BMJ, doi: 10.1136/bmj.39517.808160.BE, (Published 7 April 2008)

Research

Healing by primary closure versus open healing after surgery for pilonidal sinus: systematic review and meta-analysis

¹ Department of General Surgery, Aberdeen Royal Infirmary, ² Department of Public Health, University of Aberdeen

Abstract

Objective To determine the relative effects of open healing compared with primary closure for pilonidal sinus and optimal closure method (midline v off-midline).

Design Systematic review and meta-analyses of randomised controlled trials.

Data sources Cochrane register of controlled trials, Cochrane Wounds Group specialised trials register, Medline (1950-2007), Embase, and CINAHL bibliographic databases, without language restrictions.

Data extraction Primary outcomes were time (days) to healing, surgical site infection, and recurrence rate. Secondary outcomes were time to return to work, other complications and morbidity, cost, length of hospital stay, and wound healing rate.

Study selection Randomised controlled trials evaluating surgical treatment of pilonidal sinus in patients aged 14 years or more. Data were extracted independently by two reviewers and assessed for quality. Meta-analyses used fixed and random effects models, dichotomous data were reported as relative risks or Peto odds ratios and continuous data are given as mean differences; all with 95% confidence intervals.

Results 18 trials (n=1573) were included. 12 trials compared open healing with primary closure. Time to healing was quicker after primary closure although data were unsuitable for aggregation. Rates of surgical site infection did not differ; recurrence was less likely to occur after open healing (relative risk 0.42, 0.26 to 0.66). 14 patients would require their wound to heal by open healing to prevent one recurrence. Six trials compared surgical closure methods (midline v off-midline). Wounds took longer to heal after midline closure than after off-midline closure (mean difference 5.4 days, 95% confidence interval 2.3 to 8.5), rate of infection was higher (relative risk 4.70, 95% confidence interval 1.93 to 11.45), and risk of recurrence higher (Peto odds ratio 4.95, 95% confidence interval 2.18 to 11.24). Nine patients would need to be treated by an off-midline procedure to prevent one surgical site infection and 11 would need to be treated to prevent one recurrence.

Conclusions Wounds heal more quickly after primary closure than after open healing but at the expense of increased risk of recurrence. Benefits were clearly shown with off-midline closure compared with midline closure. Off-midline closure should become standard management for pilonidal sinus when closure is the desired surgical option.

Introduction

Pilonidal sinus is a disease that most commonly arises in the hair follicles of the natal cleft of the sacrococcygeal area. Incidence is reportedly 26 per 100 000 population, affecting males twice as often as females¹ and predominantly young adults of working age.

Pilonidal sinus usually presents as an abscess or a chronically discharging, painful sinus tract. Irrespective of the mode of presentation the painful nature of the condition causes significant morbidity, often with a protracted loss of normal activity. The ideal therapy would be a quick cure that allowed patients to return rapidly to normal activity, with minimal morbidity and a low risk of complications.

The management of chronic pilonidal disease is variable, contentious, and problematic. Principles of treatment require eradication of the sinus tract, complete healing of the overlying skin, and prevention of recurrence.

The surgical wound may be left to heal by open healing (secondary intention). Advocates of this technique state that reduced wound tension facilitates trouble free healing without recurrence if all sinus tracts are fully excised.^w1 Alternatively, the wound may be closed to heal by primary closure (primary intention). Methods can be broadly categorised as midline closure techniques (with the wound lying within the natal cleft) or other techniques (where the wound is placed outwith the midline). Advocates of primary closure perceive benefits of faster tissue healing. Variations in current practice reflect the literature, which describes a wide spectrum in patient outcomes for different open and closed surgical techniques.

