Thomas Benjamin, Falkner Florian, Gazyakan Emre, Harhaus Leila, Kneser Ulrich, Bigdeli Amir Khosrow
Klinik für Hand-, Plastische und Rekonstruktive Chirurgie, Mikrochirurgie - Schwerbrandverletztenzentrum der Ruprecht-Karls-Universität Heidelberg, BG Klinik Ludwigshafen, Ludwig-Guttmann-Str. 13, 67071, Ludwigshafen am Rhein, Deutschland.
Oper Orthop Traumatol. 2023 Jun;35(3-4):205-222. doi: 10.1007/s00064-023-00806-w. Epub 2023 May 8.
Durable and resilient soft tissue reconstruction of vast defects of the extremities or the torso.
Reconstruction of disproportionately large defects, particularly in cases of simultaneous bone and joint reconstruction.
History of surgery or irradiation of upper back and axilla, impossibility of surgery under lateral positioning; relative contraindications in wheelchair users, hemiplegics, or amputees.
General anesthesia and lateral positioning. First, the parascapular flap is harvested, with the initial skin incision made medially in order to identify the medial triangular space and the circumflex scapular artery. Flap raising then proceeds from caudal to cranial. Second, the latissimus dorsi is harvested, with the lateral border being dissected free first, before the thoracodorsal vessels are visualized on its undersurface. Flap raising then proceeds from caudal to cranial. Third, the parascapular flap is advanced through the medial triangular space. If the circumflex scapular and thoracodorsal vessels originate separately from the subscapular axis, an in-flap anastomosis is warranted. Subsequent microvascular anastomoses should be performed outside the zone of injury, typically in an end-to-end fashion of the vein and end-to-side fashion of the artery.
Postoperative anticoagulation with low-molecular-weight heparin under anti-Xa monitoring (semitherapeutic in normal-risk and therapeutic in high-risk cases). Hourly clinical assessment of flap perfusion for 5 consecutive days, followed by stepwise relaxation of immobilization and commencement of dangling procedures in cases of lower extremity reconstruction.
Between 2013 and 2018, 74 conjoined latissimus dorsi and parascapular flaps were transplanted to cover vast defects of the lower (n = 66) and upper extremity (n = 8). The mean defect size was 723 ± 482 cm and the mean flap size was 635 ± 203 cm. Eight flaps required in-flap anastomoses for separate vascular origins. There was no case of total flap loss.
对四肢或躯干的大面积缺损进行持久且有弹性的软组织重建。
重建不成比例的大缺损,特别是在同时进行骨与关节重建的情况下。
上背部和腋窝有手术或放疗史,无法在侧卧位下进行手术;轮椅使用者、偏瘫患者或截肢者为相对禁忌症。
全身麻醉及侧卧位。首先,切取肩胛旁皮瓣,最初的皮肤切口在内侧进行,以识别内侧三角间隙和旋肩胛动脉。然后皮瓣从尾侧向头侧掀起。其次,切取背阔肌,先游离外侧缘,然后在其下表面显露胸背血管。皮瓣再从尾侧向头侧掀起。第三,将肩胛旁皮瓣经内侧三角间隙推进。如果旋肩胛血管和胸背血管分别起源于肩胛下轴,则需要在皮瓣内进行吻合。随后的微血管吻合应在损伤区域外进行,通常静脉采用端端吻合,动脉采用端侧吻合。
术后在抗Xa监测下使用低分子量肝素抗凝(正常风险患者采用半治疗量,高风险患者采用治疗量)。连续5天每小时对皮瓣灌注进行临床评估,对于下肢重建病例,随后逐步放松固定并开始进行下垂训练。
2013年至2018年期间,共移植了74例联合背阔肌和肩胛旁皮瓣,以覆盖下肢(n = 66)和上肢(n = 8)的大面积缺损。平均缺损面积为723±482平方厘米,平均皮瓣面积为635±203平方厘米。8例皮瓣因血管起源不同需要在皮瓣内进行吻合。无皮瓣完全坏死病例。