Premier Science
Journals
Publish
Search
Submit

The Free Medial Sural Artery Perforator Flap for Microsurgical Reconstruction of Limbs: A Systematic Review and Meta-Analysis of Flap Characteristics and Outcomes

Premier Science > The Free Medial Sural Artery Perforator Flap for Microsurgical Reconstruction of Limbs: A Systematic Review and Meta-Analysis of Flap Characteristics and Outcomes

Kiron K Koshy MBBS, MRCS, BSc (Hons)1* ORCiD, Anish Naik MD, MRCS, MSc, BSc (Hons)2*,
Mohammad Mozaffor Hosain MBBS, MRCS, MSc, FRCS Plast3* ORCiD
*Joint first author
1. Department of Plastic and Reconstructive Surgery, Royal Victoria Infirmary, Newcastle, UK Research Organization Registry (ROR)
2. Department of Plastic and Reconstructive Surgery, Royal Free Hospital, London, UK Research Organization Registry (ROR)
3. Department of Plastic and Reconstructive Surgery, Wye Valley NHS Trust, Hereford, UK Research Organization Registry (ROR)
Correspondence to: kironk7@gmail.com

DOI: https://doi.org/10.70389/PJS.100016

Premier Journal of Science

Additional information

  • Ethical approval: N/a
  • Consent: N/a
  • Funding: No industry funding
  • Conflicts of interest: N/a
  • Author contribution: Kiron K Koshy, Anish Naik, Mohammad Mozaffor Hosain – Conceptualization, Writing – original draft, review and editing
  • Guarantor: Kiron K Koshy
  • Provenance and peer-review:
    Commissioned and externally peer-reviewed
  • Data availability statement: N/a

Keywords: medial sural artery perforator flap, microsurgical limb reconstruction, donor site morbidity, flap characteristics, extremity defects.

Peer Review
Received: 25 August 2024
Revised: 26 September 2024
Accepted: 26 September 2024
Published: 14 October 2024

Abstract

The medial sural artery perforator (MSAP) continues to gain popularity. Providing a versatile, thin and pliable alternative for commonly used workhorse flaps, it can be used to reconstruct extremities, with reduced donor site morbidity. This meta-analysis was conducted to analyse the current literature to help identify flap characteristics and outcomes. A systematic review was performed following the preferred reporting items for systematic reviews and meta-analysis (PRISMA) guidelines and a literature search was conducted using Medline, Google Scholar and the Cochrane Library. The aim was to identify the outcomes of free MSAP flap reconstructions of upper and lower limb defects over a 10-year period from January 2010 to July 2020. The data was then tabulated and a meta-analysis was carried out. A total of 11 studies for lower limbs and 7 studies for upper limbs were reviewed and analysed with a total number of 257 patients.

Limb reconstructions were primarily due to trauma. The most common site of reconstruction of the upper limb was the hand or wrist and the lower limb was the ankle or feet. The mean length of the flap was 9.6 cm. The mean width was 5.4 cm. The mean pedicle length was 9.7 cm. The mean flap thickness was noted as 5.9 mm. The number of perforators was an average of 1.5. The pedicle’s mean arterial diameter was 1.9 mm (mean) and the vein’s mean arterial diameter was 2.9 mm. 80% of donor sites were closed directly. Overall, the flap success rate was 98%. Our results find the MSAP flap to be a versatile, reliable, functionally and aesthetically good reconstructive option for both lower and upper limb defects with low donor site morbidity.

Introduction

The field of microsurgery has continued to grow since its experimental inception in the 1950s by Professor Sun Lee1 and has become a vital tool for reconstructive surgeons.2 Further work in 1987 introduced the angiosome concept by Taylor, which led to the use of perforator flaps.2 Since then, further advancement has increased the popularity of perforator flaps, as they can be tailored to the reconstructive need of the patient, whilst also reducing donor site morbidity. When used in conjunction with the reconstructive elevator, microsurgical reconstruction can be the initial and correct reconstruction of choice in certain complex defects in extremities.3 Upper and lower limb reconstructions can prove difficult, as they require thin and pliable flaps. With this in mind, the radial forearm free flap (RFFF) became the workhorse for extremity reconstruction. Unfortunately, this often leads to significant morbidity to the patient’s donor site, with the frequent use of a split-thickness skin grafting being a considerable disadvantage. This is why reconstructive surgeons are continually searching for alternatives.

The medial sural artery perforator (MSAP) flap was first described by Cadavas in 2001 and showed many advantages. This included a pliable, thin flap, with a long consistent pedicle, low complications and morbidity as donor sites in most cases will allow for a direct closure, thus avoiding the need for a skin graft. Despite the MSAP flap increasing in popularity, the literature specifically looking at its use in extremities has been limited. Most studies are small case series, or articles illustrating cadaveric dissection and the anatomy of the flap itself. This systematic review was conducted to analyse/collate the current literature to help identify the indication, flap characteristics, technique used for harvest and ultimately, outcomes.

Flap Anatomy and Design

The following are the currently described measurements generally stated in textbooks:

Flap Anatomy

  • Flap dimension: Average flap 12.9 × 7.9 cm
  • Origin of perforators: Medial sural artery (66% from the lateral branch and 34% from the medial branch) arises from the popliteal artery
  • Number of perforators: 1–3 (mean 1.9)
  • Site of perforators: Area between 7 and 18 cm from the popliteal crease (90% were at 10 ± 2 cm from the crease), 13 ± 2 cm, from posterior midline 2.5 +/- 1 cm
  • Diameter of perforators: 0.3–0.8 mm
  • Pedicle length: 10–17 cm (11.75 cm)
  • Pedicle diameter: Artery 1.7—3 mm (2.2 mm), Vein 2.3–3 mm (2.6 mm).

Flap Design: (Figure 1)

  • Draw a long axis from mid popliteal crease to the prominence of the medial malleolus.
  • Locate the perforators and mark using a handheld Doppler (usually 6–18 cm from the popliteal crease along the axis mostly at 10 ± 2 cm)

Draw a flap centred on the perforator using a template of the defect.

Figure 1. MSAP flap markings schematic.
Figure 1: MSAP flap markings schematic.

We have provided clinical pictures of a case carried out by the authors in Figures 2–6, with consent provided by the patient. In the present case, the injury was traumatic from a metal press, with no prospect of replantation as digits were lost at the scene.

Figure 2. Hand injury prior to reconstruction, exposed mid-shaft metacarpals.
Figure 2: Hand injury prior to reconstruction, exposed mid-shaft metacarpals.
Figure 3. Marking of the MSAP flap.
Figure 3: Marking of the MSAP flap.
Figure 4. Raising of MSAP flap.
Figure 4: Raising of MSAP flap.
Figure 5. Inset of MSAP flap with skin grafting.
Figure 5: Inset of MSAP flap with skin grafting.
Figure 6. Healed MSAP flap 2 months post procedure.
Figure 6: Healed MSAP flap 2 months post procedure.
Methods

This systematic review was performed in accordance with the preferred reporting items for systematic reviews and meta-analysis (PRISMA) system4 and AMSTAR 2 checklist.5 This research has also been registered through the research registry with ID: reviewregistry1891 https://researchregistry.knack.com/research-registry#registryofsystematicr
eviewsmeta-analyses/registryofsystematicreviewsmeta-analysesdetails
/66f592bdcaee7002cf0c730e/

The literary search was conducted in July 2020 and was performed using Medline, Google Scholar and the Cochrane library. The search looked at the outcome of free MSAP flap reconstructions to the extremities during the period of the last 10 years from January 2010 to July 2020. Relevant keywords were selected and combined. The results were formulated according to the best BETs technique (Table 1).

