Clinical use of donor-derived cell-free DNA in kidney transplantation

Traditional monitoring of kidney transplant recipients for allograft dysfunction caused by rejection involves serial checks of serum creatinine with biopsy of the renal allograft if dysfunction is suspected.This approach is labor-intensive,invasive and costly.In addition,because this approach relies on a rise in serum creatinine above historical baselines,injury to the allograft can be extensive before this rise occurs.In an effort to address this,donor-derived cell-free DNA(dd-cf DNA)is being used with increasing frequency in the clinical setting as a means of diagnosing a rejection of the renal allograft early in the course.This can poten-tially allow for early intervention to minimize not only injury,but the intensity of antirejection therapy needed and the avoidance of side effects.Here,we will review the available methodology for the determination and quantification of dd-cf DNA,the data supporting its use in clinical practice and the limitations of this technology.

Cell-free DNA in the management of prostate cancer:Current status and future prospective

Objective:With the escalating prevalence of prostate cancer(PCa)in China,there is an urgent demand for novel diagnostic and therapeutic approaches.Extensive investigations have been conducted on the clinical implementation of circulating free DNA(cfDNA)in PCa.This review aims to provide a comprehensive overview of the present state of cfDNA as a biomarker for PCa and to examine its merits and obstacles for future clinical utilization.Methods:Relevant peer-reviewed manuscripts on cfDNA as a PCa marker were evaluated by PubMed search(2010-2022)to evaluate the roles of cfDNA in PCa diagnosis,prognosis,and prediction,respectively.Results:cfDNA is primarily released from cells undergoing necrosis and apoptosis,allowing for non-invasive insight into the genomic,transcriptomic,and epigenomic alterations within various PCa disease states.Next-generation sequencing,among other detection methods,enables the assessment of cfDNA abundance,mutation status,fragment characteristics,and epigenetic modifications.Multidimensional analysis based on cfDNA can facilitate early detection of PCa,risk stratification,and treatment monitoring.However,standardization of cfDNA detection methods is still required to expedite its clinical application.Conclusion:cfDNA provides a non-invasive,rapid,and repeatable means of acquiring multidimensional information from PCa patients,which can aid in guiding clinical decisions and enhancing patient management.Overcoming the application barriers of cfDNA necessitates increased data sharing and international collaboration.

Revolutionizing Non-Invasive Biomarker Discoveries: The Power of Methylation Screening Analysis in Cell-Free DNA Liquid Biopsy

Epigenetic changes of DNA, including methylation, have long been recognized as key indicators of various diseases, including aging, cancer, and neurological disorders. Biomarker discoveries based on distinct methylation patterns for both hypermethylation and hypomethylation lead the way in discovery of novel diagnosis and treatment targets. Many different approaches are present to detect the level of methylation in whole genome (whole genome bisulfite sequencing, microarray) as well as at specific loci (methylation specific PCR). Cell-free DNA (cf-DNA) found in body fluids like blood provides information about DNA methylation and serves as a less invasive approach for genetic screening. Cell-free DNA and methylation screening technologies, when combined, have the potential to transform the way we approach genetic screening and personalized therapy. These technologies can help enhance disease diagnostic accuracy and inform the development of targeted therapeutics by providing a non-invasive way for acquiring genomic information and identifying disease-associated methylation patterns. We highlight the clinical benefits of using cell-free DNA (cf-DNA) liquid biopsy analysis and available methylation screening technologies that have been crucial in identifying biomarkers for disease from patients using a non-invasive way. Powering such biomarker discoveries are various methods of cf-DNA methylation analysis such as Bisulfite Sequencing and most recently, Methylation-Specific Restriction Enzyme (MSRE-seq) Analysis, paving the way for novel epigenetic biomarker discoveries for more robust diagnosis such as early disease detection, prognosis, monitoring of disease progression and treatment response as well as discovery of novel drug targets.

