Skip to main content
Erschienen in:

Open Access 14.10.2022 | Original Article

A computed tomography study investigating the effects of botulinum toxin injections prior to complex abdominal wall reconstruction

verfasst von: J. J. M. Claessen, A. S. Timmer, R. Hemke, J. J. Atema, R. Hompes, M. A. Boermeester, M. V. H. Rutten

Erschienen in: Hernia | Ausgabe 2/2023

Abstract

Objective

To explore how intramuscular injection of botulinum toxin A (BTA) affects the lateral abdominal wall (LAW) musculature, abdominal- and hernia dimensions, and muscle structure on computed tomography (CT) in patients scheduled for complex abdominal wall reconstruction (CAWR).

Methods

Retrospective analysis of prospectively registered patients who received bilateral intramuscular BTA injections into all three muscles of the LAW. Only patients for which a CT was available before and 3–6 weeks after BTA treatment prior to surgery were analyzed.

Results

Fifty-two patients were analyzed. Median hernia width in all patients decreased with 0.4 cm (IQR − 2.1;0.6) (p = 0.023). Median intra-abdominal transverse diameter increased with 0.9 cm (IQR − 0.2;3.3) (p = 0.001) and the intra-abdominal anterior–posterior diameter decreased with 0.5 cm (IQR − 1.3;0.5) (p = 0.017), making the abdomen more oval. Median LAW muscle length increased with 0.9 cm (IQR 0.0;2.4) per side (p < 0.001), muscle thickness decreased with 0.5 cm (IQR − 0.8;− 0.2) (− 25.0%) per side (p < 0.001), and muscle mass decreased with 3.9 cm2 (IQR − 6.4;-1.5) (− 15.8%) per side (p < 0.001). Median HU of the psoas muscles (density) increased with 4.8 HU (IQR 0.4;9.7) (10.3%) per side (p < 0.001). Effects of BTA were more pronounced in patients with a loss of domain (LoD) ≥ 20%.

Conclusions

The main effect of BTA injections is elongation and thinning of the LAW muscles, more than a decrease in hernia width. Concomitantly, the abdomen becomes more oval. An increase of psoas muscles density is seen, associated with offloading of the LAW muscles. Patients with large LoD have a proportionally higher effect of BTA.
Hinweise

Supplementary Information

The online version contains supplementary material available at https://​doi.​org/​10.​1007/​s10029-022-02692-w.
Marja A. Boermeester and Martin V. H. Rutten share senior authorship.

Publisher's Note

Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.

Introduction

Repair of complex incisional hernia poses a great challenge. The goal of such repair is to restore the original anatomy by a tension-free (mesh-reinforced) fascial closure. This is often not possible in complex cases, such as massive hernias, chronically retracted lateral abdominal wall (LAW) muscles, and/or large loss of domain (LoD) [1]. Chronic muscle retraction usually reduces the volume of the abdominal cavity and enlarges the size and volume of the hernia. This hampers reduction of hernia sac content into the abdominal cavity and fascial closure during abdominal wall reconstruction (AWR). As such, patients whose formal fascial layers are not closed during the repair and undergo the so-called bridging mesh repair are at higher risk to develop a hernia recurrence [2, 3]. Reduction of a large hernia sac content in the abdominal cavity in cases of LoD increases the risk of abdominal compartment syndrome or ventilatory problems postoperatively [4, 5].
Surgical myofascial reconstruction techniques, also known as component separation techniques (CST), can facilitate fascial closure during complex AWR (CAWR), but are associated with an increased risk of surgical site infection, hematoma, and seroma formation [3, 7]. Other techniques, such as progressive pneumoperitoneum (PPP) and soft-tissue expanders, are associated with other types of risks [7, 8].
Botulinum toxin type A (BTA) is a neurotoxin derived from the bacteria Clostridium botulinum. When injected into muscle tissue, it causes a temporary muscle paralysis [9]. Its paralyzing effect maximizes around two to four weeks after injection and decreases in the 2–4 months after [10]. The injection of BTA in the LAW muscles prior to AWR was first described in 2009 [11]. Since then, neoadjuvant use of BTA has acquired general acceptance in AWR. Recent studies propose that abdominal wall compliance is increased which facilitates fascial medialization, and possibly even precludes the need to perform surgical CST [1214]. Further advantages of BTA are lack of adverse effects and the temporary, instead of permanent, working mechanism. Moreover, the muscle relaxation continues in the first few months after surgery giving the abdominal cavity and its contents time to adapt to the reconstructed situation and to protect fascial healing [15, 16]. Despite positive preliminary results, much is still unknown about the true effects of BTA as well as the extent thereof in high-risk patients with complex abdominal wall defects after multiple abdominal operations and reconstructions. Only a few studies have reported pre- and post injection measurements of the LAW musculature and transverse hernia width [1621]. Furthermore, the effects of BTA on LoD and body composition measures have not yet been investigated.
The value of computed tomography (CT) derived body composition measures for predicting postoperative outcomes has evolved the last couple of years in numerous surgical specialties [2225]. It has been suggested that measurements on CT may provide objective and independent measures of muscle structure [26]. Lower muscle mass is an indication of muscle atrophy. Lower muscle density, also known as lower muscle attenuation, results from an accumulation of intramuscular lipid depositions (myosteatosis), and the presence thereof on CT can be shown through a decrease in muscle density [2729]. Low muscle mass and low muscle density both lead to a decrease in muscle structure and therefore in muscle strength [30].
The aim of this explorative study is to assess how intramuscular injection of BTA affects the LAW musculature, abdominal- and hernia dimensions, and muscle structure on CT in patients scheduled for CAWR.

Methods

Study design and patient selection

In this observational study, a retrospective analysis was performed of consecutive prospectively registered patients scheduled for CAWR and pretreated with BTA in the Amsterdam UMC, location AMC, The Netherlands. Patients were selected for BTA injections if they had large defects (> 10 cm), and/or large LoD (≥ 20%). Patients with abdominal wall defects < 10 cm with or without complicating factors such as intestinal fistula and infected mesh received BTA to achieve fascial closure without the need for a component separation technique. For this study, we selected patients that received bilateral BTA injections into all three muscles of the LAW. Only patients in whom a CT was performed before and 3 to 6 weeks after BTA treatment were included. Patients that received unilateral treatment, or selective injection in only one or two muscle layers were excluded. All patients gave consent for use of their data. The study is reported following the Strengthening the Reporting of Observational Studies in Epidemiology (STROBE) statement [31].

Injection technique

Our standard protocol consisted of six BTA injections - three at both sides - located between the lower costal border and the anterior superior iliac spine, on the anterior axillary line. Deviations occurred due to patient history, comorbidities such as skin defects and wounds, or distorted anatomy. Using ultrasound guidance, BTA was deposited in the transversus abdominis muscle after which the needle was retracted into the internal oblique muscle in which a similar amount of BTA was deposited followed by retracting the needle once more into the external oblique muscle for the last BTA deposit. Six hundred units of abobotulinumtoxin A (Dysport®) were diluted in 120 ml of 0.9% saline. This was distributed into six separate 20 ml syringes (5 units BTA per ml). For every injection, a single syringe was used. At each of the six locations, 6–8 ml of Dysport 5 units/ml was injected into each separate muscle of the LAW. All BTA injections were performed by 1 of 2 dedicated BTA anesthesiologists.

