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Erschienen in: Surgical Endoscopy 5/2018

Open Access 26.10.2017

Seroma following transabdominal preperitoneal patch plasty (TAPP): incidence, risk factors, and preventive measures

verfasst von: F. Köckerling, R. Bittner, D. Adolf, R. Fortelny, H. Niebuhr, F. Mayer, C. Schug-Pass

Erschienen in: Surgical Endoscopy | Ausgabe 5/2018

Abstract

Background

The reported range of seroma formation in the literature after TEP repair is between 0.5 and 12.2% and for TAPP between 3.0 and 8.0%. Significant clinical factors associated with seroma formation include old age, a large hernia defect, an extension of the hernia sac into the scrotum, as well as the presence of a residual indirect sac. Seroma formation is a frequent complication of laparoendoscopic mesh repair of moderate to large-size direct (medial) inguinal hernia defects. This present analysis of data from the Herniamed Hernia Registry now explores the influencing factors for seroma formation in male patients after TAPP repair of primary unilateral inguinal hernia.

Methods

In total, 20,004 male patients with TAPP repair of primary unilateral inguinal hernia were included in uni- and multivariable analysis.

Results

Univariable analysis revealed the highly significant impact of the fixation technique on the seroma rate (non-fixation 0.7% vs. tacks 2.1% vs. glue 3.9%; p < 0.001). Multivariable analysis showed that glue compared to tacks (OR 2.077 [1.650; 2.613]; p < 0.001) and non-fixation (OR 5.448 [4.056; 7.317]; p < 0.001) led to an increased seroma rate. A large hernia defect (III vs. I: OR 2.868 [1.815; 4.531]; p < 0.001; II vs. I: OR 2.157 [1.410; 3.300]; p < 0.001) presented a significantly higher risk of seroma formation. Likewise, medial compared to lateral inguinal hernias had a higher seroma rate (OR 1.272 [1.020; 1.585]; p = 0.032).

Conclusions

Mesh fixation with tacks or glue, a larger hernia defect, and medial defect localization present a higher risk for seroma development in TAPP inguinal hernia repair.
According to the Guidelines of the International Endohernia Society (IEHS) and the European Association of Endoscopic Surgery (EAES) [13], seroma formation is a frequent occurrence after laparoendoscopic groin hernia repair but lacks clinical relevance or significance in most cases. It is advised to explain the possibility of seroma formation to the patient before surgery to prevent anxiety [3]. The main problem with postoperative seroma is the perception by patients and their general practitioners that they represent a persistence or recurrence of the hernia [4]. There are reports of seroma being mistaken for recurrences following laparoscopic hernia repair, with the correct diagnosis being made only after groin exploration [4].
The reported range of seroma formation in literature reviews after TEP repair is between 0.5 and 12.2% [5] and for TAPP between 3.0 and 8.0% [4]. In a meta-analysis of randomized controlled trials, a significantly higher incidence of seromas was found after laparoendoscopic inguinal hernia repair, with 1590 patients, versus Lichtenstein repair, with 1620 patients (12.2 vs. 8.9%; p = 0.003) [6]. If no measures are taken for prevention of seroma after TEP or TAPP repair for direct inguinal hernia, the incidence reported is 4–5% [7]. In large registry studies of primary unilateral inguinal hernia repair in men with the laparoendoscopic technique, the incidence of seroma has been reported as 0.5% for TEP and 3% for TAPP [8, 9]. Significant clinical factors associated with seroma formation include old age, a large hernia defect, an extension of the hernia sac into the scrotum, and the presence of a residual distal indirect sac [10, 11]. Seroma formation is a frequent complication of laparoendoscopic mesh repair of moderate to large size direct medial inguinal hernia defects [5].
While certain studies had identified significantly less seroma formation on using extra lightweight meshes [12], a meta-analysis did not note any difference in the impact of lightweight vs heavyweight meshes on the seroma rate after laparoendoscopic inguinal hernia repair [13]. Likewise, while in one observational study comparison of mesh fixation versus non-fixation for endoscopic inguinal hernia repair revealed a lower seroma rate for non-fixation [14], this was not demonstrated by a corresponding meta-analysis [15]. Besides, comparison of mesh fixation with tacks versus glue did not show any significant difference in the seroma rate [1618]. In two observational studies, preperitoneal drainage was found to have a positive effect on the seroma incidence [19, 20].
This present analysis of data from the Herniamed Hernia Registry now explores the influencing factors for seroma formation after TAPP repair. Preventative measures will then be discussed.

