Saturday, March 29, 2014

Adhesions Adhesion Related Disorder Wiki

Adhesions are fibrous bands[1] that form between tissues and organs, often as a result of injury during surgery. They may be thought of as internal scar tissue that connect tissues not normally connected.

Pathophysiology[edit]

Adhesions form as a natural part of the body’s healing process after surgery in the same way that a scar forms. The term "adhesion" is applied when the scar extends from within one tissue across to another, usually across a virtual space such as the peritoneal cavity. As part of the process, the body deposits fibrin onto injured tissues. The fibrin acts like a glue to seal the injury and builds the fledgling adhesion, said at this point to be "fibrinous." In body cavities such as the peritoneal, pericardial and synovial cavities, a family of fibrinolytic enzymes may act to limit the extent of the initial fibrinous adhesion, and may even dissolve it. In many cases however the production or activity of these enzymes are compromised because of injury, and the fibrinous adhesion persists. If this is allowed to happen, tissue repair cells such as macrophagesfibroblasts and blood vessel cells, penetrate into the fibrinous adhesion, and lay down collagen and other matrix substances to form a permanent fibrous adhesion. In 2002, Giuseppe Martucciello's research group showed a possible role could be played by microscopic foreign bodies (FB) accidentally contaminating the operative field during surgery.[2] These data suggested that two different stimuli are necessary for adhesion formation: a direct lesion of the mesothelial layers and a solid substrate (FB).
While some adhesions do not cause problems, others can prevent muscle and other tissues and organs from moving freely, sometimes causing organs to become twisted or pulled from their normal positions.

Regions affected[edit]

Adhesive capsulitis[edit]

In the case of adhesive capsulitis of the shoulder (also known as frozen shoulder), adhesions grow between the shoulder joint surfaces, restricting motion.

Abdominal adhesions[edit]

Abdominal adhesions (or intra-abdominal adhesions) are most commonly caused by abdominal surgical procedures. The adhesions start to form within hours after surgery and may cause internal organs to attach to the surgical site or to other organs in the abdominal cavity. Adhesion-related twisting and pulling of internal organs can result in complications such as abdominal pain or intestinal obstruction. Small bowel obstruction (SBO) is a significant consequence of post-surgical adhesions. A SBO may be caused when an adhesion pulls or kinks the small intestine and prevents the flow of content through the digestive tract. It can occur 20 years or more after the initial surgical procedure, if a previously benign adhesion allows the small bowel to spontaneously twist around itself and obstruct. SBO is an emergent, possibly fatal condition without immediate medical attention. According to statistics provided by the National Hospital Discharge Survey approximately 2,000 people die every year in the USA from obstruction due to adhesions.[3] Depending on the severity of the obstruction, a partial obstruction may relieve itself with conservative medical intervention. However, many obstructive events require surgery to lyse the offending adhesion(s) or resect the affected small intestine.

Pelvic adhesions[edit]

Pelvic adhesions are a form of abdominal adhesions in the pelvis, typically in women affecting reproductive organs and thus of concern in reproduction or as a cause of chronic pelvic pain. Other than surgery, endometriosis, and pelvic inflammatory disease are typical causes.
Surgery inside the uterine cavity (e.g., suction D&Cmyomectomyendometrial ablation) can result in Asherman's Syndrome (also known as intrauterine adhesions), a cause of infertility.
A meta-analysis in 2012 came to the conclusion that there is only little evidence for the surgical principle that using less invasive techniques, introducing less foreign bodies or causing less ischemia reduces the extent and severity of adhesions in pelvic surgery.[4]

Pericardial adhesions[edit]

Adhesions forming after cardiac surgery between the heart and the sternum place the heart at risk of catastrophic injury during re-entry for a subsequent procedure.

Peridural adhesions[edit]

Adhesions and scarring as epidural fibrosis may occur after spinal surgery that restricts the free movement of nerve roots, causing tethering and leading to pain.

Peritendinous adhesions[edit]

Adhesions and scarring occurring around tendons after hand surgery restrict the gliding of tendons in their sheaths and compromise digital mobility.

