Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: UMLS:C0019270 (
hernia
)
15,856
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
There are two schools of thought concerning the aetiology of rectal prolapse. On the one hand it was conceived to be a sliding
hernia
through a defect in the pelvic fascia, while on the other hand radiological studies have demonstrated prolapse to be represented by an intussusception of the rectum. Various operative procedures have been proposed for the treatment of rectal prolapse based on the belief in one or the other of these concepts. The anatomic defects which have been described with prolapse include a defect in the pelvic floor with diastasis of the levatores ani, loss of the normal horizontal position of the rectum, an abnormally deep cul-de-sac of Douglas, a redundant rectosigmoid, and a patulous anal sphincter. The popularly used procedure in Great Britain is that in which a sheet of
Ivalon
sponge is sutured to the sacrum and wrapped around the rectum thus anchoring it in place. Various authors have reported good results using this technique. The mortality and morbidity rate appear to be acceptable. In the U.S.A. a popular procedure is the Ripstein technique where a sheet of Teflon is wrapped around the rectum anteriorly anchoring the rectum to the sacrum. This technique also has its proponents who rport satisfactory results. Abdominal proctopexy and sigmoid resection, although not in common general use, has been found to be effective with an acceptable morbidity and mortality rate. These three procedures have some drawbacks but the one problem common to all the repairs so far developed for prolapse is their inability to guarantee to restore continence. Probably half the patients operated upon continue to be incontinent. Faradic stimulation of the sphincter has not proved to be as helpful as initially hoped.
...
PMID:Treatment of rectal prolapse. 118 58
Wound healing encompasses coagulation, inflammation, angiogenesis, fibroplasia, contraction, epithelialisation and remodeling. A granulation tissue is produced following incision of tissue such as skin, abdominal wall or the gastrointestinal tract, and the strength of the wound is determined primarily by the collagen content early in the healing course. Few models are available to study wound healing in man. The percutaneous insertion of expanded poly-tetrafluoroethylene tubes (ePTFE) into the subcutaneous tissue has been an established model for 20 years. The procedure is performed using a local anesthesia. The model has a diameter of 2.5 mm, a length of 5-10 cm and a pore size of 90-120 microns which is substantially more than that of vascular grafts. The polymer accumulates granulation tissue, the architecture of which resembles that of a normal surgical wound. Previous studies on the use of the ePTFE model in wound healing research are summarized in detail. Histological and immunohistochemical analyses of the granulation tissue deposited in the model were undertaken. The content of amino acids following hydrolysis of the granulation tissue was determined applying spectrophotometric or HPLC assays. Collagen amounts accumulated in the model are expressed as hydroxyproline per length of ePTFE or per total protein. Following a study in rats we examined 85 healthy volunteers and 158 surgical patients in the studies. Higher contents of hydroxyproline were found 10 days after implantation as compared to 5 days with considerable inter-person variation. Regarding median values there was a 25% difference between two measurements performed on two distinct ePTFE tubes from the same person, and a 12% difference between values obtained from two different pieces of the same ePTFE. Higher accumulation levels of hydroxyproline did not result in higher variability. Deposition of proline in the model correlated closely to total protein content. The ePTFE and a modified
PVA
model were compared in surgical patients. No reproducible measurements of hydroxyproline deposition were obtained with the
PVA
model as opposed to the ePTFE model. It is concluded that the modified
PVA
model is inadequate for determination of collagen deposition in subcutaneous granulation tissue. We found no correlation between collagen deposition levels obtained with placement of the ePTFE model in the subcutaneous tissue of the arm and in an uncomplicated surgical wound of the groin in the same patient, respectively. Significantly higher collagen deposition levels in the model were found in the surgical wound. Conversely, there was a significant correlation between protein deposition levels obtained at the two sites. Patients undergoing minor surgery (groin
hernia
repair) did not differ from healthy non-traumatized volunteers as regards deposition of collagen in subcutaneous tissue of the arm, whereas patients subjected to major general surgery demonstrated a significant decline during the postoperative phase compared to a preoperative evaluation. This decline was enhanced in patients who had infectious complications. Non-smoking volunteers were found to specifically accumulate more collagen (median value 82%) than smokers matched for age and gender. Irrespective of the smoking status women accumulated significantly more collagen in the model than men. These findings were re-tested in a prospective series leading to the same conclusion. Matrix metalloproteinases (MMP-2 and MMP-9) were determined in wound fluid obtained from the subcutaneous cavities of herniotomy wounds 24 and 48 h after operation. A significant and inverse correlation was demonstrated between MMP-9 after 24 h and accumulation levels of collagen in the ePTFE tube 10 days after implantation in the wound. Finally, it was demonstrated that local application of granulocyte-macrophage colony-stimulating factor into the ePTFE model during implantation specifically and dose-dependently reduced the number of fibroblasts and deposition of collagen. The doses chosen for the experiments resulted in both a local and a systemic effect. It is concluded that the minimally invasive ePTFE model, despite a certain level of variability, presently provides one of the best possibilities of evaluation of the wound healing potential in both volunteers and patients under various conditions. We found the model convenient for the assessment of both matrix deposition during wound healing and the influence of several factors including demographic characteristics, trauma, tobacco smoking, drugs and tissue degrading components of the wound.
...
PMID:Collagen deposition in the subcutaneous tissue during wound healing in humans: a model evaluation. 1462 92