Quick recovery and characterization of cell-free DNA in seminal plasma of normozoospermia and azoospermia： implications for non-invasive genetic utilities

We established a quick and reliable method for recovering cell-free seminal DNA （cfsDNA）, by using the binding-washing-elution procedure on the DNA purification column. Low variations （below 15%） among the triplicate values of cfsDNA quantity verified the reproducibility of our cfsDNA recovery method. Similar cfsDNA yield and size distribution between seminal plasma acquired by filtration and centrifugation confirmed the presence of cfsDNA. To investigate the general characterization of cfsDNA, the quantitation and size distribution of cfsDNA from normozoospermic and azoospermic semen were analyzed by real-time PCR and electrophoresis, respectively. CfsDNA concentration in semen with normozoospermia （n = 11） was 1.34 ± 0.65 μg ·mL^-1, whereas a higher cfsDNA concentration was observed in azoospermia （2.56 ± 1.43 μg ·mL^-1, n = 9）. The continuous distribution of DNA fragments ranging from -1 kb to 15 kb and a spectrum of multiples of 180-bp fragments were observed in each normozoospermic and azoospermic sample. Distinct characteristic DNA ladder fragmentations in some azoospermic samples implicated that cfsDNA originate partly from apoptotic cells. CfsDNAs of 36 selected azoospermic patients with known information of Y chromosome microdeletion were subjected to the same microdeletion analysis by multiplex PCR and PCR amplification of sY114 （1 450 bp）. All multiplex PCR reactions with cfsDNA amplified successfully and provided the same result as leukocyte DNA. PCR amplification of sY114 gave a 1 450-bp amplicon as expected. Our data suggested the potential use of cfsDNA in search of biomarker or diagnostic procedures.

Value of dynamic plasma cell-free DNA monitoring in septic shock syndrome: A case report

BACKGROUND Mortality due to septic shock is relatively high.The dynamic monitoring of plasma cell-free DNA(cfDNA)can guide the treatment of septic shock.CASE SUMMARY Herein,we present a typical case of septic shock syndrome caused by the bacilli Acinetobacter baumannii and Pantoea.The patient complained of abdominal pain,fever and chills upon admission to the Emergency Department.Marked decreases in white blood cells and procalcitonin(PCT)were observed after the patient received continuous renal replacement and extracorporeal membrane oxygenation.Plasma cfDNA levels were consistently high,peaking at 1366.40 ng/mL,as measured by a duplex real-time PCR assay with an internal control,which was developed as a novel method for the accurate quantification of cfDNA.The patient died of septic shock on HD 8,suggesting that cfDNA could be used to monitor disease progression more effectively than PCT and the other inflammatory factors measured in this case.CONCLUSION CfDNA may be a promising marker that complements other inflammatory factors to monitor disease progression in patients with septic shock.

Donor-specific cell-free DNA as a biomarker in liver transplantation:A review

Due to advances in modern medicine,liver transplantation has revolutionised the prognosis of many previously incurable liver diseases.This progress has largely been due to advances in immunosuppressant therapy.However,despite the judicious use of immunosuppression,many liver transplant recipients still experience complications such as rejection,which necessitates diagnosis via invasive liver biopsy.There is a clear need for novel,minimally-invasive tests to optimise immunosuppression and improve patient outcomes.An emerging biomarker in this‘‘precision medicine’‘liver transplantation field is that of donorspecific cell free DNA.In this review,we detail the background and methods of detecting this biomarker,examine its utility in liver transplantation and discuss future research directions that may be most impactful.

