Current and Future Perspectives of Cell-Free DNA in Liquid Biopsy

A liquid biopsy is a minimally invasive or non-invasive method to analyze a range of tumor material in blood or other body fluids, including circulating tumor cells (CTCs), cell-free DNA (cfDNA), messenger RNA (mRNA), microRNA (miRNA), and exosomes, which is a very promising technology. Among these cancer biomarkers, plasma cfDNA is the most widely used in clinical practice. Compared with a tissue biopsy of traditional cancer diagnosis, in assessing tumor heterogeneity, a liquid biopsy is more reliable because all tumor sites release cfDNA into the blood. Therefore, a cfDNA liquid biopsy is less invasive and comprehensive. Moreover, the development of next-generation sequencing technology makes cfDNA sequencing more sensitive than a tissue biopsy, with higher clinical applicability and wider application. In this publication, we aim to review the latest perspectives of cfDNA liquid biopsy clinical significance and application in cancer diagnosis, treatment, and prognosis. We introduce the sequencing techniques and challenges of cfDNA detection, analysis, and clinical applications, and discuss future research directions.     

Liquid biopsy for early diagnosis of non-small cell lung carcinoma: recent research and detection technologies

Liquid biopsy, an innovative method for early diagnosis of cancer, has changed the traditional method of diagnosing lung cancer and is considered a feasible auxiliary diagnostic tool. To date, various reports emphasize the need for non-small cell lung carcinoma (NSCLC), both with higher incidence and mortality and less effective treatments; thus, emphasizing the need for early detection of NSCLC for improved patient outcomes. Invasive tissue biopsy is a common diagnostic tool that is usually extracted from the primary tumor to indicate molecular composition. In comparison, liquid biopsy taken from body fluid reflects extensive malignant features nonexistent in primary tumors. Owing to new detection technologies, liquid biopsy reduces the need for invasive treatments and enhances the accuracy and specificity of early detection of cancer in clinical settings. This review summarizes some latest research on the diagnosis of early-stage NSCLC via liquid biopsy, including circulating DNA, circulating tumor cells, exosomes, and tumor-educated platelets, as well as their detection technologies, such as fluorescence in-situ hybridization-based, polymerase chain reaction-based, next-generation sequencing-based, Chip-based, and microfluidic methods. Additionally, we outline the existing challenges and possible solutions for liquid-biopsy biomarkers. Our study mainly highlights the merits of liquid biopsy as a promising biomarker for non-invasive detection in the future, particularly for the early detection of NSCLC, thereby benefitting human health.     

Hacia el diagnóstico temprano de la candidiasis invasora en el paciente crítico

The management of invasive fungal infections in critically ill patients, from diagnosis to selection of the ther- apeutic protocol, is often a challenge. Early diagnosis and treatment are associated with a better prognosis, but apart from cases with positive cultures from blood or fluid/tissue biopsy, diagnosis is neither sensitive nor specific, and there is a need for specific markers in these diseases. Serodiagnostic assays such as mannan an-tigen, mannan antibodies, Candida albicans germ-tube antibodies or (1→3)-β-D-glucan detection, and mo-lecular techniques for the detection of fungal-specific DNA have been developed with promising results in critical care settings. One of the main features in diagnosis is the evaluation of risk factors for infection, which will identify patients in need of preemptive or empirical treatment. Clinical scores were built from those risk factors. The combination of prediction rules and non-culture microbiological tools could be currently be the key to improving the diagnosis and prognosis of invasive fungal infections in critically ill patients.     

Liquid biopsy in pancreatic cancer – Current perspective and future outlook

Pancreatic cancer is a lethal condition with a rising incidence and often presents at an advanced stage, contributing to abysmal five-year survival rates. Unspecific symptoms and the current lack of biomarkers and screening tools hamper early diagnosis. New technologies for liquid biopsies and their respective evaluation in pancreatic cancer patients have emerged over recent years. The term liquid biopsy summarizes the sampling and analysis of circulating tumor cells (CTCs), small extracellular vesicles (sEVs), and tumor DNA (ctDNA) from body fluids. The major advantages of liquid biopsies rely on their minimal invasiveness and repeatability, allowing serial sampling for dynamic insights to aid diagnosis, particularly early detection, risk stratification, and precision medicine in pancreatic cancer. However, liquid biopsies have not yet developed into a new pillar for clinicians' routine armamentarium. Here, we summarize recent findings on the use of liquid biopsy in pancreatic cancer patients. We discuss current challenges and future perspectives of this potentially powerful alternative to conventional tissue biopsies.     