Data items

Baseline demographic data include age, sex, body mass index (BMI), location of the hernia (midline or lateral), and number of previous abdominal surgeries. Abdominal wall defects were classified according to the modified Ventral Hernia Working Group grading system (mVHWG) [32]. We further assigned them to one of three severity classes (minor, moderate, and major complex) as described in the Slater complexity classification by an expert consensus group in 2014 [33]. To encompass all hernia characteristics, we registered several important hernia- and wound-specific risk factors present, including presence of stomata, presence of intestinal fistula(s), presence of infected mesh, transverse defect width ≥ 10 cm, LoD ≥ 20%, and previous hernia repair [34].
CT measurements were performed using a DICOM (digital imaging and communications in medicine) viewer, open-source software (HOROS, www.​horosproject.​org). Figure 1 illustrates how all measurements were performed. Lateral abdominal wall muscle length measurements were taken along the inner surface of the transversus abdominis muscle, from the dorsolateral edge of quadratus lumborum muscle to the lateral edge of rectus abdominis muscle. Muscle thickness of the LAW was measured from the lateral edge of the external oblique muscle to the medial edge of transversus abdominis, halfway of the LAW muscles and perpendicular to the direction of the muscle fibers (Fig. 1a). Measurements of the LAW muscle length, LAW muscle thickness, LAW muscle mass, and muscle attenuation (density) were obtained on a single axial CT-slide at the third vertebral level (L3) on both the pre- and post BTA scan. All measurements of the LAW were taken on both the right and left side separately. Measurements of the transverse hernia diameter (hernia width), intra-abdominal transverse diameter (abdominal width), and intra-abdominal anterior–posterior diameter (abdominal depth) were obtained on the pre-BTA scan on a single axial CT-slide at the axial level at which these measurements were the largest (Fig. 1b). For each patient individually, the post BTA measurements were obtained at the exact same level. The level at which the abdominal width and -depth was measured was always located between the lower costal border and the upper limit of the iliac crest. For muscle mass, the muscle cross-sectional surface (cm2) of the LAW muscles was identified and quantified by HU thresholds of − 30 to + 150, for each side separately (Fig. 1c) [25, 35]. The muscle density of the LAW and psoas muscles was determined by calculating the average HU of the muscles surface [29, 36]. Since contrast administration has an effect on muscle density, these measurements were exclusively performed on CT scans that were performed using intravenous contrast administration. Hernia width, abdominal width, and abdominal depth were only measured in patients with a midline defect. When it was not possible to obtain measurements form both sides, e.g., due to a lateral defect, destroyed muscle fibers, or incomplete visualization of the muscle, only the intact side was measured.
Measurements of the intra-abdominal- and hernia volume were obtained using a segmentation tool. The boundaries of the specified volumes were manually encircled - on all axial CT slides from the diaphragm to the pelvis - after which the segmentation tool calculated the volume (Fig. 1d). The abdominal volume consisted of the true intra-abdominal content, excluding the retroperitoneal space. A line between the medial edges of the recti muscles was drawn to separate the abdominal volume from the hernia volume. LoD was expressed as the hernia volume/total peritoneal volume (hernia + abdominal volume) according to the method of Sabbagh et al [37].
Surgical data encompassed use of a component separation technique [CST; anterior CST, transverse abdominis release (TAR)], type of mesh repair, mesh location, and posterior and/or anterior fascial closure or bridged repair. Preparation over the posterior rectus sheath with mesh placement in Rives-Stoppa was not noted as a CST. For mesh strategy and surgical techniques, see Supplement S1.

Analysis

Numerical data are expressed as medians and interquartile ranges (IQR). Pre- and post BTA data were compared using the Wilcoxon signed-rank test, with a significant level p < 0.05. Stratification was performed according to LoD ≥ 20%, number of abdominal surgeries ≥ 3, and number of previous repairs ≥ 1. In addition, results of patients with a defect of < 10 cm were compared to the results of patients with a defect of ≥ 10 cm. Furthermore, a comparison was made between patients with- and without persistent inflammation or contamination at the time of BTA treatment [i.e., patients with enterocutaneous or -atmospheric fistula (ECF/EAF), infected mesh, or intra-abdominal abscess].

Results

Participant selection

Between October 2018 and July 2021, 62 patients received BTA injections prior to CAWR. Of these, 9 patients did not have a pre- or post BTA CT, and 1 patient did not receive BTA in all three muscle layers. Therefore, a total of 52 patients were included in this study.

Baseline characteristics

Baseline patient- and hernia characteristics of all included patients are summarized in Table 1. Median BMI was 29.2 kg/m2 (IQR 25.7;32.3) and over 40% of patients was obese (BMI > 30 kg/m2). Forty-five patients presented with a midline defect and seven with a lateral defect. Forty-five patients (86.5%) had one or more complicating hernia characteristics. Forty-one patients (78.9%) had at least 3 previous abdominal surgeries with over half of all patients (51.9%) had undergone one or more previous hernia repairs. Pre-BTA median hernia width was 14.0 cm (IQR 8.9;18.6) and pre-BTA median LoD was 10% (IQR 3.0;19.2). Time between BTA treatment and surgery was 39 days (IQR 30;44) and between the pre- and post BTA CT was 259 days (IQR 125;367).
Table 1
Patient- and hernia characteristics
 
Total group (n = 52)
Age (years), median (IQR)
56 (46.3;65.8)
Male sex, no (%)
28 (53.8%)
BMI (kg/m2), median (IQR)
29.2 (25.7;32.3)
BMI > 30 (kg/m2), no (%)
21 (40.3%)
Location of hernia, no (%)
 
 Midline
 Lateral
45 (86.5%
7 (13.5%)
Complicating hernia characteristics (ǂ), no (%)
 
 0
 1–2
  ≥ 3
7 (13.5%)
30 (57.7%)
15 (28.8%)
Modified VHWG classification, grade, no (%)
 
 1
 2
 3
5 (9.6%)
23 (44.2%)
24 (46.2%)
Hernia complexity according to Slater classification, no (%)
 
 Minor complex
 Moderate complex
 Major complex
2 (3.8%)
23 (44.2%)
27 (52%)
Hernia width (cm), median (IQR)
14 (8.9;18.6)
Loss of domain (%), median (IQR)
10 (3.0;19.2)
Stoma present, any kind, no (%)
10 (19.2%)
Intestinal fistula(s) present, no (%)
12 (23.1%)
Infected mesh present, no (%)
9 (17.3%)
Previous abdominal surgery, no (%)
 
 1–2
 3–4
  ≥ 5
11 (21.1%)
21 (40.4%)
20 (38.5%)
Previous hernia repair, no (%)
 
 0
 1
  ≥ 2
25 (48.1%)
13 (25%)
14 (26.9%)
(ǂ) Including: presence of a stoma, intestinal fistula, infected mesh, transverse defect width ≥ 10 cm, loss of domain > 20%, and previous hernia repair)
BMI body mass index, VHWG ventral hernia working grade

Muscle-, abdominal-, and hernia dimensions

The differences between the pre- and post BTA measurements and relative changes for individual patients are shown in boxplots in Fig. 2. An example of optimal BTA effects on muscle measurements and hernia- and abdominal dimensions is shown in Fig. 3.
Results for the overall group, and by stratification on LoD, number of abdominal surgeries, and number of previous repairs are depicted in Supplement S2. Results of a direct comparison between patients with a defect of < 10 cm and patients with a defect of ≥ 10 cm are shown in Supplement S3. A comparison between patients with and without persistent inflammation or contamination is shown in Supplement S5.