Cell-free DNA liquid biopsy for early detection of gastrointestinal cancers:A systematic review

BACKGROUND Gastrointestinal tumors are among the most common cancer types,and early detection is paramount to improve their management.Cell-free DNA(cfDNA)liquid biopsy raises significant hopes for non-invasive early detection.AIM To describe current applications of this technology for gastrointestinal cancer detection and screening.METHODS A systematic review of the literature was performed across the PubMed database.Articles reporting the use of cfDNA liquid biopsy in the screening or diagnosis of gastrointestinal cancers were included in the analysis.RESULTS A total of 263 articles were screened for eligibility,of which 13 articles were included.Studies investigated colorectal cancer(5 studies),pancreatic cancer(2 studies),hepatocellular carcinoma(3 studies),and multi-cancer detection(3 studies),including gastric,oesophageal,or bile duct cancer,representing a total of 4824 patients.Test sensitivities ranged from 71% to 100%,and specificities ranged from 67.4% to 100%.Pre-cancerous lesions detection was less performant with a sensitivity of 16.9% and a 100% specificity in one study.Another study using a large biobank demonstrated a 94.9% sensitivity in detecting cancer up to 4 years before clinical symptoms,with a 61% accuracy in tissue-of-origin identification.CONCLUSION cfDNA liquid biopsy seems capable of detecting gastrointestinal cancers at an early stage of development in a non-invasive and repeatable manner and screening simultaneously for multiple cancer types in a single blood sample.Further trials in clinically relevant settings are required to determine the exact place of this technology in gastrointestinal cancer screening and diagnosis strategies.

Detection of EGFR-SEPT14 fusion in cell-free DNA of a patient with advanced gastric cancer: A case report

BACKGROUND Gastric cancer is the fifth most diagnosed cancer worldwide and the third most common cause of cancer-related death.In recent decades,increasing application of next-generation sequencing has enabled detection of molecular aberrations,including fusions.In cases where tissue is difficult to obtain,cell-free DNA(cfDNA)is used for detecting mutations to identify the molecular profile of cancer.Here,we report a rare case of EGFR-SEPT14 fusion detected from cfDNA analysis in a patient with gastric cancer.CASE SUMMARY A 49-year-old female diagnosed with advanced gastric cancer in July 2019 received capecitabine and then combination chemotherapy of ramucirumab and paclitaxel,but ascites was detected.The therapy was switched to nivolumab,but disease progression was observed on a positron emission tomography/computed tomography scan in May 2020.Therapy was discontinued,and cfDNA nextgeneration sequencing was immediately evaluated.All genomic variants,including fusions,were analyzed from cfDNA.The following somatic alterations were detected from the patient’s cfDNA:an APC frameshift mutation(NM_000038.5:c.6579del,p.V2194fs)with variant allele frequency of 0.5%,an EGFR amplification with a copy number of 17.3,and an EGFR-SEPT14 fusion with variant allele frequency of 45.3%.The site of the fusion was exon 24 of EGFR fused to exon 10 of SEPT14.The fusion was in-frame and considered to be protooncogenic. Although the patient refused to continue therapy, we suggest thatEGFR-targeted therapies be tried in such future cases.CONCLUSIONThe expanded applications of the cfDNA assay may open a new horizon intreatment of patients with advanced gastric cancer.

Role of cell-free DNA for predicting incidence and outcome of patients with ischemic stroke

Early diagnosis and prognosis of ischemic stroke remains a critical challenge in clinical settings.A blood biomarker can be a promising quantitative tool to represent the clinical manifestations in ischemic stroke.Cell-free DNA(cfDNA)has recently turned out to be a popular circulating biomarker due to its potential relevance for diagnostic applications in a variety of disorders.Despite bright outlook of cfDNA in clinical applications,very less is known about its origin,composition,or function.Several recent studies have identified cell-derived mitochondrial components including mitochondrial DNA(mtDNA)in the extracellular spaces including blood and cerebrospinal fluid.However,the time course of alterations in plasma mtDNA concentrations in patients after an ischemic stroke is poorly understood.DNA is thought to be freed into the plasma shortly after the commencement of an ischemic stroke and then gradually decreased.However,the importance of cell-free mtDNA(cf-mtDNA)in ischemic stroke is still unknown.This review summarizes about the utility of biomarkers which has been standardized in clinical settings and role of cfDNA including cfmtDNA as a non-invasive potential biomarker of ischemic stroke.