Materials and methods

As of October 10, 2016, 577 participating hospitals and office-based surgeons mainly from Germany, Austria, and Switzerland have entered prospective data into the multicenter internet-based Herniamed Hernia Registry on their patients who had undergone routine hernia surgery and signed an informed consent agreeing to participate [21]. As part of the information provided to patients regarding participation in the Herniamed Quality Assurance Study and signing the informed consent declaration, all patients are informed that the treating hospital or medical practice would like to be informed about any problems occurring after the operation and that the patient has the opportunity to attend clinical examination. All postoperative complications occurring up to 30 days after surgery are recorded. This present study analyzed the prospective data collected for all male patients who had been operated on with a TAPP technique for repair of a primary unilateral inguinal hernia in the period September 1, 2009, up to and including September 1, 2015. At 1-year follow-up, the general practitioners and patients were asked once again for any postoperative complication. If complications are reported by the general practitioner or patient, patients can be requested to attend clinical and/or radiological examinations. A recent publication has provided impressive evidence of the role of patient-reported outcomes [22]. Only those patients for whom 1-year follow-up results were available were included in the analysis. Other inclusion criteria were as follows: age ≥ 16 years and only medial/lateral/combined types of inguinal hernia based on the EHS classification [23]. In total, 20,004 patients were included in uni- and multivariable analysis (Fig. 1) for investigation of influencing factors for the development of a seroma after TAPP inguinal hernia repair. During the observation period, the 20,004 TAPP procedures were performed in 8799 patients (44.0%) without mesh fixation, in 6387 patients (31.9%) using tacks for fixation, and in 4818 patients with glue fixation (24.1%).
The most commonly used meshes (≥ 2%) are given in Table 1. These were mainly large-pore lightweight meshes. The most commonly used (≥ 2%) tacks and glues are listed in Tables 2 and 3, respectively.
Table 1
Proportion of meshes most commonly used (≥ 2%)
Type of mesh
Type of fixation
Total
Non-fixation
Tacks
Glues
N
%
N
%
N
%
N
%
Prolene
12
0.1
447
7.0
6
0.1
465
2.3
Ultrapro
1139
12.9
1770
27.7
2112
43.8
5021
25.1
Parietene standard
297
3.4
240
3.8
10
0.2
547
2.7
Parietex ProGrip
1017
11.6
11
0.2
8
0.2
1036
5.2
Parietene ProGrip
1332
15.1
29
0.5
1
0.0
1362
6.8
Parietene light
468
5.3
414
6.5
70
1.5
952
4.8
DynaMesh-ENDOLAP
219
2.5
366
5.7
409
8.5
994
5.0
TiMesh extralight
260
3.0
85
1.3
383
7.9
728
3.6
TiMesh light
646
7.3
569
8.9
222
4.6
1437
7.2
3DMax light
1007
11.4
398
6.2
146
3.0
1551
7.8
Optilene
129
1.5
226
3.5
208
4.3
563
2.8
Optilene LP
326
3.7
651
10.2
733
15.2
1710
8.5
TiO2Mesh
460
5.2
86
1.3
115
2.4
661
3.3
Other meshes
1487
16.9
1095
17.1
395
8.2
2977
14.9
Total
8799
100.0
6387
100.0
4818
100.0
20,004
100.0
Table 2
Proportion of tacks most commonly used (≥ 2%)
Type of tacks
N
%
ProTack
348
5.4
Endo universal
531
8.3
AbsorbaTack
2845
44.5
PermaSorb
318
5.0
EMS stapler
1299
20.3
SorbaFix
568
8.9
SecureStrap
328
5.1
Others
150
2.3
Total
6387
100.0
Table 3
Proportion of glue most commonly used (≥ 2%)
Type of glue
N
%
Tissucol/tisseel
2050
42.5
Glubran 2
652
13.5
Evicel
1607
33.4
Liquiband FIX8
161
3.3
Others
348
7.2
Total
4818
100.0
All analyses were performed with the software SAS 9.4 (SAS institute Inc. Cary, NC, USA) and intentionally calculated to a full significance level of 5%, i.e., they were not corrected in respect of multiple tests, and each p value 0.05 represents a significant result. To first discern the differences between the groups in unadjusted analyses. Fisher’s exact test was used for categorical outcome variables, and the robust t test (Satterthwaite) for continuous variables. For mesh size (cm2), a logarithmic transformation was applied and re-transformed mean and range of dispersion are given.
To identify influence factors in multivariable analysis of seroma, a binary logistic regression model was used. Potential influence factors were: ASA score (I/II/III/IV), age (years), BMI (kg/m2), mesh size (cm2), defect size (I/II/III), risk factors (yes/no), preoperative pain (yes/no/unknown), EHS classification (lateral/medial/combined), drainage (yes/no), and mesh fixation (non-fixation/tacks/glue). Estimates for odds ratio (OR) and the corresponding 95% confidence interval based on the Wald test were given. For influence variables with more than two categories, pairwise odds ratios were given. For age (years), the 10-year OR estimate, for BMI (kg/m2) the five-point OR estimate, and for mesh size (cm2) the 10-point OR estimate were given. Results are presented in tabular form, sorted by descending impact.

Results

Univariable analysis

Univariable analysis of the relationship between the fixation technique (non-fixation/tacks/glue) and the patient and operative characteristics revealed highly significant differences (Tables 4, 5). For example, the proportion of patients with tacks or glue fixation for large hernia defects (EHS III > 3 cm) was significantly greater than that with non-fixation (Table 5). Likewise, the proportion of medial EHS classifications was higher in the tacks and glue mesh fixation group than in the no mesh fixation group. Drain placement was more common in cases of no mesh fixation (Table 5). With regard to mesh fixation (non-fixation/tacks/glue), highly significant differences were seen in the overall postoperative complication rate (non-fixation 1.8% vs. tacks 3.0% vs. glue 4.8%; p < 0.001) (Table 6). Seroma accounted for the greatest proportion of postoperative complications (non-fixation 0.7% vs. tacks 2.1% vs. glue 3.9%); p < 0.001).
Table 4
Mean age, BMI, and mesh size in male patients with primary unilateral inguinal hernia repair in TAPP technique
 
