Improved preoperative planning in robotic heart surgery

R. Bauernschmitt; M. Feuerstein; E. U. Schirmbeck; J. Traub; G. Klinker; S. M. Wildhirt; R. Lange

Improved preoperative planning in robotic heart surgery

R. Bauernschmitt, M. Feuerstein, E. U. Schirmbeck, J. Traub, G. Klinker, S. M. Wildhirt, R. Lange

Technical University of Munich

Research output: Contribution to journal › Conference article › peer-review

7 Scopus citations

Abstract

Optimal port placement and intraoperative navigation in robotically assisted heart surgery improve the efficiency of a telemanipulator system. A new interface for preoperative interactive part placement on a 3D-plot of the patient's thorax was established. A multislice CT scan of the thorax with applied landmarks is performed. The CT segmentation and reconstruction is achieved by the visualization tool amira™ extended by a new module enabling the preoperative planning. Offline the instruments and the camera are placed virtually visualizing the optimal position. Simultaneously the system passes through the collision detection mode. An accurate spatial registration of the anatomy is realized. The telemanipulated endoscopic camera and instruments are placed precisely as intended. Collision detection methods ensure an intersection-free planning and proper placement of the telemanipulator arms to access accurately the desired region of interest.

Original language	English
Pages (from-to)	773-776
Number of pages	4
Journal	Computers in Cardiology
Volume	31
State	Published - 2004
Event	Computers in Cardiology 2004 - Chicago, IL, United States Duration: 19 Sep 2004 → 22 Sep 2004

Cite this

@article{33369517ffb74dc2a5edc74656b89532,

title = "Improved preoperative planning in robotic heart surgery",

abstract = "Optimal port placement and intraoperative navigation in robotically assisted heart surgery improve the efficiency of a telemanipulator system. A new interface for preoperative interactive part placement on a 3D-plot of the patient's thorax was established. A multislice CT scan of the thorax with applied landmarks is performed. The CT segmentation and reconstruction is achieved by the visualization tool amira{\texttrademark} extended by a new module enabling the preoperative planning. Offline the instruments and the camera are placed virtually visualizing the optimal position. Simultaneously the system passes through the collision detection mode. An accurate spatial registration of the anatomy is realized. The telemanipulated endoscopic camera and instruments are placed precisely as intended. Collision detection methods ensure an intersection-free planning and proper placement of the telemanipulator arms to access accurately the desired region of interest.",

author = "R. Bauernschmitt and M. Feuerstein and Schirmbeck, {E. U.} and J. Traub and G. Klinker and Wildhirt, {S. M.} and R. Lange",

year = "2004",

language = "English",

volume = "31",

pages = "773--776",

journal = "Computers in Cardiology",

issn = "0276-6574",

publisher = "IEEE Computer Society",

note = "Computers in Cardiology 2004 ; Conference date: 19-09-2004 Through 22-09-2004",

}

TY - JOUR

T1 - Improved preoperative planning in robotic heart surgery

AU - Bauernschmitt, R.

AU - Feuerstein, M.

AU - Schirmbeck, E. U.

AU - Traub, J.

AU - Klinker, G.

AU - Wildhirt, S. M.

AU - Lange, R.

PY - 2004

Y1 - 2004

N2 - Optimal port placement and intraoperative navigation in robotically assisted heart surgery improve the efficiency of a telemanipulator system. A new interface for preoperative interactive part placement on a 3D-plot of the patient's thorax was established. A multislice CT scan of the thorax with applied landmarks is performed. The CT segmentation and reconstruction is achieved by the visualization tool amira™ extended by a new module enabling the preoperative planning. Offline the instruments and the camera are placed virtually visualizing the optimal position. Simultaneously the system passes through the collision detection mode. An accurate spatial registration of the anatomy is realized. The telemanipulated endoscopic camera and instruments are placed precisely as intended. Collision detection methods ensure an intersection-free planning and proper placement of the telemanipulator arms to access accurately the desired region of interest.

AB - Optimal port placement and intraoperative navigation in robotically assisted heart surgery improve the efficiency of a telemanipulator system. A new interface for preoperative interactive part placement on a 3D-plot of the patient's thorax was established. A multislice CT scan of the thorax with applied landmarks is performed. The CT segmentation and reconstruction is achieved by the visualization tool amira™ extended by a new module enabling the preoperative planning. Offline the instruments and the camera are placed virtually visualizing the optimal position. Simultaneously the system passes through the collision detection mode. An accurate spatial registration of the anatomy is realized. The telemanipulated endoscopic camera and instruments are placed precisely as intended. Collision detection methods ensure an intersection-free planning and proper placement of the telemanipulator arms to access accurately the desired region of interest.

UR - http://www.scopus.com/inward/record.url?scp=28144443369&partnerID=8YFLogxK

M3 - Conference article

AN - SCOPUS:28144443369

SN - 0276-6574

VL - 31

SP - 773

EP - 776

JO - Computers in Cardiology

JF - Computers in Cardiology

T2 - Computers in Cardiology 2004

Y2 - 19 September 2004 through 22 September 2004

ER -

Improved preoperative planning in robotic heart surgery

Abstract

Other files and links

Fingerprint

Cite this