Table 1: Three-Part Question.

Patient characteristicsPatient with upper and lower extremity defects needing reconstruction
Intervention questionReconstruction of defect with free medial sural artery perforator flap
Relevant outcomeEpidemiological, operative and functional outcomes

Keyword Search

Search keyword for lower limb reconstruction cohort:

(msap flap) OR (medial sural artery perforator flap)) OR (medial sural artery perforator free flap)) OR (free msap flap)) AND (lower limb reconstruction)) OR (lower extremity reconstruction))

Search keyword for upper limb reconstruction cohort:

((msap flap) OR (medial sural artery perforator flap)) OR (medial sural artery perforator free flap)) OR (free msap flap)) AND (upper limb reconstruction)) or upper extremity reconstruction or hand reconstruction))

Inclusion Criteria

  • Studies involving the use of the MSAP free flap

Exclusion Criteria

  • Non-human studies
  • Studies where the recipient area was not in the upper or lower limbs
  • Studies where full text is not available
  • Studies which have not been translated into English

Search Outcome

The search results are highlighted in total in Figure 7 (PRISMA flow chart). These have been further divided into those pertaining to upper and lower limb reconstructions, respectively.

Figure 7. PRISMA flow chart.
Figure 7: PRISMA flow chart.

For the lower limb reconstruction cohort, 20,180 studies were found. Among them, 57 studies were shortlisted after screening the titles; 14 studies were then found to be more relevant to lower limb reconstruction after screening the abstracts. Following the search, three papers were excluded due to the lack of English translation and unavailability of full texts. Finally, 11 papers were selected for review. For the upper limb reconstruction cohort, 17,620 papers were found. After title screening, only 23 papers were shortlisted. Screening through the abstracts excluded another 13 papers due to the lack of relevance or no English translation. Three further studies were excluded because of the unavailability of full texts. Finally, seven studies were included in the present review. All articles were independently reviewed by two authors and extracted as per the PRISMA flowchart. There were no sources of funding for this study. The risk of bias was assessed and deemed to be low risk.

Results

Table 2: Abbreviated Results of Lower Limb MSAPs.

