Background <p>Anatomic segmentectomy 8 of the liver is among the most technically demanding procedures, primarily because of the deep intraparenchymal location and marked anatomic variability of the segment 8 Glissonean pedicle (G8) and the inherently curved configuration of the intersegmental planes. The cranial hepatic vein-guided approach (HVGA) combined with indocyanine green (ICG) fluorescence imaging offers a rational and reproducible strategy for achieving accurate anatomic resection.</p> Methods <p>The authors performed robotic anatomic segmentectomy 8 using a stepwise strategy integrating three complementary elements: (1) cranial root-side exposure of the middle hepatic vein (MHV) to establish a stable anatomic axis, (2) intersegmental vein (ISV)-guided localization of G8 exploiting the consistent anatomic relationship between the ISV between segments 5 and 8 and the G8 root, and (3) ICG-negative staining for real-time delineation of the segment 8 portal territory.</p> Results <p>The operative time was 180 min, with an estimated blood loss of 10 mL. No intraoperative transfusion was required. The Pringle maneuver was applied intermittently for a cumulative duration of 45 min. A 30-mm hepatocellular carcinoma was resected with a clear surgical margin of 11 mm. The postoperative course was uneventful, and the patient was discharged on postoperative day 7.</p> Conclusions <p>Robotic anatomic segmentectomy 8 using a cranial HVGA integrated with ICG fluorescence imaging enables precise identification of G8 and accurate navigation along the curved intersegmental planes of S8. This three-element integrated strategy provides an anatomically grounded, reproducible framework for safe and complex robotic anatomic segmentectomy.</p>

错误:搜索内容不能为空,请输入英文关键词
错误:关键词超出字数限制,请精简
高级检索

Robotic Anatomic Segmentectomy 8 of the Liver Using a Hepatic Vein-Guided Approach and Indocyanine Green Fluorescence Imaging (With Video)

  • Ji Hoon Kim,
  • Byeong-Gon Na,
  • Jimin Son

摘要

Background

Anatomic segmentectomy 8 of the liver is among the most technically demanding procedures, primarily because of the deep intraparenchymal location and marked anatomic variability of the segment 8 Glissonean pedicle (G8) and the inherently curved configuration of the intersegmental planes. The cranial hepatic vein-guided approach (HVGA) combined with indocyanine green (ICG) fluorescence imaging offers a rational and reproducible strategy for achieving accurate anatomic resection.

Methods

The authors performed robotic anatomic segmentectomy 8 using a stepwise strategy integrating three complementary elements: (1) cranial root-side exposure of the middle hepatic vein (MHV) to establish a stable anatomic axis, (2) intersegmental vein (ISV)-guided localization of G8 exploiting the consistent anatomic relationship between the ISV between segments 5 and 8 and the G8 root, and (3) ICG-negative staining for real-time delineation of the segment 8 portal territory.

Results

The operative time was 180 min, with an estimated blood loss of 10 mL. No intraoperative transfusion was required. The Pringle maneuver was applied intermittently for a cumulative duration of 45 min. A 30-mm hepatocellular carcinoma was resected with a clear surgical margin of 11 mm. The postoperative course was uneventful, and the patient was discharged on postoperative day 7.

Conclusions

Robotic anatomic segmentectomy 8 using a cranial HVGA integrated with ICG fluorescence imaging enables precise identification of G8 and accurate navigation along the curved intersegmental planes of S8. This three-element integrated strategy provides an anatomically grounded, reproducible framework for safe and complex robotic anatomic segmentectomy.