The evil twins of chronic pelvic pain syndrome: endometriosis and interstitial cystitis.
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OBJECTIVE: To determine the value in the initial laparoscopic and cystoscopic evaluation of avoiding the unnecessary delay in diagnosing the "evil twins" of chronic pelvic pain syndrome, endometriosis and interstitial cystitis. METHODS: We performed a retrospective review of 60 women ranging in age from 19 to 62. They underwent concurrent laparoscopy, cystoscopy, and hydrodistentions from January 1999 to October 2000. A gynecology and urology team performed these procedures in these 60 patients at a regional pelvic pain center in Northwest Ohio. RESULTS: Fifty-eight patients (96.6%) were diagnosed with interstitial cystitis by the presence of glomerulation and terminal hematuria according to National Institutes of Health criteria. A diagnosis of (active and inactive) endometriosis was found in 56 patients (93.3%). Biopsy-confirmed active endometriosis was found in 48 patients (80%). In the interstitial cystitis patient group (58), 54 patients had a diagnosis of (active and inactive) endometriosis (93.1%), and 47 patients had biopsy-confirmed active endometriosis (81%). In the group of 56 patients with a diagnosis of (active and inactive) endometriosis, 54 patients were found to have interstitial cystitis (96.4%). In the group of 48 patients with active biopsy-confirmed endometriosis, 47 have interstitial cystitis (97.7%). CONCLUSION: Patients with chronic pelvic pain syndrome are very difficult to manage. Eighty percent were found to have endometriosis and had numerous previous operations. Many patients failed to respond to multiple therapies. In many cases, pain persists even after a hysterectomy. Through our study, we showed the high prevalence and association of interstitial cystitis and endometriosis, the evil twins of chronic pelvic pain syndrome. It is absolutely necessary to perform both laparoscopic and cystoscopic examinations concurrently with the patient anesthetized in the initial evaluation and treatment of chronic pelvic pain syndrome to avoid unnecessary delay in making the diagnosis of the evil twins, because chronic pelvic pain syndrome can be caused by either or both of these entities. It is very important to have the gynecologists and urologists working as a team in making an early diagnosis to resolve these chronic debilitating diseases. (+info)
Feline interstitial cystitis results in mechanical hypersensitivity and altered ATP release from bladder urothelium.
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ATP can be released from a variety of cell types by mechanical stimulation; however, the mechanism for this release and the influence of pathology are not well understood. The present study examined intracellular signaling mechanisms involved in swelling-evoked (exposure to a hypotonic solution) release of ATP in urothelial cells from normal cats and cats diagnosed with interstitial cystitis (feline interstitial cystitis; FIC). Using the luciferin-luciferase bioluminescent assay, we demonstrate that swelling-evoked ATP release is significantly elevated in FIC cells. In both normal and FIC cells, ATP release was significantly decreased (mean 70% decrease) by application of blockers of stretch-activated channels (amiloride or gadolinium), as well as brefeldin A and monensin (mean 90% decrease), suggesting that ATP release occurs when ATP-containing vesicles fuse with the plasma membrane. Swelling-evoked release was reduced after removal of external calcium (65%), and release was blocked by incubation with BAPTA-AM or agents that interfere with internal calcium stores (caffeine, ryanodine, heparin, or 2-aminoethoxydiphenyl borate). In addition, agents known to act through inositol 1,4,5-triphosphate (IP3) receptors (thapsigargin, acetylcholine) release significantly more ATP in FIC compared with normal urothelium. Taken together, these results suggest that FIC results in a novel hypersensitivity to mechanical stimuli that may involve alterations in IP3-sensitive pathways. (+info)
Identification of patients with transitional cell carcinoma of the bladder overexpressing ErbB2, ErbB3, or specific ErbB4 isoforms: real-time reverse transcription-PCR analysis in estimation of ErbB receptor status from cancer patients.
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PURPOSE: The purpose of this research was to quantitatively analyze tumor-specific overexpression of all ErbB receptors and ErbB4 isoforms in transitional cell carcinoma (TCC) of the bladder. EXPERIMENTAL DESIGN: A real-time reverse transcription-PCR protocol was set up to simultaneously quantitate the mRNA levels of all four of the ErbB receptors and ErbB4 isoforms. Exon-intron structure of the ErbB4 gene was determined for ErbB4 isoform analysis. The assay was validated by analyzing: (a) defined ErbB cDNAs; (b) cell lines transfected with defined ErbB cDNAs; and (c) cancer cell lines with ErbB status controlled by Western blotting. ErbB mRNA expression was quantitated from 29 clinical samples representing TCC, interstitial cystitis, or histologically normal bladder. Cutoff expression levels predicting neoplasia at 95% probability were determined. ErbB expression and amplification was analyzed by immunohistochemistry and chromogenic in situ hybridization. RESULTS: Experiments with control cDNAs and cell lines demonstrated that the assay was both specific and sensitive, and that ErbB mRNA levels closely correlated with protein levels in cancer cell lines. Determination of cutoff expression levels indicated tumor-specific overexpression of ErbB2, ErbB3, and specific ErbB4 isoforms in a subset of TCC patients. Significant overexpression of ErbB mRNAs was also detected in cases without amplification of the respective gene or when the protein product was not localized at the cell membrane. CONCLUSION: Bladder cancer patients with tumor-specific overexpression of ErbB receptors or their isoforms were identified. Real-time reverse transcription-PCR could be used for ErbB receptor status quantitation to produce prognostic and predictive information for cancer therapy. (+info)
Interstitial cystitis: understanding the syndrome.