Author, Country, Journal, Year of PublicationPatient GroupStudy Type (Level of Evidence)OutcomesKey ResultsStudy Weaknesses
Sarah Al-Himdani,It is a hybridCombinedLimitationThin pliable flapNot a RCT
Asmat Din, Thomas Cstudyprospectiveincludes, longgood choice forand small
wright, GeorgeComprisedandintramuscularlower limbsample size
Wheble, Thomas WLanatomicalretrospectiveand tediousreconstruction 
Chapman, Umrazand clinicalstudy.dissection,especially foot and 
Khanparts. accidentalankle. Less 
United KingdomAnatomical ligation ofdonor site 
Injury, Feb, 20006study muscularmorbidity with 
 included, branch. A 100%most of the time 
 raising of flap survivalcan closed 
 MSAP flap on rate with twodirectly if flap 
 10 cadaveric partial flapwidth <5.75 cm. 
 fresh frozen necrosis.Thin walled, 
 lower limb.  tortuous and 
    wide calibre vein 
    can cause 
    congestion, so 
    care should be 
    taken to avoid 
    pressure on it. 
E. FitzgeraldTotal 15RetrospectiveThe flapAll 15 patientsCase series
O’Connor, et al.patients whoconsecutivesurvival ratehave defect atwith small
United Kingdom.received the samecase series ofwas 100%.peri ankle area.sample.
Foot and anklenumbers ofa singleOnly one flapEight of them wereSingle
Surgery,free MSAPsurgeon overhas partialdue to traumasurgeons
20197flap to4 yearsnecrosis whichand remaining 7experience
 reconstructfrom 2011 tohas managedwere fromand only
 the ankle and2015. Theywithout the needinfection. Theincluded peri
 foot defectswerefor further freemean flap lengthankle
 weredemonstratingflap. All donorwas 6.5 cm withreconstruction
 evaluated. Among them, 11the use ofareas havea range of 4–12cohort.
 wereversality ofclosed directlycm. Flap width 
 male and 4The free MSAPWithoutwas 3–8 cm with 
 were female.flaps at pericomplication.a mean of 4.8 cm. 
 The mean age ofankle woundOverallPedicle length 
 patients wasreconstructionoutcome wasranged from 6 to 10 cm 
 47 years withwithout the needsatisfactory.(mean 8 
 a range of 21–66 years.for revision cm). Seven were 
  operation. anastomosed 
    with posterior 
    tibial artery, 4 
    with anterior 
    tibial artery and 4 
    with dorsalis 
    pedis artery. All 
    of them were end- 
    to-end except 
    one. Mean flap 
    raising time was 
    45 minutes. 
Gloria R. Sue MD,A total of 246RetrospectiveNo flap failureAverage flap sizeNo clear
Huang-Kai Kao MD,patientsstudy lookingin lower limbwas 11.8 × 5.8outcome on
Mimi R. Borrelliunderwentat thereconstructionCm,lower limb
MBBS, Ming-Huei248 freeoutcome andcohort.12.5% developedreconstruction
Cheng MDMSAP flap tocomplicationsComplicationsarterialcohort. Most
Taiwan,head andonrate wasocclusion.of the
Microsurgery,neck andconsecutive16.7%.The majority of donoroutcomes
November 20198extremities.patientsCommonsite could closewere
 Among them,undergonecause ofdirectly. An averagecombined and
 30 patientsfree MSAPimmediatepedicle lengthcompared with
 had flap onflapthreat to flapwas 11.3 cm.H & N, upper
 lower limbs.reconstructionwas due toThe mean flapand lower
 The mean age offrom 2006 tovenousischemia timeextremity
 patients was2017 in ainsufficiencywas 110reconstruction
 47.5 yearssingle centre.(74%). Freeminutes. No.
with a range MSAP flapsignificant 
of 15–76 shares manycorrelation 
years. Among qualities withbetween flap 
them, 85.4% free radialfailure rate with 
were male. forearm flappatient age, 
  however hadgender or 
  much lessrecipient site. 
  donor siteHowever, location 
  morbidityof reconstruction 
  compared tosignificantly 
  RFFF.affect the 
  Versality ofcomplications. 
  reconstruction  
  from head to  
  toe, with  
  favourable  
  outcome with  
  high patient  
  satisfaction  
  and minimal  
  donor site  
  morbidity.  
Farrukh AslamA total of 18RetrospectiveOnly two freeTwo free flaps bothMost of the
Khalid, Saif urpatients hadstudy lookingMSAP flapwere tooutcomes
Rehman, Ata Ul Haq,same numberfor outcomereconstructionreconstructwere
Ahsan Riaz,of MSAP flapof MSAP flapto the lowerfoot/anklecombined with
Muhammad Saleem,reconstructionreconstructionlimb with nodefects. Thehead and
Muhammad Jibran. Among them,in head andflap failure orcauses of bothneck
Rabbani, Muhammadonly 5 patientsneck andeven partialdefects werereconstruction
Amin, Abdul Malikhad MSAPlower limbloss. One oftraumatic. Flapas well as
Mujahid, Hamidflaps todefects. Allthe three pediclelength rangedsome were
FazeelAlvi, Moazzamreconstructcases haveflaps hasfrom 8 to 14pedicle flaps.
Nazeer Tarar.the lower limbbeen done inpartial flapcm with the mean ofVery little
Pakistan.defects. Two ofa singleloss. One free10.4 cm. Flapsample for
J Ayub Med Collthem werecentreflap had postmean width waslower limb
Abbottabad, 2018free flap.betweenoperative9.6 with a range ofcohort and
9The mean age ofOctober 2016venous6–12 cm. Theoutcome were
 the patientsand Augustcongestionaverage pediclecomplicate by
 was 27.42017. Amongand one hadlength was 8.4including
 years with athem less aarterialcm with a range ofpedicle flaps.
 range of 12–third casesocclusion both8–9 cm. Both ofOn title, they
s36 years andwere lowerwere salvagedthe free flaps hassaid
 all were males.limb cohort (5but didn’tanastomosedreconstruction
 Cause ofout of 18).mentioned theusing anteriorof head and
 defects were site (H & N vstibial artery asneck and
 Mostly Lower limb)recipient artery.limbs.
 traumatic (3  Mean flapHowever, it
 patients) 1  raising time wasonly included
 was due to  84.6 minutes.lower limb
 electric burn   cases and no
 and 1 was   upper limb
 from tumour   cases were
 excision.   included so
     using the
     terms limbs bit
     confusing.
Kyu Nam Kim, Sang10 PatientsRetrospective100% flapAll patients hadIt is a small
Il Kim, Won Ha & Chiaged from 30case series,survival notedpre-operative CTcase series
Sun Yoon.to 57 years10 patientswith only oneAngiogram tofrom a single
South Korea,(mean 43.7Received thecase hadassess theunit. Only
Journal of Plasticyears)samepartial flapvascular status.Showed
Surgery and Handreceivednumbers ofloss (10%). NoThe defects wereoutcome of
Surgery, JanuaryFMSAP fromfree MSAPother obviousmostly due topopliteal fossa
201710contralateralflap to see thecomplicationtrauma exceptreconstruction
 side tooutcome ofdocumented.one, which was. Some
 reconstructreconstruction due to contactoperative data
 the poplitealfor popliteal burn and all wereSpecially
 defect mostlydefect in popliteal fossa.operative time
 from trauma.anastomosing The mean flap lengthor ischemic
 All of theend to end was 15.2 cm withtime didn’t
 patients werewith medial a range of 17.5–mention.
 male.sural 12 cm. The 
  vessels. average width of 
  Those have flap was 5.2 cm 
  been done in (range 4–7 
a singlecm). Pedicle
centre overlength was 6–9
the period ofcm with an
5 yearsaverage of 7.5
between 2010cm, 90% of
and 2015.donor side
 closed directly
 but one who
 needed SSG.
Jyoshid R. Balan,Seven patients whoIt isAll flaps havePre-operativeSmall case
Indiareceived 7retrospectivesurvived withperforatorseries. The
ANZ J Surg, 2017FMSAP flapcase seriesonly one hasmarking wasoperations
11for lower limbwith FMSAPpartial lossdone usingwere done in
 reconstructionflapdue to venousdoppler US.what years not
 . The meanreconstructioncongestion.Mean flap lengthmentioned.
 age of patientwere done inTwo patientswas 14.2 cm with 
 was 42 yearslower limbhave donora range of 9–21 
 with a range oftraumaticsitecm. Flap width 
 19–72wounds overdehiscence.was 4–8 cm 
 years. All2 yearsMost of the(mean 6.5 cm). 
 patients wereperiods in apatient wellPedicle length 
