Ankle-Arm Index versus Angiography for the Preassessment of the Fibula Free Flap

Klein, Steven; Hage, J. Joris; Horst, Chantal M.A.M. van der; Lagerweij, Michiel

doi:10.1097/01.prs.0000041444.93038.1a

Cited by 24 publications

(15 citation statements)

References 23 publications

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“…A 10-cm segmental bony defect of the radius was reconstructed with a free fibula osteofasciocutaneous flap (Figs. [1][2][3][4]. No preoperative donor-leg angiography was performed.…”

Section: Case Reportmentioning

confidence: 99%

Devascularizing Complications of Free Fibula Harvest: Peronea Arteria Magna

Rosson

Singh

2005

J reconstr Microsurg

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The authors present a case report of devascularizing complications following free fibula harvest. A retrospective review of 93 consecutively imaged limbs demonstrated a peronea arteria magna (PAM) prevalence of 5.3 percent in an urban population, which was used to perform a cost-effectiveness analysis for preoperative vascular imaging of the donor limb using magnetic resonance angiography (MRA) and traditional angiography (TA). Donor-site complications of fibula harvest range from 15 to 30 percent, but are rarely limb-threatening. Limb loss is a dreaded complication of congenital PAM, which can be present with a normal vascular exam. Some microsurgery groups advocate using no preoperative imaging of the donor limb; they rely on intraoperative assessment of the vascular anatomy. An aborted harvest due to aberrant anatomy leads to both direct and indirect added costs. The authors believe that MRA imaging of the donor limb, being minimally invasive, is cost-effective and indicated for free fibula transfers. For equivocal results, conversion to more invasive and costly TA may be necessary.

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“…A 10-cm segmental bony defect of the radius was reconstructed with a free fibula osteofasciocutaneous flap (Figs. [1][2][3][4]. No preoperative donor-leg angiography was performed.…”

Section: Case Reportmentioning

confidence: 99%

Devascularizing Complications of Free Fibula Harvest: Peronea Arteria Magna

Rosson

Singh

2005

J reconstr Microsurg

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“…History and physical examination are considered important aspects of the evaluation [25]. Examination of pedal pulses [25] and the ankle–arm index [26, 27] can be reliably used to detect occlusive lesions. However, the presence of congenital vascular variations necessitates preoperative imaging [27].…”

Section: Discussionmentioning

confidence: 99%

“…Examination of pedal pulses [25] and the ankle–arm index [26, 27] can be reliably used to detect occlusive lesions. However, the presence of congenital vascular variations necessitates preoperative imaging [27]. Digital subtraction angiography has been considered the reference standard for preoperative analysis in the care of these patients [7], but this invasive procedure yields only 2D images, does not depict septocutaneous perforators, entails exposure to ionizing radiation, and is associated with a small but definite rate of complications [1, 5, 28].…”

Section: Discussionmentioning

confidence: 99%

Time-Resolved and Bolus-Chase MR Angiography of the Leg: Branching Pattern Analysis and Identification of Septocutaneous Perforators

Sandhu

Rezaee

Wright

et al. 2010

American Journal of Roentgenology

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OBJECTIVE The goal of this study was to compare time-resolved MR angiography (MRA) and bolus-chase MRA in the identification of peroneal artery septocutaneous perforators and for classification of the branching pattern of the arterial tree in the leg in a cohort of candidates for fibular free flap transfer operations. MATERIALS AND METHODS Retrospective analysis was performed on imaging data from 53 legs of 27 patients (age range, 27–88 years) who underwent time-resolved MRA (FLASH; TR/TE, 2.5/1.0; flip angle, 22°; voxel dimensions, 1.54 × 1.25 × 1.5 mm; acquisition time, 2.27 s/frame) and bolus-chase MRA (FLASH; 3.2/1.2; flip angle, 25°; voxel dimensions, 0.94 × 0.89 × 1 mm) at 3 T with gadobenate dimeglumine administered at 0.05 and 0.10 mmol/kg, respectively. The branching pattern was analyzed; the total number of septocutaneous perforators for each leg was calculated from the time-resolved and bolus-chase MRA data; and the results were combined. The total and average number of septocutaneous perforators per leg and the frequency of various branching patterns were calculated. The techniques were compared in terms of branching pattern and number of visible septocutaneous perforators. RESULTS A total of 84 septocutaneous perforators (1.58 ± 1.05 [SD] per leg) were identified. Pattern 1A was found in 42 legs; 1B, two legs; 2A, one leg; 2B, one; 3A, four; 3B, one; and 3D, two legs. Classification with time-resolved MRA was successful for 53 legs and with bolus-chase MRA for 51 legs (Z = 0.713, p = 0.24, one-tailed, not significant). Twenty-two septocutaneous perforators were identified with time-resolved MRA and 82 with bolus-chase MRA. CONCLUSION MRA of the leg can be used to investigate the branching pattern and identify septocutaneous perforators in a single step. With the imaging parameters and contrast dose used in this study, septocutaneous perforators can be better identified with bolus-chase MRA, although this result may be partially related to the higher gadolinium dose used in this technique.

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“…Even performing an ankle-arm index measurement, as published by KLEIN and HAGE in 2003, is not enough (13). The authors tested the hypothesis that the ankle-arm index of each of the three crural Proximal and distal anastomosis of the popliteo-peroneal bypass.…”

Section: Group Imentioning

confidence: 98%

Intra-Operative Acute Leg Ischaemia after Free Fibula Flap Harvest for Mandible Reconstruction

Astarci

Siciliano

Verhelst

et al. 2006

Acta Chirurgica Belgica

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Osteosarcomas of the cranial bones need a large surgical radical resection. The best option to reconstruct mandible defect after resection is the free fibula flap. In our patient an acute ischaemic leg occurred just after the free fibula flap harvest for mandible reconstruction. The abnormal distribution of the calf arteries leads to catastrophic consequences. The peroneal artery could be the main dominant artery of the leg in a small number of patients. We reported an extremely rare case of "peronea magna", described in less than 0.2% of the global population. A careful pre-operative workup of the calf vessels is required in all the patients who need free fibula flap harvest.

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Ankle-Arm Index versus Angiography for the Preassessment of the Fibula Free Flap

Cited by 24 publications

References 23 publications

Devascularizing Complications of Free Fibula Harvest: Peronea Arteria Magna

Devascularizing Complications of Free Fibula Harvest: Peronea Arteria Magna

Time-Resolved and Bolus-Chase MR Angiography of the Leg: Branching Pattern Analysis and Identification of Septocutaneous Perforators

Intra-Operative Acute Leg Ischaemia after Free Fibula Flap Harvest for Mandible Reconstruction

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