We determined the relative effects of open healing compared with primary closure for pilonidal sinus and midline versus off-midline wound closure. This paper is based on a Cochrane review published in the Cochrane Library.²

Methods

We searched the Cochrane Wounds Group specialised register, the Cochrane central register of controlled trials (2006), Medline (1950-2006), Embase (1980-2006), and CINAHL (1982-2006). A combination of medical subject headings and key words were used: "pilonidal sinus", "fistula", "disease", and "natal cleft". We hand searched relevant conference proceedings and other articles within the Cochrane Wounds Group specialised register. Bibliographies of included studies were reviewed to identify potentially relevant articles. To inquire about unpublished data we contacted authors of included studies.

Inclusion criteria
Eligible studies were randomised controlled trials comparing two or more surgical techniques for treatment of pilonidal sinus in patients aged 14 years or more. We excluded studies concerning pilonidal abscess, non-randomised trials, paediatric populations, and non-surgical intervention. We made no distinction between presentation of recurrent or de novo disease.

Outcome measures
Primary outcome measures were time to wound healing, rate of surgical site infection, and recurrence rate. Secondary outcomes were time to return to work, other complications and morbidity, cost, length of hospital stay, and wound healing rate.

Quality assessment and data extraction
Two reviewers (IJDMcC and JB) independently assessed study quality according to the Cochrane Handbook.³ Disagreements were resolved by a third reviewer (PMK). We did not assess blinding after allocation as it was not possible to blind patients, surgeons, or assessors to the intervention. We assessed several criteria: randomisation—whether the sequence was truly random (for example, computer generated, random number tables, coin toss); concealment of allocation—whether a randomisation method described would not allow the investigator or participant to know or influence the intervention group before an eligible participant was entered (allocation concealed); and completeness of follow-up—whether withdrawals were described and reported by treatment group (completeness of follow-up recorded; >80% cut-off).

We categorised risk of bias as low (all criteria met), moderate (one or more criteria met), or high (no criteria met).

Statistical analysis
We defined interventions as closed if primary closure of the skin edges was achieved. If this closure lay in the midline of the natal cleft we allocated the intervention to the midline closure subgroup. When incisions left the closure line lying outside the natal cleft we assigned the intervention to the off-midline closure group. Techniques were deemed to be open if tissue opposition was not achieved; this included techniques such as marsupialisation and open wound healing.

We analysed quantitative data using RevMan. For each outcome we calculated summary estimates of treatment effect (95% confidence intervals) for each comparison. We calculated mean differences for continuous data, and relative risk or Peto odds ratio with 95% confidence intervals for dichotomous outcomes. We used the Peto odds ratio when event rates were low. We did not do a sensitivity analysis because of the small numbers of included trials.

We assessed clinical, methodological, and statistical heterogeneity. Statistical heterogeneity was tested using the ² test and the I² statistic.³ Fixed effects models were used unless we found significant evidence of statistical heterogeneity or clinical diversity. When diversity or result format precluded meta-analysis, we present the results in a tabular format.

Results

Of 1367 potentially relevant trials identified and screened, 45 papers were retrieved for full critical appraisal. Eighteen trials were included in the review (fig 1).^w1-w19

View larger version (35K): [in this window] [in a new window] [PowerPoint Slide for Teaching]   Fig 1 Flow of studies in systematic review

 
Study characteristics
Sample sizes in the trials ranged from 33 to 200 participants (total 1573; table 1). Over 80% of participants were male. Most studies had been carried out in southern Europe or the Middle East; three trials were from the United Kingdom and the remainder from Norway, Denmark, and Pakistan. The Norwegian group published short term outcomes^w2 and then recurrence data at four years postoperatively.^w3 Data on late recurrence were included once to prevent duplicate data entry.

View this table: [in this window] [in a new window]   Table 1  Characteristics of included studies in systematic review of open healing or primary closure techniques after surgery for pilonidal sinus

 
Only two studies adequately fulfilled all methodological requirements and were considered as having low risk of bias.^{w14 w17} Four studies were considered to be at high risk of bias,^{w5 w6 w12 w19} and the remaining trials were graded as moderate (table 2).

