Glissonean approach for hepatic inflow control in minimally invasive anatomic liver resection: A systematic review.
Glissonean approach
hepatic inflow control
laparoscopic liver surgery
liver anatomy
liver resection
Journal
Journal of hepato-biliary-pancreatic sciences
ISSN: 1868-6982
Titre abrégé: J Hepatobiliary Pancreat Sci
Pays: Japan
ID NLM: 101528587
Informations de publication
Date de publication:
Jan 2022
Jan 2022
Historique:
revised:
14
01
2021
received:
28
10
2020
accepted:
27
01
2021
pubmed:
3
2
2021
medline:
2
2
2022
entrez:
2
2
2021
Statut:
ppublish
Résumé
The Glissonean approach has been widely validated for both open and minimally invasive anatomic liver resection (MIALR). However, the possible advantages compared to the conventional hilar approach are still under debate. The aim of this systematic review was to evaluate the application of the Glissonean approach in MIALR. A systematic review of the literature was conducted on PubMed and Ichushi databases. Articles written in English or Japanese were included. From 2,390 English manuscripts evaluated by title and abstract, 43 were included. Additionally, 23 out of 463 Japanese manuscripts were selected. Duplicates were removed, including the most recent manuscript. The Glissonean approach is reported for both major and minor MIALR. The 1st, 2nd and 3rd order divisions of both right and left portal pedicles can be reached following defined anatomical landmarks. Compared to the conventional hilar approach, the Glissonean approach is associated with shorter operative time, lower blood loss, and better peri-operative outcomes. Glissonean approach is safe and feasible for MIALR with several reported advantages compared to the conventional hilar approach. Clear knowledge of Laennec's capsule anatomy is necessary and serves as a guide for the dissection. However, the best surgical approach to be performed depends on surgeon experience and patients' characteristics. Standardization of the Glissonean approach for MIALR is important.
Sections du résumé
BACKGROUND
BACKGROUND
The Glissonean approach has been widely validated for both open and minimally invasive anatomic liver resection (MIALR). However, the possible advantages compared to the conventional hilar approach are still under debate. The aim of this systematic review was to evaluate the application of the Glissonean approach in MIALR.
METHODS
METHODS
A systematic review of the literature was conducted on PubMed and Ichushi databases. Articles written in English or Japanese were included. From 2,390 English manuscripts evaluated by title and abstract, 43 were included. Additionally, 23 out of 463 Japanese manuscripts were selected. Duplicates were removed, including the most recent manuscript.
RESULTS
RESULTS
The Glissonean approach is reported for both major and minor MIALR. The 1st, 2nd and 3rd order divisions of both right and left portal pedicles can be reached following defined anatomical landmarks. Compared to the conventional hilar approach, the Glissonean approach is associated with shorter operative time, lower blood loss, and better peri-operative outcomes.
CONCLUSIONS
CONCLUSIONS
Glissonean approach is safe and feasible for MIALR with several reported advantages compared to the conventional hilar approach. Clear knowledge of Laennec's capsule anatomy is necessary and serves as a guide for the dissection. However, the best surgical approach to be performed depends on surgeon experience and patients' characteristics. Standardization of the Glissonean approach for MIALR is important.
Types de publication
Journal Article
Systematic Review
Langues
eng
Sous-ensembles de citation
IM
Pagination
51-65Investigateurs
Yuta Abe
(Y)
Takeshi Aoki
(T)
Albert C Y Chan
(ACY)
Rawisak Chanwat
(R)
Kuo-Hsin Chen
(KH)
Yajin Chen
(Y)
Tan To Cheung
(TT)
Ruben Ciria
(R)
David Fuks
(D)
David A Geller
(DA)
Kiyoshi Hasegawa
(K)
Etsuro Hatano
(E)
Goro Honda
(G)
Osamu Itano
(O)
Yukio Iwashita
(Y)
Hironori Kaneko
(H)
Ji Hoon Kim
(JH)
Rong Liu
(R)
Santiago López-Ben
(S)
Kazuteru Monden
(K)
Yoshihiro Sakamoto
(Y)
Minoru Tanabe
(M)
Tomoharu Yoshizumi
(T)
Keiichi Akahoshi
(K)
Shunichi Ariizumi
(S)
Andrea Benedetti Cacciaguerra
(AB)
Manuel Duran
(M)
Felipe Alconchel Gago
(FA)
Nicolas Golse
(N)
Yoshihiro Miyasaka
(Y)
Hitoe Nishino
(H)
Satoshi Ogiso
(S)
Takeshi Urade
(T)
Alain García Vázquez
(AG)
Taiga Wakabayashi
(T)
Itaru Endo
(I)
Akihiko Tsuchida
(A)
Informations de copyright
© 2021 Japanese Society of Hepato-Biliary-Pancreatic Surgery.