Hernia width

Median hernia width decreased with 0.4 cm (IQR − 2.1;0.6) (p = 0.023), resulting in a 2.9% reduction. As shown by the boxplot, BTA has a heterogeneous effect on hernia width, as nearly half of all patients demonstrated an increase.
In patients with pre-BTA LoD ≥ 20%, median decrease in hernia width after BTA was 2.7 cm (IQR − 5.5;0.7) (p = 0.051), 14.0% decrease (Supplement S2). In patients with a pre-BTA hernia width of ≥ 10 cm, a median decrease of 1.0 cm (IQR − 2.4;0.6; p = 0.014) was observed after BTA, whereas a significant decrease was not seen for those with a pre-BTA hernia width of less than 10 cm (0.1 cm (IQR − 0.4;0.5) (Supplement S3).
In Supplement S4, we compared patient-, hernia-, and surgical characteristics between patients with decreased hernia width and patients with an increased hernia width after BTA for possible differences. All these variables were comparable among BTA hernia width responding and non-responding groups.

Abdominal width and -depth

Abdominal width increased with 0.9 cm (IQR − 0.2;3.3) (p = 0.001) (3.3% increase), whereas abdominal depth decreased with 0.5 cm (IQR − 1.3;0.5) (p = 0.045) (3.5% reduction). The abdomen adopted a more oval shape. In approximately 30% of all patients, the opposite occurred as shown by the boxplots, being a decrease in abdominal width and an increase in abdominal depth. This explains why the overall median change in abdominal width and -depth is relatively small, whereas individual changes may be larger. In patients with a pre-BTA LoD of at least 20%, abdominal width increased with 2.9 cm (IQR 0.4;3.8) (p = 0.022), being an 11.1% increase (Supplement S2).

LAW muscle length

Median length of the LAW increased 0.9 cm per side (IQR 0.0;2.4) (p < 0.001) (5.4% increase per side). About 20% of all patients had a decrease in length instead of an increase. In patients with pre-BTA LoD ≥ 20%, median increase per side was 1.7 cm (IQR 0.6;2.6) (p < 0.001), 10.4% increase per side (Supplement S2). Patients with a pre-BTA hernia width of ≥ 10 cm showed a median increase of LAW muscle length of 1.0 cm per side (IQR 0.0;2.3) (p < 0.001) after BTA, comparable to those with a pre-BTA width of less than 10 cm (0.9 (IQR 0.0;3.3), p < 0.007; p = 0.922) (Supplement S3).

LAW muscle thickness

Median thickness of the LAW muscles decreased with 0.5 cm per side (IQR − 0.8;− 0.2) (p < 0.001); a reduction of 25% per side. Consistently in nearly all patients, a decrease in thickness of the LAW muscles was found. In patients with a LoD ≥ 20%, a decrease of 0.8 cm (IQR − 1.7;− 0.5) in LAW muscle thickness per side was observed (p < 0.001), being a reduction of 34.8% per side (Supplement 2). For patients having a pre-BTA hernia width of more than 10 cm, a decrease in LAW muscle thickness of 0.6 cm per side was found after BTA (IQR − 0.8;− 0.2) (p < 0.001), comparable to those with a hernia < 10 cm (− 0.5 (IQR − 0.9;0.2; p < 0.001) (Supplement 3).

LAW muscle mass and -density

Median LAW muscle mass decreased with 3.9 cm2 (IQR − 6.4;− 1.5) per side (p < 0.001); a 15.8% reduction. However, about 20% of all patients experienced an increase in muscle mass of the LAW. A decrease of 6.8 cm2 (IQR − 10.9;− 3.5), (p = 0.001) per side was found in patients with LoD ≥ 20%; a reduction of 30.3% per side. No significant effect on LAW muscle density was seen, both for the study population and for stratified subgroups.

Loss of domain

Overall, no significant effect on LoD was observed. However, in patients with a pre-BTA LoD ≥ 20%, a significant decrease in LoD was observed with an absolute reduction of 3.7% (IQR − 12.0;− 2.1) (p = 0.012) and a relative decrease of 13.8% (Supplement S2). For patients with a pre-BTA hernia width of ≥ 10 cm, a small median absolute reduction of 0.9% (IQR − 2.7;1.2; p = 0.140) was observed after BTA, whereas this decrease was median 0.0% (IQR − 1.2;0.2; p = 0.388) for those with a pre-BTA hernia width < 10 cm (Supplement S3).

Psoas muscle density

Median HU of the psoas muscles increased with 4.8 HU (IQR 0.4;9.7) per side (p < 0.001), an increase of 10.3%. However, in about 25% of patients, a decrease in muscle density of the psoas muscles was seen.

Subgroups according to loss of domain, previous abdominal surgery, previous hernia repair, or hernia width

Overall, BTA in patients with three or more previous abdominal operations or at least one previous hernia repair was comparably effective as shown for the entire study population. BTA effects in patients with LoD of at least 20% were more pronounced compared to the data of entire cohort (Supplement S2). Furthermore, BTA seems to be more effective by and large in patients with a defect of  ≥ 10 cm, although statistically no significant differences were found among measured variables when compared to patients with a defect of < 10 cm (Supplement S3).

Subgroup according to persistent inflammation or contamination

In the group of patients without persistent inflammation or contamination at the time of BTA, median increase of abdominal width [1.5 cm (IQR − 0.2;3.4), p = 0.001 vs pre-BTA] was significantly higher than in the group with persistent inflammation or contamination (p = 0.035 among groups). All other measured dimensions were comparable among the two groups, but BTA effects were, in general, non-significantly smaller in patients with persistent inflammation or contamination (Supplement S5).