View this table: [in this window] [in a new window]   Table 2  Methodological quality assessment of included studies

 
Characteristics of surgical intervention
Ten of the 18 studies compared open healing with midline closure techniques,^w2-w12 two compared open healing with off-midline closure techniques,^{w1 w13} and five compared midline closure with off-midline closure techniques.^w14-w18 One study compared off-midline closed techniques (classic rhomboid with asymmetrical rhomboid).^w19 Table 1 gives details of comparisons in each trial.

Time to wound healing
Time to wound healing (days) was generally defined as full epithelisation over the wound. Ten studies reported this outcome (five reported median data, four reported mean data with standard deviations, and one presented graphical data that could not be interpreted).^w10

Open healing v primary closure
Owing to inconsistencies in reporting, data on time to wound healing were not pooled, but eligible studies are presented in table 3. Four trials reported statistically significant quicker (median or mean) time to wound healing after primary closure.^{w2 w6 w7 w12} Three studies also showed quicker healing in the primary closure group although no formal statistical tests were reported (table 3).^{w4 w8 w9} For the one study using off-midline closure (Z-plasty), a significantly shorter time to healing in the Z-plasty group was found (41 days, 95% confidence interval 20 to 160 v 15.4 days, 10 to 34; P<0.001).^w13

View this table: [in this window] [in a new window]   Table 3  Time to wound healing using open healing compared with midline closure techniques

 
Midline closure v off-midline closure
One trial (100 participants) reported that midline wounds took significantly longer to heal than off-midline rhomboid flaps (mean difference 5.4 days, 95% confidence interval 2.3 to 8.5 days).^w15

Rate of surgical site infection
Open healing v primary closure
Five trials (559 participants) assessed the rate of surgical site infection after open healing compared with primary closure (all techniques).^{w2 w5-w7 w13} Infection rates were marginally higher after open healing; however, this was not statistically significant (1.20, 0.55 to 2.63; fig 2). A single study comparing open healing with Z-plasty reported a non-significant increase in infection after open healing (1.43, 0.58 to 3.55).^w13

View larger version (19K): [in this window] [in a new window] [PowerPoint Slide for Teaching]   Fig 2 Infection rate at surgical sites after open healing or primary closure for pilonidal sinus

 
Overall, the rate of surgical site infection after pilonidal surgery was low, except for two studies where rates with open healing were 14% and 22%.^{w2 w13}

Midline closure v off-midline closure
Four trials (380 participants) assessed surgical site infection^w14-w17; infection rates varied from 0%^w16 to 13%.^w15 Overall, rates of infection were significantly higher after midline closure (4.70, 1.93 to 11.45; fig 3). Nine patients would need to be treated by an off-midline closure procedure to prevent one surgical site infection.

View larger version (11K): [in this window] [in a new window] [PowerPoint Slide for Teaching]   Fig 3 Infection rate at surgical sites after midline closure or closed (other) procedures for pilonidal sinus

 
The trial comparing two off-midline procedures (68 participants) reported significantly fewer infections after modified asymmetrical flap (3%) than after classic rhomboid flap (23%; P=0.03).^w19

Recurrence rate
Recurrence rate was the most commonly recorded outcome (18 trials). As timing of follow-up of recurrence varied widely it was categorised as less than or greater than one year and grouped by proportion followed up (greater than or less than 80%). A Peto odds ratio was used for the comparison of midline closure versus off-midline closure owing to the low event rate.

Open healing v primary closure
Data on recurrence were reported in 11 trials (994 participants), 10 of which had high rates of follow-up (>80%).^{w1 w2 w4-w11 w13} Recurrence of sinus was a rare outcome (affecting 81 of 994 participants, 8%) and several trials failed to detect any events. Meta-analysis indicated that open healing of pilonidal sinus is associated with a 58% lower risk of recurrence than primary closure (0.42, 0.26 to 0.66; fig 4). Fourteen patients would require their wound to heal by open healing to prevent one recurrence.

