Journal of Minimally Invasive Surgery 2021; 24(1): 5-7
Published online March 15, 2021
https://doi.org/10.7602/jmis.2021.24.1.5
© The Korean Society of Endo-Laparoscopic & Robotic Surgery
Correspondence to : Sang-Yong Son
Department of Surgery, Ajou University School of Medicine, 206 Worldcup-ro, Yeongtong-gu, Suwon 16499, Korea
Tel: +82-31-219-5205
Fax: +82-31-219-5755
E-mail: sonsy@aumc.ac.kr
ORCID: https://orcid.org/0000-0002-8903-0913
This is an Open Access article distributed under the terms of the Creative Commons Attribution Non-Commercial License (http://creativecommons.org/licenses/by-nc/4.0/) which permits unrestricted non-commercial use, distribution, and reproduction in any medium, provided the original work is properly cited.
Laparoscopic surgery is rapidly evolving with technological advances, but there are several drawbacks. An articulating device, with freedom of a perfect 360°, is attractive as a solution to overcome the restriction of instrument movement caused by straight tools. Its usefulness or efficacy should be supported by relevant scientific evidence. However, it is sometimes difficult to prove it because the factors influencing the surgical outcomes are complex and closely related to each other.
Keywords Laparoscopy, Articulation, Surgical instrument
Laparoscopic surgery has become a standard procedure in patients with gastric cancer. Its oncological safety has been demonstrated in pivotal clinical trials, such as the KLASS-01 and KLASS-02 trials of the Korean Laparoendoscopic Gastrointestinal Surgery Study (KLASS) Group, and it has shown clinical benefits, such as earlier recovery and fewer postoperative complications, when compared with open gastrectomy [1-3]. Laparoscopic methods are currently utilized in patients with advanced-stage tumors and in technically demanding and complicated procedures such as pylorus-preserving gastrectomy. Important clinical trials are currently assessing the use of laparoscopic surgery for gastric cancer. For example, the KLASS-06 phase III trial is evaluating the oncological safety of laparoscopic total gastrectomy in patients with upper third gastric cancer.
Laparoscopic surgery has evolved with technological advances in laparoscopic instruments, imaging systems, and energy devices. Although these advances have made laparoscopic surgery more efficacious and easier, these surgical methods still have several drawbacks. These include the optical limitations (e.g., color, resolution) of current laparoscopic imaging systems; the lack of tactile sensation; and limitations in movement due to the nature of rigid laparoscopic instruments. Although these shortcomings were markedly alleviated by the advent of robotic surgical systems, a phase II trial found that robotic surgery did not improve surgical outcomes in patients undergoing distal gastrectomy for gastric cancer [4]. In addition, the high cost of robotic systems limits their wide-spread application in various surgical fields, especially in developing countries. Recently, the distinct advantages of robotic surgical systems have been applied to laparoscopic systems, including three-dimensional visualization, near-infrared fluorescence imaging technology, and an articulating grasper or needle holders.
In this issue of
This study raised several interesting issues. First, the findings of this study may indicate situations in which the use of articulating instruments during laparoscopic surgery may be most helpful. Handling of current articulating instruments is uncomfortable, as these instruments are larger in size than conventional rigid instruments and require excessive wrist twisting to manipulate. Wrist stress can occur because the jog controller setting is set to the forearm axis, whereas the hand naturally faces toward the center of the body. A comparison of wrist postures required to grasp each instrument comfortably showed that wrists are more twisted when grasping ArtiSential than other devices (Fig. 1). Other possible cause of wrist stress is the fulcrum effect, which depends on target distance and trocar placement. Operation on a distant target from the working port requires wrist extension, whereas operation on a nearby target may require wrist flexion. Similar phenomena may depend on the distance between the two working ports (Fig. 2). The use of currently available instruments in all surgical procedures may be complicated and inefficient, whereas selective and temporary use of devices may be helpful in dissecting #11p or splenic hilar nodes that require vertical traction.
Another important issue is the cost-effectiveness of articulating instruments. Robotic distal gastrectomy requires longer operation times, even after the long-term experience, and is associated with an average in-hospital charge about 1.5 times higher than laparoscopic distal gastrectomy [4,6]. However, robotic distal gastrectomy did not show clear clinical benefits when compared with laparoscopic distal gastrectomy. The single-use, reasonably priced ArtiSential instrument was developed to reproduce the advantages of the robotic arm in laparoscopic surgery. This novel articulating instrument may be an excellent alternative to robotic surgical systems, with the same clinical benefit but reduced overall operation time and in-hospital cost.
In summary, this study demonstrated that the use of this novel articulating device was feasible in laparoscopic gastric cancer surgery. More robust studies are needed to determine the usefulness of this instrument for certain indications. Better articulating devices may overcome the limitations of current devices for laparoscopic surgery.
Conceptualization: SYS, HH
Investigation: SYS, SUH
Methodology: SYS, CKR
Visualization: SYS
Writing–original draft: SYS
Writing–review & editing: All authors
All authors read and approved the final manuscript.
The authors have no conflicts of interest to declare.
