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Wound dehiscence: is still a problem in the 21th century: a retrospective study

Abstract

Background

The aim of this study was to evaluate the risk factors of wound dehiscence and determine which of them can be reverted.

Methods

We retrospectively analyzed 3500 laparotomies. Age over 75 years, diagnosis of cancer, chronic obstructive pulmonary disease, malnutrition, sepsis, obesity, anemia, diabetes, use of steroids, tobacco use and previous administration of chemotherapy or radiotherapy were identified as risk factors

Results

Fifteen of these patients developed wound dehiscence. Emergency laparotomy was performed in 9 of these patients. Patients who had more than 7 risk factors died.

Conclusion

It is important for the surgeon to know that wound healing demands oxygen consumption, normoglycemia and absence of toxic or septic factors, which reduces collagen synthesis and oxidative killing mechanisms of neutrophils. Also the type of abdominal closure may plays an important role. The tension free closure is recommended and a continuous closure is preferable. Preoperative assessment so as to identify and remove, if possible, these risk factors is essential, in order to minimize the incidence of wound dehiscence, which has a high death rate.

Background

Surgical wound dehiscence after laparotomy remains a serious complication. It presents a mechanical failure of wound healing of surgical incisions. Surgical incisions stimulate the healing process which in reality is a complex and continous process with four different stages: Hemostasis, inflammation, proliferation, and maturation [1].

During hemostasis, platelets aggregate, degranulate and activate blood clotting. The clot is degrading, the capillaries dilates and fluids flow to the wound site, activating the complement cascade.

Macrophages, lysis of cells and neutrophills are a source of cytokines and growth factors that are essential for normal wound healing [1, 2].

The proliferation phase which is the phase of granulation tissue forms in, the wound space begins in the 3 postoperative day and lasts for several weeks.

The most important factor in this phase are fibroblasts which move to the wound and are responsible for the collagen synthesis [3, 4]. The maturation phase begins in the 7 postoperative day and lasts for 1 year or more, continued collagen deposition and remodeling contribute to the increased tensile strength of wounds.

Post laparotomy wound dehiscence occurs in 0,25% to 3% of laparotomy patients and immediate operation is required which has a death rate of 20% [2, 5, 6].

Conditions associated with increased risk of wound dehiscence are anemia, hypoalbuminemia, malnutrition, malignancy, jaundice, obesity and diabetes, male gender, elderly patients and specific surgical procedures as colon surgery or emergency laparotomy which are associated with wound disruption [7, 8].

The aim of this study is to evaluate retrospectively the risk factoers of wound dehiscence and to determine which of them can be revert.

Methods

Between 2001 and 2007, 3500 abdominal laparotomies were performed in the Department of surgery of Mesologgi General Hospital and urban community teaching hospital of 150 beds.

Fifteen patients were reported with complete wound dehiscence.

The medical reports of all patients were reviewed and local, systemic, operative factors were compared (Factor analysis)

1. Age > 70 years are described as risk factor

2. Malignancy, the presence of malignancy during the operation is estimated as a risk factor.

3. COPD, the medical history of COPD or the PO2 < 60 and PCO2 < 30 also estimate as a risk factor.

4. Malnutrition, the total serum albumin level less than 3,0 mg/dl and the decrease of body weight more than 10% in the last 10 months are estimated as risk factors

5. The presence of Sepsis

6. Obesity, BMI > 35

7. Radiotherapy or chemotherapy treatments before operation are described as risk factors

8. Anemia, Hb < 10 mg/dl is described as risk factor

9. Diabetes is described as risk factor

10. Steroid treatment in the last 12 months are estimated as risk factor.

11. Operative factors such as type of operation, suture materials and postoperative morbidity were compared.

Results

Fifteen of 3500 patients developed wound dehiscence (0,43%)

The primary diagnoses and initial operative procedures that concluded to wound dehiscence are listed in table 1.

Table 1 Diagnosis and operative procedure of the patients with wound dehiscence.

In the 9 of these15 patients (60%) emergency laparotomy was performed.

The mean age was 69,5 years (ranging fro 55 to 81) and 9 of them (60%) are male.

The risk factors and the final outcome are listed in table 2.

Table 2 Patients risk factors concerning the medical history

Elderly patients and history of COPD are present in the 67% of cases, cancer and sepsis in the 53,3% of cases.

The presence of anemia, diabetes mellitus and the history of received chemotherapy or radiotherapy are 40% in iur patients.

Malnutrition and obesity are present in one third of our patients.

Only 20% of patients did receive treatment with steroids in the last 12 months.

Concerning the surgical history and the postoperative morbidity, the results are listed in table 3.

Table 3 Patients surgical characteristics and postoperative outcome

Wound dehiscence was more often observed on the 9,2 postoperative day (ranging from the 6th to 15th).

Three patients (20%) developed wound dehiscence after their initial discharge and were readmitted to our hospital.

Concerning the type of incision or the abdominal closure, only the presence of interrupted suturing of linea alba (10/14) patients plays a role in the wound dehiscence. This factor factor is a hypoestimated parameter in he past as a possible risk factor.

All patients are reoperated after the wound dehiscence diagnosis and three of them (20%) died due to postoperative complication of reoperation. In one of them recurrence of wound dehiscence was observed. Regarding the preoperative risk factors, three from four (75%) patients with 7 or more risk factors did die. The abdominal closure was performed using mesh in 4 cases, a flap in 2 cases and a continuous suturing in 9 cases. Retention suture were used in 2 cases.