Références
Buell JF, Cherqui D, Geller DA, O'Rourke N, Iannitti D, Dagher I, et al. The international position on laparoscopic liver surgery: The Louisville Statement, 2008. Ann Surg. 2009;250(5):825-30.
Wakabayashi G, Cherqui D, Geller DA, Buell JF, Kaneko H, Han HS, et al. Recommendations for laparoscopic liver resection: a report from the second international consensus conference held in Morioka. Ann Surg. 2015;261(4):619-29.
Abu Hilal M, Aldrighetti L, Dagher I, Edwin B, Troisi RI, Alikhanov R, et al. The Southampton Consensus Guidelines for Laparoscopic Liver Surgery: From Indication to Implementation. Ann Surg. 2018;268(1):11-8.
Lin TY, Chem KM, Liu TK. Total right hepatic lobectomy for primary hepatoma. Surgery. 1960;48:1048-60.
Tung TT, Quang ND. A new technique for operating on the liver. Lancet. 1963;26:192-3.
Bismuth H. Surgical anatomy and anatomical surgery of the liver. World J Surg. 1982;6:3-9.
Takasaki K, Kobayashi S, et al. Gurisonsho syori ni yoru atarasii keitouteki kan setujojutu (New anatomic liver resection using Glissonean approach). Syujutu (Operation). 1986;40:7-14.[published in Japanese].
Takasaki K. Kan migi kuiki setujo -uyou koukuiki setujo- (Right Posterior Segmentectomy). Syujutu (Operation). 1993;47:465-71.[published in Japanese].
Takasaki K. Glissonean pedicle transection method for hepatic resection: a new concept of liver segmentation. J Hepatobiliary Pancreat Surg. 1998;5(3):286-91.
Couinaud CM. A simplified method for controlled left hepatectomy. Surgery. 1985;97(3):358-61.
Launois B, Jamieson GG. The posterior intrahepatic approach for hepatectomy or removal of segments of the liver. Surg Gynecol Obstet. 1992;174(2):155-8.
Lazorthes F, Chiotasso P, Chevreau P, Materre J, Roques J. Hepatectomy with initial suprahilar control of intrahepatic portal pedicles. Surgery. 1993;113(1):103-8.
Shirata C, Kokudo T, Gillet M, Uldry E, Demartines N, Kokudo N, et al. Reappraisal of Laennec's capsule. Surg Oncol. 2020;33:222-3.
Sugioka A, Kato Y, Tanahashi Y. Systematic extrahepatic Glissonean pedicle isolation for anatomical liver resection based on Laennec's capsule: proposal of a novel comprehensive surgical anatomy of the liver. J Hepatobiliary Pancreat Sci. 2017;24(1):17-23.
Sugioka A. Re: Laennec's capsule does not exist around the peripheral hepatic veins. J Hepatobiliary Pancreat Sci. 2019;26(10):E14.
Moris D, Rahnemai-Azar AA, Tsilimigras DI, Ntanasis-Stathopoulos I, Marques HP, Spartalis E, et al. Updates and Critical Insights on Glissonian Approach in Liver Surgery. J Gastrointest Surg. 2018;22(1):154-63.
Figueras J, Lopez-Ben S, Llado L, Rafecas A, Torras J, Ramos E, et al. Hilar dissection versus the "glissonean" approach and stapling of the pedicle for major hepatectomies: a prospective, randomized trial. Ann Surg. 2003;238(1):111-9.
Moher D, Liberati A, Tetzlaff J, Altman DG, Group P. Preferred reporting items for systematic reviews and meta-analyses: the PRISMA statement. Int J Surg. 2010;8(5):336-41.