Non-fixation
Tacker
Glue
p
Age (years)
 Median ± STD
55.0 ± 15.6
58.8 ± 14.7
56.4 ± 15.0
< .001
BMI
 Mean ± STD
25.9 ± 3.3
26.0 ± 3.4
25.8 ± 3.4
< .001
Mesh size (cm2)
 Mean (range of dispersion)
146.3 (145.2; 147.5)
149.9 (148.7; 151.1)
151.1 (150.1; 152.2)
< .001
Table 5
Patient and operative characteristics in relation to mesh fixation, including unadjusted tests for significant differences
 
Non-fixation
Tacks
Glue
p
n
%
n
%
n
%
ASA score
 I
3043
34.58
1864
29.18
1946
40.39
< .001
 II
4737
53.84
3621
56.69
2461
51.08
 III/IV
1019
11.58
902
14.12
411
8.53
Defect size
 I (< 1.5 cm)
1533
17.42
727
11.38
683
14.18
< .001
 II (1.5–3 cm)
6072
69.01
3939
61.67
3200
66.42
 III (> 3 cm)
1194
13.57
1721
26.95
935
19.41
EHS classification
 Combined
1128
12.82
633
9.91
394
8.18
< .001
 Lateral
5483
62.31
3718
58.21
3142
65.21
 Medial
2188
24.87
2036
31.88
1282
26.61
Drainage
 Yes
736
8.36
346
5.42
148
3.07
< .001
 No
8063
91.64
6041
94.58
4670
96.93
Risk factorsa
 Total
  Yes
2248
25.55
1665
26.07
1233
25.59
0.747
  No
6551
74.45
4722
73.93
3585
74.41
aCOPD, diabetes, aortic aneurysm, immunosuppression, corticoid medication, smoking, coagulopathy, antiplatelet medication, anticoagulation therapy
Table 6
Outcome variables in relation to mesh fixation, including unadjusted tests for significant differences
 
Non-fixation
Tacks
Glue
p
n
%
n
%
n
%
Postoperative complications
 Total
  Yes
159
1.81
192
3.01
231
4.79
< .001
  No
8640
98.19
6195
96.99
4587
95.21
 Bleeding
  Yes
76
0.86
50
0.78
34
0.71
0.602
  No
8723
99.14
6337
99.22
4784
99.29
 Seroma
  Yes
61
0.69
133
2.08
189
3.92
< .001
  No
8738
99.31
6254
97.92
4629
96.08
 Infection
  Yes
6
0.07
7
0.11
2
0.04
0.407
  No
8793
99.93
6380
99.89
4816
99.96
 Bowel
  Yes
9
0.10
1
0.02
1
0.02
0.041
  No
8790
99.90
6386
99.98
4817
99.98
 Wound healing disorders
  Yes
7
0.08
5
0.08
8
0.17
0.250
  No
8792
99.92
6382
99.92
4810
99.83
 Ileus
  Yes
8
0.09
2
0.03
3
0.06
0.362
  No
8791
99.91
6385
99.97
4815
99.94

Multivariable analysis

The results of multivariable analysis of the postoperative complications associated with seroma are summarized in Table 7 (model fit: p < 0.001). The fixation technique and hernia defect size exerted a highly significant influence on seroma formation (in each case p < 0.001). Glue compared to tacks (OR 2.077 [1.650; 2.613]; p < 0.001) and glue vs non-fixation (OR 5.448 [4.056; 7.317]; p < 0.001) resulted in an increased seroma rate. Similarly, tacks compared to non-fixation (OR 2.623 [1.925; 3.575]; p < 0.001) were associated with a higher risk of seroma formation. A large hernia defect (III vs. I: OR 2.868 [1.815; 4.531]; p < 0.001; II vs. I: OR 2.157 [1.410; 3.300]; p < 0.001) presented a significantly higher risk of seroma formation. That was also true for medial compared to lateral inguinal hernia (medial vs. lateral: OR 1.272 [1.020; 1.585]; p = 0.032), and for medial compared to combined (medial vs. combined: OR 2.194 [1.388; 3.470]; p < 0.001). Besides, a high ASA score (ASA III/IV vs. I: OR 1.645 [1.109; 2.442]; p = 0.013) led to an increased risk of seroma formation. The presence of risk factors (yes vs. no: OR 0.703 [0.543; 0.910]; p = 0.008) reduced the risk of seroma development. Only a trend towards a reduction in the risk of seroma formation was identified for the use of a drain (OR 0.584 [0.319; 1.072]; p = 0.083).
Table 7
Multivariable analysis of seroma formation following TAPP inguinal hernia repair
Parameter
p Value
Category
p Value paired
OR estimate
95%-CI
Fixation
< .001
Glue vs. tacks
< .001
2.077
1.650
2.613
Glue vs. non-fixation
< .001
5.448
4.056
7.317
Tacks vs. non-fixation
< .001
2.623
1.925
3.575
Defect size
< .001
III (> 3 cm) vs. II (1.5–3 cm)
0.018
1.330
1.050
1.684
III (> 3 cm) vs. I (< 1.5 cm)
< .001
2.868
1.815
4.531
II (1.5–3 cm) vs. I (< 1.5 cm)
< .001
2.157
1.410
3.300
EHS classification
0.002
Lateral vs. combined
0.016
1.725
1.108
2.686
Medial vs. lateral
0.032
1.272
1.020
1.585
Medial vs. combined
< .001
2.194
1.388
3.470
Risk factors
0.008
Yes vs. no
 