Association with surgery[edit]

A study in Digestive Surgery showed that more than 90% of patients develop adhesions following open abdominal surgery and 55–100% of women develop adhesions following pelvic surgery.[5] Adhesions from prior abdominal or pelvic surgery can obscure visibility and access at subsequent abdominal or pelvic surgery. In a very large study (29,790 participants) published in British medical journal The Lancet, 35% of patients who underwent open abdominal or pelvic surgery were readmitted to the hospital an average of two times after their surgery due to adhesion-related or adhesion-suspected complications.[6] Over 22% of all readmissions occurred in the first year after the initial surgery.[6]Adhesion-related complexity at reoperation adds significant risk to subsequent surgical procedures.[7]
Applying adhesion barriers during surgery can help to prevent the formation of adhesions.[8] Surgical humidification therapy may also minimise the incidence of adhesion formation.[9] Laparoscopic surgery has a reduced risk for creating adhesions.[10] Steps can be taken during surgery to help prevent adhesions such as handling tissues and organs gently, using starch- and latex-free gloves, not allowing tissues to dry out, and shortening surgery time.[11]

Types[edit]

Types of adhesions:
  1. Fibrinous adhesions. These are causes of early postoperative obstruction which settles down within 3–5 days. The majority of fibrinous adhesions will disappear in due course of time[citation needed].
  2. Fibrous adhesions. If the infection is continuous or if foreign[clarification needed] is present, the fibrinous material is converted into fibrous material[citation needed].

References[edit]

  1. Jump up^ "adhesion" at Dorland's Medical Dictionary
  2. Jump up^ Torre M, Favre A, Pini Prato A, Brizzolara A, Martucciello G (December 2002). "Histologic study of peritoneal adhesions in children and in a rat model". Pediatr. Surg. Int. 18 (8): 673–6. doi:10.1007/s00383-002-0872-6PMID 12598961.
  3. Jump up^ See article at: www.adhesions.org/ardnewsrelease092303.pdf
  4. Jump up^ Ten Broek, R. P. G.; Kok- Krant, N.; Bakkum, E. A.; Bleichrodt, R. P.; Van Goor, H. (2012). "Different surgical techniques to reduce post-operative adhesion formation: A systematic review and meta-analysis". Human Reproduction Update 19 (1): 12–25.doi:10.1093/humupd/dms032PMID 22899657. edit
  5. Jump up^ Liakakos, T; Thomakos, N; Fine, PM; Dervenis, C; Young, RL (2001). "Peritoneal adhesions: etiology, pathophysiology, and clinical significance. Recent advances in prevention and management". Digestive surgery 18 (4): 260–73.doi:10.1159/000050149PMID 11528133.
  6. Jump up to:a b Ellis, H.; Moran, B.; Thompson, J.; Parker, M.; Wilson, M.; Menzies, D.; McGuire, A.; Lower, A.; Hawthorn, R.; Obrien, F. (1999). "Adhesion-related hospital readmissions after abdominal and pelvic surgery: A retrospective cohort study". The Lancet 353 (9163): 1476. doi:10.1016/S0140-6736(98)09337-4. edit
  7. Jump up^ Van Der Krabben, AA; Dijkstra, FR; Nieuwenhuijzen, M; Reijnen, MM; Schaapveld, M; Van Goor, H (2000). "Morbidity and mortality of inadvertent enterotomy during adhesiotomy". The British journal of surgery 87 (4): 467–71. doi:10.1046/j.1365-2168.2000.01394.xPMID 10759744.
  8. Jump up^ "Adhesion prevention: a standard of care"Medical Association Communications. American Society of Reproductive Medicine. February 2002.
  9. Jump up^ Peng, Y; Zheng M; Ye Q; Chen X; Yu B; Liu B (2009). "Heated and humidified CO2 prevents hypothermia, peritoneal injury, and intra-abdominal adhesions during prolonged laparoscopic insufflations". J Surg Res. 151(1): 40–47.
  10. Jump up^ "Adhesions". Better Health Channel. Retrieved 20 February 2014.
  11. Jump up^ "Abdominal Adhesions (Scar Tissue)". Medicinenet. Retrieved 20 February 2014.

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