Liu F, Wei Y, Chen K, Li H, Wang W, Wu H, et al. The Extrahepatic Glissonian Versus Hilar Dissection Approach for Laparoscopic Formal Right and Left Hepatectomies in Patients with Hepatocellular Carcinoma. J Gastrointest Surg. 2019;23(12):2401-10.
Liu F, Xu H, Li Q, Wei Y, Li H, Wang W, et al. Outcomes of pure laparoscopic Glissonian pedicle approach hepatectomy for hepatocellular carcinoma: a propensity score matching analysis. Surg Endosc. 2019;33(4):1155-66.
Ke J, Liu F, Liu Y. Glissonean Pedicle Transection with Hepatic Vein Exclusion for Hepatocellular Carcinoma: A Comparative Study with the Pringle Maneuver. J Laparoendos Adv Surg Tech Part A. 2020;30(1):58-63.
Kim SH, Kim YK. Hanging manoeuver for a left hepatectomy using Glisson's approach with a focus on tape position in liver hilum. HPB (Oxford). 2013;15(9):681-6.
Habib M, Cresswell AB, Chandrakumaran K, Welsh FK, John TG, Rees M. Extrahepatic versus intrahepatic hilar control for right hepatectomy: an updated experience. Digest Surg. 2012;29(1):18-22.
Giordano M, Lopez-Ben S, Codina-Barreras A, Pardina B, Falgueras L, Torres-Bahi S, et al. Extra-Glissonian approach in liver resection. HPB (Oxford). 2010;12(2):94-100.
Cresswell AB, Welsh FK, John TG, Rees M. Evaluation of intrahepatic, extra-Glissonian stapling of the right porta hepatis vs. classical extrahepatic dissection during right hepatectomy. HPB. 2009;11(6):493-8.
Nakai T, Koh K, Funai S, Kawabe T, Okuno K, Yasutomi M. Comparison of controlled and Glisson's pedicle transections of hepatic hilum occlusion for hepatic resection. J Am Coll Surg. 1999;189(3):300-4.
Machado MA, Surjan RC, Basseres T, Schadde E, Costa FP, Makdissi FF. The laparoscopic Glissonian approach is safe and efficient when compared with standard laparoscopic liver resection: Results of an observational study over 7 years. Surgery. 2016;160(3):643-51.
Le Treut YP, Gregoire E, Fara R, Giuly JA, Chopinet S, Delpero JR, et al. The technique and outcomes of central hepatectomy by the Glissonian suprahilar approach. Eur J Surg Oncol. 2019;45(12):2369-74.
Berardi G, Igarashi K, Li CJ, Ozaki T, Mishima K, Nakajima K, et al. Parenchymal Sparing Anatomical Liver Resections With Full Laparoscopic Approach: Description of Technique and Short-term Results. Ann Surg. 2019. Online ahead of print. https://doi.org/10.1097/SLA.0000000000003575
Ome Y, Honda G, Doi M, Muto J, Seyama Y. Laparoscopic Anatomic Liver Resection of Segment 8 Using Intrahepatic Glissonean Approach. J Am Coll Surg. 2020;230(3):e13-e20.
Chen HW, Wang FJ, Li JY, Deng FW, Lai ECH, Lau WY. Extra-Glissonian Approach for Laparoscopic Liver Right Anterior Sectionectomy. JSLS. 2019;23:2.
Hasegawa Y, Nitta H, Takahara T, Katagiri H, Kanno S, Sasaki A. Pure laparoscopic living donor hepatectomy using the Glissonean pedicle approach (with video). Surg Endosc. 2019;33(8):2704-9.
Urade T, Sawa H, Iwatani Y, Abe T, Fujinaka R, Murata K, et al. Laparoscopic anatomical liver resection using indocyanine green fluorescence imaging. Asian J Surg. 2020;43(1):362-8.
Yu DC, Wu XY, Sun XT, Ding YT. Glissonian approach combined with major hepatic vein first for laparoscopic anatomic hepatectomy. Hepatobiliary Pancreat Dis Int. 2018;17(4):316-22.