Emerging role of cell-free DNA in kidney transplantation

Monitoring kidney transplants for rejection conventionally includes serum creatinine,immunosuppressive drug levels,proteinuria,and donor-specific antibody(DSA).Serum creatinine is a late marker of allograft injury,and the predictive ability of DSA regarding risk of rejection is variable.Histological analysis of an allograft biopsy is the standard method for diagnosing rejection but is invasive,inconvenient,and carries risk of complications.There has been a long quest to find a perfect biomarker that noninvasively predicts tissue injury caused by rejection at an early stage,so that diagnosis and treatment could be pursued without delay in order to minimize irreversible damage to the allograft.In this review,we discuss relatively novel research on identifying biomarkers of tissue injury,specifically elaborating on donor-derived cell-free DNA,and its clinical utility.

Clinical Value of Peripheral Blood Circulating Tumor Cells and Cell-Free DNA Combined Detection in Triple-Negative Breast Cancer

Objective:To determine the clinical value of combined detection of circulating tumor cells(CTCs)and cell-free DNA(cfDNA)in peripheral blood of patients with triple-negative breast cancer.Method:41 patients with breast cancer admitted to the First Central Hospital of Baoding from January 2020 to December 2021 were selected and recruited into the experimental group,42 patients with benign breast cancer admitted during the same period were recruited into the conditional control group,and 41 healthy patients admitted during the same period were recruited into the blank control group.The positive rate of peripheral blood CTCs,the level of cfDNA,and the diagnostic efficacy of peripheral blood CTCs,cfDNA alone and the combination thereof for breast cancer were analyzed.Result:The positive rates of peripheral blood CTCs in the experimental group,the conditional control group,and the blank control group were 43.90%,11.90%,and 9.74%,respectively,and there was significant difference among the groups.The levels of cfDNA in peripheral blood of the experimental group,the conditional control group,and the blank control group were 0.26±0.08 bp,0.17±0.03 bp,and 0.15±0.04 bp,respectively,which were statistically significant.The detection levels of 100 bp hTERT/ng mT1 and 241 bp hTERT/ng-mT1 in the experimental group were significantly higher than those in the conditional control group and the blank control group.The accuracy of peripheral blood CTCs detection in the three groups was 66.21%,the accuracy of cfDA241 bp/100 hp hTERT detection was 80.41%,and the accuracy of combined detection of peripheral blood CTCs and cfDNA was 94.03%.Conclusion:The clinical application of peripheral blood CTCs combined with cfDNA level detection can increase detection accuracy,provide data support for clinicians,and improve the clinical diagnostic effect of triple-negative breast cancer.

Value of circulating cell-free DNA in diagnosis of hepatocelluar carcinoma

AIM:To investigate the value of combined detection of circulating cell-free DNA(cfDNA),a-fetal protein(AFP) and a L-fucosidase(AFU) for diagnosis of hepatocellular carcinoma(HCC).METHODS:Serum samples from 39 HCC patients and 45 normal controls were collected.Branched DNA(bDNA) was used to detect the level of cfDNA,and a receiver operating characteristic curve was employed to evaluate the diagnostic sensitivity,specificity,accuracy,positive predictive value,negative predictive value,positive likelihood ratio,negative likelihood ratio and Youden index,and to assess the diagnostic efficiency and their correlations with the clinicopathological features.AFP and AFU were detected by chemiluminescence and colorimetry,respectively.The significance of combined detection of the three biomarkers was discussed.RESULTS:cfDNA level was increased in 22 of the 39 HCC samples and in 2 of the 45 normal controls.cfDNA level in HCC samples was significantly higher than that in normal controls(P < 0.05).There were significant differences in sex and extra-and intrahepatic metastasis(P < 0.05).There was no significant correlation between cfDNA,AFP and AFU in the detection of HCC.The sensitivity of combined detection of cfDNA with one marker(AFP or AFU) and cfDNA with two markers(AFP and AFU) was 71.8%,87.2% and 89.7% vs 56.4%,53.8% and 66.7% for cfDNA,AFP and AFU used alone,respectively,the difference being statistically significant(P < 0.05).CONCLUSION:Quantitative analysis of cfDNA is sensitive and feasible,and the combined detection of cfDNA with AFP or AFU or both could improve the diagnostic sensitivity for HCC.