Discussion

Wound dehiscence is a mechanical failure of wound healing, remains a problem and it can be affected by multiple factors.

Pre-operative conditions especially in elective operations should be recommended to reduce or eliminate the risk. No tobacco use, no steroid use prior to surgery, carefully controls of the patients comorbidity as anemia, malnutrition, obesity and cardiovascular or lung diseases.

During the surgical procedures, measure to reduce the risk of infections and hypoxia in the tissue are the to most importants factors for the postoperative wound healing process.

The type of abdominal closure may plays an important role. The tension free closure is recommended and a continuous closure is preferable.

Our study in accordance with other reports [6, 8–10] demonstrates a significantly higher incidence of postoperative wound dehiscence in emergency than in elective surgery.

It is important for the surgeon to knows that wound healing demands oxygen consumption, normoglycemia and absence of toxic or septic factors, which reduces collagen synthesis and oxidative killing mechanisms of neutrophils [11, 12]

Wounds heal by primary, secondary or tertiary intention, wounds that are approximated heal by primary intention mainly by deposition of connective tissue.

The important observation is that wounds which are left to heal by secondary intention are dehiscent frequently because these heals more slowly due to amount of connective tissue

That is necessary to fill the wound [13].

Management of dehisced wounds may include immediate re-operation if bowel is protruding from the wound. Mortality rates associated with dehiscence have been reported between 14–50% [3]. In our study mortality rate is 20%.

On the other hand the best case scenario is a discharging wound which leads to the appearance of an incisional hernia.

Conclusion

In conclusion in re-operation certain strategies, such as using a vacuum assisted closure in patient with compromised healing (6) or using tension free mesh techniques in order to reduce the tension of the abdominal wall.

References

  1. Chin G, Diegelman R, Schultz G: Cellular and molecular regulation of wound healing. Wound healing. Edited by: Falabella A, Kirschner R. 2005, Boca Roton FL; Taylor, Francis Group, 17-37.

    Google Scholar 

  2. Hugh TB: Abdominal wound dehiscence, editorial comment. Aust NZ J Surgery. 1990, 60: 153-155.

    CAS  Google Scholar 

  3. Waqer S, Malik Z, Razzaq A: Frequency and risk factors for wound dehiscence/burst abdomen in midline laparotomies. Journal Ayub Med Coll. 2005, 17 (4): 70-73.

    Google Scholar 

  4. West J, Gimbel M: Acute surgical and traumatic wound healing. Acute and chronic wounds: Nursing management. Edited by: Brayant. 2005, St.Louis Mosby, 189-196.

    Google Scholar 

  5. Mokela JI, Kiviniemi H, Juvonen T, Laitinen S: Factors influencing wound dehiscence after midline laparotomy. Am J Surg. 1995, 170: 387-390. 10.1016/S0002-9610(99)80309-2.

    Article  Google Scholar 

  6. Heller L, Levin S, Butler C: Management of abdominal wound dehiscence using vacuum assisted closure in patients with compromised healing. Am J Surg. 2006, 191: 165-172. 10.1016/j.amjsurg.2005.09.003.

    Article  PubMed  Google Scholar 

  7. Sorensen LT, Hemingsen U, Kallehave F: Risk factors for tissue and wound complications in gastrointestinal surgery. Ann Surg. 2005, 241: 654-658. 10.1097/01.sla.0000157131.84130.12.

    Article  PubMed Central  PubMed  Google Scholar 

  8. Col C, Soran A, Col M: Can postoperative abdominal wound dehiscence be predicted?. Tokai J Exp Clin Med. 1998, 23 (3): 123-127.

    CAS  PubMed  Google Scholar 

  9. Graham DJ, Stevenson JT, McHenry CR: The association of intra-abdominal infection and abdominal wound dehiscence. Am Surg. 1998, 64 (7): 660-665.

    CAS  PubMed  Google Scholar 

  10. Niggebrugge AH, Hansen BE, Trimbos JB: Mechanical factors influencing the incidence of burst abdomen. Eur J Surg. 1995, 161: 655-661.

    CAS  PubMed  Google Scholar 

  11. Black F, Vibe-Petersen J, Jorgensen JN: Decrease of collagen deposition in wound repair in type I diabetes independent of glycemic control. Arch Surg. 2003, 138: 34-40.

    Article  CAS  PubMed  Google Scholar 

  12. Allen DB, Maguire JJ, Mahdaqvian M: Wound hypoxia and acidosis limit neutrophil bacterial killing mechanisms. Arch Surg. 1997, 132: 991-996.

    Article  CAS  PubMed  Google Scholar 

  13. Waldrop J, Doughty : Wound healing physiology. Acute and chronic wounds:Nursing management. Edited by: Bryant R. 2000, St.Louis: Mosby, 17-39.

    Google Scholar 

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Correspondence to John Spiliotis.

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The authors declare that they have no competing interests.

Authors' contributions

SJ, TK, DA, VA, ZG, GK, KS and RA have all made substantial contributions to conception and design, acquisition of data or analysis and interpretation of data.

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Spiliotis, J., Tsiveriotis, K., Datsis, A.D. et al. Wound dehiscence: is still a problem in the 21th century: a retrospective study. World J Emerg Surg 4, 12 (2009). https://doi.org/10.1186/1749-7922-4-12

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