Kim JH, Cho BS, Jang JH. Pure laparoscopic anatomical segment VI resection using the Glissonian approach, Rouviere's sulcus as a landmark, and a modified liver hanging maneuver (with video). Langenbecks Arch Surg. 2018;403(1):131-5.
Miyata T, Beppu T, Higashi T, Nakagawa S, Okabe H, Imai K, et al. A Glissonean Approach with Individual Isolation During Right Hemi-Hepatectomy After Portal Vein Embolization. Anticancer Res. 2017;37(12):7069-71.
Okuda Y, Honda G, Kobayashi S, Sakamoto K, Homma Y, Honjo M, et al. Intrahepatic Glissonean Pedicle Approach to Segment 7 from the Dorsal Side During Laparoscopic Anatomic Hepatectomy of the Cranial Part of the Right Liver. J Am Coll Surg. 2018;226(2):e1-e6.
Figueroa R, Laurenzi A, Laurent A, Cherqui D. Perihilar Glissonian Approach for Anatomical Parenchymal Sparing Liver Resections: Technical Aspects: The Taping Game. Ann Surg. 2018;267(3):537-43.
Lee JH, Han DH, Jang DS, Choi GH, Choi JS. Robotic extrahepatic Glissonean pedicle approach for anatomic liver resection in the right liver: techniques and perioperative outcomes. Surg Endosc. 2016;30(9):3882-8.
Karamarkovic A, Doklestic K. Pre-resectional inflow vascular control: extrafascial dissection of Glissonean pedicle in liver resections. Hepatobiliary Surg Nutr. 2014;3(5):227-37.
Machado MA, Surjan RC, Makdissi FF. Intrahepatic glissonian approach for single-port laparoscopic liver resection. J Laparoendos Adv Surg Tech Part A. 2014;24(8):534-7.
Xie KL, Zeng Y, Wu H. Hepatic trisectionectomy for hepatocellular carcinoma using the Glisson pedicle method combined with anterior approach. World J Surg. 2014;38(9):2358-62.
Xia F, Li G, Lau WY, Ma KS, Bie P. Intrahepatic Glissonian approach and outflow vascular occlusion during partial hepatectomy. Hepatobiliary Pancreat Dis Int. 2014;13(1):101-4.
Makdissi FF, Machado MA, Surjan RC. A new instrument for intrahepatic access of Glissonian pedicles during anatomical liver resections. Surg Innovation. 2014;21(4):350-4.
Mouly C, Fuks D, Browet F, Mauvais F, Potier A, Yzet T, et al. Feasibility of the Glissonian approach during right hepatectomy. HPB (Oxford). 2013;15(8):638-45.
Rotellar F, Pardo F, Benito A, Marti-Cruchaga P, Zozaya G, Pedano N. A novel extra-glissonian approach for totally laparoscopic left hepatectomy. Surg Endosc. 2012;26(9):2617-22.
Ikeda T, Yonemura Y, Ueda N, Kabashima A, Shirabe K, Taketomi A, et al. Pure laparoscopic right hepatectomy in the semi-prone position using the intrahepatic Glissonian approach and a modified hanging maneuver to minimize intraoperative bleeding. Surg Today. 2011;41(12):1592-8.
Cho A, Yamamoto H, Kainuma O, Souda H, Ikeda A, Takiguchi N, et al. Safe and feasible extrahepatic Glissonean access in laparoscopic anatomical liver resection. Surg Endosc. 2011;25(4):1333-6.
Hu JX, Dai WD, Miao XY, Zhong DW, Huang SF, Wen Y, et al. Anatomic resection of segment VIII of liver for hepatocellular carcinoma in cirrhotic patients based on an intrahepatic Glissonian approach. Surgery. 2009;146(5):854-60.
Machado MA, Makdissi FF, Surjan RC, Herman P, Teixeira AR. Laparoscopic resection of left liver segments using the intrahepatic Glissonian approach. Surg Endosc. 2009;23(11):2615-9.
Machado MA, Makdissi FF, Galvao FH, Machado MC. Intrahepatic Glissonian approach for laparoscopic right segmental liver resections. Am J Surg. 2008;196(4):e38-42.
Honda G, Kurata M, Tsuruta K. Approach for systematic resection of the liver anterosuperior area: exposing Glissonean pedicles by prior dissection of the major hepatic fissure. J Am Coll Surg. 2008;207(1):e1-4.