 male. Six of thesingle centre.satisfied fromwas 3–14 cm 
 defects were reconstruction.with an average 
 in foot and/or  of 9.7 cm. Only 
 ankle and  one flap was 
 one was leg.  anastomosed 
 All defects  with anterior 
 were  tibial vessel, 
 secondary to  other 6 were 
 trauma.  posterior tibial 
    and dorsalis 
    pedis 3 each. All 
    anastomosis 
    were end-to-end. 
    Donor site had 
    SSG in most 
    cases (57%) and 
    rest of 43% 
    closed directly. 
Zaher Jandali, MartinIn total, 22RetrospectiveOver all flapMost of theThis is the
C. Lam, Kiomarspatients whostudysurvival ratepatients wereonly study we
Aganloo, Benediktwerecomprised ofwas 100%.suffered for PVDfound with
Marwart, Joukeundergone22 FMSAPOnly onewith or withoutunusual
Buissink, KlausFMSAP flapflapspatient hadDM. So cause ofcohort of
Muller, Lucian P. Jiga.reconstructionreconstructionpartial flapmost woundspatient with
Germany.for lower limbon lowerfailureThosePVD where as
Wiley Microsurgery,defects. Meanlimbs of samemanagedreconstructedmost of the
August 201612age of 59number ofwithout furtherwere due tostudies
 years withpatients overfree flap. Oneischemia (16showed the
 a range of 31–the period ofpatient hadpatients). Rest ofindication of
 73 years.2 years fromvenoussix were indicatedreconstruction
 Among them,2012 to 2014congestionfor traumaticwas trauma.
 15 patientsin a singleneeded returnwounds. All 
 were male.centre.to theatre towounds were 
   salvage theinvolved foot and 
   flap. Overallankle and all 
   patientpatient had CT 
   satisfactionAngiogram 
   was good forpreoperatively to 
   all.delineate the 
    vascular status 
    of their legs. The 
    mean flap length 
    was 9.5 cm 
    (range 6–21 cm), 
    flap width was 
    4–9 cm with an 
    average of 6 cm. 
    Mean pedicle 
    length was 7.2 
    cm (range 6.3 to 
    8.2 cm ) More 
    than half of them 
    (n = 12) were 
    Anastomosed with DP vessels, 7 were with posterior tibial vessels and 3 were anterior tibial vessels. Nine of them were ETE and 13 were ETS anastomosis with recipient vessels. The average flap raising time was 139 minutes and the operative time was 293 minutes. A total of 14 donor sites were closed directly up to 9 cm wide gap. Eight of them needed skin graft. The mean hospital stay was 14 days. None of the flaps needed further adjustment. 
Xin Wang, M.D. Jin Mei, M.D. Jiadong Pan, M.D. Hong Chen, M.D. Weiwen Zhang, M.D. Maolin Tang, M.D. China. PRSJ January 201313A total of 34 patients received free MSAP flap. Among them, only nine patients have received the flaps for lower limb reconstruction at ankle and foot. Eight were male and one was female. The mean age was 35 years with a range of 23–48 years. An anatomical study was also performed on 10 cadaveric limbs to see the vascular anatomy of the MSAP flap.Hybrid study which included an anatomical study on 10 cadaveric limbs and a retrospective clinical study of consecutive case series over the period of 3 years from 2007 to 2010 in a single centre. The study includes reconstruction of both upper and lower extremities. Among them, nine patients received FMSAP flap to reconstruct the lower limb defects.In a clinical study, 100% flap survival with 2 partial flap loss. All patients were satisfied with the outcome.The cause of all lower limb defects was from trauma. All patients had preoperative CT angiogram. All 9 patients received free flaps. The range of flap length was 5.5-12 cm with an average of 9.4 cm. The mean width of the flap was 5.3 cm with a range of 4.5 cm to 7 cm. Pedicle length was around 10 cm. Five of the donor sites were closed directly which were less than 5 cm wide. Four of them needed skin graft.Complicated hybrid study which included anatomical study on cadavers as well as clinical study on patients. Only few of the patients had MSAP flap reconstruction to their lower limbs. It was difficult to extract the data about lower limb reconstruction cases. Small lower limb case sample.
Geoffrey G. Hallock, MD. United States of America. J of Reconstr Microsurgery, October 2013.14A total of 14 patients who had FMSAP flap to reconstruct their defects on lower limbs. 12 were male and 2 were female.Retrospective study of 14 consecutive patients who received FMSAP flap to reconstruct their lower limb defects.One patient had total flap loss which was replaced by another free flap. One flap has a problem with venous congestion and one patient had donor site complication. All patients were satisfiedThe indications for reconstruction were traumatic wounds for all, but one who has unstable scar at club foot. All patients had the reconstruction at the ankle or foot. All 14 patients have received free flaps average length of flaps was 10.3 cm withSmall case series.
   at the end.a range of 5–17 cm. The range of width was 3–6 cm with a mean of 4.1 cm. In case of 7 patients recipient vessel was posterior tibial vessel, 5 were anterior tibial vessel, 2 were dorsalis pedis vessel. Nine donor sites closed directly (<5 cm width) 5 needed skin graft. 
Sun G, Nie K, Qi J, Annotations Jin W, Li S, Bulk Zhang submission download s Z, Wei Z, Wang D China. Chinese Journal of Reparative and Reconstructive Surgery, March 201615In total, 16 patients who received FMSAP to reconstruct their foot defects; 12 of them were male and 4 were female. The mean age was 35 years with a range of 16–58 years; 11 patients had traumatic wounds whereas 4 of them had burn wounds around ankle necessitated reconstruction.Retrospective study to look at the outcome of 16 patients who were underwent FMSAP flap over the period of 5 years from 2010 to 2015 in a single centre.Overall outcome was satisfactory with no flap failure or even no partial flap loss. Both donor and recipient sites were healed without any noticeable complications.All 16 flaps were free flaps. Flap length was ranged from 5 to 11 cm and width was 4–8 cm. All flaps have survived with no complications.Small case series. Article has written in Chinese only the abstract has found in English where we couldn’t find all the information about the study.
M. Ives, B. Mathur, United Kingdom. Journal of Plastic, Reconstructive & Aesthetic Surgery, 201516In total, 18 patients who have received free MSAP to reconstruct their head and neck and limb defects. 4/18 patients received FMSAP for lower limb reconstruction. Among these four patients, two were male and two were female. The mean age of the patients was 37.7 years. The youngest patient in this cohort was 11 years old and the oldest one was 56 years old. All patients had their reconstruction for theirIt is a retrospective case series of 18 patients who received free MSAP flap for reconstruction of head and neck and limbs defects in a single centre, to see the outcome and complications.All flaps in lower limbs have survived over 3 months follow-up period. Only one patient had donor site complication.The mean flap length was 7.7 cm with a range from 4 to 12 cm. Flap width ranged from 3 to 6 cm with a mean width of 4.2 cm. An average pedicle length was 9.5 cm with a range from 7 to 12 cm. All patients had their donor sites closed primarily and none of them needed skin graft.Small case series with a very small number of cases from lower limb cohort which was only four in number. Had multiple cohorts including reconstruction of head and neck and also limbs.
 traumatic wounds of their lower limbs. Two patients had reconstruction to their legs and other 2 patients had reconstruction to their foot and ankles.    