Surgical data

Surgical data are depicted in Table 2. Overall, a CST was performed in 28 of 52 patients (58.8%) with anterior lateral release or (less often) open ACS in 16 (30.7%) and TAR in 11 (21.2%) patients. A single mesh was used in 75% (39 of 52 patients) and a double-layer technique in 25% (13 of 52 patients). Complete fascial closure was achieved in 38 of 52 patients (73.1%), whereas a bridged repair was performed in 8 patients (15.4%). Closure of only the anterior fascia occurred in 2 of 52 patients (3.8%) and closure of just posterior fascia in 4 patients (7.7%). In patients with a defect size < 10 cm, a CST was performed in 31.3% (5 of 16 patients). In patients with a defect size ≥ 10 cm, a CST was performed in 63.9% (23 of 36 patients). Complete fascial closure was obtained in 13 of 16 (81.1%) patients with a defect size < 10 cm. When patients had a defect size of ≥ 10 cm, complete fascial closure was achieved in 25 of 36 (69.4%) patients.
Table 2
Surgical data
 
Total group (n = 52)
Hernia width < 10 cm (n = 16)
Hernia width ≥ 10 cm (n = 36)
Component separation (CS), no (%)
 No CST
 Open ACS/lateral release
  Bilateral
  Unilateral
 Endo ACS
 Open TAR
  Bilateral
  Unilateral
24 (46.2%)
16 (30.7%)
11 (68.8%)
5 (31.2%)
1 (1.9%)
11 (21.2%)
7 (63.6%)
4 (36.4%)
11 (68.8%)
3 (18.7%)
3 (100%)
2 (12.5%)
2 (100%)
13 (36.1%)
13 (36.1%)
11 (84.6%)
2 (15.4%)
1 (2.8%)
9 (25%)
5 (55.5%)
4 (44.5%)
Mesh repair used, no (%)
 Single mesh
 Double layer
39 (75%)
13 (25%)
14 (87.5%)
2 (12.5%)
25 (69.4%)
11 (30.6%)
Mesh location, no (%)
 Retro-rectus (sublay)
 Intra-abdominal (underlay)
 Inlay
 Onlay
 Additional mesh, no (%)
 Retro-rectus reinforcement
 Onlay addition
 Inlay addition
31 (59.6%)
19 (36.5%)
1 (1.9%)
1 (1.9%)
n = 13
11 (84.6%)
1 (7.7%)
1 (7.7%)
11 (68.8%)
5 (31.2%)
n = 2
2 (100%)
20 (55.6%)
14 (38.8%)
1 (2.8%)
1 (2.8%)
n = 11
9 (81.8%)
1 (9.1%)
1 (9.1%)
Fascial closure, no (%)
 Anterior + posterior fascia closed
 Anterior fascia closed only
 Posterior fascia closed only
 Bridged repair (anterior nor posterior fascia closed)
38 (73.1%)
2 (3.8%)
4 (7.7%)
8 (15.4%)
13 (81.1%)
1 (6.3%)
1 (6.3%)
1 (6.3%)
25 (69.4%)
1 (2.8%)
3 (8.3%)
7 (19.5%)
CST component separation technique, open ACS anterior component separation (Ramirez), endo ACS endoscopic anterior component separation technique, open TAR transversus abdominis release

Discussion

In the present study, we show how intramuscular BTA injections, prior to CAWR, affect the LAW musculature, hernia-, and abdominal dimensions as well as muscle structure. Overall findings show a small but significant decrease of transverse hernia width and LAW muscle thickness, and -muscle mass as well as a significant increase in LAW muscle length. Abdominal width increased, while abdominal depth decreased. Overall, BTA effects are more pronounced in patients with an LoD of at least 20%. In patients with a hernia width of at least 10 cm, BTA decreases hernia width on average, which is not seen in patients with smaller hernia defects. Other dimensions change comparably for larger and smaller hernia defects after BTA. Previous abdominal surgery or hernia repair does not affect the observed BTA effectiveness. BTA, in general, seems less effective in patients with persistent inflammation or contamination.
For most variables individually, we also observed contrasting effects among patients. Consequently, it is best to observe changes in hernia- and abdominal dimensions as a single unit for each individual patient. For example, in a particular patient, an increase instead of a decrease in hernia width may be seen, while LAW muscle length increases significantly or vice versa, resulting in a differential effect on the shape of the abdominal cavity.
Several studies have been published on BTA, but only few have measured effects on LAW muscle length and -thickness and hernia width on CT. Our group have pooled these results in a recent published meta-analysis [14]. In present study, we used the latest computer techniques for assessment of all CT measures. Moreover, we used the correct definitions for these measurements in contrast to definitions used in some of the studies in our meta-analysis. When comparing our present results with previously published data, we observed a smaller effect of BTA for most outcomes. We found a 0.9 cm elongation in LAW muscle length per side in the present study versus as much as 3.2 cm per side in the meta-analysis. LAW muscle thickness has been reported in only one previous study [20] that finds a 1.0 cm decrease on each side versus 0.5 cm per side in the present study. Likewise, we found a 0.4 cm decrease in hernia width versus 3.5 cm in the meta-analysis. No previous studies have reported abdominal cavity width and -depth, making no comparison possible. Furthermore, no previous studies have assessed the mere effect of BTA on LoD without additional use of PPP.
There are several explanations for the differences between our findings and published literature. First, previous studies have included overall larger defects with larger LoD. We did not use a minimum hernia defect size as many of our patients for example had an intestinal fistula or an infected mesh, for which we needed BTA to aid in the complexity of the reconstruction. If we focus in the present series on patients with LoD ≥ 20%, the effects of BTA are more pronounced and more comparable to the findings of the recent meta-analysis; total LAW muscle elongation is 1.7 cm per side with a decrease in LAW muscle thickness of 0.8 cm per side and a decrease of 2.7 cm in hernia width. A second explanation is that we reported medians for our outcome parameters instead of - what has been used frequently - means in aforementioned studies. Medians plus IQRs are less affected by (extreme) outliers. Third, differences in BTA effects across studies can theoretically be caused by differences in BTA techniques applied. We have applied a BTA technique that is commonly used and derived from our meta-analysis of various BTA technical details [14]. Fourth, decrease in hernia width is frequently the focus of BTA effects. Indicated by use of boxplots, however, we showed that there is a considerable proportion of patients with an increase in hernia width instead of a decrease. Patient- and hernia characteristics as well as surgical characteristics were comparable between responding and non-responding patients. Also, for the other abdominal dimensions (abdominal width and -depth and LoD), contrasting results among patients were found, resulting in variable effects on individual abdominal shapes. Since patient-, hernia-, and surgical characteristics could not provide an explanation, possibly, this could be found in the fact that a CT scan does not fully capture the dynamic interplay between hernia-, abdominal cavity-, and abdominal wall dimensions as a unit in each individual patient. Importantly, LAW muscle length and -thickness were the only CT variables that showed a more uniform BTA effect. The heterogeneous results for most CT measures explain why our median observed changes were smaller than expected when looking at effects in an individual patient. Fifth, in the relatively long time between pre-BTA CT and the BTA procedure itself, effects of prehabilitation, mandatory in almost all our patients, play a role.
BTA seems to be less effective in patients with persistent inflammation or contamination due to enterocutaneous or enteroatmospheric fistula, infected mesh, or with persistent intra-abdominal abscess. It is likely that due to the persistent inflammatory or infectious local state, increasing fibrosis formation, the working mechanism of BTA is (partly) diminished in these patients.
No other studies assessing the effect of only BTA have examined its effect on LoD, muscle mass, and -density. Interestingly, no significant overall effect on LoD was observed, but when looking at patients with LoD ≥ 20%, the decrease of LoD becomes larger and significant. This implies that in particular for larger LoD, this is a relevant variable for assessment of BTA effects, in line with the proposal of Sabbagh et al. to use a cut-off value of 20% for LoD as clinically relevant for tension-free fascial closure [37]. In addition, for patients with LoD ≥ 20%, use of BTA may be a prerequisite before hernia repair is planned.
Muscle mass together with muscle density expresses muscle quality. In a rat model, incisional herniation induces LAW muscle shortening and atrophy in which these muscles exhibited significant decreased extensibility and increased stiffness [38]. That incisional hernia induces shortening of the LAW muscles is often visible on CT. When the LAW muscle contraction is (partly) eliminated after BTA, we observed additional atrophy in the LAW muscles expressed by a decreased muscle mass. It is unclear why no significant changes were observed in muscle density. Perhaps, the level of myosteatosis was already reached its maximum because of existing disuse of the muscles due to herniation. The increase in muscle density of the psoas muscles is well explained by offloading of the LAW muscles; all weight bearing of the abdomen is transferred to the (lower) vertebral muscles. Basically, these muscles perform increased exercise which is known to decrease myosteatosis [39].