Cho A, Asano T, Yamamoto H, Nagata M, Takiguchi N, Kainuma O, et al. Laparoscopy-assisted hepatic lobectomy using hilar Glissonean pedicle transection. Surg Endosc. 2007;21(8):1466-8.
Machado MA, Herman P, Figueira ER, Bacchella T, Machado MC. Intrahepatic Glissonian access for segmental liver resection in cirrhotic patients. Am J Surg. 2006;192(3):388-92.
Batignani G. Hilar plate detachment and extraglissonian extrahepatic anterior approach to the right portal pedicle for right liver resections. J Am Coll Surg. 2000;190(5):631-4.
Hu Y, Shi J, Wang S, Zhang W, Sun X, Sun B, et al. Laennec's approach for laparoscopic anatomic hepatectomy based on Laennec's capsule. BMC Gastroenterol. 2019;19(1):194.
Shou-wang C, Shi-zhong Y, Wen-ping L, Geng C, Wan-qing G, Wei-dong D, et al. Sustained methylene blue staining to guide anatomic hepatectomy for hepatocellular carcinoma: Initial experience and technical details. Surgery. 2015;158(1):121-7.
Machado MAC, Surjan R, Basseres T, Makdissi F. Laparoscopic Parenchymal-Sparing Liver Resections Using the Intrahepatic Glissonian Approach. Ann Surg Oncol. 2017;24(8):2353-4.
Chouillard E, Cherqui D, Tayar C, Brunetti F, Fagniez P. Anatomical bi- and trisegmentectomies as alternatives to extensive liver resections. Ann Surg. 2003;238(1):29-34.
Ome Y, Okabe M, et al. Fukukuukyou no siya wo ikasita Glisson ikkatu syori ni yoru kanzen fukukuukyouka kan zenkuiki setujojutu (Laparoscopic right anterior sectionectomy with Glissonean approach using the merit of laparoscopic view). Nihon gekakei rengougakkaisi (Journal of Japanese College of Surgeons) 2018;43:566-71 [published in Japanese].
Endo I, Yamaguchi N, et al. Kanmonban to gurisonsyou no gekakaibou to rinnsyou ouyou (Surgical anatomy of the hilar plate and the Glissonean sheath). Tan to sui (Journal of Biliary Tract and Pancreas). 2010;31:667-72 [published in Japanese].
Endo I. Kanmonban to gurisonsyou no gekakaibou to rinnsyou ouyou (Surgical anatomy of the hilar plate and the Glissonean sheath) Dai 14kai rinnsyou kaibou kennkyuukai kiroku (14th meeting of Japanese Research Society of Clinical Anatomy). 2011 11:66-7 [published in Japanese].
Sugioka A, Kato Y, et al. Kanzou syujutu ni okeru hakurisou no sentaku (How to determine the dissection layer in liver resections). Rinsho geka (Journal of Clinical Surgery) 2017;72:827-35 [published in Japanese].
Cho A, Yamamoto H, et al. Kanmonban wo juusi sita kanmonbu tankangan (Surgery for hilar cholangiocarcinoma focusing on hepatic hilum). Tandou (Journal of Japan Biliary Association) 2010;24:35-9 [published in Japanese].
Murakami G. Kanmonbu no kisokaibou (Basic anatomy of hepatic hilum). Tandou (Journal of Japan Biliary Association) 2007;21:97-104 [published in Japanese].
Miyazaki A, Cho A, et al. Kanmonban no kaibou (Anatomy of heptic hilum). Tan to sui (Journal of Biliary Tract and Pancreas) 2010;31:689-93 [published in Japanese].
Sugioka A, Kato Y, et al. Laennec himaku wo rikai suru -hakuri, kangai Glisson syou ikkatuhakuri no kotu- (Lannec’s capsule: Tips of dissection and extrahepatic Glissonean approach) Syujutu (Operation) 2017;71:575-86 [published in Japanese].
Matsuyama T, Taniguchi K, et al. Kanmonban to gurison syou no gekakaibou to rinsyououyou (Surgical anatomy of hepatic hilum and Glissonean pedicle). Tan to sui (Journal of Biliary Tract and Pancreas). 2012;32:1055-60.[published in Japanese].