Análisis de biopsias líquidas para el diagnóstico del cáncer: revisión sistemática

The incidence of cancer has increased in recent years, especially in those over 65 years of age, posing a major health problem. Many tumours have a poor prognosis because they are diagnosed at very advanced stages. It is therefore especially important to incorporate liquid biopsy into clinical practice as a method for detecting tumours at very early stages. A systematic review was conducted, with the main objective of analysing the available literature on the use of liquid biopsy in the early diagnosis of cancer, and as a secondary objective, to determine the types of tumours that can be diagnosed early by liquid biopsy and the available biomarkers. The results indicate a lack of agreement with the biomarkers detected and the technologies applied. This highlights the need for multicentre studies to look at large cohorts and to establish protocols of action, as well as to increase analytical validity and the possibility of using a screening test for each type of tumour. This could be a very important step forward, as it could improve the management of cancer patients to a great extent.     

The search for novel diagnostic and prognostic biomarkers in cholangiocarcinoma

The poor prognosis of cholangiocarcinoma (CCA) is in part due to late diagnosis, which is currently achieved by a combination of clinical, radiological and histological approaches. Available biomarkers determined in serum and biopsy samples to assist in CCA diagnosis are not sufficiently sensitive and specific. Therefore, the identification of new biomarkers, preferably those obtained by minimally invasive methods, such as liquid biopsy, is important. The development of innovative technologies has permitted to identify a significant number of genetic, epigenetic, proteomic and metabolomic CCA features with potential clinical usefulness in early diagnosis, prognosis or prediction of treatment response. Potential new candidates must be rigorously evaluated prior to entering routine clinical application. Unfortunately, to date, no such biomarker has achieved validation for these purposes. This review is an up-to-date of currently used biomarkers and the candidates with promising characteristics that could be included in the clinical practice in the next future. This article is part of a Special Issue entitled: Cholangiocytes in Health and Disease edited by Jesus Banales, Marco Marzioni, Nicholas LaRusso and Peter Jansen.     

癌症液体活检新思路：数字PCR检测DNA甲基化

癌症的早期诊断可提高患者生存率.微创采集人体体液的液体活检方法可避免传统肿瘤组织活检方法侵入性和异质性的问题,逐渐成为癌症诊断的新方式.另外,DNA甲基化作为预测癌症发生发展的标志物,引起了越来越多研究者的关注.但传统DNA甲基化的检测方法灵敏度不高,且容易出现假阳性.近年来,数字PCR技术因其超高的检测灵敏度和精确度、无需标准曲线即可进行核酸绝对定量检测的优势,被用于DNA甲基化的定量检测中.本文首先介绍了DNA甲基化与癌症发生发展的关系,总结了传统DNA甲基化检测方法及其在癌症临床诊断中的应用,阐述了基于不同核酸样本分散方法的数字PCR技术及其在微量DNA甲基化检测中的优势,总结了采用数字PCR技术检测癌症患者体液中DNA甲基化的具体步骤,列举了数字PCR技术在癌症DNA甲基化检测中的研究成果及应用进展,最后提出了数字PCR技术检测癌症DNA甲基化未来可能面临的挑战,并对数字PCR技术在癌症液体活检方面的应用前景进行了展望.     

A glance at the emerging diagnostic biomarkers in the most prevalent genitourinary cancers

Genitourinary cancers comprise of a heterogenous group of cancers of which renal cell carcinoma, urothelial bladder carcinoma, and prostate adenocarcinoma are the most commonly encountered subtypes. A lot of research is ongoing using various strategies for exploration of novel biomarkers for genitourinary cancers. These biomarkers would not reduce the need for invasive diagnostic techniques but also could be used for early and accurate diagnosis to improve the clinical management required for the disease. Moreover, selecting the appropriate treatment regimen for the responsive patients based on these biomarkers would reduce the treatment toxicity as well as cost. Biomarkers identified using various advanced techniques like next generation sequencing and proteomics, which have been classified as immunological biomarkers, tissue-specific biomarkers and liquid biomarkers. Immunological biomarkers include markers of immunological pathways such as CTLA4, PD-1/PDl-1, tissue biomarkers include tissue specific molecules such as PSA antigen and liquid biomarkers include biomarkers detectable in urine, circulating cells etc.The purpose of this review is to provide a brief introduction to the most prevalent genitourinary malignancies, including bladder, kidney, and prostate cancers along with a major focus on the novel diagnostic biomarkers and the importance of targeting them prior to genitourinary cancers treatment. Understanding these biomarkers and their potential in diagnosis of genitourinary cancer would not help in early and accurate diagnosis as mentioned above but may also lead towards a personalized approach for better diagnosis, prognosis and specified treatment approach for an individual.     

