Colorectal Cancer Clinical Trial
Official title:
Non-invasive Auxiliary Diagnosis of Colorectal Cancer and Advanced Adenoma by Detecting Cancer-specific Methylation Signatures in Plasma ctDNA
Colorectal cancer is a common malignant tumor of the digestive tract. It is still a
challenging task to detect colorectal cancer at an early stage. Studies have found that DNA
methylation has a relationship with the occurrence and development of tumors. Singlera
Genomics Inc. has invented the proprietary methyl-Titan sequencing technology and developed a
detection method for colorectal cancer and advanced adenoma (Adenoma/Colorectal cancer Early
detection, ACE) using the cancer-specific methylation markers. ACE is a blood-based
non-invasive diagnostic technique. It has high compliance rate compared with colonoscopy, and
sampling is more convenient than stool testing. It also has much higher sensitivity compared
to existing blood testing methods.
The current study plans to use ACE method to analyze ctDNA in the blood for the
cancer-specific DNA methylation markers to aid in the differential diagnosis of patients with
colorectal cancer or adenoma. This technique will greatly reduce the discomfort in the
diagnosis of suspected patients and improve the diagnosis of high-risk population of
colorectal cancer.
The goals of this study are: 1) to establish a detection system based on plasma ctDNA
methylation sequencing technology for the auxiliary diagnosis of colorectal cancer and
adenoma, 2) to assess the diagnostic value of plasma ctDNA methylation signature for
colorectal cancer and adenoma, and 3) to assess the association of plasma ctDNA methylation
signals with colonoscopy results and pathological results of surgical specimens.
A total of 1300 patients (700 cases positive and 600 cases negative) aging between 45 and 80
years old will be enrolled. Colonoscopy will be performed to determine whether patients are
positive or negative. Positive patients who need surgical resection will be further
classified according to their surgical histopathological results. For negative patients, the
type of lesion will be clarified. The plasma samples of all subjects will be analyzed for
cancer-specific ctDNA methylation profiles. Based on the results of plasma ctDNA methylation
test, the risks of colorectal cancer of the enrolled subjects are scored. Combined with the
grouping information, the clinical application value of the cancer-specific methylation
profile for early cancer diagnosis will be assessed.
1. Research Background
1.1 Diagnosis of colorectal cancer Colorectal cancer is a common malignant tumor of the
digestive tract. According to statistics from 2015, both morbidity and mortality of
colorectal cancer in China are among the top five of all cancers. Studies have shown
that the five-year survival rate of patients can achieve 90% if patients are diagnosed
before the spread of tumor cells. However only 40% of patients are currently diagnosed
at early stage. Therefore, treatment in the early stage of the disease is a necessary
means to cope with colorectal cancer. The main method used clinically for diagnosis is
colonoscopy. This method is accurate, but limited by many factors, such as diarrhea,
intestinal perforation, and need to be prepared in many ways before the examination. The
patients need to eat fluid diet, clean the intestines, etc. Other diagnostic methods
such as imaging, histopathological examination have a low detection rate, or cause
damage to the organ. Therefore, it is a still challenging task to detect colorectal
cancer at an early stage.
1.2 Detection of ctDNA methylation in colorectal cancer patients and clinical studies
Epigenetics refers to a heritable phenotypic change without a change in the primary
sequence of the DNA. DNA methylation is one of the epigenetic modification pathways,
which can cause changes in chromatin structure and DNA stability, and regulate gene
transcription and expression. Studies have found that DNA methylation has an close
relationship with the occurrence and development of tumors. DNA methylation changes
occur at numerous sites of DNA in tumor cells as compared to normal cells. Further
studies show that DNA methylation occur early in the process of cancer, making it
possible to use DNA methylation for early screening of cancer.
Based on the research paper published by professor Kun Zhang in Nature Genetics,
Singlera Genomics Inc. invented the proprietary methyl-Titan sequencing technology and
developed a detection method for colorectal cancer and advanced adenoma
(Adenoma/Colorectal cancer Early detection, ACE). ACE is a blood-based non-invasive
diagnostic technique. It has high compliance rate compared with colonoscopy, and
sampling is more convenient than stool testing. It also has much higher sensitivity
compared to existing blood testing methods. Based on these advantages, the ACE
technology is suitable for early colorectal cancer diagnosis.
During the development stage Singlera Genomics Inc. used a high-throughput and
high-coverage screening method for 4 million CpG methylation sites in the genome, and
analyzed different stages of colorectal cancer, adenoma, polyp tissue samples and paired
normal tissues to screen colorectal cancer-related methylation sites. Plasma samples
from cancer patients and healthy people were also analyzed to select ctDNA methylation
markers for colorectal cancer.
The current study plans to use ACE method to analyze ctDNA in the blood for the
cancer-specific DNA methylation markers to aid in the differential diagnosis of patients
with colorectal cancer and adenoma. This technique will greatly reduce the discomfort in
the diagnosis of suspected patients and improve the diagnosis of high-risk population of
colorectal cancer. The higher detection rate is beneficial to the early detection and
early treatment of colorectal cancer, which will effectively save medical costs and
improve the survival rate of patients.
2. Research goals
2.1. Primary goals To establish a detection system based on plasma ctDNA methylation
sequencing technology for the auxiliary diagnosis of colorectal cancer and adenoma; To
assess the diagnostic value of plasma ctDNA methylation signature for colorectal cancer
and adenoma.