Kamiya J. Kanmonbu no geka kaibou (Surgical Anatomy of hepatic hilum). Tandou (Journal of Japan Biliary Association) 2017;21:91-6 [published in Japanese].
Gunji H, Yamamoto H, et al. Kanmonban no gazou kaibou (Imaging analysis for the anatomy of hepatic hilum). Tan to sui (Journal of Biliary Tract and Pancreas) 2008;29:1181-6 [published in Japanese].
Segami K, Kobayashi S, et al. MRCP wo motiita tankangouryuu no keitai oyobi iti ni kansuru kentou (Bile duct jining patterns on MRCP: Joining position of the left bile duct in the hepatic hilar region) Sei marianna ikadaigaku zassi (The St Marianna Medical Journal) 2011;38:221-7 [published in Japanese]..
Couinaud C. Surgical Anatomy of the Liver Revised. (Uji Nimura, Trans) Japan: Igaku-Shoin. 1996;(Original work published 1989):26-38.
Murakami G. Kanmonbu to bijouyou no atarasii siten (New perspective of hepatic hilum and caudate lobe for surgery and intervention). Tan to sui (Journal of Biliary Tract and Pancreas) 2010;31:639-46 [published in Japanese].
Ariizumi S, Katagiri S, et al. Kaifuku kanyou setujo (Open right and left hepatectomy). Syujutu (Operation) 2012;66:741-5 [published in Japanese].
Inoue Y, Uchiyama K. 3D simulation・navigation ni yoru gurison senkou ikkatu syori kansetujo no jissai (Liver resection using Glissonean approach with 3D navigation). Tan to sui (Journal of Biliary Tract and Pancreas). 2013;34:35-41.[published in Japanese].
Uchiyama K, Yamaue Y. Kekkansihai ni motozuita keitouteki kansetujo no tameno kufuu -jututyuu navigation no yuuyousei- (Usability of intraoperative navigation in anatomic liver resection based on hepatic inflow). Geka tiryou (Surgical Therapy) 2011;105:376-82 [published in Japanese]
Katagiri S, Yamamoto M. Glisson kei kaibou to kanmonbusyori no kihon (Basics in the anatomy of Glissonean pedicles and Glissonean approach at hilum). Syujutu (Operation) 2012;66:741-5 [published in Japanese].
Uemoto S. Kansetujoji no myakkansyori to kanridan no kotu (Tips in vascular control and parenchymal transection in liver resection). . Nihon syoukakigekagakkai kyouikusyuukai (Educational Meeting of Japanese Society of Gastroenterological Surgery). 2008; :45-52 [published in Japanese].
Uchiyama K. Keitouteki kansetujo ni okeru navigation syujutu (Navigation in anatomic liver resection). W'Waves. 2013;19:55-8.[published in Japanese].
Sugioka A, Kato Y, et al. Fukukuukyouka kankuikisetujo ni hituyou na kyokusyokaibou (Surgical anatomy for laparoscopic liver segmentectomy). Rinsyougeka (Journal of Clinical Surgery). 2018;73:171-82.[published in Japanese].
Nakamura K, et al. Fukukuukyokuka kanyousetujo, kuikisetujo (gaisokukuiki setujo igai) (Laparoscopic liver sectionectomy and segmentectomy (except lateral segmentectomy)). Rinsyougeka (Journal of Clinical Surgery). 2015;70:178-84.[published in Japanese].
Cîmpeanu I, Băjenaru N, Puşcaşu A. A Lesser-Known Hepatic Anatomical and Surgical Structure: the Rouviere-Gans Incisura (RGI). Chirurgia (Bucur). 2017;112(3):252-8.
Dahmane R, Morjane A, Starc A. Anatomy and surgical relevance of Rouviere‘s sulcus. Scientific World Journal. 2013:254287. https://doi.org/10.1155/2013/254287
Rotellar F, Martí-Cruchaga P, Zozaya G, Tuero C, Luján J, Benito A, et al. Standardized laparoscopic central hepatectomy based on hilar caudal view and root approach of the right hepatic vein. J Hepatobiliary Pancreat Sci. 2020;27(1):E7-E8.