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Interstitial cystitis (IC) is a chronic pain syndrome that affects close to a million people in the United States. The syndrome presents differently in many individuals, with the unifying factor being chronic pelvic pain and disruption of daily life activities. Many etiologies have been proposed as causative factors for IC, although it is likely triggered by more than one process. Treatment for many individuals revolves around symptom management and improving quality of life; however, it is imperative to remove aggravating factors such as food and daily stressors. Treatment will vary for individuals, as symptoms and etiology will differ. This article discusses nutritional and other non-toxic approaches to treating IC. (+info)
Interstitial cystitis antiproliferative factor (APF) as a cell-cycle modulator.
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BACKGROUND: Interstitial cystitis (IC) is a chronic bladder disorder of unknown etiology. Antiproliferative factor (APF), a peptide found in the urine of IC patients, has previously been shown to decrease incorporation of thymidine by normal bladder epithelial cells. This study was performed to determine the effect of APF on the cell cycle of bladder epithelial cells so as to better understand its antiproliferative activity. METHODS: Explant cultures from normal bladder biopsy specimens were exposed to APF or mock control. DNA cytometry was performed using an automated image analysis system. Cell cycle phase fractions were calculated from the DNA frequency distributions and compared by two-way analysis of variance (ANOVA). RESULTS: APF exposure produced statistically significant increases in the proportion of tetraploid and hypertetraploid cells compared to mock control preparations, suggesting a G2 and/or M phase cell cycle block and the production of polyploidy. CONCLUSIONS: APF has a specific effect on cell cycle distributions. The presence of a peptide with this activity may contribute to the pathogenesis of interstitial cystitis through disruption of normal urothelial proliferation and repair processes. (+info)
Severe interstitial cystitis associated with Sjogren's syndrome.
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A 53-year-old woman presented with oliguria, urinary frequency, abdominal pain and severe edema of the lower extremities. Her serum creatinine was 8.1 mg/dl. Computed tomographic and ultrasonographic studies showed a severely dilated urinary bladder, and bilateral hydroureteronephrosis. Examination of a urinary bladder biopsy specimen showed subepithelial edema and infiltration by lymphocytes and plasmacytes. However, the patient complainted of dry mouth and dry eyes. Ophthalmologically, the Schirmer test was positive. A biopsy of the minor salivary glands in the lip showed chronic sialoadenitis. A diagnosis of Sjogren's syndrome complicated by interstitial cystitis was made. Since she had been anuric, secondary to urinary obstruction, intermittent self-catheterization was started. Combination of corticosteroid and cyclosporin therapy was initiated. Spontaneous urination began, and gradually the patient's symptoms remitted. After 8 months of therapy, bladder capacity increased from 140 ml to 350 ml, and she voided approximately 1,200 ml by herself and 600 ml by catheterization daily. This case suggests that when severe interstitial cystitis is associated with Sjogren's syndrome, a therapeutic trial of corticosteroids and cyclosporin may be beneficial. (+info)
Alterations in P2X and P2Y purinergic receptor expression in urinary bladder from normal cats and cats with interstitial cystitis.
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Purinergic mechanisms appear to be involved in motor as well as sensory functions in the urinary bladder. ATP released from efferent nerves excites bladder smooth muscle, whereas ATP released from urothelial cells can activate afferent nerves and urothelial cells. In the present study, we used immunohistochemical techniques to examine the distribution of purinoceptors in the urothelium, smooth muscle, and nerves of the normal cat urinary bladder as well as possible changes in the expression of these receptors in cats with a chronic painful bladder condition termed feline interstitial cystitis (FIC) in which ATP release from the urothelium is increased. In normal cats, a range of P2X (P2X(1), P2X(2), P2X(3), P2X(4), P2X(5), P2X(6), and P2X(7)) and P2Y (P2Y(1), P2Y(2), and P2Y(4)) receptor subtypes was expressed throughout the bladder urothelium. In FIC cats, there is a marked reduction in P2X(1) and loss of P2Y(2) receptor staining. Both P2X(3) and P2Y(4) are present in nerves in normal cat bladder, and no obvious differences in staining were detected in FIC. Smooth muscle in the normal bladder did not exhibit P2Y receptor staining but did exhibit P2X (P2X(2), P2X(1)) staining. In the FIC bladder smooth muscle, there was a significant reduction in P2X(1) expression. These findings raise the possibility that purinergic mechanisms in the urothelium and bladder smooth muscle are altered in FIC cats. Because the urothelial cells appear to have a sensory function in the bladder, it is possible that the plasticity in urothelial purinergic receptors is linked with the painful bladder symptoms in IC. (+info)
The use of urine proteomic and metabonomic patterns for the diagnosis of interstitial cystitis and bacterial cystitis.
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The advent of systems biology approaches that have stemmed from the sequencing of the human genome has led to the search for new methods to diagnose diseases. While much effort has been focused on the identification of disease-specific biomarkers, recent efforts are underway toward the use of proteomic and metabonomic patterns to indicate disease. We have developed and contrasted the use of both proteomic and metabonomic patterns in urine for the detection of interstitial cystitis (IC). The methodology relies on advanced bioinformatics to scrutinize information contained within mass spectrometry (MS) and high-resolution proton nuclear magnetic resonance (1H-NMR) spectral patterns to distinguish IC-affected from non-affected individuals as well as those suffering from bacterial cystitis (BC). We have applied a novel pattern recognition tool that employs an unsupervised system (self-organizing-type cluster mapping) as a fitness test for a supervised system (a genetic algorithm). With this approach, a training set comprised of mass spectra and 1H-NMR spectra from urine derived from either unaffected individuals or patients with IC is employed so that the most fit combination of relative, normalized intensity features defined at precise m/z or chemical shift values plotted in n-space can reliably distinguish the cohorts used in training. Using this bioinformatic approach, we were able to discriminate spectral patterns associated with IC-affected, BC-affected, and unaffected patients with a success rate of approximately 84%. (+info)