Table 3: Abbreviated Results for Upper Limb MSAPs.

Author, Country, Journal, Year of PublicationPatient GroupStudy Type (Level of Evidence)OutcomesKey ResultsStudy Weaknesses
Gloria R. SueA total of 246RetrospectiveThere were 2 flapAverage flapNo clear
MD, Huang-Kaipatientsstudy looking atfailure in upper limbsize was 11.8 ×outcome on
Kao MD, Mimiunderwent 248the outcome andreconstruction cohort.5.8 cm;upper limb
R. Borrellifree MSAP flap tocomplications onAmong 48 flaps in12.5%reconstruction
MBBS, Ming-head and neckconsecutiveupper extremities 10developedcohort. Most of
Huei Cheng MDand extremities.patientshave complicationsarterialthe outcomes
Taiwan,Among them, 48undergone freewith a rate of 20.8%.occlusion.were combined
Microsurgery,patients had flapMSAP flapCommon cause ofThe majority ofand compared
November 2019on upper limbs.reconstructionimmediate threat todonor site couldwith H & N,
8The mean age offrom 2006 toflap was due toclose directly.upper and lower
 patients was 47.52017 in a singlevenous insufficiencyAn averageextremity
 years with a rangecentre.(74%). Free MSAP flappedicle lengthreconstruction.
 of 15–76 years. shares many qualitieswas 11.3 cm. 
 Among them, with free radialThe mean flap 
 85.4% were male. forearm flap, however,ischemia time 
   had much less donorwas 110 
   site morbidityminutes. No 
   compared to RFFF.significant 
   The versality ofcorrelation 
   reconstruction frombetween flap 
   head to toe, withfailure rate with 
   favourable outcomepatient age, 
   with high patientgender or 
   satisfaction andrecipient site. 
   minimal donor siteHowever, 
   morbidity.location of 
    reconstruction 
    significantly 
    affect the 
    complications. 
J.A.A 28-year-old manCase reportUsed palmaris longusThe size of theOnly case
Jeevaratnam, D.had index finger tendon graft. Showedflap was 8 ×report of a
Nikkhah, N.F.reconstruction with versality of flap use.4 cm. DonorPatient
Nugent, A.V.FMSAPF following No flap failure, nosite has closed 
Blackburnhigh voltage complication andprimarily. 
United Kingdom.electric burn injury. patient showed very  
JPRAS  good functional and  
June 201417  aesthetic results. No  
   donor site morbidity.  
Cheng-HungThis studyIt was aOne out of 14 flaps hasThe length ofSmall case
Lin, MD, Chih-included 14retrospectivefailed. One patient hadthe flap rangedseries. No
Hung Lin, MD,patients whocase series withwound relatedfrom 7 to 17information
Yu-Te Lin, MD,underwent free14 patients whocomplication. All butcm with a meanabout follow up
Chung-ChenMSAP flaphave treatedone donor sites closedlength of 10.9period and
Hsu, MD,reconstruction towith FMSAPprimarily and only onecm. Flap widthduration.
Timothy W. Ng,their upper limb.Flap for theirhas needed split skinranged from 2.5 
BS, and Fu-11 of them wereupper limbgraft. There were no to 8 cm with 
Chan Wei, MD.males and 3 weredefect during thedonor site complicationan average of 
Taiwanfemales. The meanperiod of 2006noted.5.3 cm. Pedicle 
J of Trauma,age of the patientsto 2008 in a length was 6 
March 201118was 32.8 years.single centre. –12 cm 
 The oldest patient was 62 years old and the youngest one was 16 years old. The indication for reconstruction was traumatic defect in 13 patients and burns for one. All patients had their reconstruction on hand or wrist.  (mean 10 cm). Most of the cases recipient artery was radial artery (n = 12). In case of one patient, ulnar artery has been used as recipient artery and further one had UDA as recipient artery. 
Zheng H, Liu J, Dai X, Schilling AF. China JPRAS 201419In total, five patients who received conjoint or chimeric FMSAP flaps to reconstruct the jumping hand defects. All patients were male and aged from 19 to 38 years with a mean of 28 years. Three of them were due to trauma, burn and infection were one of each.Retrospective case series over a period of 1 year from 2009 to 2010 in a single centre. Only patients with two perforators were included in the study. The follow-up was 6–24 months with an average of 13 months.All flaps have been taken without any loss. One patient has wound dehiscence which has been managed conservatively. Overall, all patients were satisfied with a single stage of reconstruction, although three of them needed further surgery for revision and adjustment.Five free MSAP each of which either split into two parts or raised as chimeric with multiple perforators. The average length of the flap was 6.5 cm (range 3–8 cm ) and the width was 4.5 cm (range 2.5–6 cm) The pedicle size was 9–16 cm. The average thickness of the flap was 5 mm (4–8 mm). The mean arterial and venous diameters were 3 and 3.5 mm, respectively. Three out of five needed split skin graft.Very small case series with modification of flap.
Xin Wang, M.D. Jin Mei, M.D. Jiadong Pan, M.D. Hong Chen, M.D. Weiwen Zhang, M.D. Maolin Tang, M.D. China. PRSJ January 201313A total of 34 patients received free MSAP flap. Among them, 25 patients have received the flaps for upper limb reconstruction at wrist and hands. 11 were male and 14 were female. The mean age was 35 years with a range of 19–52 years. Anatomical study also performed on 10 cadaveric limbs to see the vascular anatomy of the MSAP flap.This is a hybrid study which included an anatomical study on 10 cadaveric limbs and a retrospective clinical study of consecutive case series over the period of 3 years from 2007 to 2010 in a single centre. The study includes the reconstruction of both the upper and lower extremities. Among them, 25 patients have received FMSAP flap to the upper extremity defects. Follow-up period is 6–21 months.In a clinical study, 100% flap survival with three partial flap loss. All patients were satisfied with the outcome.The main cause of upper limb defects was from trauma (21 patients). The rest of them were burns (4 patients). All patients had preoperative CT angiograms. All 25 patients received free flaps. The range of flap length was 7–14 cm with an average of 8.8 cm. The mean width of the flap was 5.6 cm with a range of 4.5–9 cm. Pedicle length was around 10 cm. Thirteen of the donor sites were closed directly which were less than 5 cm wide. Twelve of them wereComplicated hybrid study which included anatomical study on cadavers as well as clinical study on patients. It was difficult to extract the data about lower limb reconstruction cases. There was less information about the operation.
    needed skin graft. 
Eren F, Oksuz S, Karagöz H, Melikoğlu C, Ulkur E. Turkey. Hippokratia, 201520Two patients received FMSAP flap for reconstruction of post-burn contracture release of multiple fingers. Both were males and the average age was 21.5 years with a range of 21–22 years.Retrospective case reports of 2 cases to see the outcome of FMSAP flap on volar wounds of multiple fingers with flexor tendons exposed after PBC release.Both flaps worked well with even no partial failure. After 3 months of physiotherapy, patient achieved complete contracture release and adequate finger movements.Both flaps were 6.5 cm long and 4.5 cm wide. Pedicle lengths were 8.3 and 8.8 cm with a mean of 8.5 cm. Both flaps anastomosed with radial artery as recipient vessel at anatomical snuff box. Both of the donor sites needed split skin graft. The author had an impression that donor defects could close directly if it was 5 cm or less.Case report of two patients only.
M. Ives, B. Mathur, United Kingdom. Journal of Plastic, Reconstructive & Aesthetic Surgery, 201516A total of 18 patients reviewed those who had FMSAP for reconstruction of head and neck and limb defects. Among them, only one patient has had free MSAP for hand reconstruction. That was a 35-year-old female, who had traumatic skin loss to her hand and needed reconstruction with the FMSAP flap.It is a retrospective case series of 18 patients with free MSAP flap reconstruction of head and neck and limbs in a single centre. Only one patient had the MSAP flap to her upper limb.The flap has survived without any problem. However, donor sites have delayed healing issues over a 3-month follow-up period.The size of the flap was 12 × 8 cm. The pedicle length was 7 cm. The donor site has closed primarily and does not need skin graft.Only one patient from the upper limb cohort.
Grouped Upper and Lower Limb Analysis

From this 10-year review, we shortlisted a total of 15 papers to be reviewed and analysed. Among them, 11 papers for lower limbs and 7 papers for upper limb reconstructions (3 papers included both). Overall total number of patients was 257, 12 of these underwent pedicled flaps, while the remaining underwent free MSAP flaps. These studies were carried out internationally, with five from the UK and three from China.

Table 4. Publication Country of Origin.

Country of OriginNumber of StudiesReferences
United Kingdom46, 7, 16, 17
China313, 15, 19
Taiwan221, 18
USA114
South Korea110
Germany112
India111
Turkey120
Pakistan19

Note: Publication year ranged from 2011 to 2020.

Demographics of Patients

The age range was 11–79 years, with a mean age of 45.1 years. Regarding the need for reconstruction, 104/151 (69%) reported cases were reconstructed for traumatic lower limb wounds. The next most common causes were burns and ischemia (13% and 11%, respectively). The most common site in the case of the lower limb was the foot and ankle (77%) and the upper limb was the hands and wrist (100%).

Flap Characteristics

Flap length ranged from 3 to 22 cm. Flap width ranged from 2.5 to 12 cm. Pedicle length ranged from 3 to 16 cm.

Operation Details

End-to-end microsurgical anastomosis was used 65% of the time, with end-to-side anastomosis 35%. The mean flap raise time was reported as ranging from 45 to 139 minutes and the total operative time ranged from 282 to 293 minutes.6,12 Flap raising time was not recorded in the majority of articles. According to the five papers that did document this, the mean flap-raising time was 82 minutes. Four articles reported mean operative time, which was approximately 5 hours, and 80% of donor sites closed directly. Total flap failure occurred in 1.3% and partial flap failure in 5.8%. Congestion was reported in 3.2% with wound problems (4.5%) and donor site problems (2.6%). No patients reported being ‘unsatisfied’ with their results.

Additional Lower Limb Analysis

In this review, 11 studies were included with reference to MSAP reconstruction of the lower limbs. This included 161 patients, with the same number of MSAP flaps. Among them, 149 were free flaps and 12 were pedicle flaps. In total, 125 (78%) were males and 36 (22%) were females. The range of age was 11–79 years with a mean of 41.8 years. In terms of need for reconstruction (Figure 8), 88/131 (67%) cases were reconstructed for traumatic lower limb wounds. The next most common causes were burns and ischemia (13% and 12%).

Figure 8. Lower limb indications for reconstruction.
Figure 8: Lower limb indications for reconstruction.