Journal of Minimally Invasive Surgery 2021; 24(1): 5-7
Published online March 15, 2021 https://doi.org/10.7602/jmis.2021.24.1.5
Copyright © The Korean Society of Endo-Laparoscopic & Robotic Surgery.
Sang-Yong Son , Chul Kyu Rho , Hoon Hur , Sang-Uk Han
Department of Surgery, Ajou University School of Medicine, Suwon, Korea
Correspondence to:Sang-Yong Son
Department of Surgery, Ajou University School of Medicine, 206 Worldcup-ro, Yeongtong-gu, Suwon 16499, Korea
Tel: +82-31-219-5205
Fax: +82-31-219-5755
E-mail: sonsy@aumc.ac.kr
ORCID: https://orcid.org/0000-0002-8903-0913
This is an Open Access article distributed under the terms of the Creative Commons Attribution Non-Commercial License (http://creativecommons.org/licenses/by-nc/4.0/) which permits unrestricted non-commercial use, distribution, and reproduction in any medium, provided the original work is properly cited.
Laparoscopic surgery is rapidly evolving with technological advances, but there are several drawbacks. An articulating device, with freedom of a perfect 360°, is attractive as a solution to overcome the restriction of instrument movement caused by straight tools. Its usefulness or efficacy should be supported by relevant scientific evidence. However, it is sometimes difficult to prove it because the factors influencing the surgical outcomes are complex and closely related to each other.
Keywords: Laparoscopy, Articulation, Surgical instrument
Laparoscopic surgery has become a standard procedure in patients with gastric cancer. Its oncological safety has been demonstrated in pivotal clinical trials, such as the KLASS-01 and KLASS-02 trials of the Korean Laparoendoscopic Gastrointestinal Surgery Study (KLASS) Group, and it has shown clinical benefits, such as earlier recovery and fewer postoperative complications, when compared with open gastrectomy [1-3]. Laparoscopic methods are currently utilized in patients with advanced-stage tumors and in technically demanding and complicated procedures such as pylorus-preserving gastrectomy. Important clinical trials are currently assessing the use of laparoscopic surgery for gastric cancer. For example, the KLASS-06 phase III trial is evaluating the oncological safety of laparoscopic total gastrectomy in patients with upper third gastric cancer.
Laparoscopic surgery has evolved with technological advances in laparoscopic instruments, imaging systems, and energy devices. Although these advances have made laparoscopic surgery more efficacious and easier, these surgical methods still have several drawbacks. These include the optical limitations (e.g., color, resolution) of current laparoscopic imaging systems; the lack of tactile sensation; and limitations in movement due to the nature of rigid laparoscopic instruments. Although these shortcomings were markedly alleviated by the advent of robotic surgical systems, a phase II trial found that robotic surgery did not improve surgical outcomes in patients undergoing distal gastrectomy for gastric cancer [4]. In addition, the high cost of robotic systems limits their wide-spread application in various surgical fields, especially in developing countries. Recently, the distinct advantages of robotic surgical systems have been applied to laparoscopic systems, including three-dimensional visualization, near-infrared fluorescence imaging technology, and an articulating grasper or needle holders.
In this issue of
This study raised several interesting issues. First, the findings of this study may indicate situations in which the use of articulating instruments during laparoscopic surgery may be most helpful. Handling of current articulating instruments is uncomfortable, as these instruments are larger in size than conventional rigid instruments and require excessive wrist twisting to manipulate. Wrist stress can occur because the jog controller setting is set to the forearm axis, whereas the hand naturally faces toward the center of the body. A comparison of wrist postures required to grasp each instrument comfortably showed that wrists are more twisted when grasping ArtiSential than other devices (Fig. 1). Other possible cause of wrist stress is the fulcrum effect, which depends on target distance and trocar placement. Operation on a distant target from the working port requires wrist extension, whereas operation on a nearby target may require wrist flexion. Similar phenomena may depend on the distance between the two working ports (Fig. 2). The use of currently available instruments in all surgical procedures may be complicated and inefficient, whereas selective and temporary use of devices may be helpful in dissecting #11p or splenic hilar nodes that require vertical traction.
Another important issue is the cost-effectiveness of articulating instruments. Robotic distal gastrectomy requires longer operation times, even after the long-term experience, and is associated with an average in-hospital charge about 1.5 times higher than laparoscopic distal gastrectomy [4,6]. However, robotic distal gastrectomy did not show clear clinical benefits when compared with laparoscopic distal gastrectomy. The single-use, reasonably priced ArtiSential instrument was developed to reproduce the advantages of the robotic arm in laparoscopic surgery. This novel articulating instrument may be an excellent alternative to robotic surgical systems, with the same clinical benefit but reduced overall operation time and in-hospital cost.
In summary, this study demonstrated that the use of this novel articulating device was feasible in laparoscopic gastric cancer surgery. More robust studies are needed to determine the usefulness of this instrument for certain indications. Better articulating devices may overcome the limitations of current devices for laparoscopic surgery.
Conceptualization: SYS, HH
Investigation: SYS, SUH
Methodology: SYS, CKR
Visualization: SYS
Writing–original draft: SYS
Writing–review & editing: All authors
All authors read and approved the final manuscript.
The authors have no conflicts of interest to declare.
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