View larger version (30K): [in this window] [in a new window] [PowerPoint Slide for Teaching]   Fig 4 Recurrence rate of pilonidal sinus after surgery using open healing or primary closure

 
Pooling of the eight trials that compared open healing with midline closure showed a statistically significant lower recurrence rate with open healing (relative risk 0.39, 0.23 to 0.66; fig 4).

Two trials (238 participants) compared open healing with off-midline closure; off-midline closure was by Karydakis flap in one^w1 and by Z-plasty in the other.^w13 A random effects model was used for analysis owing to differing surgical technique; no significant difference was shown (0.70, 0.20 to 2.42; fig 4).

Midline closure v off-midline closure
Five trials that assessed rate of recurrence (413 participants) provided data on 24 events (5.8%).^w14-w18 Overall, the recurrence rate was significantly higher after midline closure (Peto odds ratio 4.95, 2.18 to 11.24; fig 5). This equates to 11 patients requiring off-midline closure to prevent one recurrence.

View larger version (22K): [in this window] [in a new window] [PowerPoint Slide for Teaching]   Fig 5 Recurrence rate of pilonidal sinus after surgery using midline closure or closed (other) procedures

 
One study reported two recurrences after classic rhomboid flap and none after modified rhomboid flap in a group of 68 participants (odds ratio 5.00, 0.23 to 108.13).^w19 Such large confidence intervals prevented meaningful interpretation of these data.

Time to return to work
Eleven trials reported time to return to work as an outcome,^{w1 w2 w4 w5 w13-w15 w19} two of these did not report variance values and could not be included in the meta-analysis.^{w4 w13} Three trials reported medians (interquartile ranges), hence their data could not be pooled.^{w6 w8 w17}

Open healing v primary closure
Of five trials reporting time to return to work (563 participants); three used midline closure^{w2 w4 w5} and two off-midline closure.^{w1 w13} Patients undergoing excision with open healing took longer to return to work than those having closed operations regardless of closure method (open v closed (all) mean difference 10.48 days, 5.75 to 15.21; fig 6), midline closure (8.56 days, 2.97 to 14.15; fig 6), or off-midline closure (15.30 days, 6.44 to 24.16; fig 6).

View larger version (19K): [in this window] [in a new window] [PowerPoint Slide for Teaching]   Fig 6 Time to return to work (days) after pilonidal surgery using open healing or primary closure

 
Midline closure v off-midline closure
In two studies reporting mean time to return to work no overall effect was shown (1.68 days, –19.59 to 22.94).^{w14 w15} The studies had opposing findings: the trial^w14 suggesting longer time after off-midline closure was of higher quality.

One study comparing modified asymmetrical rhomboid flap with classic rhomboid flap found a difference of only two days in return to work, favouring the asymmetrical modified Limberg flap (9.3 days (SD 0.34) v 11.7 (SD 0.45); P<0.001).^w19

Other complications and morbidity
Numerous different complications were reported by the trials, including maceration, primary failure, wound dehiscence, haematoma, early suture removal, and flap oedema.^{w1 w2 w4 w6-w8 w13 w15 w17 w19} Owing to heterogeneity of outcomes and reporting of outcomes (for example, number of events and number of patients with events), a random effects model was selected.

Open healing v primary closure
Of seven trials reporting data on 688 patients,^{w1 w2 w4 w6-w8 w13} the rate of complications did not differ (0.67, 0.27 to 1.70; fig 7).

View larger version (21K): [in this window] [in a new window] [PowerPoint Slide for Teaching]   Fig 7 Complications and morbidity after pilonidal surgery using open healing or primary closure

 
Five of these trials (433 participants) compared open healing with midline closure; no significant difference was found in rate of postoperative complications (0.56, 0.12 to 2.51; fig 7). Two trials (244 participants) compared open healing with off-midline closure (Z-plasty and Karydakis flap); no significant difference was shown (0.87, 0.36 to 2.10).^{w1 w13}