Strengths and limitations

The strength of this study lies in its explorative nature. This is the first study that looks at the effects of pretreatment with BTA - without PPP - on different CT measures to quantify the true merits of BTA injections. More knowledge is needed on how these various dimensional results on CT relate to clinical outcomes after hernia repair. Strength is also that all post-BTA CTs were done contrast-enhanced, in a standardized way, at a standardized time interval of 3–6 weeks after BTA and always on the day before surgery.
The limitation of the present study is the variable time interval between initial and post-BTA CT scans. Since the Amsterdam UMC, location AMC is a tertiary referral center for complex abdominal wall reconstructions, initial CTs (pre-BTA CT) had been made at the referring center, and for obvious reasons of patient burden and minimizing radiation burden, no additional CT was done immediately before BTA, which would have been the perfect comparison to the CT 3–6 weeks post-BTA.

Conclusions

Injection of botulinum toxin induces foremost and most consistently elongation and thinning of the lateral abdominal wall muscles, more than a decrease in hernia width. Concomitantly, the abdomen becomes more oval shaped. An increase in muscle density of the psoas muscles is seen associated with offloading of the LAW muscles. Patients with large LoD have a proportionally larger effect of BTA.

Declarations

Conflict of interest

Jeroen J. M. Claessen, Allard S. Timmer, Robert Hemke, Jasper J. Atema, R. Hompes, and Martin V. H. Rutten declare that there is no conflict of interest. Marja A. Boermeester reported receiving institutional grants from J and J/Ethicon, KCI/3 M, and New Compliance; and being a speaker, advisor, and/or instructor for KCI/3 M, J and J/Ethicon, BD Bard, Gore, GD Medical, Medtronic, TELABio, Molnlycke, and Smith and Nephew. No other disclosures were reported.

Ethical approval

The study was approved by the Institutional Review Board.

Human and animal rights

No rights were violated.
All patients gave consent for the use of their data.
Open AccessThis article is licensed under a Creative Commons Attribution 4.0 International License, which permits use, sharing, adaptation, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons licence, and indicate if changes were made. The images or other third party material in this article are included in the article's Creative Commons licence, unless indicated otherwise in a credit line to the material. If material is not included in the article's Creative Commons licence and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder. To view a copy of this licence, visit http://​creativecommons.​org/​licenses/​by/​4.​0/​.

Publisher's Note

Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.

Unsere Produktempfehlungen

Die Chirurgie

Print-Titel

Das Abo mit mehr Tiefe

Mit der Zeitschrift Die Chirurgie erhalten Sie zusätzlich Online-Zugriff auf weitere 43 chirurgische Fachzeitschriften, CME-Fortbildungen, Webinare, Vorbereitungskursen zur Facharztprüfung und die digitale Enzyklopädie e.Medpedia.

e.Med Interdisziplinär

Kombi-Abonnement

© Springer Medizin

Für Ihren Erfolg in Klinik und Praxis - Die beste Hilfe in Ihrem Arbeitsalltag

Mit e.Med Interdisziplinär erhalten Sie Zugang zu allen CME-Fortbildungen und Fachzeitschriften auf SpringerMedizin.de.

