Submandibular gland resection via the trans‐hairline approach: A preclinical study of a novel flexible single‐port surgical system and the surgical experiences of standard multiarm robotic surgical systems
Background Cosmetic outcome after submandibular gland (SMG) surgery has greatly improved since the development of robotic surgery through a trans‐hairline approach. However, the bulky sizes of robotic arms and the rigid design of camera and instruments in the current multiarm robotic systems increas...
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| Published in | Head & neck Vol. 41; no. 7; pp. 2231 - 2238 |
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| Main Authors | , , , |
| Format | Journal Article |
| Language | English |
| Published |
Hoboken, USA
John Wiley & Sons, Inc
01.07.2019
Wiley Subscription Services, Inc |
| Subjects | |
| Online Access | Get full text |
| ISSN | 1043-3074 1097-0347 1097-0347 |
| DOI | 10.1002/hed.25692 |
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| Abstract | Background
Cosmetic outcome after submandibular gland (SMG) surgery has greatly improved since the development of robotic surgery through a trans‐hairline approach. However, the bulky sizes of robotic arms and the rigid design of camera and instruments in the current multiarm robotic systems increased the surgical difficulty.
Methods
Clinical and preclinical studies demonstrated the surgical configuration and procedures of robotic trans‐hairline SMG resection using a flexible, single‐port, and multiarm systems.
Results
The surgical procedures of trans‐hairline approach for SMG resection could be successfully performed using the flexible single‐port (SP) robotic system in the preclinical study. The unique features include an easier docking procedure, different viewing angles, the use of the third arm, and coordination of instrument positions without a bedside assistant, which are unavailable in current multiarm robotic systems.
Conclusions
This study demonstrates the feasibility and the advantages of applying the flexible, SP robotic system in SMG resection through the trans‐hairline approach. |
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| AbstractList | Cosmetic outcome after submandibular gland (SMG) surgery has greatly improved since the development of robotic surgery through a trans-hairline approach. However, the bulky sizes of robotic arms and the rigid design of camera and instruments in the current multiarm robotic systems increased the surgical difficulty.
Clinical and preclinical studies demonstrated the surgical configuration and procedures of robotic trans-hairline SMG resection using a flexible, single-port, and multiarm systems.
The surgical procedures of trans-hairline approach for SMG resection could be successfully performed using the flexible single-port (SP) robotic system in the preclinical study. The unique features include an easier docking procedure, different viewing angles, the use of the third arm, and coordination of instrument positions without a bedside assistant, which are unavailable in current multiarm robotic systems.
This study demonstrates the feasibility and the advantages of applying the flexible, SP robotic system in SMG resection through the trans-hairline approach. BackgroundCosmetic outcome after submandibular gland (SMG) surgery has greatly improved since the development of robotic surgery through a trans‐hairline approach. However, the bulky sizes of robotic arms and the rigid design of camera and instruments in the current multiarm robotic systems increased the surgical difficulty.MethodsClinical and preclinical studies demonstrated the surgical configuration and procedures of robotic trans‐hairline SMG resection using a flexible, single‐port, and multiarm systems.ResultsThe surgical procedures of trans‐hairline approach for SMG resection could be successfully performed using the flexible single‐port (SP) robotic system in the preclinical study. The unique features include an easier docking procedure, different viewing angles, the use of the third arm, and coordination of instrument positions without a bedside assistant, which are unavailable in current multiarm robotic systems.ConclusionsThis study demonstrates the feasibility and the advantages of applying the flexible, SP robotic system in SMG resection through the trans‐hairline approach. Cosmetic outcome after submandibular gland (SMG) surgery has greatly improved since the development of robotic surgery through a trans-hairline approach. However, the bulky sizes of robotic arms and the rigid design of camera and instruments in the current multiarm robotic systems increased the surgical difficulty.BACKGROUNDCosmetic outcome after submandibular gland (SMG) surgery has greatly improved since the development of robotic surgery through a trans-hairline approach. However, the bulky sizes of robotic arms and the rigid design of camera and instruments in the current multiarm robotic systems increased the surgical difficulty.Clinical and preclinical studies demonstrated the surgical configuration and procedures of robotic trans-hairline SMG resection using a flexible, single-port, and multiarm systems.METHODSClinical and preclinical studies demonstrated the surgical configuration and procedures of robotic trans-hairline SMG resection using a flexible, single-port, and multiarm systems.The surgical procedures of trans-hairline approach for SMG resection could be successfully performed using the flexible single-port (SP) robotic system in the preclinical study. The unique features include an easier docking procedure, different viewing angles, the use of the third arm, and coordination of instrument positions without a bedside assistant, which are unavailable in current multiarm robotic systems.RESULTSThe surgical procedures of trans-hairline approach for SMG resection could be successfully performed using the flexible single-port (SP) robotic system in the preclinical study. The unique features include an easier docking procedure, different viewing angles, the use of the third arm, and coordination of instrument positions without a bedside assistant, which are unavailable in current multiarm robotic systems.This study demonstrates the feasibility and the advantages of applying the flexible, SP robotic system in SMG resection through the trans-hairline approach.CONCLUSIONSThis study demonstrates the feasibility and the advantages of applying the flexible, SP robotic system in SMG resection through the trans-hairline approach. Background Cosmetic outcome after submandibular gland (SMG) surgery has greatly improved since the development of robotic surgery through a trans‐hairline approach. However, the bulky sizes of robotic arms and the rigid design of camera and instruments in the current multiarm robotic systems increased the surgical difficulty. Methods Clinical and preclinical studies demonstrated the surgical configuration and procedures of robotic trans‐hairline SMG resection using a flexible, single‐port, and multiarm systems. Results The surgical procedures of trans‐hairline approach for SMG resection could be successfully performed using the flexible single‐port (SP) robotic system in the preclinical study. The unique features include an easier docking procedure, different viewing angles, the use of the third arm, and coordination of instrument positions without a bedside assistant, which are unavailable in current multiarm robotic systems. Conclusions This study demonstrates the feasibility and the advantages of applying the flexible, SP robotic system in SMG resection through the trans‐hairline approach. |
| Author | Holsinger, Floyd Christopher Li, Hong Yang, Tsung‐Lin Koh, Yoon Woo |
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Cosmetic outcome after submandibular gland (SMG) surgery has greatly improved since the development of robotic surgery through a trans‐hairline... Cosmetic outcome after submandibular gland (SMG) surgery has greatly improved since the development of robotic surgery through a trans-hairline approach.... BackgroundCosmetic outcome after submandibular gland (SMG) surgery has greatly improved since the development of robotic surgery through a trans‐hairline... |
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| SubjectTerms | cosmesis Exocrine glands Feasibility studies flexible single‐port robotic system Head and neck Robotic surgery Submandibular gland trans‐hairline |
| Title | Submandibular gland resection via the trans‐hairline approach: A preclinical study of a novel flexible single‐port surgical system and the surgical experiences of standard multiarm robotic surgical systems |
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