0.703
0.543
0.910
ASA score
0.035
III/IV vs. II
0.166
1.258
0.909
1.742
III/IV vs. I
0.013
1.645
1.109
2.442
II vs. I
0.040
1.308
1.013
1.689
BMI (5-point OR)
0.069
  
0.861
0.733
1.011
Drainage
0.083
Yes vs. no
 
0.584
0.319
1.072
Age (10-year OR)
0.262
  
1.047
0.966
1.136
Mesh size (10-point OR)
0.597
  
0.985
0.930
1.043

Discussion

This present analysis of data from the Herniamed Hernia Registry reveals highly significant differences in the postoperative complication rate in relation to the fixation technique for male patients with TAPP repair of primary unilateral inguinal hernia. For example, the overall postoperative complication rate for non-fixation was 1.8%, for tack fixation 3.0%, and for glue fixation 4.8% (p < 0.001). Seroma accounted for the greatest proportion of postoperative complications. Here, too, a highly significant difference was detected in relation to mesh fixation (non-fixation 0.7% vs. tacks 2.1% vs. glue 3.9%; p < 0.001). Multivariable analysis confirmed the highly significant influence exerted by the fixation technique on the seroma rate. Glue compared to tacks and non-fixation resulted in a higher seroma rate. But also tacks compared to non-fixation led to a higher seroma rate. Accordingly, no mesh fixation clearly had the lowest seroma rate. That could be one explanation for the lower seroma rates after TEP than after TAPP [8], since as per the guidelines [1, 2] mesh fixation is rarely used for TEP, whereas as evidenced by the present data this continues to be used in 65% of cases for TAPP [24]. But the evidence-based data demonstrate that even for TAPP mesh fixation can be omitted for hernia defects up to 3 cm (EHS LI, II and MI, II) [1, 2]. Based on the registry data only a defect size of more than 3 cm (EHS LIII, MIII), and here in particular medial and combined defects, requires mesh fixation [24]. Accordingly, as for TEP, mesh fixation can be dispensed with more often for TAPP, too. With a current proportion that continues to be as high as 65% [24], the fixation rate can still be markedly reduced for TAPP. Omission of fixation might then positively impact the seroma rate after TAPP.
Naturally, smaller defects also present a lower risk of seroma formation, as do lateral compared to medial inguinal hernias. Lateral defects in line with the anatomy of the groin have a curtain-like closure after excision of the hernia sac from the inguinal canal, whereas a medial hernia defect will persist as evagination of the transversalis fascia once repaired. It should therefore be reduced to prevent it from being filled with serous fluid. Various techniques have been proposed in the literature to that effect. Reddy [4] recommends the inversion of the extended transversalis fascia and fixation with tacks to the pubic bone. Technically, this is only feasible through the use of permanent tacks. Besides, the use of tacks can trigger chronic pain. Berney [5] recommends using a Röder loop, where the inverted transversalis fascia is ligated with the Röder loop such that the entrance to the medial hernia sac is closed and the sac completely reduced. Alternatively, the inverted transversalis fascia can be fixed to Cooper’s ligament with a suture and the hernia sac completely reduced in the same manner [25]. Using these techniques the problem of seroma formation can be completely prevented for a large medial inguinal hernia in both TEP and TAPP. Therefore this technique is urgently recommended in the guidelines [1, 2].
The aforementioned findings also highlight the potential role of drain placement for prevention of seromas. To date, only very few publications recommend the use of a drain [19, 20]. The results of multivariable analysis demonstrate a trend towards a protective role for a drain in reducing seroma formation after TAPP. But as arguments against drains complications and pain induced by drains must be mentioned. Since drains are used more commonly for TEP [25], this might also explain the difference in the seroma rate for TAPP vs. TEP.
There are reports in the literature that could explain the higher seroma rates identified on using glues. An experimental study with the cyanoacrylate-based tissue adhesives Glubran and Ifabond demonstrated that synthetic glues triggered evident seroma formation in the form of an inflammatory reaction [26]. This was caused by the toxic property of cyanoacrylate which, as far as possible, is reduced by means of chemical changes [26]. Some studies have reported that the fibrin glue Tisseel/Tissucol is associated with higher rates of seroma formation than staple fixation although that finding has been inconsistent [27]. It is likely that the avoidance of drop formation and local accumulation by spraying the fibrin sealant reduces the incidence of seroma formation [27].
The present study has a number of limitations. The registry does not contain any data on how the peritoneum was closed. Nor is any information given on whether the diagnosis “seroma” was based on physical examination or radiography. The possibility of confusing seromas with early hernia recurrences cannot be ruled out either.
In summary, it has been demonstrated that the seroma rate in male patients with TAPP repair of primary unilateral inguinal hernia is negatively influenced by mesh fixation with tacks or glue. Non-mesh fixation was associated with the lowest seroma rate. This can also explain the difference in the seroma rate between TEP and TAPP to the disadvantage of the latter technique since for TAPP mesh fixation continues to be used in 65% of cases. But the evidence-based data demonstrate that, as for TEP, mesh fixation should generally only be used, in TAPP too, for hernia defects of more than 3 cm (EHS LIII, MIII), and in particular for medial hernias. Otherwise, seroma formation is commonly encountered for large inguinal hernias, and especially for large medial inguinal hernias. Therefore medial defects should either be secured with a suture to Cooper’s ligament or reduced with a Roeder loop. Furthermore, there appears to be a trend towards a positive role for drain placement after TAPP in reducing seroma formation.

