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Target Concepts:
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Query: UMLS:C0376358 (
prostate cancer
)
59,338
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The treatment of urinary incontinence due to unstable bladder remains difficult. In the case of failure of medical or physiotherapeutic treatments, clam enterocystoplasty represents a major and important therapeutic possibility. The operation consists of frontal section of the bladder to form a bivalve followed by interposition, between the two valves, of a detubed ileal graft in order to increase the functional vesical capacity and to interrupt the transmission of detrusor contraction waves from one valve to the other. 10 patients (7 men and 3 women) suffering from urinary incontinence due to neurogenic unstable bladder (4 cases: 3 meningoceles, 1 operated cauda equina neuroma) or to another cause (6 cases, including one sequela of radiotherapy for
prostatic cancer
and 5 cases of apparently primary urinary incontinence) underwent enterocystoplasty combined, in the case of neurogenic incontinence (2 cases simultaneously and 2 cases previously), with the insertion of an
AMS
800 sphincter. No major complication was observed. 9 patients are continent and 1 had to be reoperated to undergo an augmentation enterocystoplasty (failure of the initial operation due to radiation changes of the bladder), 3 retain a post-voiding residual of about 200 ml but not requiring self catheterisation due to the absence of any repercussions on the upper urinary tract. Lastly, urodynamic studies demonstrated a spectacular increase in compliance and functional capacity of the bladder together with a reduction of the amplitude of intravesical pressure peaks.
...
PMID:["Clam" enteroplasty in the treatment of unstable or low compliance bladders]. 184 20
Pre-operative and operative complications in 2266 patients having undergone transurethral resection of prostate (TURP) for the past 20 years at Kitasato University Hospital were analyzed. They consisted of 2008 benign prostatic hyperplasia and 258
prostate cancer
patients. Seven hundred and fifty four patients showed some of physical disorders prior to TUR:hypertension in 147 cases, diabetes mallitus in 87, ischemic heart disease in 46, chronic obstructive lung disease in 41 and others. Operative and postoperative complications of TURP were seen in 308 cases (13.6%). Perforation of the prostatic capsule was seen in 100 cases (4.4%) and bladder perforation into intraperitoneal cavity in 6 cases (0.3%). Transurethral fulgulation for postoperative hemorrhage was conducted on 79 cases (3.5%). Hyponatremia lower than 130 mEq/L was noted in 14 cases (0.6%). Severe urinary tract infection leading to bacteremia was observed in 9 cases (0.4%). Postoperative epididymitis was evident in 20 cases (0.8%). There was postoperative urinary incontinence in 19 cases, 3 of which was treated with Teflon-paste injection successfully. One patient had to undergo
AMS
-800 artificial sphincter implantation. The number of postoperative urethral stricture patients requiring urethral dilatation or internal urethrotomy was 12 (0.5%) and postoperative bladder neck contracture was seen in 20 cases (0.9%). One patient (0.04%) who developed DIC after profuse postoperative hemorrhage died on the 37th postoperative day. The efficiency of TURP depends not so much on the skill of cutting as on the speed and accuracy of orientation and haemostasis. The quick recognition of anatomical landmarks will assure effective and safe resection.
...
PMID:[Pre-operative, operative and postoperative complications in 2266 cases of transurethral resection of the prostate]. 768 90
Cathepsin X has been reported to be a tumor promotion factor in various types of cancer; however, the molecular mechanisms linking its activity with malignant processes are not understood. Here we present profilin 1, a known tumor suppressor, as a target for cathepsin X carboxypeptidase activity in
prostate cancer
PC-3 cells. Profilin 1 co-localizes strongly with cathepsin X intracellularly in the perinuclear area as well as at the plasma membrane. Selective cleavage of C-terminal amino acids was demonstrated on a synthetic octapeptide representing the profilin C-terminal region, and on recombinant profilin 1. Further, intact profilin 1 binds its poly-L-proline ligand clathrin significantly better than it does the truncated one, as shown using cathepsin X specific inhibitor
AMS
-36 and immunoprecipitation of the profilin 1/clathrin complex. Moreover, the polymerization of actin, which depends also on the binding of poly-L-proline ligands to profilin 1, was promoted by
AMS
-36 treatment of cells and by siRNA cathepsin X silencing. Our results demonstrate that increased adhesion, migration and invasiveness of tumor cells depend on the inactivation of the tumor suppressive function of profilin 1 by cathepsin X. The latter is thus designated as a target for development of new antitumor strategies.
...
PMID:Profilin 1 as a target for cathepsin X activity in tumor cells. 2332 35
The use of artificial urinary sphincter (AUS) for the treatment of stress urinary incontinence has become more prevalent, especially in the "prostate-specific antigen (PSA)-era", when more patients are treated for localized
prostate cancer
. The first widely accepted device was the
AMS
800, but since then, other devices have also entered the market. While efficacy has increased with improvements in technology and technique, and patient satisfaction is high, AUS implantation still has inherent risks and complications of any implant surgery, in addition to the unique challenges of urethral complications that may be associated with the cuff. Furthermore, the unique nature of the AUS, with a control pump, reservoir, balloon cuff, and connecting tubing, means that mechanical complications can also arise from these individual parts. This article aims to present and summarize the current literature on the management of complications of AUS, especially urethral atrophy. We conducted a literature search on PubMed from January 1990 to December 2018 on AUS complications and their management. We review the various potential complications and their management. AUS complications are either mechanical or nonmechanical complications. Mechanical complications usually involve malfunction of the AUS. Nonmechanical complications include infection, urethral atrophy, cuff erosion, and stricture. Challenges exist especially in the management of urethral atrophy, with both tandem implants, transcorporal cuffs, and cuff downsizing all postulated as potential remedies. Although complications from AUS implants are not common, knowledge of the management of these issues are crucial to ensure care for patients with these implants. Further studies are needed to further evaluate these techniques.
...
PMID:Management of urethral atrophy after implantation of artificial urinary sphincter: what are the weaknesses? 3173 73