Midline closure v off-midline closure
Two trials reported complications with off-midline rhomboid flaps compared with midline closure.^{w14 w15} A clear benefit was shown with off-midline closure (8.94, 2.10 to 38.02). One study reported a higher complication rate (dehiscence) after classic rhomboid flap (8/35 patients, 23%) than after modified asymmetrical flap (1/33, 3%; P=0.03).^w19

Patient satisfaction
A small but statistically significant preference was shown for off-midline closure than for midline closure, where satisfaction was measured using a 0-10 visual analogue scale in the single study that measured this outcome.^w15 A mean difference of one point on a visual analogue scale is, however, unlikely to be translated into a meaningful clinical difference (7.4 (SD 1.4) v 6.5 (SD 1.7) visual analogue scale; P<0.001).

Cost
Only one trial, from Pakistan, reported data on cost and found that midline closure was cheaper than open healing.^w7 This finding may not be generalisable to most other healthcare systems.

Length of hospital stay
Open healing v primary closure
Reporting on length of hospital stay varied across studies owing to differing criteria for discharge. Reporting was unclear^w18 or could not be included in a meta-analysis.^{w4 w5} Five trials (533 participants) assessed length of hospital stay,^{w1 w4 w5 w10 w13} three of which used a closed midline procedure.^{w4 w5 w10} Overall, a trend towards a shorter stay was shown in those having open procedures compared with closed procedures; however, this was not significant (mean difference –1.26 days, 95% confidence interval –2.77 to 0.24; fig 8). A random effects model was used, as significant statistical heterogeneity was shown within the results (I²=98.2%). Data were pooled as the high statistical heterogeneity was caused by the result of one study,^w1 where both operations were carried out on a day case basis compared with other studies where samples were inpatients.

View larger version (19K): [in this window] [in a new window] [PowerPoint Slide for Teaching]   Fig 8 Length of hospital stay after pilonidal surgery using open healing or primary closure

 
Midline closure v off-midline closure
Two trials found that length of stay was significantly shorter after off-midline closure than midline closure (mean difference 1.95 days, 95% confidence interval 0.21 to 3.69; fig 9). A random effects model was used as there was evidence of statistical heterogeneity (I²=72.3%).

View larger version (9K): [in this window] [in a new window] [PowerPoint Slide for Teaching]   Fig 9 Length of hospital stay after pilonidal surgery using midline closure or off-midline closure

 
Pain
Postoperative pain was reported in binary and continuous formats: as proportion or rate of patients experiencing pain and mean or median pain scores per group.

Open healing v primary closure
Three studies reported pain.^{w1 w2 w12} Median (range 0-100) pain scores on postoperative day 4 were significantly lower for patients having closed procedures (10 (0-73) v 35 (0-63); P<0.05).^w12 For two studies (220 participants) rate of pain did not differ between open and closed methods (1.13, 0.43 to 2.80).^{w1 w2} One of the studies compared midline closure with open healing and showed identical rates of pain (10%) in both groups in the early postoperative period.^w2 The other study compared open healing with Karydakis flap and showed similar rates of acute pain in both groups (closed 4% v open 6%).^w1

Midline closure v off-midline closure
Two studies measured postoperative pain.^{w15 w18} Mean pain scores were only estimable for one of the trials^w15 as no variance data were obtained for the trial that assessed the Bascom flap method.^w18 Improved pain scores, using the short form-36 pain domain (0-100), were reported after off-midline closure although this was not significant (mean difference –13.00, –19.41 to –6.59).^w15

Wound healing rate
Open healing v primary closure
Five trials (474 participants) reported rates for wound healing after open healing and primary closure (all techniques); overall no difference was found in wound healing rate by type of closure (0.94, 0.84 to 1.05).^{w1 w2 w4 w9 w12}

No significant difference was observed in the four studies comparing open healing with midline closure ^{w1 w2 w4 w9} (fig 10) or in the single study (100 participants) examining open healing with off-midline closure (1.02, 0.98 to 1.06).^w1

View larger version (20K): [in this window] [in a new window] [PowerPoint Slide for Teaching]   Fig 10 Rate of wound healing after pilonidal surgery using open healing or primary closure

 
Midline closure v off-midline closure
One study compared healing rates after midline closure with those after off-midline closure (rhomboid flap).^w14 A statistically significant improvement was shown in healing rates after off-midline closure (0.77, 0.62 to 0.97).