Detection of fusion gene in cell-free DNA of a gastric synovial sarcoma

Synovial sarcoma(SS) is genetically characterized by chromosomal translocation, which generates SYT-SSX fusion transcripts. Although SS can occur in any body part, primary gastric SS is substantially rare. Here we describe a detection of the fusion gene sequence of gastric SS in plasma cell-free DNA(cf DNA). A gastric submucosal tumor was detected in the stomach of a 27-year-old woman and diagnosed as SS. Candidate intronic primers were designed to detect the intronic fusion breakpoint and this fusion sequence was confirmed in intron 10 of SYT and intron 5 of SSX2 by genomic polymerase chain reaction(PCR) and direct sequencing. A locked nucleic acid(LNA) probe specificto the fusion sequence was designed for detecting the fusion sequence in plasma and the fusion sequence was detected in preoperative plasma cfD NA, while not detected in postoperative plasma cfD NA. This technique will be useful for monitoring translocation-derived diseases such as SS.

Multiple z-Score Based Method for Noninvasive Prenatal Test Using Cell-Free DNA in Maternal Plasma

Objective: To improve the detecting accuracy of chromosomal aneuploidy of fetus by non-invasive prenatal testing (NIPT) using next generation sequencing data of pregnant women’s cell-free DNA. Methods: We proposed the multi-Z method which uses 21 z-scores for each autosomal chromosome to detect aneuploidy of the chromosome, while the conventional NIPT method uses only one z-score. To do this, mapped read numbers of a certain chromosome were normalized by those of the other 21 chromosomes. Average and standard deviation (SD), which are used for calculating z-score of each sample, were obtained with normalized values between all autosomal chromosomes of control samples. In this way, multiple z-scores can be calculated for 21 autosomal chromosomes except oneself. Results: Multi-Z method showed 100% sensitivity and specificity for 187 samples sequenced to 3 M reads while the conventional NIPT method showed 95.1% specificity. Similarly, for 216 samples sequenced to 1 M reads, Multi-Z method showed 100% sensitivity and 95.6% specificity and the conventional NIPT method showed a result of 75.1% specificity. Conclusion: Multi-Z method showed higher accuracy and robust results than the conventional method even at low coverage reads.

The Prognostic Value of Cell-Free DNA in Advanced Non-Small-Cell Lung Cancer

Background: Cell-free DNA (cfDNA) holds promise as a tumor marker of clinical importance. We aimed to investigate the prognostic value of baseline cfDNA in non small-cell lung cancer (NSCLC). Material and Methods: During a three-year period, patients with newly diagnosed, previously untreated advanced NSCLC were included in a consecutive, prospective marker-trial. Plasma was isolated from a pre-treatment peripheral blood sample and the level of total cfDNA was measured by an in-house assay qPCR-method. The treatment comprised carboplatin (AUC 5) intravenously day 1), and vinorelbine (30 mg/m2 intravenously day 1 and 60 mg/m2 perorally day 8) q3w for a maximum of six cycles. The primary end-point was overall survival (OS). Secondary end-points were progression free survival (PFS) and overall response rate (ORR). Results: 245 patients were included and received a minimum of 1 cycle of chemotherapy (median 4). The median OS was 8.9 months, the median PFS by intention to treat 5.4 months and the ORR was 25%. The patients were divided into four groups based on quartiles of cfDNA and subsequently dichotomized by the 75th percentile revealing a significantly worse prognosis for patients in the upper 75th percentile (median OS 4.9 months) compared to patients with lower levels (10.0 months) (HR 2.1, 95%CI 1.4 - 3.1, p 0.0001). A multivariate analysis confirmed the independent prognostic value of cfDNA. A subgroup analysis of patients with high cfDNA and poor performance status (PS = 2) identified a group of patients with even worse prognosis (median OS 2.0 versus 9.1 months, HR 3.6, 95%CI 1.4 - 9.2, p 0.0001). Similar and significant results were found when comparing level of cfDNA and PFS. Conclusions: High pre-treatment level of cfDNA seems to have a strong prognostic impact in patients with newly diagnosed advanced NSCLC. Combined with PS it identifies a patient group with minimal or no benefit of chemotherapy.

