Risk Factor Analysis of Freestyle Propeller Flaps

Background Technical advancements and increasing experience in the management of soft tissue defects in lower extremities have led to the evolution of decisional reconstructive algorithms. Both propeller perforator flaps (PPFs) and free flaps (FFs) proved to be useful methods of reconstruction for lower extremities defects, offering alternative reconstructive tools. We present a case series of PPFs and FFs for reconstruction of lower limbs defects, analyzing and comparing treatment and outcomes. Methods Through a retrospective analysis, we report our experience in performing PPFs or FFs for reconstruction of soft tissue defects of the lower extremities, in patients admitted between 2010 and 2015 at the Department of Plastic and Reconstructive Surgery, University of Palermo. In these patients, we evaluated location and causes of defects, types of flaps used, recipient vessels, complications, time to healing, and aesthetic outcome. Results A primary healing rate was obtained in 13 patients for PPF and 16 cases for FF. Revision surgery for partial skin necrosis was required in eight cases (PPF: four and FF: four). Recovery time and hospitalization period were eventually shorter in patients with FFs, due to lower rate of complications and revision surgery. Conclusion In the past years, our indications for reconstruction with PPFs in the lower limb have become more restricted, while we favor reconstruction with FFs. Recommendations are provided to orient surgical treatment in small, medium, and large lower limb defects.

Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Retrospective Analysis in Lower Limb Reconstruction: Propeller Perforator Flaps versus Free Flaps

Cajozzo

Toia

Innocenti

et al. 2017

“…There is a consideration to be made as the retrospective group had more propeller flap reconstruction on the leg and this may play a role in increased complications as the perforators can be shorter. [28][29][30] In the prospective group with objective assessment of perforator flow, there were no flap losses (partial or total) and only two wound dehiscences. However, when statistically comparing the outcome between the two groups, there was no significance.…”

Section: Discussionmentioning

confidence: 99%

Direction of Flap Rotation in Propeller Flaps: Does It Really Matter?

Song

Jeong

Lee

et al. 2019

The use of perforator flaps has steadily increased since the introduction of the concept by Koshima and Soeda. 1-3 The perforator flaps offer the advantages of sparing the underlying muscle, resulting in decreased donor-site morbidity. Hyakusoku et al first used the term "propeller flap" in 1991, to describe subcutaneous pedicled island flaps vascularized by a perforator artery and rotated 90°to reconstruct the defect after release of scar contractures in a burn patient. 4 Once a propeller flap has a reliable vascular pedicle, it can be easily mobilized and rotated as a local flap. Furthermore, the harvest is fast and easy and may not require microsurgery. 2 In 2006, combining the concept of propeller flaps and perforator based flaps, Hallock reported a fasciocutaneous flap that was similar in shape to the one described by Hyakusoku et al and further showed that Keywords ► propeller flaps ► rotation of flaps ► perfusion of flaps AbstractBackground This article investigates the effect of 180°rotating propeller flaps and evaluates whether each flap has a "preferable" rotating direction. Methods Part 1 evaluates the flap pedicle velocity and flow volume in neutral, 180°c ounterclockwise, and clockwise rotated position for 29 consecutive flaps. The data (velocity and volume) were divided into three groups: neutral, high value, and low value group then evaluated. Part 2 compares the outcome from the prospective study where a preferable rotation with high value was selected against 29 patients from 2012 to 2016 who had the same operation without selecting a preferable rotation direction. Results In part 1, the three groups (neutral, high value, and low value groups) showed mean velocity of 28.06 AE 7.94, 31.92 AE 10.22, 24.41 AE 8.12 cm/s, respectively, and mean volume of 6.11 AE 4.95, 6.83 AE 6.69, 4.62 AE 3.55 mL/min, respectively. The mean velocity and volume of the perforator in the high value group were significantly higher than that in the low value group (p ¼ 0.0001). In part 2, although no statistical significance in the outcome was observed, there were two cases of total, two cases of partial flap loss, and three cases of wound dehiscence in the patients where preferable rotations was not selected compared with only two wound dehiscence for flaps with preferable rotation. Conclusion The velocity and flow of the flap are significantly different based on the rotation direction of the flap. Using the preferred rotation direction with statistically higher value of velocity and flow may increase the overall outcome of the propeller flap, especially where larger flaps are used.

“…We believe the application of the clock arms' parallelism to flap paddle components may be a synthetic and easily understandable way to define the operative technique which may be useful to colleagues having to cope with early microvascular complications in such complex procedures, as well as to surgeons trying to classify their flaps for statistical analysis, as many authors are already doing with pedicled propeller flap case series, trying to formulate standard rules to minimize vascular complications. 7,[12][13][14][15][16]…”

Section: Discussionmentioning

confidence: 99%

The Propeller Concept Applied to Free Flaps and the Proposal of a “Clock Flap” Nomenclature

Antonini

Rossello

Salomone

et al. 2017

Background It is a common experience for reconstructive surgeons to feel the necessity for large flaps and minimal donor-site morbidity at the same time. In the reported cases where we felt this call intraoperatively, we have met our need by applying the “propeller concept” to fasciocutaneous or composite flaps, separating and rotating its different tissue components. Methods We present a series of five cases in which we separated and rotated diversely fascial and cutaneous components of free perforator flaps to enhance the extension of the flap or to tailor it better on the tissue gap for optimal functional and aesthetic results. We also propose a simple nomenclature system for rotation angles' definition, summarized as the “clock flap” classification, where the different components of the flap represent the arms of a clock which has the main vessel axis on the 12–6 line. Results All reconstructive procedures succeeded with only minor complications. No partial failure due to vessel rotations was noticed. Conclusion Applying “propeller style” rotations to different components of free flaps seems to be a safe procedure which may help maximize flap performance in terms of coverage of the recipient site, while minimizing scars and impairment of the donor site. Also, the proposed nomenclature gives the opportunity to record and compare surgical procedures for statistical analysis.