View clinical trials related to Diagnostic Accuracy.
Filter by:Differentiating neoplastic tissue from healthy tissue is fundamental for both early diagnosis during endoscopic examinations and radicality of the oncological interventions. Currently, histology is the gold standard for both diagnosis and evaluation of resection margins. However, it is time-consuming and can be performed only postoperatively. As such, the development of an ultra-sensitive method for real-time optical diagnosis may have a groundbreaking impact in this clinical setting. Recently, it has been developed a novel diagnostic methodology based on the evolution of non-linear optics systems that employs a multiphoton laser, is based on the complex propagation of light in multimodal optical fibers (MMFs - Multimodal Fibers). And allows multiplex Coherent Anti-Stokes Raman Spectroscopy (CARS) imaging to obtain a molecular fingerprint of the tissue. The molecular constitution and the structural alterations of the tissues can be detected by analyzing both the vibrational properties and the harmonic generation and the endogenous fluorescence of living matter, allowing to obtain an "optical diagnosis". The methodology uses a multiphoton laser (Femtosecond tunable laser system), is marker-free and safe for biological tissues, and allows extremely high-resolution imaging. The diagnostic methodology has been already evaluated on two-dimensional cell cultures. ESD is a well-established technique for the minimally invasive endoscopic resection of large and irregularly shaped superficial neoplastic lesions of the gastrointestinal tract with high en-bloc and margin-negative resection rates. The technique requires "safe margins" of resection of about 5 to 8 mm around the neoplastic tissue. As such, this resection specimen includes both neoplastic and normal tissue of "safe margins". On this background, this study is aimed at evaluating the methodology of imaging based on MMFs on normal and tumor tissues. The investigators plan to perform an in-vitro prospective diagnostic comparative pilot study between standard histology and optical biopsy with MMFs. The study will include 27 consecutive specimens of colorectal lesions resected with endoscopic submucosal dissection (ESD). Each ESD-resected lesion will be also the control group since it consists of surrounding safe margins (healthy tissue) and central tumor formation (tumoral tissue). The demonstration of in-vitro optical diagnosis with MMFs will include normal-to-normal and tumor-to-tumor comparisons. The laser system will be placed over a precise place with normal mucosa of the resected specimen and the characteristics of the mucosa will be registered. The same mucosa will then be indicated for histological analysis. The procedure will be repeated on tumoral tissue with the same methodology. The primary endpoint of this protocol is the diagnostic accuracy of the optical biopsy with MMFs. The results of optical biopsy will be expressed as the CARS signal difference between healthy and tumor tissues. The power to discriminate between healthy and cancer tissues will be determined using a ROC (Receiver Operating Characteristic) curve. The ROC curve will be obtained by determining the number of correct and incorrect classifications as a function of the threshold value to discriminate between the two groups.
A prospective observational diagnostic study will be conducted to assess the sensitivity and specificity of using capnography in detecting the correct placement of nasogastric tubes using the reference standards of radiography and measurement of aspirates for pH value.
to assess the efficacy of lung ultrasound versus conventional auscultation method and fiberoptic bronchoscopy in confirmation of double lumen tube position
Liquid biopsy is challenging for the diagnosis of endometrial cancer. In this study, investigators perform the methylation testing of host DNA, namely, BHLHE22, CELF4, HAND2, and ZNF177, in the peripheral serum to discover the diagnostic and supervision roles of DNA methylation in endometrial cancer. The study compromises two stages. In the training set, DNA methylation testing is performed in the endometrial tissues from patients with endometrial cancer and paired benign uterine lesions. The cut-off values of methylation are produced in this stage. On the meantime, DNA methylation testing is also performed in serum and in cervical cytology to reveal its accordance and accuracy compared with the results of endometrial tissues. In the validation set, serum DNA methylation testing is performed in unselected patients with definite endometrial histology to validate its accuracy. In training and validation sets, serum DNA methylation is also performed after major surgeries for endometrial cancer as to illustrate the changes of methylation testing, therefore, reflection the supervision role of DNA methylation.
Cyclin kinase inhibitor P16INK4A has overexpression in cervical cancer, and hence becoming an alternative method for cervical cancer screening. This study is to investigate the clinical value of P16INK4A and high-risk human papillomavirus (hrHPV) detection of cervical intraepithelial neoplasia (CIN) 2 or more severe lesions (CIN2+). All eligible participants accept P16INK4A testing, with cytology and/or hrHPV assay. P16INK4A immunohistochemical staining is performed on the retained specimens of cytology. The primary endpoint is the diagnostic accuracy of P16INK4A compared with cytology and/or hrHPV status based on histology results. The accuracy analysis includes sensitivity, specificity, negative predictive value and positive predictive value.
Adult soft tissue sarcomas (STS) are rare tumours with an estimated incidence averaging 5/100 000/year in Europe. The prognosis of soft tissue sarcomas is dominated by local recurrence and distant metastasis. A link seems to exist between local recurrence and overall survival. Local recurrence occurs in approximately 16-29% of STS of the limbs. A combination of resection and radiotherapy is the optimal treatment of primary tumours according to histological grade and surgical result. Modern imaging techniques such as ultrasound (US), magnetic resonance (MR) and computed tomography (CT) are normally used to rule-out a recurrence in patients operated on for STS. However, none of this technique is perfect and different advantages and drawbacks have to be considered in choosing one or another technique. In the past, US was used in tumour follow-up to detect tumour recurrences, however these studies didn't use high-resolution transducers and the timing of imaging respect to surgery was not defined. The recent advances in transducer technology improved the diagnostic capabilities of US. For the evaluation of limbs soft-tissue masses, US is widely used as a first level modality. The reasons are that US is widely available, fast, easily repeatable and often more accessible than CT and MR Imaging. In addition, US equipped with high-frequency transducers have a spatial resolution that may be comparable or higher than that of MR Imaging and CT in the evaluation of superficial soft-tissues. US and MR Imaging are often not able to differentiate benign from malignant tumours, therefore several lesions detected with US or MR Imaging warrant biopsy. The clinical practice guidelines of the ESMO (European Society of Medical Oncology) published in 2010 found that there are no published data to indicate the optimal routine follow-up policy of surgically treated patients with localized disease. Moreover, it has not been demonstrated that, for limb sarcomas recurrences, MR Imaging is superior and cost-effective compared to US for the assessment of the primary site. Considering that surgically treated intermediate-/high-grade patient may be followed frequently, even every 3-4 months in the first 2-3 years and considering that performing US is easier than having MR Imaging, the purpose of this study is to evaluate the diagnostic performance of US in the detection of local recurrences of adults patients with soft tissue sarcomas of the limb.