Liquid biopsy: A new avenue in pathology

Liquid biopsy is a relatively new entity. This non‐invasive technique provides real‐time information about a tumour. The liquid biopsy contains circulating tumour cells, cell‐free DNA and exosomes. The main indications for liquid biopsy include early diagnosis, screening, detection of minimal residual disease, designing personalised treatment and predicting biological behaviour of the tumour. In this review, we discuss various aspects of liquid biopsy and compare it with conventional biopsy.     

Current and emerging applications of liquid biopsy in pan-cancer

Cancer morbidity and mortality are growing rapidly worldwide and it is urgent to develop a convenient and effective method that can identify cancer patients at an early stage and predict treatment outcomes. As a minimally invasive and reproducible tool, liquid biopsy (LB) offers the opportunity to detect, analyze and monitor cancer in any body fluids including blood, complementing the limitations of tissue biopsy. In liquid biopsy, circulating tumor cells (CTCs) and circulating tumor DNA (ctDNA) are the two most common biomarkers, displaying great potential in the clinical application of pan-cancer. In this review, we expound the samples, targets, and newest techniques in liquid biopsy and summarize current clinical applications in several specific cancers. Besides, we put forward a bright prospect for further exploring the emerging application of liquid biopsy in the field of pan-cancer precision medicine.     

外周原始神经外胚叶肿瘤/Ewing's肉瘤的研究进展

外周原始神经外胚叶肿瘤(p PNET,peripheral primitive neuroectodermal tumor)/Ewing's肉瘤(Ewing's Sarcoma,ES)是一类罕见的高度恶性软组织肿瘤,好发于儿童和青年,5年生存率仅20%-30%,高侵袭性生长,易远处转移,易复发,预后不佳。诊断主要依靠病理,手术联合放化疗是主要的治疗方式,分子靶向治疗药物的出现给本病带来了新的希望,但疗效仍需进一步临床资料的验证。目前临床上对本病认识仍不足。本文就p PNET/ES的生物学行为,诊断,治疗和预后的研究进展作一综述,并展望p PNET/ES的研究方向。     

Tumor‐Derived Extracellular Vesicles as a Novel Source of Protein Biomarkers for Cancer Diagnosis and Monitoring

“Liquid biopsies” have received attention as a complementary tool for traditional tissue biopsies that may enhance the spectrum of analysis for tumor‐derived factors. One such factor gaining prominence in the liquid biopsy field is extracellular vesicles (EVs), membrane‐bound nanovesicles which are secreted by cells into biofluids such as blood, urine, and saliva. EVs are released in both physiological and pathological conditions and can transport a variety of molecules, including proteins, metabolites, RNA, microRNAs, and DNA, to distant sites throughout the body. As such, they are emerging as a promising source of tumor biomarkers for the noninvasive diagnosis, prognosis, and monitoring of cancer patients. In particular, the wealth of tumor‐related information that can be gleaned from the EV proteomic cargo has become apparent through mass spectrometric analysis, which has provided new benchmarks for clinically focused biomarker research. In this review, the current achievements in the use of MS for identifying potential EV‐derived protein biomarkers of cancer are explored, and the techniques and challenges involved in this pursuit are summarized.     

