Project description:The paper describes a model on the detection of cancer based on cancer and immune biomarkers. Created by COPASI 4.25 (Build 207) This model is described in the article: Improving cancer detection through combinations of cancer and immune biomarkers: a modelling approach Raluca Eftimie and and Esraa Hassanein J Transl Med (2018) 16:73 Abstract: Background: Early cancer diagnosis is one of the most important challenges of cancer research, since in many can- cers it can lead to cure for patients with early stage diseases. For epithelial ovarian cancer (which is the leading cause of death among gynaecologic malignancies) the classical detection approach is based on measurements of CA-125 biomarker. However, the poor sensitivity and specificity of this biomarker impacts the detection of early-stage cancers. Methods: Here we use a computational approach to investigate the effect of combining multiple biomarkers for ovarian cancer (e.g., CA-125 and IL-7), to improve early cancer detection. Results: We show that this combined biomarkers approach could lead indeed to earlier cancer detection. However, the immune response (which influences the level of secreted IL-7 biomarker) plays an important role in improving and/or delaying cancer detection. Moreover, the detection level of IL-7 immune biomarker could be in a range that would not allow to distinguish between a healthy state and a cancerous state. In this case, the construction of solu- tion diagrams in the space generated by the IL-7 and CA-125 biomarkers could allow us predict the long-term evolu- tion of cancer biomarkers, thus allowing us to make predictions on cancer detection times. Conclusions: Combining cancer and immune biomarkers could improve cancer detection times, and any predic- tions that could be made (at least through the use of CA-125/IL-7 biomarkers) are patient specific. Keywords: Ovarian cancer, Mathematical model, CA-125 biomarker, IL-7 biomarker, Cancer detection times This model is hosted on BioModels Database and identified by: MODEL1907050002. To cite BioModels Database, please use: BioModels Database: An enhanced, curated and annotated resource for published quantitative kinetic models. To the extent possible under law, all copyright and related or neighbouring rights to this encoded model have been dedicated to the public domain worldwide. Please refer to CC0 Public Domain Dedication for more information.

Project description:Aberrant DNA hypermethylation of CpG islands occurs frequently throughout the genome in human colorectal cancer (CRC). A genome-scale DNA hypermethylation analysis technique using plasma is attractive for the noninvasive early detection of CRC. The methylated CpG tandems amplification and sequencing (MCTA-Seq) method was applied to plasma samples from 147 CRC patients and 134 controls in which 5 from the CRC patients and 2 from the control subjects failed to pass a quality control value and were excluded from further analysis. The capacity of the method for discriminating CRC and hepatocellular carcinoma (HCC) was assessed. We identified many DNA methylation markers including known (e.g., SEPT9 and IKZF1) and novel (e.g., EMBP1, KCNQ5 and CHST11) CpG islands for detecting CRC in blood. A panel of 80 markers significantly discriminated early stage CRC and controls with a sensitivity of 78% and a specificity of 90%. This method can efficiently distinguish between early stage CRC and HCC. MCTA-Seq is a promising method for the noninvasive detection of CRC that also shows great potential for identifying the tissue of origin of cancer.

Project description:Increased incidence of oropharyngeal squamous cell carcinoma (OPSCC) is mainly related to Human Papilloma Virus (HPV) infection. As OPSCCs are often diagnosed at an advanced stage, mortality and morbidity remain high. There are no diagnostic biomarkers for early stage detection of OPSCC. Serum from 25 patients with stage I-II OPSCC and 12 disease- individuals were studied with quantitative label-free proteomics using ultra-definition MSE. Statistical analyses were performed to identify proteins most reliably distinguishing early stage OPSCCs from controls. P16 was used as a surrogate marker for HPV. P16-positive and -negative tumours were also analysed separately. With two or more unique proteins per identification, 176 proteins were quantified. A clear separation between patients with early-stage tumours and controls was seen in principal component analysis. Latent structures discriminant analysis identified 96 proteins most reliably differentiating OPSCC patients from controls, with 13 upregulated and 83 downregulated in study cases. The set of proteins was studied further with network, pathway and protein-protein interaction analyses, and found to participate in e.g. lipid metabolism. We identified patients with early stage OPSCC from controls based on their serum proteome, and suggest a protein set for further evaluation as a diagnostic biomarker panel for OPSCC.

Project description:The paper describes a model of glioma. Created by COPASI 4.26 (Build 213) This model is described in the article: A mathematical model of pre-diagnostic glioma growth Marc Sturrock, Wenrui Hao, Judith Schwartzbaum, Grzegorz A. Rempala J Theor Biol. 2015 September 7; 380: 299–308 Abstract: Due to their location, the malignant gliomas of the brain in humans are very difficult to treat in advanced stages. Blood-based biomarkers for glioma are needed for more accurate evaluation of treatment response as well as early diagnosis. However, biomarker research in primary brain tumors is challenging given their relative rarity and genetic diversity. It is further complicated by variations in the permeability of the blood brain barrier that affects the amount of marker released into the bloodstream. Inspired by recent temporal data indicating a possible decrease in serum glucose levels in patients with gliomas yet to be diagnosed, we present an ordinary differential equation model to capture early stage glioma growth. The model contains glioma-glucose-immune interactions and poses a potential mechanism by which this glucose drop can be explained. We present numerical simulations, parameter sensitivity analysis, linear stability analysis and a numerical experiment whereby we show how a dormant glioma can become malignant. To cite BioModels Database, please use: BioModels Database: An enhanced, curated and annotated resource for published quantitative kinetic models . To the extent possible under law, all copyright and related or neighbouring rights to this encoded model have been dedicated to the public domain worldwide. Please refer to CC0 Public Domain Dedication for more information.