Isolation of Cell-Free DNA from Seminal Fluid

Cell-flee DNA （cfDNA） is small short double stranded molecule that is also found in seminal fluid. It is a product ofapoptotic cells in different developmental stages during spermatogenesis. To final concentration of total cfDNA in semen contributesalso cfDNA secreted from living cells and cfDNA that is result of different diseases e.g. prostate cancer or infertility. Amendedconcentration （high or low） can be connected to prostate cancer or male infertility and can represent important non-invasive diagnosticbiomarker for detection and prognosis of these pathological conditions. In this paper, I will discuss different approaches for isolation ofcfDNA from seminal fluid, which includes selection of the samples, separation, isolation, extraction, purification and analysis. Today＇smost popular approach for isolation is the use of commercial kits based on selective binding and elution on silica-membrane technology,magnetic-bead technology or extraction with organic solvents and salting out procedure. Furthermore I will present that I tried to isolatecfDNA from semen with QIAamp DNA Mini Kit to confirm the presence of cell-free DNA in our samples. In the end I will describeproblems we are facing during cfDNA measurement which are mainly associated with low concentration of cfDNA in samples.

Vangenes Cell-Free DNA采血管与 Streck Cell-Free DNA采血管在无创产前检测应用中的效果比较

目的:比较Vangenes■Cell-Free DNA采血管和Streck■Cell-Free DNA 采血管对血液样品的运输保存效果.方法:通过静脉抽血, 18名志愿者分别使用Vangenes■Cell-Free DNA 采血管与Streck■Cell-Free DNA采血管各采集一管10mL血液.经过约50h运输样本回到实验室,进行血浆分离、游离DNA提取、构建文库、上机测序并进行建库浓度、测序数据的unique read counts、 GC%以及duplication值等分析.结果:经比较, Vangenes ?Cell-Free DNA采血管保存样品在血浆颜色、建库浓度以及测序数据的unique read counts、 GC%以及duplication值等达到了Streck■Cell-Free DNA 采血管保存样品相似的结果,二者不存在显著性差异.结论:在血液样品运输保存过程中, Vangenes■Cell-Free DNA采血管可有效阻止有核细胞破裂导致的基因组DNA对于游离DNA的污染,对于利用胎儿游离DNA进行的无创产前检测技术具有重要意义.

Detection of HBV DNA integration in plasma cell-free DNA of different HBV diseases utilizing DNA capture strategy

The landscape of hepatitis B virus(HBV)integration in the plasma cell-free DNA(cfDNA)of HBV-infected patients with different stages of liver diseases[chronic hepatitis B(CHB),liver cirrhosis(LC),and hepatocellular carcinoma(HCC)]remains unclear.In this study,we developed an improved strategy for detecting HBV DNA integration in plasma cfDNA,based on DNA probe capture and next-generation sequencing.Using this optimized strategy,we successfully detected HBV integration events in chimeric artificial DNA samples and HBV-infected HepG2-NTCP cells at day one post infection,with high sensitivity and accuracy.The characteristics of HBV integration events in the HBV-infected HepG2-NTCP cells and plasma cfDNA from HBV-infected individuals(CHB,LC,and HCC)were further investigated.A total of 112 and 333 integration breakpoints were detected in the HepG2-NTCP cells and 22 out of 25(88%)clinical HBV-infected samples,respectively.In vivo analysis showed that the normalized number of support unique sequences(nnsus)in HCC was significantly higher than in CHB or LC patients(P values<0.05).All integration breakpoints are randomly distributed on human chromosomes and are enriched in the HBV genome around nt 1800.The majority of integration breakpoints(61.86%)are located in the gene-coding region.Both non-homologous end-joining(NHEJ)and microhomology-mediated end-joining(MMEJ)interactions occurred during HBV integration across the three different stages of liver diseases.Our study provides evidence that HBV DNA integration can be detected in the plasma cfDNA of HBV-infected patients,including those with CHB,LC,or HCC,using this optimized strategy.