High velocity pulse biopsy device enables controllable and precise needle insertion and high yield tissue acquisition

Minimally invasive biopsies are a cornerstone of breast cancer management with ultrasound being the preferred guidance modality. New developments in breast cancer management and advances in imaging technologies bring new challenges to current biopsy methodologies. A new biopsy device (NeoNavia® biopsy system, 14 G) was developed. It incorporates a pneumatic needle insertion mechanism that is intended to provide better control of needle progression and enable stepwise insertion without noticeable deformation or displacement of surrounding tissue as visualized under ultrasound. A new method of tissue acquisition was designed to achieve a sampling yield higher than standard methodologies. Needle dynamics was assessed on a specifically designed test bed and sampling performance was compared to a Magnum® biopsy instrument (Bard, Covington, GA, USA) in representative tissue models. The histological quality of samples obtained ex-vivo was evaluated. A pneumatic pulse was measured to accelerate the needle to a maximum velocity of 21.2 ± 2.5 m/s on a stroke length of 2.5 mm, achieving significantly higher acceleration, maximum velocity and power than current biopsy devices. Mean weight of samples obtained by the NeoNavia device were 3.5, 4.6, and 4.3 times higher when sampling was performed in turkey breast, calf thymus and swine pancreas, respectively, as compared to samples obtained with the Magnum instrument. Ex-vivo analysis indicates that the method of tissue acquisition has no apparent negative impact on the histopathologic quality of obtained samples.     

Melanoma: Where we are and where we go

Melanoma is known as an aggressive tumor which shows an increasing incidence and poor prognosis in the metastatic phase. Hence, it seems that diagnosis and effective management (including early diagnosis, choosing of the effective therapeutic platform, caring, and training of patients for early detection) are major aspects of melanoma therapy. Early detection of melanoma is a key point for melanoma therapy. There are various diagnosis options such as assessing of biopsy, imaging techniques, and biomarkers (i.e., several proteins, polymorphism, and liquid biopsy). Among the various biomarkers, assessing circulating tumor cells, cell-free DNAs, cell-free RNAs, and microRNAs (miRNAs) have emerged as powerful diagnosis tools for melanoma patients. Deregulations of these molecules are associated with melanoma pathogenesis. After detection of melanoma, choosing of effective therapeutic regimen is a key step for recovery of melanoma patients. Several studies indicated that various therapeutic approaches including surgery, immunotherapy, systematic therapy, radiation therapy and antibodies therapy could be used as potential therapeutic candidates for melanoma therapy. Caring for melanoma patients is one of the important components of melanoma therapy. Caring and training for melanoma patients could contribute to better monitoring of patients in response to various therapeutic options. Here, we summarized various diagnosis approaches such as assessing biopsy, imaging techniques, and utilization of various biomarkers (i.e., proteins, CTCs, cfDNAs, and miRNAs) as a diagnostic biomarker for detection and monitoring patients with melanoma. Moreover, we highlighted various therapeutic options and caring aspects in patients with melanoma.     

Off the fog to find the optimal choice: Research advances in biomarkers for early diagnosis and recurrence monitoring of bladder cancer

Bladder cancer (BC) has high morbidity and mortality rates owing to challenges in clinical diagnosis and treatment. Advanced BC is prone to recurrence after surgery, necessitating early diagnosis and recurrence monitoring to improve the prognosis of patients. Traditional detection methods for BC include cystoscopy, cytology, and imaging; however, these methods have drawbacks such as invasiveness, lack of sensitivity, and high costs. Existing reviews on BC focus on treatment and management and lack a comprehensive assessment of biomarkers. Our article reviews various biomarkers for the early diagnosis and recurrence monitoring of BC and outlines the existing challenges associated with their application and possible solutions. Furthermore, this study highlights the potential application of urine biomarkers as a non-invasive, inexpensive adjunctive test for screening high-risk populations or evaluating patients with suspected BC symptoms, thereby alleviating the discomfort and financial burden associated with cystoscopy and improving patient survival.     

循环肿瘤DNA突变检测方法研究进展

循环肿瘤DNA(Circulating Tumor DNA,ctDNA)含有肿瘤的遗传信息,与肿瘤组织具有高度的一致性,可代替肿瘤组织用于肿瘤的早期诊断,预后监测和药物疗效监测,是一种具有良好临床应用前景的液体活检标记物。但血液中的ctDNA片段化程度高,含量稀少,且与野生型DNA混合存在(约1%甚至更低),并会随着患者肿瘤分期等情况动态变化,造成了ctDNA检测困难,需要高灵敏度高特异性的突变检测方法,才能够从大量的野生型DNA中检测出微量突变型ctDNA。目前,灵敏度和特异性能够满足ctDNA检测需求的方法主要有扩增阻滞突变系统PCR(Amplification Refractory Mutation System PCR,ARMS-PCR)、钳制PCR(Clamping-PCR)、数字化PCR(Digital-PCR)、西格诺公司的质谱分辨技术(Sequenom UltraseekTM)和高通量测序技术。本文对这些方法的原理、特点、最新进展和应用前景进行了综述,为研究人员选择合适的ctDNA检测方法提供理论依据。     