2.2. Secondary goals To assess the association of plasma ctDNA methylation signals with
colonoscopy results and pathological results of surgical specimens.
3. Research Overview
3.1 Research design and planning This study was a prospective, open, controlled,
multicenter study. The enrolled samples contain a positive group (including colorectal
cancer stage I-IV, advanced adenoma) and a negative group (non-advanced adenoma,
patients with negative pathological examination, healthy people with negative
colonoscopy results, benign hyperplasia and inflammatory colorectal disease without
dysplasia). The sample sizes are: 700 cases positive and 600 cases negative.
3.2 Number of cases and grouping scheme This trial plans to enroll 1300 subjects, which
will be assigned into two groups. The positive group includes 300 cases of colorectal
cancer (stage I-IV) and 400 cases of advanced adenoma (high grade dysplasia, villous
adenoma, tubular adenoma, serrated lesions, etc.). The negative group (600 cases in
total) includes: non-advanced adenomas (size≤10mm, no less than 100 cases), inflammatory
colorectal disease, benign hyperplasia, tumor-free patients upon histopathological
review, and normal healthy people.
3.3 Research procedure
3.3.1 Patient screening The researcher will ask each subject for basic information,
history of illness, family history, medication history, and whether or not they have
participated related clinical trials to determine if they meet the inclusion criteria.
Based on their records the subjects who meet the inclusion criteria are first divided in
a simple positive group and a negative group. An informed consent form will be signed
for each enrolled patient.
All subjects who complete the initial grouping will have their peripheral venous blood
collected before undergoing colonoscopy and clinical management. 20 ml of the blood
sample is centrifuged according to the ctDNA detection plasma separation requirements.
The supernatant plasma is collected and immediately refrigerated.
3.3.2 Clinical exam Colonoscopy is performed on all subjects (except those having
surgical pathology results). For patients with intestinal lesions, colonoscopy is
performed to determine whether they are positive or negative. Positive patients who need
surgical resection will be further classified according to their surgical
histopathological results. For negative patients, the type of lesion should be
clarified.
3.3.3 ACE testing All the plasma samples of the subjects assigned to specific groups are
transported to Shanghai Singlera Genomics Inc. (No. 20, Lane 500, Furonghua Road, Pudong
New Area, Shanghai). cfDNA is extracted from patient plasma, and cancer-specific DNA
methylation profile is analyzed. According to the results of plasma ctDNA methylation
test, the risk of colorectal cancer of the enrolled subjects is scored, and combined
with grouping information to assess the clinical application value of the
cancer-specific methylation profile in ctDNA for early cancer and adenoma diagnosis.
3.4 End point determination The positive subjects are determined based on the results of
surgical histopathological examination; the negative subjects are determined based on
colonoscopy results.
The ctDNA methylation profile is analyzed for positive and negative subjects.
4. Statistical analysis
4.1 Sample size estimation The results of this study are colorectal cancer-specific
methylation signals from peripheral blood ctDNA. The methylation signals will all be
superimposed with a certain weight, and the final score is in a single number form. Our
preliminary results showed that the mean value of the control group (μ1) was 0.36, and the
mean value of the test group (μ2) was 0.73. The mean difference between groups was δ = μ2 -
μ1= 0.37, the standard deviation σ of the overall sample standard deviation s is 0.42. Set
the check level α to 0.005 on both sides. The verification performance β is 0.005, and the t
value table is queried to obtain t(α) = 2.807, t(β) = 2.576.
The following formula is used to calculate the sample size:
n = 2*((tα + tβ)*S/δ)2
The calculated result is n = 74.68, which is rounded to 75. Considering that the enrolled
samples may have 25% unusable cases, the minimum test group sample size was set to 100 cases.
Positive group 1, colorectal cancer stage I-IV, no need to allocate groups in each
sub-category. Considering balancing the number of samples between other groups, the sample
size is set to 300 cases.
Positive group 2, advanced adenoma, according to the "Guidelines for the diagnosis and
treatment of colorectal cancer", the advanced adenomas are divided into four categories.
There is no need for equal distribution in different categories, with an average of 100 cases
per category, for a total of 400 cases.
The negative group is divided into three categories. Non-advanced adenomas need to be
differentiated from positive adenomas in positive group 2, and need a minimum sample size of
100 cases. Other categories do not require a specific sample size. Considering balancing with
other groups the sample size is set to a total of 600 cases.
4.2 Statistics and data analysis Sequencing data for each sample was evaluated for sequencing
quality using a variety of parameters, including whether the sequencing data reaches a preset
level; whether the Q30 value is acceptable; whether the CpG site is balanced, whether the
coverage is up to standard, whether the amplicon sequencing depth is as expected, and whether
the sequencing uniformity is acceptable.
The cancer-specific DNA methylation signals in the sequencing results are summarized and
analyzed according to the model established in our previous studies. Each signal value is
superimposed with a certain weight to obtain a methylation score for each sample. Combined
with the grouping information of each sample, PCA, clustering and other classification
analysis are performed for each sample. The methylation signals are then converted to a
colorectal cancer/adenoma risk score.
Based on the differences of risk scores between negative group and positive group, the
sensitivity, specificity, and positive predicted values are calculated, and the clinical
application efficacy of the cancer-specific methylation signal in plasma ctDNA is evaluated.
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