Anhänge

Supplementary Information

Below is the link to the electronic supplementary material.
Literatur
1.
Zurück zum Zitat Soltanizadeh S, Helgstrand F, Jorgensen LN (2017) Botulinum toxin a as an adjunct to abdominal wall reconstruction for incisional hernia. Plast Reconstr Surg Glob Open 5(6):e1358CrossRefPubMedPubMedCentral Soltanizadeh S, Helgstrand F, Jorgensen LN (2017) Botulinum toxin a as an adjunct to abdominal wall reconstruction for incisional hernia. Plast Reconstr Surg Glob Open 5(6):e1358CrossRefPubMedPubMedCentral
2.
Zurück zum Zitat Booth JH, Garvey PB, Baumann DP, Selber JC, Nguyen AT, Clemens MW et al (2013) Primary fascial closure with mesh reinforcement is superior to bridged mesh repair for abdominal wall reconstruction. J Am Coll Surg 217(6):999–1009CrossRefPubMed Booth JH, Garvey PB, Baumann DP, Selber JC, Nguyen AT, Clemens MW et al (2013) Primary fascial closure with mesh reinforcement is superior to bridged mesh repair for abdominal wall reconstruction. J Am Coll Surg 217(6):999–1009CrossRefPubMed
3.
Zurück zum Zitat Holihan JL, Askenasy EP, Greenberg JA, Keith JN, Martindale RG, Roth JS et al (2016) Component separation vs. bridged repair for large ventral hernias: a multi-institutional risk-adjusted comparison, systematic review, and meta-analysis. Surg Infect (Larchmt) 17(1):17–26CrossRefPubMed Holihan JL, Askenasy EP, Greenberg JA, Keith JN, Martindale RG, Roth JS et al (2016) Component separation vs. bridged repair for large ventral hernias: a multi-institutional risk-adjusted comparison, systematic review, and meta-analysis. Surg Infect (Larchmt) 17(1):17–26CrossRefPubMed
4.
Zurück zum Zitat Agnew SP, Small W Jr, Wang E, Smith LJ, Hadad I, Dumanian GA (2010) Prospective measurements of intra-abdominal volume and pulmonary function after repair of massive ventral hernias with the components separation technique. Ann Surg 251(5):981–988CrossRefPubMed Agnew SP, Small W Jr, Wang E, Smith LJ, Hadad I, Dumanian GA (2010) Prospective measurements of intra-abdominal volume and pulmonary function after repair of massive ventral hernias with the components separation technique. Ann Surg 251(5):981–988CrossRefPubMed
5.
Zurück zum Zitat Mommers EHH, Wegdam JA, van der Wolk S, Nienhuijs SW, de Vries Reilingh TS (2017) Impact of hernia volume on pulmonary complications following complex hernia repair. J Surg Res 211:8–13CrossRefPubMed Mommers EHH, Wegdam JA, van der Wolk S, Nienhuijs SW, de Vries Reilingh TS (2017) Impact of hernia volume on pulmonary complications following complex hernia repair. J Surg Res 211:8–13CrossRefPubMed
6.
Zurück zum Zitat Scheuerlein H, Thiessen A, Schug-Pass C, Kockerling F (2018) What do we know about component separation techniques for abdominal wall hernia repair? Front Surg 5:24CrossRefPubMedPubMedCentral Scheuerlein H, Thiessen A, Schug-Pass C, Kockerling F (2018) What do we know about component separation techniques for abdominal wall hernia repair? Front Surg 5:24CrossRefPubMedPubMedCentral
7.
Zurück zum Zitat Martinez-Hoed J, Bonafe-Diana S, Bueno-Lledo J (2021) A systematic review of the use of progressive preoperative pneumoperitoneum since its inception. Hernia 25(6):144358CrossRef Martinez-Hoed J, Bonafe-Diana S, Bueno-Lledo J (2021) A systematic review of the use of progressive preoperative pneumoperitoneum since its inception. Hernia 25(6):144358CrossRef
8.
Zurück zum Zitat Wooten KE, Ozturk CN, Ozturk C, Laub P, Aronoff N, Gurunluoglu R (2017) Role of tissue expansion in abdominal wall reconstruction: A systematic evidence-based review. J Plast Reconstr Aesthet Surg 70(6):741–751CrossRefPubMed Wooten KE, Ozturk CN, Ozturk C, Laub P, Aronoff N, Gurunluoglu R (2017) Role of tissue expansion in abdominal wall reconstruction: A systematic evidence-based review. J Plast Reconstr Aesthet Surg 70(6):741–751CrossRefPubMed
9.
Zurück zum Zitat Jankovic J, Brin MF (1991) Therapeutic uses of botulinum toxin. N Engl J Med 324(17):1186–1194CrossRefPubMed Jankovic J, Brin MF (1991) Therapeutic uses of botulinum toxin. N Engl J Med 324(17):1186–1194CrossRefPubMed
10.
Zurück zum Zitat Dressler D, Saberi FA, Barbosa ER (2005) Botulinum toxin: mechanisms of action. Arq Neuropsiquiatr 63(1):180–185CrossRefPubMed Dressler D, Saberi FA, Barbosa ER (2005) Botulinum toxin: mechanisms of action. Arq Neuropsiquiatr 63(1):180–185CrossRefPubMed
11.
Zurück zum Zitat Ibarra-Hurtado TR, Nuno-Guzman CM, Echeagaray-Herrera JE, Robles-Velez E, de Jesus G-J (2009) Use of botulinum toxin type a before abdominal wall hernia reconstruction. World J Surg 33(12):2553–2556CrossRefPubMed Ibarra-Hurtado TR, Nuno-Guzman CM, Echeagaray-Herrera JE, Robles-Velez E, de Jesus G-J (2009) Use of botulinum toxin type a before abdominal wall hernia reconstruction. World J Surg 33(12):2553–2556CrossRefPubMed
12.
Zurück zum Zitat Weissler JM, Lanni MA, Tecce MG, Carney MJ, Shubinets V, Fischer JP (2017) Chemical component separation: a systematic review and meta-analysis of botulinum toxin for management of ventral hernia. J Plast Surg Hand Surg 51(5):366–374CrossRefPubMed Weissler JM, Lanni MA, Tecce MG, Carney MJ, Shubinets V, Fischer JP (2017) Chemical component separation: a systematic review and meta-analysis of botulinum toxin for management of ventral hernia. J Plast Surg Hand Surg 51(5):366–374CrossRefPubMed
13.
Zurück zum Zitat Deerenberg EB, Elhage SA, Raible RJ, Shao JM, Augenstein VA, Heniford BT et al (2021) Image-guided botulinum toxin injection in the lateral abdominal wall prior to abdominal wall reconstruction surgery: review of techniques and results. Skeletal Radiol 50(1):1–7CrossRefPubMed Deerenberg EB, Elhage SA, Raible RJ, Shao JM, Augenstein VA, Heniford BT et al (2021) Image-guided botulinum toxin injection in the lateral abdominal wall prior to abdominal wall reconstruction surgery: review of techniques and results. Skeletal Radiol 50(1):1–7CrossRefPubMed
14.
Zurück zum Zitat Timmer AS, Claessen JJM, Atema JJ, Rutten MVH, Hompes R, Boermeester MA (2021) A systematic review and meta-analysis of technical aspects and clinical outcomes of botulinum toxin prior to abdominal wall reconstruction. Hernia 25(6):1413–1425CrossRefPubMedPubMedCentral Timmer AS, Claessen JJM, Atema JJ, Rutten MVH, Hompes R, Boermeester MA (2021) A systematic review and meta-analysis of technical aspects and clinical outcomes of botulinum toxin prior to abdominal wall reconstruction. Hernia 25(6):1413–1425CrossRefPubMedPubMedCentral
15.
Zurück zum Zitat Zielinski MD, Goussous N, Schiller HJ, Jenkins D (2013) Chemical components separation with botulinum toxin A: a novel technique to improve primary fascial closure rates of the open abdomen. Hernia 17(1):101–107CrossRefPubMed Zielinski MD, Goussous N, Schiller HJ, Jenkins D (2013) Chemical components separation with botulinum toxin A: a novel technique to improve primary fascial closure rates of the open abdomen. Hernia 17(1):101–107CrossRefPubMed
16.
Zurück zum Zitat Bueno-Lledo J, Carreno-Saenz O, Torregrosa-Gallud A, Pous-Serrano S (2020) Preoperative botulinum toxin and progressive pneumoperitoneum in loss of domain hernias-our First 100 cases. Front Surg 7:3CrossRefPubMedPubMedCentral Bueno-Lledo J, Carreno-Saenz O, Torregrosa-Gallud A, Pous-Serrano S (2020) Preoperative botulinum toxin and progressive pneumoperitoneum in loss of domain hernias-our First 100 cases. Front Surg 7:3CrossRefPubMedPubMedCentral
17.
Zurück zum Zitat Chan DL, Ravindran P, Fan HS, Elstner KE, Jacombs ASW, Ibrahim N et al (2020) Minimally invasive Venetian blinds ventral hernia repair with botulinum toxin chemical component separation. ANZ J Surg 90(1–2):67–71CrossRefPubMed Chan DL, Ravindran P, Fan HS, Elstner KE, Jacombs ASW, Ibrahim N et al (2020) Minimally invasive Venetian blinds ventral hernia repair with botulinum toxin chemical component separation. ANZ J Surg 90(1–2):67–71CrossRefPubMed
18.
Zurück zum Zitat Elstner KE, Read JW, Rodriguez-Acevedo O, Cosman PH, Dardano AN, Jacombs AS et al (2017) Preoperative chemical component relaxation using Botulinum toxin A: enabling laparoscopic repair of complex ventral hernia. Surg Endosc 31(2):761–768CrossRefPubMed Elstner KE, Read JW, Rodriguez-Acevedo O, Cosman PH, Dardano AN, Jacombs AS et al (2017) Preoperative chemical component relaxation using Botulinum toxin A: enabling laparoscopic repair of complex ventral hernia. Surg Endosc 31(2):761–768CrossRefPubMed
19.
Zurück zum Zitat Farooque F, Jacombs AS, Roussos E, Read JW, Dardano AN, Edye M et al (2016) Preoperative abdominal muscle elongation with botulinum toxin A for complex incisional ventral hernia repair. ANZ J Surg 6(1–2):79–83CrossRef Farooque F, Jacombs AS, Roussos E, Read JW, Dardano AN, Edye M et al (2016) Preoperative abdominal muscle elongation with botulinum toxin A for complex incisional ventral hernia repair. ANZ J Surg 6(1–2):79–83CrossRef
20.
Zurück zum Zitat Ibarra-Hurtado TR, Nuno-Guzman CM, Miranda-Diaz AG, Troyo-Sanroman R, Navarro-Ibarra R, Bravo-Cuellar L (2014) Effect of botulinum toxin type A in lateral abdominal wall muscles thickness and length of patients with midline incisional hernia secondary to open abdomen management. Hernia 18(5):647–652CrossRefPubMed Ibarra-Hurtado TR, Nuno-Guzman CM, Miranda-Diaz AG, Troyo-Sanroman R, Navarro-Ibarra R, Bravo-Cuellar L (2014) Effect of botulinum toxin type A in lateral abdominal wall muscles thickness and length of patients with midline incisional hernia secondary to open abdomen management. Hernia 18(5):647–652CrossRefPubMed
21.
