BMC Surgery (Jul 2023)

Stapler port position determination using 3-dimensional virtual simulation software in robot-assisted thoracic surgery

  • Satoshi Hayashi,
  • Masaya Kawada,
  • Yuki Mori

DOI
https://doi.org/10.1186/s12893-023-02112-5
Journal volume & issue
Vol. 23, no. 1
pp. 1 – 8

Abstract

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Abstract Background In robot-assisted thoracic surgery (RATS) lobectomy using a robotic stapler, stapling is difficult when the stapler port place is close to the resection target vessel. We examined whether three-dimensional computed tomography (3D-CT) software enables stapler port place determination for stapling. Methods Seventy-three patients who underwent RATS lobectomy were enrolled. The SureForm 45 Curved-Tip stapler (136 mm from the remote center to the anvil tip) was used. The virtual distance between the resection target vessel and stapler port place (VD) was preoperatively measured with 3D-CT software. The stapler port place was the most cranial intercostal space with a VD ≥ 136 mm. The actual distance between the resection target vessel and anvil tip (AD) was measured intraoperatively. We examined the associations of the difficulty in stapling with VD, AD, chest wall damage, and clinical features. Results Stapling was easier with a larger anteroposterior thoracic diameter and AD. The cut-off VD and AD for smooth stapling were 142 mm and 6 mm. Chest wall damage was frequently observed at the caudal and dorsal side ports. Conclusions As the stapler port place is located more caudally, stapling becomes easier. However, chest wall damage increases. If the stapler port place is positioned at a site ensuring VD ≥ 142 mm by 3D-CT software, smooth stapling may be possible with a decreased incidence of chest wall damage.

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