Acknowledgements

Ferdinand Köckerling received grants to fund the Herniamed Registry from Johnson & Johnson, Norderstedt; Karl Storz, Tuttlingen; PFM medical, Cologne; Dahlhausen, Cologne; B Braun, Tuttlingen; MenkeMed, Munich; and Bard, Karlsruhe.

Compliance with ethical standards

Disclosures

R. Bittner, D. Adolf, R. Fortelny, H. Niebuhr, F. Mayer, C. Schug-Pass have no conflicts of interest or financial ties to disclose.
Open AccessThis article is distributed under the terms of the Creative Commons Attribution 4.0 International License (http://​creativecommons.​org/​licenses/​by/​4.​0/​), which permits unrestricted use, distribution, and reproduction in any medium, provided you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made.

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Anhänge

Herniamed study group

Scientific board

Köckerling, Ferdinand (Chairman) (Berlin); Bittner, Reinhard (Rottenburg); Fortelny, René (Wien); Jacob, Dietmar (Berlin); Koch, Andreas (Cottbus); Kraft, Barbara (Stuttgart); Kuthe, Andreas (Hannover); Lammers, Bernhard (Neuss); Lippert, Hans (Magdeburg); Lorenz, Ralph (Berlin); Mayer, Franz (Salzburg); Niebuhr, Henning (Hamburg); Peiper, Christian (Hamm); Pross, Matthias (Berlin); Reinpold, Wolfgang (Hamburg); Simon, Thomas (Weinheim); Stechemesser, Bernd (Köln); Unger, Solveig (Chemnitz); Weyhe, Dirk (Oldenburg); Zarras, Konstantinos (Düsseldorf).