The most common sites in lower limb reconstruction with a free MSAP flap were foot and ankle (77%). The average flap length was 10.5 cm, with a range from 3 to 22 cm. Flap width ranged from 2.5 to 12 cm with a mean of 5.6 cm. Most of the authors agreed that the donor site could close directly if it is less than 6 cm in width. The highest documented width has closed primarily is 9 cm. The pedicle of the flaps was found on average to be 8.8 cm; however, this was as high as 16 cm. The most common recipient arteries were the anterior tibial artery and posterior tibial artery. In 50% (n = 45/90) of cases, the recipient artery was anterior tibial or dorsalis pedis, 37% (n = 33/90) was posterior tibial and 13% of cases (n = 12/90) used other arteries (2 superior medial geniculate arteries and 10 medial sural arteries) (data available for 90 patients). Two-thirds (47/72) of the anastomoses were end-to-end and one-third were end to side (25/72). One study13 showed two perforators were used in four out of nine patients and one perforator was used in the remainder.

The mean flap raising time was 90 minutes9,12,7 and mean ischemia time was 85 minutes.21,6 Total operative time was on an average of 287 minutes.12,6 In 76% (84/110) of cases, the donor site closed directly and 24% (26/110) cases required a split skin graft. The maximum size closed was 9 cm. The mean hospital day was 14 days.12 Only one free flap failed in 149 free flaps, giving a 99% flap survival rate. Eight patients had partial flap necrosis, five patients had venous congestion and five patients had wound-related complications. Donor site problems were noted in four patients. From the documentation of the studies included, all patients were satisfied with the outcome, excluding one flap failure.

Additional Upper Limb Data

In this study, seven studies were included with reference to MSAP reconstruction of the upper limbs. Among these studies, which included 96 patients, all of them had free MSAP flaps to reconstruct hand and wrist defects. There were nearly twice as many males as female patients (M:F = 5:3). Patients were mostly young with a mean age of 32.5 years (range 15–76 years). In the majority of cases, the indication for reconstruction was trauma (80% cases) 38/48, 18% were burn and 2% were due to infection. This is represented in Figure 9.

Figure 9. Upper Limb Indications for Reconstruction.
Figure 9: Upper Limb Indications for Reconstruction.

CT angiogram was only described in one study,13 which was carried out in all 25 patients. The mean flap length was 9.2 cm with a range of 3–22 cm. Flap width was ranged from 2.5 to 12 cm (mean 5.3 cm). The pedicle length was on an average of 9.4 cm (range 6–16 cm). The mean thickness of flaps was 5 mm (4–8 mm).19 Most of the anastomosis has been carried out using the radial artery. In 87% of cases, the recipient artery was the radial artery20 and in 13%1 cases, this was the ulnar artery,1 the mean flap ischemia time was 110 minutes.21 One study13 mentioned that one perforator was used in 18/25 (72%) and two perforators were used in the remaining seven patients (28%). Nearly two-thirds of donor sites closed directly in 30/48 cases (62%), and 38% of 18/48 cases needed split skin grafting. Notably, 98% of cases had no donor site problem. Overall flap success rate was 97% (n = 3 flap failure) and partial flap loss occurred in 3% of cases (n = 3). Wound healing issues were encountered in 12.5% (12/96). Donor site problem was encountered in 1% (1/96). Notably, 3% of patients needed further flap adjustment; however, all patients had satisfactory outcomes with reconstruction.13,19

Discussion

Flap anatomy: Many anatomical studies have been carried out for the MSAP flap.8,22,23 In this study, we found mean flap length was 9.6 cm and width 5.4 cm which correlated with the previous literature. The mean pedicle length was 9.7 cm. This compares to other studies citing this at 10.1 cm.2 With regards to the number of perforators, our study showed a range of 1–5, however, anatomical studies have provided a range of 1–8.8,23,24 The average thickness of the flap was only 5.9 mm which has given its thin and pliability character.

Outcome measure: The donor site can close primarily in 80% of cases, which compares to other articles that have stated 76.2%.2 The overall flap success rate is 96%, with a total loss of 1.3% and a partial loss of 5.8% compared to other literature that stated 3.1% and 3.1%.2 Overall complications found in this study were 17%, whilst other studies found similar findings of 14.3%2 and 16.7%. Donor complications: 2% compared to 1.9%.2 The most common cause of flap failure was venous congestion, which was similarly stated by Daar et al.2 The challenges associated with reconstructing lower and upper limb defects carry many similarities. Specifically, the scarcity of soft tissue bulk as well as, exposure of bone, tendons and neurovascular structures. Most of the cases were complex traumatic wounds with extensive zones of injury. The distant/distal blood supply and other vascular comorbidities can add further complicating factors that need to be considered when reconstructing extremities.

Keeping these concerns/challenges in mind, reconstructive surgeons should look for well vascularised, robust tissues that are durable enough to provide cover over the zone of trauma, as well as protection for infection-free bone healing, thus allowing for early mobilisation and recovery. Coverage needs to be thin and pliable enough to allow an easy gliding surface for tendons and sufficient movement of joints. Donor site morbidity is also important to reduce and enhance the recovery of patients. Furthermore, the functional, psychological, social, financial and aesthetic importance of the upper and lower limbs puts an extra burden on the reconstructive plan. Therefore, the end functional and aesthetic outcome can have a significant impact on the patient’s psychosocial and financial stability/well-being. Free tissue transfer has become the gold standard for reconstructive options for lower limb reconstruction, especially for traumatic wounds which are the most common indication which was also reflected/echoed by our review. The MSAP flap is one option that has already gained popularity in limb reconstruction. Survival of the flap is the most critical/vital factor, with our review demonstrating a 98% survival rate, indicating that the MSAP is a reliable flap.

Other advantages include its versatility, pliability, durability and long pedicle.16,25,18 This is in addition to the reduced donor site morbidity, as the lower limb has less subcutaneous fat and the skin has additional slack, making it more amenable for direct closure compared to other donor sites which may require skin grafting.26 The MSAP flap appears to have significant advantages when compared to other workhorse free tissue flaps. The RFFF has significant donor site morbidity, while the anterolateral thigh flap can be bulky and often requires thinning, which may lead to vascular compromise.27,28 The MSAP is also easy to monitor due to its skin paddle, in comparison to muscle and fascia only free flaps. Recent research has suggested laser Doppler imaging can also be used to monitor MSAP-free flap perfusion postoperatively.29

Our study does, however, have certain limitations. The sample size of the literature that was ultimately included was relatively small and additionally, all studies were retrospective in nature, potentially biasing the identification of predictors of flap complications. The majority of the studies were single-centre series, with small sample sizes, thus limiting the strength and quality of our results. Additionally, our review concentrated on the outcomes of the MSAP flap, rather than directly comparing it to other workhorse flaps. A larger, prospective and multicentre trial comparing multiple flaps used to reconstruct the upper and lower limbs would provide even more useful data and more precise outcomes. Nevertheless, it should be pointed out that the aim of our work was to review the literature on the MSAP flap alone and our results provide a summary of the characteristics of the MSAP flap and its outcomes.