Project description:Expression data from early stage CRC patients' tumors [Affymetrix]

Project description:Expression data from early stage CRC patients' tumors [Agilent]

Project description:Esophageal squamous cell carcinoma (ESCC) patients are usually diagnosed at late stages, prohibiting the chance of surgical cure. The obstacle partly comes from the lack of molecular markers for early detection. Moreover, there is no consensus about endoscopic surveillance for ESCC. This study aimed to identify noninvasive markers for ESCC detection. By microarray-based screening of 17 pairs of human ESCC specimens, we identified that secreted protein matrix metalloproteinase-1 (MMP1) may be associated with the presence of ESCC. The tumor and adjacent normal tissues were obtained from 17 male ESCC patients who underwent total esophagectomy without previous cancer treatment at Kaohsiung Medical University Hospital (KMUH)

Project description:Background and Aims: RNA biomarkers derived from sloughed enterocytes would provide an ideal, non-invasive method for early detection of colorectal cancer (CRC) and precancerous adenomas. To realize this goal, a highly reliable method to isolate preserved human RNA from stool samples is needed. Here we develop a protocol to identify RNA biomarkers associated with CRC to assess the use of these biomarkers for noninvasive screening of disease. Methods: Stool samples were collected from 454 patients prior to a colonoscopy. A nucleic acid extraction protocol was developed to isolate human RNA from 330 stool samples and transcript abundances were estimated by microarray analysis. This 330-patient cohort was split into a training set of 265 individuals to develop a machine learning model and a testing set of 65 individuals to determine the model’s ability to detect colorectal neoplasms. Results: Analysis of the transcriptome from 265 individuals identified 200 transcript clusters as differentially expressed (p<0.03). These transcripts were used to build a Support Vector Machine (SVM) based model to classify 65 individuals within the testing set. This SVM algorithm attained a 95% sensitivity for precancerous adenomas and a 65% sensitivity for CRC (stage I-IV). The machine learning algorithm attained a specificity of 59% for healthy individuals and an overall accuracy of 72.3%. Conclusions: We developed an RNA-based neoplasm detection model that is sensitive for CRC and precancerous adenomas. The model allows for non-invasive assessment of tumors and could potentially be used to provide clinical guidance for individuals within the screening population for colorectal cancer.

Project description:Esophageal squamous cell carcinoma (ESCC) patients are usually diagnosed at late stages, prohibiting the chance of surgical cure. The obstacle partly comes from the lack of molecular markers for early detection. Moreover, there is no consensus about endoscopic surveillance for ESCC. This study aimed to identify noninvasive markers for ESCC detection. By microarray-based screening of 17 pairs of human ESCC specimens, we identified that secreted protein matrix metalloproteinase-1 (MMP1) may be associated with the presence of ESCC.

Project description:Background: The lack of highly sensitive and specific diagnostic biomarkers is a major contributor to the poor outcomes of patients with hepatocellular carcinoma (HCC). We sought to develop a non-invasive diagnostic approach using circulating cell-free DNA (cfDNA) for the early detection of HCC. Methods: Applying the 5hmC-Seal technique, we obtained genome-wide 5-hydroxymethylcytosines (5hmC) in cfDNA samples from 2,554 Chinese subjects: 1,204 HCC patients, 392 patients with chronic hepatitis B virus infection (CHB) or liver cirrhosis (LC), and 958 healthy individuals and patients with benign liver lesions. A diagnostic model for early HCC was developed through case-control analyses using the elastic net regularization for feature selection. Results: The 5hmC-Seal data from HCC patients showed a genome-wide distribution enriched with liver-derived enhancer marks. We developed a 32-gene diagnostic model that accurately distinguished early HCC (stage 0/A) based on the Barcelona Clinic Liver Cancer (BCLC) staging system from non-HCC (validation set: AUC = 88.4%; 95% CI, 85.8-91.1%), showing superior performance over α-fetoprotein (AFP). Besides detecting patients with early stage or small tumors (e.g., ≤ 2.0 cm) from non-HCC, the 5hmC model showed high capacity for distinguishing early HCC from high risk subjects with CHB or LC history (validation set: AUC = 84.6%; 95% CI, 80.6-88.7%), also significantly outperforming AFP. Furthermore, the 5hmC diagnostic model appeared to be independent from potential confounders (e.g., smoking/alcohol intake history). Conclusions: We have developed and validated a non-invasive approach with clinical application potential for the early detection of HCC that are still surgically resectable in high risk individuals.