Participants

Ahmetov, Azat (Saint-Petersburg); Alapatt, Terence Francis (Frankfurt/Main); Albayrak, Nurretin (Herne); Amann, Stefan (Neuendettelsau); Anders, Stefan (Berlin); Anderson, Jürina (Würzburg); Antoine, Dirk (Leverkusen); Apfelstedt, Heinrich (Solingen); Arndt, Anatoli (Elmshorn); Aschenbrenner, Michael (Spittal/Drau); Asperger, Walter (Halle); Avram, Iulian (Saarbrücken); Baikoglu-Endres, Corc (Weißenburg i. Bay.); Bandowsky, Boris (Damme); Barkus; Jörg (Velbert); Becker, Matthias (Freital); Behrend, Matthias (Deggendorf); Berkhoff, Christian (Fulda); Beuleke, Andrea (Burgwedel); Birk, Dieter (Bietigheim-Bissingen); Bittner, Reinhard (Rottenburg); Blaha, Pavel (Zwiesel); Blumberg, Claus (Lübeck); Böckmann, Ulrich (Papenburg); Böhle, Arnd Steffen (Bremen); Bolle, Ludger (Berlin); Borchert, Erika (Grevenbroich); Born, Henry (Leipzig); Brabender, Jan (Köln); Breitenbuch von, Philipp (Radebeul); Brož, Miroslav (Ebersbach); Brückner, Torsten (Gießen); Brütting, Alfred (Erlangen); Buchert, Annette (Mallersdorf-Pfaffenberg); Buchholz, Torsten (Aurich); Budzier, Eckhard (Meldorf); Burchett, Bert (Teterow); Burghardt, Jens (Rüdersdorf); Cejnar, Stephan-Alexander (München); Chirikov, Ruslan (Dorsten); Claußnitzer, Christian (Ulm); Comman, Andreas (Bogen); Crescenti, Fabio (Verden/Aller); Daniels, Thies (Hamburg); Dapunt, Emanuela (Bruneck); Decker, Georg (Berlin); Demmel, Michael (Arnsberg); Descloux, Alexandre (Baden); Deusch, Klaus-Peter (Wiesbaden); Dick, Marcus (Neumünster); Dieterich, Klaus (Ditzingen); Dietz, Harald (Landshut); Dittmann, Michael (Northeim); Drummer, Bernhard (Forchheim); Eckermann, Oliver (Luckenwalde); Eckhoff (Jörn /Hamburg); Ehmann, Frank (Grünstadt); Eisenkrein, Alexander (Düren); Elger, Karlheinz (Germersheim); Engelhardt, Thomas (Erfurt); Erichsen, Axel (Friedrichshafen); Eucker, Dietmar (Bruderholz); Fackeldey, Volker (Kitzingen); Faddah, Yousif (Kamenz); Farke, Stefan (Delmenhorst); Faust, Hendrik (Emden); Federmann, Georg (Seehausen); Fiedler, Michael (Eisenberg); Fikatas, Panagiotis (Berlin); Firl, Michaela (Perleberg); Fischer, Ines (Wiener Neustadt); Fleischer, Sabine (Dinslaken); Fortelny, René H. (Wien); Franczak, Andreas (Wien); Franke, Claus (Düsseldorf); Frankenberg von, Moritz (Salem); Frehner, Wolfgang (Ottobeuren); Friedhoff, Klaus (Andernach); Friedrich, Jürgen (Essen); Frings, Wolfram (Bonn); Fritsche, Ralf (Darmstadt); Frommhold, Klaus (Coesfeld); Frunder, Albrecht (Tübingen); Fuhrer, Günther (Reutlingen); Garlipp, Ulrich (Bitterfeld-Wolfen); Gassler, Harald (Villach); Gawad, Karim A. Frankfurt/Main); Gehrig, Tobias (Sinsheim); Gerdes, Martin (Ostercappeln); Germanov, German (Halberstadt); Gilg, Kai-Uwe (Hartmannsdorf); Glaubitz, Martin (Neumünster); Glauner-Goldschmidt, Kerstin (Werne); Glutig, Holger (Meissen); Gmeiner, Dietmar (Bad Dürrnberg); Göring, Herbert (München); Grebe, Werner (Rheda-Wiedenbrück); Grothe, Dirk (Melle); Günther, Thomas (Dresden); Gürtler, Thomas (Zürich); Hache, Helmer (Löbau); Hämmerle, Alexander (Bad Pyrmont); Haffner, Eugen (Hamm); Hain, Hans-Jürgen (Gross-Umstadt); Halter, Christian Jörn (Recklinghausen); Hammans, Sebastian (Lingen); Hampe, Carsten (Garbsen); Hanke, Stefan (Halle); Harrer, Petra (Starnberg); Hartung, Peter (Werne); Heinzmann, Bernd (Magdeburg); Heise, Joachim Wilfried (Stolberg); Heitland, Tim (München); Helbling, Christian (Uznach/Schweiz); Hellinger, Achim (Fulda); Hempen, Hans-Günther (Cloppenburg); Henneking, Klaus-Wilhelm (Bayreuth); Hennes, Norbert (Duisburg); Herdter, Christian (Gelsenkirchen); Hermes, Wolfgang (Weyhe); Herzing, Holger (Höchstadt); Hessler, Christian (Bingen); Heuer, Matthias (Herten); Hildebrand, Christiaan (Langenfeld); Höferlin, Andreas (Mainz); Hoffmann, Henry (Basel); Hoffmann, Michael (Kassel); Hofmann, Eva M. (Frankfurt/Main); Horbach, Thomas (Fürth); Hornung, Frederic (Wolfratshausen); Hudak, Attila (Suhl); Hübel-Abe, Jan (Ilmenau); Hügel, Omar (Hannover); Hüttemann, Martin (Oberhausen); Hüttenhain, Thomas (Mosbach); Hunkeler, Rolf (Zürich); Imdahl, Andreas (Heidenheim); Iseke, Udo (Duderstadt); Isemer, Friedrich-Eckart (Wiesbaden); Jablonski, Herbert Gustav (Sögel); Jacob, Dietmar (Berlin); Jansen-Winkeln, Boris (Leipzig); Jantschulev, Methodi (Waren); Jenert, Burghard (Lichtenstein); Jugenheimer, Michael (Herrenberg); Junge, Karsten (Aachen); Kaaden, Stephan (Neustadt am Rübenberge); Käs, Stephan (Weiden); Kahraman, Orhan (Hamburg); Kaiser, Christian (Westerstede); Kaiser, Gernot Maximilian (Kamp-Lintfort); Kaiser, Stefan (Kleinmachnow); Karch, Matthias (Eichstätt); Kasparek, Michael S. (München); Kastl, Sigrid (Braunau am Inn); Keck, Heinrich (Wolfenbüttel); Keller, Hans W. (Bonn); Kewer, Jans Ludolf (Tuttlingen); Kienzle, Ulrich (Karlsruhe); Kipfmüller, Brigitte (Köthen); Kirsch, Ulrike (Oranienburg); Klammer, Frank (Ahlen); Klatt, Richard (Hagen); Klein, Karl-Hermann (Burbach); Kleist, Sven (Berlin); Klobusicky, Pavol (Bad Kissingen); Kneifel, Thomas (Datteln); Knolle, Winfried (Pritzwalk); Knoop, Michael (Frankfurt/Oder); Knotter, Bianca (Mannheim); Koch, Andreas (Cottbus); Koch, Andreas (Münster); Köckerling, Ferdinand (Berlin); Köhler, Gernot (Linz); König, Oliver (Buchholz); Kornblum, Hans (Tübingen); Krämer, Dirk (Bad Zwischenahn); Kraft, Barbara (Stuttgart); Kratsch, Barthel (Dierdorf/Selters); Krausbeck, Matthias (Schwerin); Kreissl, Peter (Ebersberg); Krones, Carsten Johannes (Aachen); Kronhardt, Heinrich (Neustadt am Rübenberge); Kruse, Christinan (Aschaffenburg); Kube, Rainer (Cottbus); Kühlberg, Thomas (Berlin); Kühn, Gert (Freiberg); Kuhn, Roger (Gifhorn); Kusch, Eduard (Gütersloh); Kuthe, Andreas (Hannover); Ladberg, Ralf (Bremen); Ladra, Jürgen (Düren); Lahr-Eigen, Rolf (Potsdam); Lainka, Martin (Wattenscheid); Lalla, Thomas (Oschersleben); Lammers, Bernhard J. (Neuss); Lancee, Steffen (Alsfeld); Lange, Claas (Berlin); Langer, Claus (Göttingen); Laps, Rainer (Ehringshausen); Larusson, Hannes Jon (Pinneberg); Lauschke, Holger (Duisburg); Lechner-Puschnig, Marina (Klagenfurt am Wörthersee/Österreich); Leher, Markus (Schärding); Leidl, Stefan (Waidhofen/Ybbs); Leisten, Edith (Köln); Lenz, Stefan (Berlin); Liedke, Marc Olaf (Heide); Lienert, Mark (Duisburg); Limberger, Andreas (Schrobenhausen); Limmer, Stefan (Würzburg); Locher, Martin (Kiel); Loghmanieh, Siawasch (Viersen); Lorenz, Ralph (Berlin); Luedtke, Clinton (Kusel); Luther, Stefan (Wipperfürth); Luyken, Walter (Sulzbach-Rosenberg); Mallmann, Bernhard (Krefeld); Manger, Regina (Schwabmünchen); Maurer, Stephan (Münster); May, Jens Peter (Schönebeck); Mayer, Franz (Salzburg); Mayer, Jens (Schwäbisch Gmünd); Mellert, Joachim (Höxter); Menzel, Ingo (Weimar); Meurer, Kirsten (Bochum); Meyer, Moritz (Ahaus); Mirow, Lutz (Zwickau); Mittag-Bonsch, Martina (Crailsheim); Möbius, Ekkehard (Braunschweig); Mörder-Köttgen, Anja (Freiburg); Moesta, Kurt Thomas (Hannover); Mugomba, Gilbert (Dannenberg); Moldenhauer, Ingolf (Braunschweig); Morkramer, Rolf (Radevormwald); Mosa, Tawfik (Merseburg); Müller, Hannes (Schlanders); Müller, Volker (Nürnberg); Münzberg, Gregor (Berlin); Murr, Alfons (Vilshofen); Mussack, Thomas (St. Gallen); Nartschik, Peter (Quedlinburg); Nasifoglu, Bernd (Ehingen); Neumann, Jürgen (Haan); Neumeuer, Kai (Paderborn); Niebuhr, Henning (Hamburg); Nix, Carsten (Walsrode); Nölling, Anke (Burbach); Nostitz, Friedrich Zoltán (Mühlhausen); Obermaier (Straubing); Öz-Schmidt, Meryem (Hanau); Oldorf, Peter (Usingen); Olivieri, Manuel (Pforzheim); Passon, Marius (Freudenberg); Pawelzik, Marek (Hamburg); Pein, Tobias (Hameln); Peiper, Christian (Hamm); Peiper, Matthias (Essen); Pertl, Alexander (Spittal/Drau); Philipp, Mark (Rostock); Pickart, Lutz (Bad Langensalza); Pizzera, Christian (Graz); Pöllath, Martin (Sulzbach-Rosenberg); Pöschmann, Enrico (Thalwil); Possin, Ulrich (Laatzen); Prenzel, Klaus (Bad Neuenahr-Ahrweiler); Pröve, Florian (Goslar); Pronnet, Thomas (Fürstenfeldbruck); Pross, Matthias (Berlin); Puff, Johannes (Dinkelsbühl); Rabl, Anton (Passau); Raggi, Matthias Claudius (Stuttgart); Rapp, Martin (Neunkirchen); Reck, Thomas (Püttlingen); Reinpold, Wolfgang (Hamburg); Renter, Marc Alexander (Moers); Reuter, Christoph (Quakenbrück); Radke, Alexander (Thun/Zweisimmen); Richter, Jörg (Winnenden); Riemann, Kerstin (Alzenau-Wasserlos); Riesener, Klaus-Peter (Marl); Rodehorst, Anette (Otterndorf); Roehr, Thomas (Rödental); Rössler, Michael (Rüdesheim am Rhein); Roncossek (Bremerhaven); Rosniatowski, Rolland (Marburg); Roth Hartmut (Nürnberg); Sardoschau, Nihad (Saarbrücken); Sauer, Gottfried (Rüsselsheim); Sauer, Jörg (Arnsberg); Seekamp, Axel (Freiburg); Seelig, Matthias (Bad Soden); Seidel, Hanka (Eschweiler); Seiler, Christoph Michael (Warendorf); Seltmann, Cornelia (Hachenburg); Senkal, Metin (Witten); Shamiyeh, Andreas (Linz); Shang, Edward (München); Siemssen, Björn (Berlin); Sievers, Dörte (Hamburg); Silbernik, Daniel (Bonn); Simon, Thomas (Weinheim); Sinn, Daniel (Olpe); Sinner, Guy (Merzig); Sinning, Frank (Nürnberg); Smaxwil, Constatin Aurel (Stuttgart); Sörensen, Björn (Lauf an der Pegnitz): Sucke, Jochen Markus (Gießen); Syga, Günter (Bayreuth); Schabel, Volker (Kirchheim/Teck); Schadd, Peter (Euskirchen); Schassen von, Christian (Hamburg); Schattenhofer, Thomas (Vilshofen); Scheibel, Mike (Krefeld); Schelp, Lothar (Wuppertal); Scherf, Alexander (Pforzheim); Scheuerlein, Hubert (Paderborn); Scheyer, Mathias (Bludenz); Schilling, André (Kamen); Schimmelpenning, Hendrik (Neustadt in Holstein); Schinkel, Svenja (Kempten); Schmid, Michael (Gera); Schmid, Thomas (Innsbruck); Schmidt, Ulf (Mechernich); Schmitz, Heiner (Jena); Schmitz, Ronald (Altenburg); Schöche, Jan (Borna); Schoenen, Detlef (Schwandorf); Schrittwieser, Rudolf (Bruck an der Mur); Schroll, Andreas (München); Schubert, Daniel (Saarbrücken); Schüder, Gerhard (Wertheim); Schürmann, Rainer (Steinfurt); Schultz, Christian (Bremen-Lesum); Schultz, Harald (Landstuhl); Schulze, Frank P. Mülheim an der Ruhr); Schulze, Thomas (Dessau-Roßlau); Schumacher, Franz-Josef (Oberhausen); Schwab, Robert (Koblenz); Schwandner, Thilo (Lich); Schwarz, Jochen Günter (Rottenburg); Schymatzek, Ulrich (Eitorf); Spangenberger, Wolfgang (Bergisch-Gladbach); Sperling, Peter (Montabaur); Staade, Katja (Düsseldorf); Staib, Ludger (Esslingen); Staikov, Plamen (Frankfurt am Main); Stamm, Ingrid (Heppenheim); Stark, Wolfgang (Roth); Stechemesser, Bernd (Köln); Steinhilper, Uz (München); Stengl, Wolfgang (Nürnberg); Stern, Oliver (Hamburg); Stöltzing, Oliver (Meißen); Stolte, Thomas (Mannheim); Stopinski, Jürgen (Schwalmstadt); Stratmann, Gerald (Goch); Straßburger, Harald (Alfeld); Stubbe, Hendrik (Güstrow/); Stülzebach, Carsten (Friedrichroda); Tepel, Jürgen (Osnabrück); Terzić, Alexander (Wildeshausen); Teske, Ulrich (Essen); Thasler, Wolfgang (München); Tichomirow, Alexej (Brühl); Tillenburg, Wolfgang (Marktheidenfeld); Timmermann, Wolfgang (Hagen); Tomov, Tsvetomir (Koblenz; Train, Stefan H. (Gronau); Trauzettel, Uwe (Plettenberg); Triechelt, Uwe (Langenhagen); Ulbricht, Wolfgang (Breitenbrunn); Ulcar, Heimo (Schwarzach im Pongau); Ungeheuer, Andreas (München); Unger, Solveig (Chemnitz); Utech, Markus (Gelsenkirchen); Verweel, Rainer (Hürth); Vogel, Ulrike (Berlin); Voigt, Rigo (Altenburg); Voit, Gerhard (Fürth); Volkers, Hans-Uwe (Norden); Volmer, Ulla (Berlin); Vossough, Alexander (Neuss); Wallasch, Andreas (Menden); Wallner, Axel (Lüdinghausen); Warscher, Manfred (Lienz); Warwas, Markus (Bonn); Weber, Jörg (Köln); Weber, Uwe (Eggenfelden); Weihrauch, Thomas (Ilmenau); Weiß, Heiko (Aue); Weiß, Johannes (Schwetzingen); Weißenbach, Peter (Neunkirchen); Werner, Uwe (Lübbecke-Rahden); Wessel, Ina (Duisburg); Weyhe, Dirk (Oldenburg); Wicht, Sebastian (Bützow); Wieber, Isabell (Köln); Wiens, Matthias (Affoltern); Wiesmann, Aloys (Rheine); Wiesner, Ingo (Halle); Withöft, Detlef (Neutraubling); Woehe, Fritz (Sangerhausen); Wolf, Claudio (Neuwied); Wolkersdörfer, Toralf (Pößneck); Yaksan, Arif (Wermelskirchen); Yildirim, Can (Lilienthal); Yildirim, Selcuk (Berlin); Zarras, Konstantinos (Düsseldorf); Zeller, Johannes (Waldshut-Tiengen); Zhorzel, Sven (Agatharied); Zuz, Gerhard (Leipzig);
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Metadaten
Titel
Seroma following transabdominal preperitoneal patch plasty (TAPP): incidence, risk factors, and preventive measures
verfasst von
F. Köckerling
R. Bittner
D. Adolf
R. Fortelny
H. Niebuhr
F. Mayer
C. Schug-Pass
Publikationsdatum
26.10.2017
Verlag
Springer US
Erschienen in
Surgical Endoscopy / Ausgabe 5/2018
Print ISSN: 0930-2794
Elektronische ISSN: 1432-2218
DOI
https://doi.org/10.1007/s00464-017-5912-3

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