40641566-24B025AA-0BA5-40EA-8D03-DB9F5580A507Q40784916-3F06697B-A19D-46F9-B959-0A8FB8045E6EQ40841676-BF3DA00D-C2AA-474B-97A0-B49D69A79ACFQ41342820-99C698D9-74F3-4B8C-9AF1-215CEC518FC9Q41478392-07276091-40CB-4465-A339-B61660180006Q41706707-27372F43-5EE1-459C-ADE7-24E18C66403EQ42390527-BC57972C-A188-4FD6-A3A0-02066A9D3F93Q43462724-D24AF87C-C888-4A2D-A042-6A4196D10C59Q45059809-D20BACBD-BC93-4AB1-85D8-E79291C673F6Q47895432-5AF2972E-308A-4EA9-B1D8-68B6E39DE192Q48621702-C54140AC-7976-43CC-838F-F954801BD1C0Q50133256-4D82FB86-DEA8-469B-9A8E-5E96C792D343Q52131181-F3D92F8A-8D4D-4832-A1E6-5E8CCEBD27AFQ52167266-365A60EF-55BA-4E33-8C91-3D4BDA1CD9FBQ52177069-088C547A-79B1-49D2-89CD-288D6CEB5AA0
P2860
Port-access coronary artery bypass grafting: a proposed surgical method.
description
1996 nî lūn-bûn
@nan
1996年の論文
@ja
1996年論文
@yue
1996年論文
@zh-hant
1996年論文
@zh-hk
1996年論文
@zh-mo
1996年論文
@zh-tw
1996年论文
@wuu
1996年论文
@zh
1996年论文
@zh-cn
name
Port-access coronary artery bypass grafting: a proposed surgical method.
@en
type
label
Port-access coronary artery bypass grafting: a proposed surgical method.
@en
prefLabel
Port-access coronary artery bypass grafting: a proposed surgical method.
@en
P2093
P1476
Port-access coronary artery bypass grafting: a proposed surgical method
@en
P2093
F G St Goar
G H Ribakove
J H Stevens
M A Vierra
M F Pompili
R S Mitchell
T A Burdon
W S Peters
P304
P356
10.1016/S0022-5223(96)70308-2
P407
P50
P577
1996-03-01T00:00:00Z