Advantages and Disadvantages of the MSAP Flap

Advantages

  • Flap is thin, pliable and versatile flap designing
  • Long vascular pedicle helps to anastomosis away from the zone of injury and radiotherapy
  • Reliable pedicle with a good number of perforators with satisfactory size
  • Minimal donor site morbidity (2%), more than 80% of cases can be closed directly
  • Can raise as chimeric, can harvest with vascularised fascia and can act as a gliding surface.30
  • Consistent anatomy
  • Can raise as a sensate flap with the saphenous nerve or sural nerve
  • Less need for flap thinning or adjustment operation
  • No donor site functional limitation.

Disadvantages

  • Variations in perforator anatomy
  • Tedious intramuscular dissection
  • Cannot be used for large area reconstruction (on an average flap size of 9.6 × 5.3 cm)
  • Scar stretching or notching, skin graft can leave scar with poor cosmesis, which is an important drawback of this flap.
Conclusion

This meta-analysis has shown the MSAP flap to be a versatile, reliable, functionally and aesthetically acceptable flap for both lower and upper limb reconstructions with maximum patient satisfaction and minimal donor morbidity. The overall combined flap success rate was 98%. The MSAP is a useful flap, bearing in mind the thin, pliable skin paddle, good pedicle length and ability to carry out a two-team approach, with low donor site morbidity. Our evidence suggests that the increasing popularity of the MSAP flap is justified and this flap is an excellent option for soft tissue extremity defects.

Acknowledgements

We acknowledge Juyrah Ayeesa Hosain and Juhymah Aeera Hosain for their excellent drawings and illustrations and Mr. David Bell for helping in the conception of this article.

References

1. Campisi C, Kirsch WM. Tribute to Professor Sun Lee-Experimental microsurgery pioneer. Ann Plast Surg. 2016;76:2.
https://doi.org/10.1097/SAP.0000000000000705
 
2. Daar DA, Abdou SA, Cohen JM, Wilson SC, Levine JP. Is the medial sural artery perforator flap a new workhorse flap? A systematic review and meta-analysis. Plast Reconstr Surg. 2019;143(2):393e-403e. doi:10.1097/PRS.0000000000005204
https://doi.org/10.1097/PRS.0000000000005204
 
3. Gottlieb LJ, Krieger LM. From the reconstructive ladder to the reconstructive elevator. Plast Reconstr Surg. 1994;93(7):1503-04.
https://doi.org/10.1097/00006534-199406000-00027
 
4. Page MJ, McKenzie JE, Bossuyt PM, Boutron I, Hoffmann TC, Mulrow CD, et al. The PRISMA 2020 statement: an updated guideline for reporting systematic reviews. Int J Surg. 2021;88:105906.
https://doi.org/10.1016/j.ijsu.2021.105906
 
5. Pease NL, Davies A, Townley WA. Free sural artery perforator flap: An occasional gift in oral cavity reconstruction. Head Neck. 2016;38(7):E2454-56. doi:10.1002/hed.24426
https://doi.org/10.1002/hed.24426
 
6. Al-Himdani S, Din A, Wright TC, Wheble G, Chapman TWL, Khan U. The medial sural artery perforator (MSAP) flap: A versatile flap for lower extremity reconstruction. Injury. 2020;51(4):1077-85. doi:10.1016/j.injury.2020.02.060
https://doi.org/10.1016/j.injury.2020.02.060
 
7. Fitzgerald O’Connor E, Ruston J, Loh CYY, Tare M. Technical refinements of the free medial sural artery perforator (MSAP) flap in reconstruction of multifaceted ankle soft tissue defects. Foot Ankle Surg. 2019; https://doi.org/10.1016/j.fas.2019.02.003
https://doi.org/10.1016/j.fas.2019.02.003
 
8. Sue GR, Kao HK, Borrelli MR, Cheng MH. The versatile free medial sural artery perforator flap: An institutional experience for reconstruction of the head and neck, upper and lower extremities. Microsurgery. 2020;40(4):427-33. doi:10.1002/micr.30543
https://doi.org/10.1002/micr.30543
 
9. Khalid FA, Rehman SU, Haq AU, Riaz A, Saleem M, Rabbani MJ, et al. Medial sural artery perforator flap: A versatile option for soft tissue reconstruction of head and neck and limbs. J Ayub Med Coll Abbottabad. 2018;30(2):155-58.
 
10. Kim KN, Kim SI, Ha W, Yoon CS. Popliteal fossa reconstruction with a medial sural artery perforator free flap using the medial sural vessel as the recipient. J Plast Surg Hand Surg. 2017;51(6):387-92. doi:10.1080/2000656X.2017.1279622
https://doi.org/10.1080/2000656X.2017.1279622
 
11. Balan JR. Medial sural artery perforator free flap for the reconstruction of leg, foot and ankle defect: An excellent option. ANZ J Surg. 2018;88(3):E132-6.
https://doi.org/10.1111/ans.14050
 
12. Jandali Z, Lam MC, Aganloo K, Merwart B, Buissink J, Müller K, et al. The free medial sural artery perforator flap: Versatile option for soft tissue reconstruction in small-to-moderate size defects of the foot and ankle. Microsurgery. 2018;38(1):34-45. doi:10.1002/micr.30100
https://doi.org/10.1002/micr.30100
 
13. Wang X, Mei J, Pan J, Chen H, Zhang W, Tang M. Reconstruction of distal limb defects with the free medial sural artery perforator flap. Plast Reconstr Surg. 131:95-105. doi:10.1097/PRS.0b013e3182729e3c
https://doi.org/10.1097/PRS.0b013e3182729e3c
 
14. Hallock GG. Medial sural artery perforator free flap: Legitimate use as a solution for the ipsilateral distal lower extremity defect. J Reconstr Microsurg. 2014;30(3):187-92. doi:10.1055/s-0033-1357276
https://doi.org/10.1055/s-0033-1357276
 
15. Sun G, Nie K, Qi J, Annotations Jin W, Li S, Bulk Zhang submissiondownloads Z, Wei Z, Wang D Zhongguo xiu fu Chong Jian wai ke za zhi = Zhongguo Xiufu Chongjian Developers Forum Waike Zazhi = Chinese J Reparat Reconst Surg.
 
16. Ives M, Mathur B. Varied uses of the medial sural artery perforator flap. J Plast Reconstr Aesthet Surg. 2015;68(6):853-58. doi:10.1016/j.bjps.2015.02.001
https://doi.org/10.1016/j.bjps.2015.02.001
 
17. Jeevaratnam JA, Nikkhah D, Nugent NF, Blackburn AV. The medial sural artery perforator flap and its application in electrical injury to the hand. J Plast Reconstr Aesthet Surg. 2014;67(11):1591-94. doi:10.1016/j.bjps.2014.07.023
https://doi.org/10.1016/j.bjps.2014.07.023
 
18. Lin CH, Lin CH, Lin YT, Hsu CC, Ng TW, Wei FC. The medial sural artery perforator flap: A versatile donor site for hand reconstruction. J Trauma. 2011;70(3):736-43. doi:10.1097/TA.0b013e318203179e
https://doi.org/10.1097/TA.0b013e318203179e
 
19. Zheng H, Liu J, Dai X, Schilling AF. Free conjoined or chimeric medial sural artery perforator flap for the reconstruction of multiple defects in hand. J Plast Reconstr Aesthet Surg. 2015;68(4):565-70. doi:10.1016/j.bjps.2014.12.031
https://doi.org/10.1016/j.bjps.2014.12.031
 
20. Eren F, Oksuz S, Karagöz H, Melikoğlu C, Ulkur E. Multi-digit contracture release using medial sural artery perforator flap with syndactylization- desyndactylization method. Hippokratia. 2015;19(4):366-68.
 