Discussion

After surgery for pilonidal sinus wounds healed more quickly when primary closure was used but the risk of sinus recurrence was higher than with open healing. No significant difference was found in rate of surgical site infection between the two approaches. A careful assessment of the harms and benefits of each should be made when considering surgical treatment. A clear benefit was, however, found with off-midline closure compared with midline closure.

Overall, recurrence of pilonidal sinus was more common with midline closure (59/503, 11.7%) than with open healing (22/491, 4.5%) which showed a 58% lower risk of recurrence at one year postoperatively. This equates to 14 patients experiencing recurrence per 100 undergoing primary closure (5 per 100 undergoing open healing). It is unsurprising that open wounds take longer than closed wounds to heal, and this reflects on other outcomes such as length of hospital stay and time taken to return to work. Early return to normal activity is an important outcome, and a clear benefit was found in patients undergoing primary closure. The general consensus in the surgical literature is that open healing results in a lower rate of infection at surgical sites; evidence from our systematic review is inconclusive to support this assumption. Postoperative infection was not recorded by all trials and the small number of events prevented us from accurately estimating an effect size. Despite differences in wound healing time, rate of infection and other postoperative complications did not differ between open healing and primary closure.

When the choice of treatment for pilonidal sinus was excision and primary closure our review found significant benefit after off-midline closure. Fewer infections, recurrences, and other complications occurred and wound healing was quicker after off-midline closure than after midline closure. Recurrence rates were significantly lower (1.4%) than with midline closure (10.3%); this finding was previously reported in a non-systematic review, where fewer recurrences occurred after off-midline procedures (1.6% v 9.4%).⁴

Our systematic review identified an infection rate of 10.4% after midline closure and 6.3% after off-midline closure, which are similar to the aggregated rates (12.4% v 7.6%) reported by one study.⁴ Although that review aggregated rates for infection, early failure, and recurrence by different closure methods (midline, asymmetrical or oblique; rhomboid; VY-plasty and Z-plasty), this study included results from case series and retrospective surgical audits and failed to assess the methodological quality of individual studies.

Pilonidal sinus predominantly affects younger populations and therefore this disease has an economic impact. To date this has not been formally evaluated. Time to return to work is a function of several other variables, including time to wound healing, pain, wound complications, wound breakdown, and other management factors. No benefit was specifically shown for time to return to work after off-midline closure, although significant heterogeneity existed between the included studies. This is an area worthy of further evaluation.

Limitations
Owing to the nature of the surgical treatment for pilonidal sinus, blinding of surgeons, patients, and assessors is not possible and some risk of bias exists; therefore results must be interpreted with caution. Many small variations in surgical technique occur, including depth and extent of dissection, undermining of tissues, and type of suture materials used. We have attempted to group interventions to maintain clinical relevance whenever possible. This, as in all meta-analyses, represents a compromise, which has to be reached to provide meaningful comparison. Study groups contain variable interventions, however, and the optimal specific technique for differing severities of disease cannot be inferred from the data presented here. Although cointerventions were reported in some trials (for example, antibiotic prophylactic regimens, antibiotic wound impregnation, wound dressings), it was not possible to incorporate these factors into subgroup comparisons.

Methodological quality
Seventeen studies were original reports of primary data, one study was published as a conference abstract, and one group reported outcome data for a cohort recruited four years earlier. We did not undertake formal assessment for publication bias. The methodological quality of the studies was disappointing; most trials were small and at risk of failing to detect clinically relevant differences as statistically significant. Certain important postoperative outcomes, such as recurrence and infection, are rare outcomes and this may lead to imprecise estimation in studies with small sample sizes. Other methodological flaws such as poor randomisation techniques and inadequate follow-up further limit the interpretation of findings. Few studies provided definitions of postoperative events, therefore trials should include and report standard measures to allow objective and comparable assessment of outcomes.

