Incisional Herniation Induces Decreased Abdominal Wall Compliance via Oblique Muscle Atrophy and Fibrosis

Objective:The purpose of this study is to measure abdominal wall myopathic histologic and mechanical changes during incisional herniation and its effect on incisional hernia repairs. Summary Background Data:Unloaded skeletal muscles undergo characteristic atrophic changes, including change in fiber type composition, decreased cross-sectional area, and pathologic fibrosis. We hypothesize that these atrophic changes decrease muscle elastic properties and may contribute to the high laparotomy wound failure rate observed following incisional hernia repair. Methods:A rat model of chronic incisional hernia formation was used. Failing midline laparotomy incisions developed into incisional hernias. Controls were uninjured and sham laparotomy (healed) groups. Internal oblique muscles were harvested for fiber typing, measurement of cross-sectional area, collagen deposition, and mechanical analysis. Mesh hernia repairs were performed on a second group of rats with chronic incisional hernias or acute anterior abdominal wall myofascial defects. Results:The hernia group developed lateral abdominal wall shortening and oblique muscle atrophy. This was associated with a change in the distribution of oblique muscle fiber types, decreased cross-sectional area, and pathologic fibrosis consistent with myopathic disuse atrophy. These muscles exhibited significant decreased extensibility and increased stiffness. The healed (sham) laparotomy group expressed an intermediate phenotype between the uninjured and hernia groups. Recurrent hernia formation was most frequent in the chronic hernia model, and hernia repairs mechanically disrupted at a lower force compared with nonherniated abdominal walls. Conclusions:The internal oblique muscles of the abdominal wall express a pattern of changes consistent with those seen in chronically unloaded skeletal muscles. The internal oblique muscles become fibrotic during herniation, reducing abdominal wall compliance and increasing the transfer of load forces to the midline wound at the time of hernia repair.

[1]  M. Franz,et al.  Progressive fascial wound failure impairs subsequent abdominal wall repairs: a new animal model of incisional hernia formation. , 2005, Surgery.

[2]  E. Verdaasdonk,et al.  Long-term Follow-up of a Randomized Controlled Trial of Suture Versus Mesh Repair of Incisional Hernia , 2004, Annals of surgery.

[3]  A. Senagore,et al.  Does means of access affect the incidence of small bowel obstruction and ventral hernia after bowel resection? Laparoscopy versus laparotomy. , 2003, Journal of the American College of Surgeons.

[4]  M. Franz,et al.  Acute wound healing: the biology of acute wound failure. , 2003, The Surgical clinics of North America.

[5]  T. Koepsell,et al.  Have Outcomes of Incisional Hernia Repair Improved With Time?: A Population-Based Analysis , 2003, Annals of surgery.

[6]  K. Cassar,et al.  Surgical treatment of incisional hernia , 2002, The British journal of surgery.

[7]  A. Boriek,et al.  Fiber architecture of canine abdominal muscles. , 2002, Journal of applied physiology.

[8]  S. Sauerland,et al.  Randomized clinical trial of suture repair, polypropylene mesh or autodermal hernioplasty for incisional hernia , 2002, The British journal of surgery.

[9]  M. Franz,et al.  Fascial incisions heal faster than skin: a new model of abdominal wall repair. , 2001, Surgery.

[10]  J. Jeekel,et al.  A comparison of suture repair with mesh repair for incisional hernia. , 2000, The New England journal of medicine.

[11]  I. MacNiven Stable Trichrome for the Demonstration of the Intermyofibrillary Network in Muscle Biopsies , 1994 .

[12]  D T Cheung,et al.  Correlation of structure and viscoelastic properties in the pericardia of four mammalian species. , 1992, The American journal of physiology.

[13]  Graves Ej,et al.  Detailed diagnoses and procedures, National Hospital Discharge Survey, 1994. , 1997, Vital and health statistics. Series 13, Data from the National Health Survey.

[14]  M. Järvinen,et al.  The effect of tenotomy and immobilisation on intramuscular connective tissue. A morphometric and microscopic study in rat calf muscles. , 1990, The Journal of bone and joint surgery. British volume.

[15]  M. Mudge,et al.  Incisional hernia , 1986, The British journal of surgery.

[16]  H. Kalimo,et al.  Changes in intramuscular collagen and fibronectin in denervation atrophy , 1985, Muscle & nerve.

[17]  L. Hughes,et al.  Incisional hernia: A 10 year prospective study of incidence and attitudes , 1985, The British journal of surgery.

[18]  R. Armstrong,et al.  Muscle fiber type composition of the rat hindlimb. , 1984, The American journal of anatomy.

[19]  G. Goldspink,et al.  Connective tissue changes in immobilised muscle. , 1984, Journal of anatomy.

[20]  H. Sawai [Collagen metabolism of skeletal muscles following injuries of the peripheral nerves]. , 1982, Nihon Seikeigeka Gakkai zasshi.

[21]  V. Edgerton,et al.  Architectural alterations of rat hind-limb skeletal muscles immobilized at different lengths , 1982, Experimental Neurology.

[22]  M. Brooke,et al.  Muscle fiber types: how many and what kind? , 1970, Archives of neurology.

[23]  M. Brooke,et al.  THREE "MYOSIN ADENOSINE TRIPHOSPHATASE" SYSTEMS: THE NATURE OF THEIR pH LABILITY AND SULFHYDRYL DEPENDENCE , 1970, The journal of histochemistry and cytochemistry : official journal of the Histochemistry Society.

[24]  A. Pearse Histochemistry: Theoretical and Applied , 1953 .

[25]  M. Järvinen,et al.  Organization and distribution of intramuscular connective tissue in normal and immobilized skeletal muscles , 2004, Journal of Muscle Research & Cell Motility.

[26]  V R Edgerton,et al.  Adaptations in myosin heavy chain profile in chronically unloaded muscles. , 1995, Basic and applied myology : BAM.

[27]  D A Riley,et al.  Review of spaceflight and hindlimb suspension unloading induced sarcomere damage and repair. , 1995, Basic and applied myology : BAM.

[28]  F. Booth,et al.  Atrophy of the soleus muscle by hindlimb unweighting. , 1990, Journal of applied physiology.

[29]  B. Munro Manual of Histologic Staining Methods of the Armed Forces Institute of Pathology , 1971 .

[30]  Lee G Luna,et al.  Manual of histologic staining methods of the Armed forces institute of pathology , 1968 .