Zurück zum Zitat Yurtkap Y, van Rooijen MMJ, Roels S, Bosmans JML, Uyttebroek O, Lange JF et al (2021) Implementing preoperative Botulinum toxin A and progressive pneumoperitoneum through the use of an algorithm in giant ventral hernia repair. Hernia 25(2):389–398CrossRefPubMed Yurtkap Y, van Rooijen MMJ, Roels S, Bosmans JML, Uyttebroek O, Lange JF et al (2021) Implementing preoperative Botulinum toxin A and progressive pneumoperitoneum through the use of an algorithm in giant ventral hernia repair. Hernia 25(2):389–398CrossRefPubMed
22.
Zurück zum Zitat Linder N, Schaudinn A, Langenhan K, Krenzien F, Hau HM, Benzing C et al (2019) Power of computed-tomography-defined sarcopenia for prediction of morbidity after pancreaticoduodenectomy. BMC Med Imaging 19(1):32CrossRefPubMedPubMedCentral Linder N, Schaudinn A, Langenhan K, Krenzien F, Hau HM, Benzing C et al (2019) Power of computed-tomography-defined sarcopenia for prediction of morbidity after pancreaticoduodenectomy. BMC Med Imaging 19(1):32CrossRefPubMedPubMedCentral
23.
Zurück zum Zitat Mayr R, Gierth M, Zeman F, Reiffen M, Seeger P, Wezel F et al (2018) Sarcopenia as a comorbidity-independent predictor of survival following radical cystectomy for bladder cancer. J Cachexia Sarcopenia Muscle 9(3):505–513CrossRefPubMedPubMedCentral Mayr R, Gierth M, Zeman F, Reiffen M, Seeger P, Wezel F et al (2018) Sarcopenia as a comorbidity-independent predictor of survival following radical cystectomy for bladder cancer. J Cachexia Sarcopenia Muscle 9(3):505–513CrossRefPubMedPubMedCentral
24.
Zurück zum Zitat Wang SL, Zhuang CL, Huang DD, Pang WY, Lou N, Chen FF et al (2016) Sarcopenia adversely impacts postoperative clinical outcomes following gastrectomy in patients with gastric cancer: a prospective study. Ann Surg Oncol 23(2):556–564CrossRefPubMed Wang SL, Zhuang CL, Huang DD, Pang WY, Lou N, Chen FF et al (2016) Sarcopenia adversely impacts postoperative clinical outcomes following gastrectomy in patients with gastric cancer: a prospective study. Ann Surg Oncol 23(2):556–564CrossRefPubMed
25.
Zurück zum Zitat Clark ST, Malietzis G, Grove TN, Jenkins JT, Windsor ACJ, Kontovounisios C et al (2020) The emerging role of sarcopenia as a prognostic indicator in patients undergoing abdominal wall hernia repairs: a systematic review of the literature. Hernia 24(6):1361–1370CrossRefPubMedPubMedCentral Clark ST, Malietzis G, Grove TN, Jenkins JT, Windsor ACJ, Kontovounisios C et al (2020) The emerging role of sarcopenia as a prognostic indicator in patients undergoing abdominal wall hernia repairs: a systematic review of the literature. Hernia 24(6):1361–1370CrossRefPubMedPubMedCentral
26.
Zurück zum Zitat Mitsiopoulos N, Baumgartner RN, Heymsfield SB, Lyons W, Gallagher D, Ross R (1985) (1998) Cadaver validation of skeletal muscle measurement by magnetic resonance imaging and computerized tomography. J Appl Physiol 85(1):115–122CrossRef Mitsiopoulos N, Baumgartner RN, Heymsfield SB, Lyons W, Gallagher D, Ross R (1985) (1998) Cadaver validation of skeletal muscle measurement by magnetic resonance imaging and computerized tomography. J Appl Physiol 85(1):115–122CrossRef
27.
Zurück zum Zitat Goodpaster BH, Park SW, Harris TB, Kritchevsky SB, Nevitt M, Schwartz AV et al (2006) The loss of skeletal muscle strength, mass, and quality in older adults: the health, aging and body composition study. J Gerontol A Biol Sci Med Sci 61(10):1059–1064CrossRefPubMed Goodpaster BH, Park SW, Harris TB, Kritchevsky SB, Nevitt M, Schwartz AV et al (2006) The loss of skeletal muscle strength, mass, and quality in older adults: the health, aging and body composition study. J Gerontol A Biol Sci Med Sci 61(10):1059–1064CrossRefPubMed
28.
Zurück zum Zitat Newman AB, Kupelian V, Visser M, Simonsick EM, Goodpaster BH, Kritchevsky SB et al (2006) Strength, but not muscle mass, is associated with mortality in the health, aging and body composition study cohort. J Gerontol A Biol Sci Med Sci 61(1):72–77CrossRefPubMed Newman AB, Kupelian V, Visser M, Simonsick EM, Goodpaster BH, Kritchevsky SB et al (2006) Strength, but not muscle mass, is associated with mortality in the health, aging and body composition study cohort. J Gerontol A Biol Sci Med Sci 61(1):72–77CrossRefPubMed
29.
Zurück zum Zitat Aubrey J, Esfandiari N, Baracos VE, Buteau FA, Frenette J, Putman CT et al (2014) Measurement of skeletal muscle radiation attenuation and basis of its biological variation. Acta Physiol (Oxf) 210(3):489–497CrossRefPubMed Aubrey J, Esfandiari N, Baracos VE, Buteau FA, Frenette J, Putman CT et al (2014) Measurement of skeletal muscle radiation attenuation and basis of its biological variation. Acta Physiol (Oxf) 210(3):489–497CrossRefPubMed
30.
Zurück zum Zitat Marcus RL, Addison O, Kidde JP, Dibble LE, Lastayo PC (2010) Skeletal muscle fat infiltration: impact of age, inactivity, and exercise. J Nutr Health Aging 14(5):362–366CrossRefPubMedPubMedCentral Marcus RL, Addison O, Kidde JP, Dibble LE, Lastayo PC (2010) Skeletal muscle fat infiltration: impact of age, inactivity, and exercise. J Nutr Health Aging 14(5):362–366CrossRefPubMedPubMedCentral
31.
Zurück zum Zitat von Elm E, Altman DG, Egger M, Pocock SJ, Gotzsche PC, Vandenbroucke JP et al (2014) The Strengthening the Reporting of Observational Studies in Epidemiology (STROBE) Statement: guidelines for reporting observational studies. Int J Surg 12(12):1495–1499CrossRef von Elm E, Altman DG, Egger M, Pocock SJ, Gotzsche PC, Vandenbroucke JP et al (2014) The Strengthening the Reporting of Observational Studies in Epidemiology (STROBE) Statement: guidelines for reporting observational studies. Int J Surg 12(12):1495–1499CrossRef
32.
Zurück zum Zitat Kanters AE, Krpata DM, Blatnik JA, Novitsky YM, Rosen MJ (2012) Modified hernia grading scale to stratify surgical site occurrence after open ventral hernia repairs. J Am Coll Surg 215(6):787–793CrossRefPubMed Kanters AE, Krpata DM, Blatnik JA, Novitsky YM, Rosen MJ (2012) Modified hernia grading scale to stratify surgical site occurrence after open ventral hernia repairs. J Am Coll Surg 215(6):787–793CrossRefPubMed
33.
Zurück zum Zitat Slater NJ, Montgomery A, Berrevoet F, Carbonell AM, Chang A, Franklin M et al (2014) Criteria for definition of a complex abdominal wall hernia. Hernia 18(1):7–17CrossRefPubMed Slater NJ, Montgomery A, Berrevoet F, Carbonell AM, Chang A, Franklin M et al (2014) Criteria for definition of a complex abdominal wall hernia. Hernia 18(1):7–17CrossRefPubMed
34.
Zurück zum Zitat Claessen JJM, Timmer AS, Atema JJ, Boermeester MA (2021) Outcomes of mid-term and long-term degradable biosynthetic meshes in single-stage open complex abdominal wall reconstruction. Hernia 25(6):1647–1657CrossRefPubMedPubMedCentral Claessen JJM, Timmer AS, Atema JJ, Boermeester MA (2021) Outcomes of mid-term and long-term degradable biosynthetic meshes in single-stage open complex abdominal wall reconstruction. Hernia 25(6):1647–1657CrossRefPubMedPubMedCentral
35.
Zurück zum Zitat Siegal SR, Guimaraes AR, Lasarev MR, Martindale RG, Orenstein SB (2018) Sarcopenia and outcomes in ventral hernia repair: a preliminary review. Hernia 22(4):645–652CrossRefPubMed Siegal SR, Guimaraes AR, Lasarev MR, Martindale RG, Orenstein SB (2018) Sarcopenia and outcomes in ventral hernia repair: a preliminary review. Hernia 22(4):645–652CrossRefPubMed
36.
Zurück zum Zitat Van Rijssen LB, van Huijgevoort NC, Coelen RJ, Tol JA, Haverkort EB, Nio CY et al (2017) Skeletal muscle quality is associated with worse survival after pancreatoduodenectomy for periampullary. Nonpancreatic Cancer Ann Surg Oncol 24(1):272–280CrossRefPubMed Van Rijssen LB, van Huijgevoort NC, Coelen RJ, Tol JA, Haverkort EB, Nio CY et al (2017) Skeletal muscle quality is associated with worse survival after pancreatoduodenectomy for periampullary. Nonpancreatic Cancer Ann Surg Oncol 24(1):272–280CrossRefPubMed
37.
Zurück zum Zitat Sabbagh C, Dumont F, Robert B, Badaoui R, Verhaeghe P, Regimbeau JM (2011) Peritoneal volume is predictive of tension-free fascia closure of large incisional hernias with loss of domain: a prospective study. Hernia 15(5):559–565CrossRefPubMed Sabbagh C, Dumont F, Robert B, Badaoui R, Verhaeghe P, Regimbeau JM (2011) Peritoneal volume is predictive of tension-free fascia closure of large incisional hernias with loss of domain: a prospective study. Hernia 15(5):559–565CrossRefPubMed
38.
Zurück zum Zitat DuBay DA, Choi W, Urbanchek MG, Wang X, Adamson B, Dennis RG et al (2007) Incisional herniation induces decreased abdominal wall compliance via oblique muscle atrophy and fibrosis. Ann Surg 245(1):140–146CrossRefPubMedPubMedCentral DuBay DA, Choi W, Urbanchek MG, Wang X, Adamson B, Dennis RG et al (2007) Incisional herniation induces decreased abdominal wall compliance via oblique muscle atrophy and fibrosis. Ann Surg 245(1):140–146CrossRefPubMedPubMedCentral
39.
Zurück zum Zitat Taaffe DR, Henwood TR, Nalls MA, Walker DG, Lang TF, Harris TB (2009) Alterations in muscle attenuation following detraining and retraining in resistance-trained older adults. Gerontology 55(2):217–223CrossRefPubMed Taaffe DR, Henwood TR, Nalls MA, Walker DG, Lang TF, Harris TB (2009) Alterations in muscle attenuation following detraining and retraining in resistance-trained older adults. Gerontology 55(2):217–223CrossRefPubMed
Metadaten
Titel
A computed tomography study investigating the effects of botulinum toxin injections prior to complex abdominal wall reconstruction
verfasst von
J. J. M. Claessen
A. S. Timmer
R. Hemke
J. J. Atema
R. Hompes
M. A. Boermeester
M. V. H. Rutten
Publikationsdatum
14.10.2022
Verlag
Springer Paris
Erschienen in
Hernia / Ausgabe 2/2023
Print ISSN: 1265-4906
Elektronische ISSN: 1248-9204
DOI
https://doi.org/10.1007/s10029-022-02692-w

