Clinical Trial Details
— Status: Not yet recruiting
Administrative data
| NCT number |
NCT06427993 |
| Other study ID # |
CH_Hematuria_Metest |
| Secondary ID |
|
| Status |
Not yet recruiting |
| Phase |
|
| First received |
|
| Last updated |
|
| Start date |
June 15, 2024 |
| Est. completion date |
December 31, 2025 |
Study information
| Verified date |
May 2024 |
| Source |
Changhai Hospital |
| Contact |
n/a |
| Is FDA regulated |
No |
| Health authority |
|
| Study type |
Observational
|
Clinical Trial Summary
Background: Hematuria, a common symptom of urinary system diseases, can result from various
causes including infection, stones, trauma, and tumors. Urothelial carcinoma (UC), the most
common malignancy of the urinary system, often presents with hematuria. Current diagnostic
methods like urine cytology and cystoscopy have limitations in sensitivity and specificity,
and cystoscopy is invasive. DNA methylation biomarkers offer potential for non-invasive UC
detection, improving diagnostic accuracy in hematuria patients.
Objective: This study aims to evaluate the diagnostic performance of DNA methylation
biomarkers in detecting UC in patients with hematuria.
Methods: This prospective pilot study will involve collecting preoperative urine samples from
hematuria patients for DNA methylation testing using MSRE-qPCR. Sample size calculation was
based on an assumed 25% prevalence of UC in hematuria patients, resulting in a total of 71
participants after accounting for a 20% dropout rate. Sensitivity, specificity, and
diagnostic performance will be assessed using ROC curves.
Conclusion: This study seeks to validate the effectiveness of urine DNA methylation testing
for UC detection in hematuria patients, providing a basis for its clinical application and
informing the design of larger future studies.
Description:
1. Background Hematuria is a common symptom of urinary system diseases and can be caused by
various factors, including infection, stones, trauma, and tumors. Urothelial carcinoma
(UC) is the most common malignant tumor of the urinary system, primarily occurring in
the bladder, renal pelvis, and ureter. The early symptoms of UC are often not obvious,
with hematuria being the most common symptom. However, current diagnostic methods such
as urine cytology and cystoscopy have limitations in sensitivity and specificity for
diagnosing UC. Additionally, cystoscopy is invasive and can cause discomfort for
patients. DNA methylation biomarkers have shown potential in detecting UC, providing a
non-invasive method to improve diagnostic sensitivity and specificity, especially in
patients with hematuria.
2. Objective This study aims to evaluate the diagnostic performance of DNA methylation
biomarkers in detecting urothelial carcinoma in patients with hematuria. By collecting
preoperative urine samples from a small cohort of hematuria patients and performing DNA
methylation testing, we aim to explore the feasibility and advantages of this method in
clinical applications.
3. Methods
Study Design:
This is a prospective pilot study aimed at evaluating the effectiveness of DNA
methylation biomarkers in detecting urothelial carcinoma in patients with hematuria.
Sample Size Calculation:
Based on our previous observations, the incidence of urothelial carcinoma in patients
with hematuria is 20%-30%, slightly higher than reported in other literature. Therefore,
we hypothesize that 25% of the patients in the hematuria cohort have UC. The group
allocation ratio (R): N-/N+ = 75%/25% = 3.
Assumptions:
Area under the curve (AUC) under H0: 0.5 AUC under H1: 0.8 Power: 0.95 Significance
level (Alpha): 0.05 Type of data: Continuous FPR range: 0.00 to 1.00
Results: Using PASS 15.0 software for sample size calculation to ensure sufficient
statistical power. The calculated sample size is:
N+ (number of patients with UC): 14 N- (number of patients without UC): 42 Total sample
size (N): 56
Considering a 20% dropout rate, the adjusted sample size is:
N+': 18 N-': 53 Total sample size (N'): 71
Inclusion and Exclusion Criteria:
Inclusion Criteria:
Aged between 18 and 99 years, with gross or microscopic hematuria (>3/HP). Able to
provide 50ml urine for testing before surgery. Consent to participate in the study and
sign the informed consent form.
Exclusion Criteria:
With history of malignancy or concomitant malignancies other than UC. Severe urinary
tract infection leading to sepsis. Patients with indwelling catheters, nephrostomy, or
cystostomy. Severe liver or kidney failure or other conditions deemed unsuitable for the
study.
Patients who did not undergo surgical treatment for various reasons. Samples with
insufficient DNA content or other quality control failures.
Sample Collection:
Clinicians will collect fresh urine samples from enrolled hematuria patients and record
their basic information, clinical information, and medical history.
Samples will be randomly numbered and provided to DNA methylation testing personnel to
ensure blinding.
Testing Method:
Urine samples were collected in EP Genomic DNA Kit with an automated nucleic acid
extraction instrument. Subsequently, 100 ng of genomic DNA was used for
methylation-sensitive restriction enzyme qPCR (MSRE-qPCR) detection as described
previously. Different from bisulfite PCR relying on bisulfite conversion, MSRE-qPCR is
based on the selective digestion of DNA by methylation-sensitive enzyme followed by qPCR
with primers that surround the cutting site.
Unblinding and Data Organization:
After the last sample is successfully enrolled and tested, non-recruiting personnel and
testing personnel will unblind the samples and organize clinical and pathological
information.
Data Analysis:
Using pathological results as the gold standard. Calculate the sensitivity, specificity,
positive predictive value, and negative predictive value of DNA methylation biomarkers.
Use statistical methods (such as ROC curves) to evaluate the diagnostic performance of
DNA methylation biomarkers and calculate the AUROC.
Ethics and Informed Consent:
This study has been approved by the hospital's ethics committee, and all participants
must sign an informed consent form.
4. Conclusion This study aims to validate the effectiveness of urine DNA methylation
testing in detecting urothelial carcinoma in patients with hematuria and provide
evidence for its clinical application. The results of this preliminary study will offer
essential data support and design optimization suggestions for future larger-scale
studies.
