Clinical Trials Logo

Clinical Trial Summary

Objective: The primary objective of the study is the comparison of protein concentrations between patients with stress urinary incontinence (SUI) and healthy controls. Aim: This pilot study aims to determine a possible altered protein profile in women suffering from SUI, compared to healthy women and therefore to discriminate a potential protein biomarker for SUI. Main outcome measure: mass spectrometric measuring of urinary proteomic secretome in diseased and healthy subjects (sequence coverage and number of identified proteins) Trial design: Prospective case- control study Setting: Department of Gynecology and Obstetrics of the Medical University of Vienna in co- operation with the Core Facilities Proteomics of the Medical University of Vienna Population: Twenty female patients with SUI and twenty healthy patients who attend the outpatient clinic of the Department of Obstetrics and Gynaecology, Medical University of Vienna (sample size calculation FDR 0.05, power of 80%, assumed proportion of true H0 0.95, assumed standardized effect size of 1) Methods: Examinations to be carried out: patient history, provocative stress test, ICIQ short form questionnaire, residual urine volume (ultrasound) and urine analysis (dipstick testing). A urine sample is obtained from the patient after spontaneous micturition, to which protease inhibitor will be added immediately. Two serum blood vials (each 9ml) are taken from a peripheral vein of the patient for routine laboratory and further research. Proteomics analysis will be performed using chromatographic separation (LC) with mass spectrometric detection (MS).


Clinical Trial Description

Methods: Sample preparation and analysis will include: 1. Sample collection and immediate addition of protease inhibitor cocktail (Roche, Complete Protease Inhibitor Cocktail). 2. Urine centrifugation and filtration for removal of cell debris. 3. Protein precipitation by applying methanol/chloroform separation for removal of all possible non-proteinic substances. 4. Protein digestion applying in-solution trypsin, pepsin, and Glu-C. 5. Peptide separation using nano HPLC and different chromatographic approaches. 1. Reversed phase (RP) separation of peptides and MS detection 2. Separation of peptides using HILIC (hydrophilic Interaction Liquid Chromatography) for discrimination of polar peptides. 3. In addition to RP and HILIC directly coupled to MS, digested peptides will be separated using multidimensional approaches. Weak anion exchange columns operated under HILIC conditions will be used to separate peptides carrying posttranslational modifications such as phosphorylation or acetylation, thus, increasing the dynamic range of detection. During this separation, fractions will be collected and re-injected onto the RP and HILIC with MS detection. 4. All nano HPLC separations will be performed using biocompatible separation system. Mass spectrometric analysis of digested peptides will be performed using two different detection methods: ion-trap and the time-of-flight (qToF) MS. qToF mass spectrometric detection and analysis will also be used for the label-free quantitation of peptides and proteins detected in samples. All measurements will be performed in triplicate to provide corrections for technical variability of separation and ionization. General database search will be performed using the Human SwissProt Database in its actual version at the time of analysis. Data search will be performed using Mascot (http://www.matrixscience.com/) and X!Tandem (http://www.thegpm.org/tandem/) search machines, and the final data allocation and filtering by using Scaffold (www.proteomsoftware.com). Statistical analysis: Data analysis will be conducted with the bioconductor package limma. Before data analysis, data will be filtered by excluding proteins with measurements with a low interquartile range. Groups will be compared by moderated paired t-statistics adjusting for age. Adjustment for multiple testing will be done by Benjamini-Hochberg correction controlling the FDR at 0.05. ;


Study Design


Related Conditions & MeSH terms


NCT number NCT02023502
Study type Observational
Source Medical University of Vienna
Contact
Status Completed
Phase
Start date November 2013
Completion date September 2015

See also
  Status Clinical Trial Phase
Recruiting NCT05534269 - Stress Urinary Incontinence Study to Assess Safety and Efficacy of Muvon's Muscle Precursor Cell Therapy Phase 2
Completed NCT01848938 - Treatment of Stress Urinary Incontinence Via Smartphone N/A
Completed NCT01699425 - Multicentric Comparative Randomized Study of the Single-incision Sling Ajust® Versus Suburethral Transobturator Slings. N/A
Completed NCT02418299 - Er:YAG Laser Treatment for Female Stress and Mixed Urinary Incontinence (IncontiLase) N/A
Completed NCT01094353 - A Comparative Study Minisling Versus Transobturator (TOT)Sling Phase 4
Completed NCT00910338 - Efficacy and Safety of Extracorporeal Biofeedback N/A
Completed NCT01290796 - Clinical Evaluation of Ajustâ„¢ in Stress Urinary Incontinence N/A
Recruiting NCT04131387 - The Safety and Efficacy of Micro-energy Ultrasound Therapy in the Treatment of Female Stress Urinary Incontinence N/A
Not yet recruiting NCT02981654 - Safety and Efficacy of Carbone Dioxide (CO2) Laser System in Treatment of Female Stress Urinary Incontinence. N/A
Completed NCT01032265 - Web-based Management of Female Stress Urinary Incontinence N/A