Standardisation was lacking in reporting of outcomes, length of trial, and proportion of recruited sample followed up; many trials failed to accurately record or present this information. None of the trials reported follow-up beyond four years, and late recurrence is not represented here. Recurrence may also be underestimated slightly as some studies used telephone or questionnaire follow-up, either as standard or to obtain information from non-attenders at clinic review. Therefore it is possible that a small number of patients with macroscopic but asymptomatic recurrence would not be detected using such assessments.

Implications for practice
Wounds heal more quickly after primary closure and return to work is sooner than with open healing but at the expense of an increased risk of sinus recurrence. It would seem that treatment type should still be based on surgeon and patient preference, with consideration of the patients’ goals for therapy.

Off-midline closure rather than midline closure showed benefit for most clinical and patient outcomes. These data are limited in some areas, although for outcomes where a reasonable degree of evidence has accrued the lack of heterogeneity is reassuring. Available data suggest that off-midline closure should become standard management for pilonidal sinus when primary closure is the desired surgical option.

Implications for research
No full economic evaluation has been undertaken of the treatment for pilonidal sinus and further research is needed, particularly given the incidence of disease and economic productivity of the young adult population mostly affected by this condition.

We found few data on pain scores or patient satisfaction by type of surgical procedure. Further investigation into surgical techniques for the treatment and management of pilonidal disease is required. Evidence is still lacking as to whether open healing or primary closure methods should be used. Research should focus on well designed, high quality clinical trials; studies should be adequately powered, possibly by way of multicentre recruitment, and should use standardised protocols for assessment of infection, complications, pain, satisfaction, costs, and recurrence. Primary outcomes are time to wound healing, surgical site infection, and recurrence. Adequate follow-up with clinical assessment would be desirable to accurately detect true recurrence. Finally, studies should incorporate health economic techniques to estimate associated costs and benefits of different treatment options.

What is already known on this topic Pilonidal sinus is common and associated with considerable morbidity in young adults Surgical management offers the best chance of cure, but surgical techniques have limitations and optimal treatment is unclear What this study adds After pilonidal surgery wounds heal quicker with primary closure than with open healing but risk of recurrence is increased The suture line should lie off the midline to ensure trouble free healing and minimal chance of recurrence

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We thank the Cochrane Wounds Group for their support.

Contributors: All authors were responsible for the study design and revising the manuscript. IJDMcC and JB were responsible for data extraction and analysis and writing the manuscript. PMK provided clinical expertise. IJDMcC is guarantor for the paper.

Funding: JB is funded by Medical Research Council special training fellowship in health services and health of the public research.

Competing interests: None declared.

Ethical approval: Not required.

Provenance and peer review: Not commissioned; externally peer reviewed.

References

1. Sondenaa K, Andersen E, Nesvik I, Soreide JA. Patient characteristics and symptoms in chronic pilonidal sinus disease. Int J Colorectal Dis 1995;10:39-42.[CrossRef][Web of Science][Medline]
2. McCallum I, King PM, Bruce J. Healing by primary versus secondary intention after surgical treatment for pilonidal sinus. Cochrane Database Syst Rev 2007;(4):CD006213.Doi:10.1002/14651858.CDoo6213.pub 2.
3. Higgins JPT, Green S, eds. Cochrane Handbook for Systematic Reviews of Interventions Version 4.2.5 [updated May 2005]. The Cochrane Collaboration, 2005. www.cochrane-handbook.org.
4. Petersen S, Koch R, Stelzner S, Wendlandt T, Ludwig K. Primary closure techniques in chronic pilonidal sinus: a survey of results of different surgical approaches. Dis Colon Rectum 2002;45:1458-67.[CrossRef][Web of Science][Medline]

(Accepted 25 February 2008)

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