Page 63 - Read Online
P. 63
Horch et al. Plast Aesthet Res 2018;5:26 I http://dx.doi.org/10.20517/2347-9264.2018.25 Page 9 of 9
49. Seuss H, Arkudas A, Hammon M, Bleiziffer O, Uder M, Horch RE, Yuan Q. Three-dimensional mapping of the arteriovenous loop model
using two-dimensional histological methods. Microsc Res Tech 2016;79:899-907.
50. Leibig N, Wietbrock JO, Bigdeli AK, Horch RE, Kremer T, Kneser U, Schmidt VJ. Flow-induced axial vascularization: the arteriovenous
loop in angiogenesis and tissue engineering. Plast Reconstr Surg 2016;138:825-35.
51. Polykandriotis E, Arkudas A, Euler S, Beier JP, Horch RE, Kneser U. Prevascularisation strategies in tissue engineering. Handchir
Mikrochir Plast Chir 2006;38:217-23.
52. Kneser U, Beier JP, Schmitz M, Arkudas A, Dragu A, Schmidt VJ, Kremer T, Horch RE. Zonal perfusion patterns in pedicled free-style
perforator flaps. J Plast Reconstr Aesthet Surg 2014;67:e9-17.
53. Horch RE, Lang W, Arkudas A, Taeger C, Kneser U, Schmitz M, Beier JP. Nutrient free flaps with vascular bypasses for extremity salvage
in patients with chronic limb ischemia. J Cardiovasc Surg (Torino) 2014;55:265-72.
54. Kneser U, Arkudas A, Beier JP, Dragu A, Stübinger A, Lang W, Horch RE. Extended skin and soft tissue defects after vascular wounds:
plastic surgical concepts. Zentralbl Chir 2013;138:536-42.
55. Rother U, Lang W, Horch RE, Ludolph I, Meyer A, Gefeller O, Regus S. Pilot assessment of the angiosome concept by intra-operative
fluorescence angiography after tibial bypass surgery. Eur J Vasc Endovasc Surg 2018;55:215-21.
56. Rother U, Lang W, Horch RE, Ludolph I, Meyer A, Regus S. Microcirculation evaluated by intraoperative fluorescence angiography after
tibial bypass surgery. Ann Vasc Surg 2017;40:190-7.
57. Meyer A, Horch RE, Schoengart E, Beier JP, Taeger CD, Arkudas A, Lang W. Results of combined vascular reconstruction by means of
AV loops and free flap transfer in patients with soft tissue defects. J Plast Reconstr Aesthet Surg 2016;69:545-53.
58. Meyer A, Goller K, Horch RE, Beier JP, Taeger CD, Arkudas A, Lang W. Results of combined vascular reconstruction and free flap
transfer for limb salvage in patients with critical limb ischemia. J Vasc Surg 2015;61:1239-48.
59. Ensat F, Hladik M, Larcher L, Mattiassich G, Wechselberger G. The distally based peroneus brevis muscle flap-clinical series and review
of the literature. Microsurgery 2014;34:203-8.
60. Panagiotopoulos K, Soucacos PN, Korres DS, Petrocheilou G, Kalogeropoulos A, Panagiotopoulos E, Zoubos AB. Anatomical study and
colour Doppler assessment of the skin perforators of the anterior tibial artery and possible clinical applications. J Plast Reconstr Aesthet
Surg 2009;62:1524-9.
61. Suh YC, Suh HP, Lee JS, Chang JS, Hong JPJ. Reconstruction using a perforator free flap after malignant melanoma resection of the ankle
and foot. J Surg Oncol 2017;116:862-9.
62. Acartürk TO, Tunc S, Acar F. Versatility of the perforator-based adipose, adipofascial, and fasciocutaneous flaps in reconstruction of distal
leg and foot defects. J Foot Ankle Surg 2016;55:362-7.
63. de Rezende MR, Saito M, Paulos RG, Ribak S, Abarca Herrera AK, Cho ÁB, Mattar R Jr. Reduction of morbidity with a reverse-flow
sural flap: a two-stage technique. J Foot Ankle Surg 2018;57:821-5.
64. Deng C, Wu B, Wei Z, Li H, Zhang T, Wang D. Interperforator flow pattern and clinical application of distal extended peroneal artery
perforator flaps. Ann Plast Surg 2018;80:546-52.
65. Ebrahiem AA, Manas RK, Vinagre G. Distally based sural artery peroneus flap (DBSPF) for foot and ankle reconstruction. Plast Reconstr
Surg Glob Open 2017;5:e1276.
66. Masood T, Ahmed R, Obaidullah. Use of a special splint in reverse sural artery flap to reduce venous congestion and flap necrosis. J Ayub
Med Coll Abbottabad 2016;28:63-6.
67. Cheng Z, Wu W, Hu P, Wang M. Distally based saphenous nerve-greater saphenous venofasciocutaneous flap for reconstruction of soft
tissue defects in distal lower leg. Ann Plast Surg 2016;77:102-5.
68. Chen SL, Chen TM, Chou TD, Chen SG, Wang HJ. The distally based lesser saphenous venofasciocutaneous flap for ankle and heel
reconstruction. Plast Reconstr Surg 2002;110:1664-72.
69. Lee HI, Ha SH, Yu SO, Park MJ, Chae SH, Lee GJ. Reverse sural artery island flap with skin extension along the pedicle. J Foot Ankle
Surg 2016;55:470-5.
70. Grandjean A, Romana C, Fitoussi F. Distally based sural flap for ankle and foot coverage in children. Orthop Traumatol Surg Res
2016;102:111-6.
71. Schannen AP, Truchan L, Goshima K, Bentley R, DeSilva GL. Sural Versus Perforator Flaps for Distal Medial Leg Wounds. Orthopedics
2015;38:e1059-64.
72. Chang SM, Li XH, Gu YD. Distally based perforator sural flaps for foot and ankle reconstruction. World J Orthop 2015;6:322-30.
73. Mok WL, Por YC, Tan BK. Distally Based Sural Artery Adipofascial Flap based on a Single Sural Nerve Branch: Anatomy and Clinical
Applications. Arch Plast Surg 2014;41:709-15.
74. Ludolph I, Arkudas A, Schmitz M, Boos AM, Taeger CD, Rother U, Horch RE, Beier JP. Cracking the perfusion code?: Laser-assisted
indocyanine green angiography and combined laser Doppler spectrophotometry for intraoperative evaluation of tissue perfusion in
autologous breast reconstruction with DIEP or ms-TRAM flaps. J Plast Reconstr Aesthet Surg 2016;69:1382-8.