The role of cell-free DNA in non-invasive diagnosis of urinary tract infection

Urinary tract infection(UTI)constitutes a pervasive health concern.UTIs are dichotomously classified into upper and lower strata,and further categorized as either complicated or uncomplicated.Upper UTIs predominantly afflict the renal and ureteral domains,typified by conditions exemplified in pyelonephritis,whereas lower UTIs manifest within the confines of the urethra and bladder.The conventional diagnosis of UTIs relies upon clinical manifestations and urine culture.Common symptoms encompass dysuria,frequent micturition,hematuria,and suprapubic discomfort.Urine culture serves to identify the specific pathogens instigating the infection and assess their antibiotic susceptibility.However,this procedural protocol generally necessitates an approximate duration of 24 h,coupled with an additional 24-h interval for antibiotic susceptibility testing.In contradistinction,the detection of cell-free DNA(cfDNA)in the circulatory system presents a potential avenue for non-invasive diagnostic modalities.Notwithstanding,cfDNA emanates from deteriorating cells,affording insights into the extant cellular demise within the organism.Extensive scholarly inquiry has established a positive correlation between cfDNA concentration in the bloodstream and the incidence of cell death in conditions,such as severe traumas,sepsis,aseptic inflammation,myocardial infarction,and stroke.However,limited investigative effort has been devoted to elucidating the diagnostic potential of cfDNA in the context of UTIs.Consequently,the concentration and constitution of plasma cfDNA harbor substantial promise for non-invasively diagnosing UTIs.In summation,the utilization of cfDNA in UTI diagnosis remains an incipient area of scholarly pursuit,underscoring the imperative for further research to elucidate the prospective role of plasma cfDNA in non-intrusively discerning UTIs.

Depth of invasion to the bladder wall as a prognostic factor and its association with circulating cell-free DNA levels in patients with muscle-invasive bladder cancer

Background:Radical cystectomy(RC)is the standard surgical treatment for patients with muscle-invasive bladder cancer,but the prognosis is not favorable,and new prognostic factors need to be discovered.We investigated the potential of depth of invasion(DOI)as a prognostic factor in patients with muscle-invasive bladder cancer who underwent RC.Furthermore,we examined the association between preoperative levels of circulating cell-free DNA and DOI.Materials and methods:We retrospectively reviewed patients who underwent RC between January 2007 and December 2017;those who received neoadjuvant chemotherapy were excluded.Depth of invasion was measured using hematoxylin-eosin-stained RC specimens.Results:Of the 121 patients selected,41(33.9%)were eligible for analysis.The median follow-up period was 14 months and mean DOI was 17 mm(range,2-75 mm).Long DOI(>17 mm)was significantly associated with shorter progression-free survival(hazard ratio,14.5;95%confidence interval,3.9-53.97,p<0.0001)and cancer-specific survival(hazard ratio,18.97;95%confidence interval,4.04-88.99,p=0.0002)compared with short DOI.Multivariate analysis revealed that DOI was an independent risk factor for cancer-specific survival.The levels of circulating cell-free DNA were significantly higher in patients with a longer DOI than in those with short DOI(65 vs.20 ng/mL,respectively;p=0.028).Conclusions:Depth of invasion predicted with levels of circulating cell-free DNA and thus could be a useful prognostic factor.