21. Sue GR, Kao HK, Borrelli MR, Cheng MH. The versatile free medial sural artery perforator flap: An institutional experience for reconstruction of the head and neck, upper and lower extremities. Microsurgery. 2020;40(4):427-33. doi:10.1002/micr.30543
https://doi.org/10.1002/micr.30543
 
22. Choi JW, Nam SY, Choi SH, Roh JL, Kim SY, Hong JP. Applications of medial sural perforator free flap for head and neck reconstructions. J Reconstr Microsurg. 2013;29(7):437-42. doi:10.1055/s-0033-1343959
https://doi.org/10.1055/s-0033-1343959
 
23. Wong MZ, Wong CH, Tan BK, Chew KY, Tay SC. Surgical anatomy of the medial sural artery perforator flap. J Reconstr Microsurg. 2012;28(8):555-60.
https://doi.org/10.1055/s-0032-1315778
 
24. Dusseldorp JR, Pham QJ, Ngo Q, Gianoutsos M, Moradi P. Vascular anatomy of the medial sural artery perforator flap: a new classification system of intramuscular branching patterns. J Plast Reconstr Aesthet Surg. 2014;67(9):1267-75.
https://doi.org/10.1016/j.bjps.2014.05.016
 
25. Nugent M, Endersby S, Kennedy M, Burns A. Early experience with the medial sural artery perforator flap as an alternative to the radial forearm flap for reconstruction in the head and neck. Br J Oral Maxillofac Surg. 2015;53(5):461-63. doi:10.1016/j.bjoms.2015.02.023
https://doi.org/10.1016/j.bjoms.2015.02.023
 
26. Wolff KD, Rau A, Kolk A. Perforator flaps from the lower leg for intraoral reconstruction: Experience of 131 flaps. J Craniomaxillofac Surg. 2018;46(2):338-45. doi:10.1016/j.jcms.2017.11.019
https://doi.org/10.1016/j.jcms.2017.11.019
 
27. Wolff KD, Holzle F, Kolk A, Hohlweg-Majert B, Kesting MR. Suitability of the anterolateral thigh perforator flap and the soleus perforator flap for intraoral reconstruction: A retrospective study. J Reconstr Microsurg. 2011;27(4):225-32.
https://doi.org/10.1055/s-0031-1275485
 
28. Achal KS, Farrell C, Smith AB, Mucke T, Mitchell DA, Kanatas AN. Anterolateral thigh skinfold thickness and the European head and neck cancer patient: A prospective study. J Craniomaxillofac Surg. 2011;39(2):111-12.
https://doi.org/10.1016/j.jcms.2010.05.007
 
29. Abdelrahman M, Jumabhoy I, Qiu SS, Fufa D, Hsu C-C, Lin C-H, et al. Perfusion dynamics of the medial sural artery perforator (MSAP) flap in lower extremity reconstruction using laser Doppler perfusion imaging (LDPI): A clinical study. J Plast Surg Hand Surg. 2020;54(2):112-9.
https://doi.org/10.1080/2000656X.2019.1703191
 
30. Özkan HS, İrkören S, Aydın OE, Eryılmaz A, Karaca H. Medial sural artery perforator flap in head and neck reconstruction. Eur Arch Otorhinolaryngol. 2016;273(12):4431-36. doi:10.1007/s00405-016-4078-2
https://doi.org/10.1007/s00405-016-4078-2
 
31. Agrawal G, Gupta A, Chaudhary V, Qureshi F, Choraria A, Dubey H. Medial sural artery perforator flap for head and neck reconstruction. Ann Maxillofac Surg. 2018;8(1):61-5. doi:10.4103/ams.ams_137_17
https://doi.org/10.4103/ams.ams_137_17
 
32. Taufique ZM, Daar DA, Cohen LE, Thanik VD, Levine JP, Jacobson AS. The medial sural artery perforator flap: A better option in complex head and neck reconstruction? Laryngoscope. 2019;129(6):1330-36. doi:10.1002/lary.27652
https://doi.org/10.1002/lary.27652
 
33. Song X, Wu H, Zhang W, Chen J, Ding X, Ye J, et al. Medial sural artery perforator flap for postsurgical reconstruction of head and neck cancer. J Reconstr Microsurg. 2015;31(4):319-26. doi:10.1055/s-0035-1544180
https://doi.org/10.1055/s-0035-1544180
 
34. Hung S-Y, Loh CYY, Kwon S-H, Tsai C-H, Chang K-P, Kao H-K. Assessing the suitability of medial sural artery perforator flaps in tongue reconstruction – An outcome study. PLoS One. 2017;12(2):e0171570. doi:10.1371/journal. pone.0171570
https://doi.org/10.1371/journal.pone.0171570
 
35. Taufique ZM, Daar DA, Levine JP, Jacobson AS. Medial sural artery musculocutaneous perforator (MSAP) flap for reconstruction of pharyngoesophageal defects. Otolaryngol Head Neck Surg. 2020;162(6):993-95. doi:10.1177/0194599820920829
https://doi.org/10.1177/0194599820920829
 
36. Shen XQ, Lv Y, Shen H, Lu H, Wu SC, Lin XJ. Endoscope-assisted medial sural artery perforator flap for head and neck reconstruction. J Plast Reconstr Aesthet Surg. 2016;69(8):1059-65. doi:10.1016/j.bjps.2016.01.029
https://doi.org/10.1016/j.bjps.2016.01.029
 
37. Shen H, Shen XQ, Lv Y, Xu JH, Lu H. Pharyngoesophageal reconstruction with the medial sural artery perforator flap after total laryngopharyngectomy: A new method. Ann Plast Surg. 2017;78(2):191-94. doi:10.1097/SAP.0000000000000794
https://doi.org/10.1097/SAP.0000000000000794

Article tools

Cite this article as:
Koshy KK, Naik A, Hosain MM. The Free Medial Sural Artery Perforator Flap for Microsurgical Reconstruction of Limbs: A Systematic Review and Meta-Analysis of Flap Characteristics and Outcomes. Premier Journal of Science 2024:2;100016.

Export Test
Download an RIS file Download an RIS file
download-pdf
epub
XML icon
peer-reviewed
Screened by iThenticate - professional plagiarism prevention
Open Access

Related posts:

  1. Current Evidence on the Clinical Management of Coronary Artery Disease and Acute Coronary Syndrome: A Narrative Review
  2. Evidence on Treating Coronary Artery Disease with Drug-Coated Balloons
  3. Abstracts of the Cambridge University Plastic, Reconstructive and Aesthetic Surgery Society Conference (CUPRAS)
  4. Unlocking the Potential of Prophylactic Milrinone in Off-Pump Coronary Artery Bypass Grafting: A Narrative Review
  5. Neovascular Glaucoma Following Central Retinal Artery Occlusion and Carotid Stenting: A Case Report on Surgical Timing and Dual Antiplatelet Therapy Considerations
  6. Recent Advancements in the Management of Heart Failure: A Review


Premier Science
Publishing Science that inspires