Weitere Artikel der Ausgabe 2/2023

Hernia 2/2023 Zur Ausgabe

Neu im Fachgebiet Chirurgie

Unterarmfraktur: Tipps für ein zielgerichtetes Vorgehen

Bei Verdacht auf eine Unterarmfraktur seien 1000 Entscheidungen in 15 Minuten zu treffen, so der Kinderchirurg Dr. Stephan Rohleder auf dem Kongress für Kinder- und Jugendmedizin. Seine Tipps für ein zielgerichtetes Vorgehen erleichtern die adäquate Versorgung.

Wenige Komplikationen nach Mesh-verstärktem Bauchdeckenverschluss

Langzeitdaten der PRIMA-Studie sprechen dafür, dass das Komplikationsrisiko von Mesh-Implantaten bei bauchoperierten Personen mit hohem Risiko für Narbenhernien niedrig ist.

Auch vor viszeralchirurgischen Eingriffen auf den Zahnstatus achten!

Schlechte Zähne erhöhen das Risiko postoperativer Infektionen. Das gilt, wie eine aktuelle Studie aus der Uniklinik Heidelberg nahelegt, speziell auch für viszeralchirurgische Eingriffe.

Weltweit erste Transplantation eines kompletten Auges – erste Verlaufsdaten

Das weltweit bisher einzige Ärzteteam, das ein vollständiges Auge transplantiert hat, hat jetzt erstmals Vorgehen und Resultate umfangreich für die Fachwelt beschrieben – mit interessanten Einsichten.  

Update Chirurgie

Bestellen Sie unseren Fach-Newsletter und bleiben Sie gut informiert.