Silvestre C, Mac-Thiong JM, Hilmi R et al (2012) Complications and morbidities of mini-open anterior retroperitoneal lumbar interbody fusion: oblique lumbar interbody fusion in 179 patients. Asian Spine J 6(2):89–97
Article PubMed PubMed Central Google Scholar
Woods KR, Billys JB, Hynes RA (2017) Technical description of oblique lateral interbody fusion at L1–L5 (OLIF25) and at L5–S1 (OLIF51) and evaluation of complication and fusion rates. Spine J Off J N Am Spine Soc 17(4):545–553
Zeng ZY, Xu ZW, He DW et al (2018) Complications and prevention strategies of oblique lateral interbody fusion technique. Orthop Surg 10(2):98–106
Article PubMed PubMed Central Google Scholar
Schulte TL, Mester B, Oberdiek D et al (2010) Approach-related lesions of the sympathetic chain in anterior correction and instrumentation of idiopathic scoliosis. Eur Spine J Off Publ Eur Spine Soc Eur Spinal Deform Soc Eur Sect Cerv Spine Res Soc 19(9):1558–1568
Fujibayashi S, Kawakami N, Asazuma T et al (2017) Complications associated with lateral interbody fusion: nationwide survey of 2998 cases during the first 2 years of its use in Japan. Spine 42(19):1478–1484
Kim JS, Choi WS, Sung JH (2016) Minimally invasive oblique lateral interbody fusion for L4–5: clinical outcomes and perioperative complications. Neurosurgery 63:190–191
Walker CT, Farber SH, Cole TS et al (2019) Complications for minimally invasive lateral interbody arthrodesis: a systematic review and meta-analysis comparing prepsoas and transpsoas approaches. J Neurosurg Spine 30:446–460. https://doi.org/10.3171/2018.9.SPINE18800
Hexsel D, Rodrigues TC, Soirefmann M, Zechmeister-Prado D (2010) Recommendations for performing and evaluating the results of the minor test according to a sweating intensity visual scale. Dermatol Surg 36(1):120–122
Article CAS PubMed Google Scholar
Mahatthanatrakul A, Itthipanichpong T, Ratanakornphan C et al (2019) Relation of lumbar sympathetic chain to the open corridor of retroperitoneal oblique approach to lumbar spine: an MRI study. Eur Spine J Off Publ Eur Spine Soc Eur Spinal Deform Soc Eur Sect Cerv Spine Res Soc 28(4):829–834
Zhao L, Xie T, Wang X et al (2022) Clinical and radiological evaluation of cage subsidence following oblique lumbar interbody fusion combined with anterolateral fixation. BMC Musculoskelet Disord 23(1):214
Article CAS PubMed PubMed Central Google Scholar
Louie PK, Narain AS, Hijji FY et al (2017) Radiographic analysis of psoas morphology and its association with neurovascular structures at L4–5 with reference to lateral approaches. Spine 42(24):E1386–E1392
Ng JP, Kaliya-Perumal AK, Tandon AA et al (2020) The oblique corridor at L4–L5: a radiographic-anatomical study into the feasibility for lateral interbody fusion. Spine 45(10):E552–E559
Rutter G, Phan K, Smith A et al (2017) Morphometric anatomy of the lumbar sympathetic trunk with respect to the anterolateral approach to lumbar interbody fusion: a cadaver study. J Spine Surg (Hong Kong) 3(3):419–425
Kasliwal MK, Deutsch H (2011) Anhidrosis after anterior retroperitoneal approach for L4–L5 artificial disc replacement. J Clin Neurosci Off J Neurosurg Soc Australas 18(7):990–991
Epstein NE (2019) Review of risks and complications of extreme lateral interbody fusion (XLIF). Surg Neurol Int 10:237. https://doi.org/10.25259/SNI_559_2019
Article PubMed PubMed Central Google Scholar
Iwanaga J, Zeoli T, Scullen T et al (2021) Cadaveric evidence of complete transection of the lumbar sympathetic trunk after extreme lateral transpsoas approach to the lumbar spine: a word of caution. Cureus 13(4):e14346
PubMed PubMed Central Google Scholar
Khalifé M, Dauzac C, Lenoir T et al (2021) Isthmic spondylolisthesis treated with circumferential arthrodesis (ALIF and posterior fixation): correction, fusion and indirect decompression. Acta Orthop Belg 87(4):787–794
Hrabalek L, Sternbersky J, Adamus M (2015) Risk of sympathectomy after anterior and lateral lumbar interbody fusion procedures. Biomed Pap Med Fac Univ Palacky Olomouc Czechoslov 159(2):318–326
Zhang JF, Fan SW, Fang XQ (2017) Clinical value of one⁃level oblique lateral interbody fusion in the treatment of degenerative lumbar disc diseases. Chin J Orthop 37(2):80–88
Kang BU, Choi WC, Lee SH et al (2009) An analysis of general surgery-related complications in a series of 412 mini-laparotomic anterior lumbosacral procedures. J Neurosurg Spine 10(1):60–65
Wang H, Zhang Y, Ma X et al (2018) Radiographic study of lumbar sympathetic trunk in oblique lateral interbody fusion surgery. World Neurosurg 116:e380–e385
Deng D, Liao X, Wu R et al (2022) Surgical safe zones for oblique lumbar interbody fusion of L1–5: a cadaveric study. Clin Anat (New York, NY) 35(2):178–185
Zhang F, Xu H, Yin B et al (2017) Does right lateral decubitus position change retroperitoneal oblique corridor? A radiographic evaluation from L1 to L5. Eur Spine J Off Publ Eur Spine Soc Eur Spinal Deform Soc Eur Sect Cerv Spine Res Soc 26(3):646–650
Shimizu T, Fujibayashi S, Otsuki B et al (2021) Indirect decompression via oblique lateral interbody fusion for severe degenerative lumbar spinal stenosis: a comparative study with direct decompression transforaminal/posterior lumbar interbody fusion. Spine J Off J N Am Spine Soc 21(6):963–971
Tanaka M, Okada H, Hashimoto Y et al (2021) Distinct associations of intraperitoneal and retroperitoneal visceral adipose tissues with metabolic syndrome and its components. Clin Nutr (Edinburgh, Scotland) 40(5):3479–3484
留言 (0)