1–3 β-D-glucan: From Diagnosis to Prognosis

There are increasing numbers of patients at risk for invasive fungal infections (IFI). The early diagnosis of IFI’s is limited by the lack of sensitivity and delayed turn-around time of routine cultures. Delays in diagnosis are associated with poor outcomes, especially with immunocompromised hosts and patients within the intensive care unit (ICU). Over the last decade, fungal biomarkers such as galactomannan and 1,3-β-D-glucan (BDG) have been increasingly utilized for the early and accurate diagnosis of these infections. This review will evaluate the recent clinical data on the BDG assay, focusing on its ability to assist in the diagnosis of invasive candidiasis in the ICU, and also whether BDG kinetics can predict the prognosis of the patient. Similarly, this review will evaluate BDG in invasive Aspergillus and Pneumocystis jiroveci diagnosis and prognosis, as well as the current limitations of the assay.     

The Quest for Renal Disease Proteomic Signatures: Where Should We Look?

Renal diseases are prevalent and important. However, despite significant strides in medicine, clinical nephrology still relies on nonspecific and inadequate markers such as serum creatinine and total urine protein for monitoring and diagnosis of renal disease. In case of glomerular renal diseases, biopsy is often necessary to establish the diagnosis. With new developments in proteomics technology, numerous studies have emerged, searching for better markers of kidney disease diagnosis and/or prognosis. Blood, urine, and renal biopsy tissue have been explored as potential sources of biomarkers. Some interesting individual or multiparametric biomarkers have been found; however, none have yet been validated or entered clinical practice. This review focuses on some studies of biomarkers of glomerular renal diseases, as well as addresses the question of which sample type(s) might be most promising in preliminary discovery phases of candidate proteins.     

Circulating tumor cells in the early detection of human cancers

Cancer is a severe disease with high morbidity and mortality globally. Thus, early detection is emerging as an important topic in modern oncology. Although the strategies for early detection have developed rapidly in recent decades, they remain challenging due to the subtle symptoms in the initial stage of the primary tumor. Currently, tumor biomarkers, imaging, and specific screening tests are widely used in various cancer types; however, each method has limitations. The harms are even overweight against the benefits in some cases. Therefore, early detection approaches should be improved urgently. Liquid biopsy, for now, is a convenient and non-invasive way compared to the traditional tissue biopsy in screening and early diagnosis. Circulating tumor cells (CTCs) are vital in liquid biopsy and play a central role in tumor dissemination and metastases. They have promising potential as cancer biomarkers in early detection. This review updates the knowledge of the biology of CTC; it also highlights the CTC enrichment technologies and their applications in the early detection of several human cancers.     

Are synovial biopsies of diagnostic value?

Synovial tissue is readily accessible by closed needle or arthroscopic biopsy. These techniques provide adequate tissue for most diagnostic requirements. Examination of synovial tissue can assist in the diagnosis of some joint infections, and in several atypical or rare synovial disorders. Histological confirmation is not normally required for diagnosis of the common forms of inflammatory arthritis, including rheumatoid arthritis (RA). In patients with either established or early RA, immunohistological measures of inflammation in synovial tissue are associated with clinical measures of disease activity, may predict the clinical outcome, and change in response to treatment. Surrogate markers of disease activity and outcome that have been identified in synovial tissue include components of the cellular infiltrate, and several mediators of inflammation and matrix degradation. There is evidence that the very early introduction of disease-modifying therapy inhibits progressive structural damage maximally. Clinicians exploiting this 'window of opportunity' therefore require very early indicators of the diagnosis and outcome in patients who present with an undifferentiated inflammatory arthritis. Some immunohistological features have been described that distinguish patients who are likely to develop progressive RA and who might benefit most from early aggressive therapeutic intervention. In this regard, the inclusion of pharmacogenomic and proteomic techniques in the analysis of synovial tissue presents some exciting possibilities for future research.