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Proteomics clinical trials

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NCT ID: NCT06208501 Recruiting - Hypertension Clinical Trials

The Predictive Role of Proteomics in Blood Pressure Response of Hypertensive Patients Undergoing Renal Denervation.

PREDICT-RDN
Start date: September 1, 2023
Phase:
Study type: Observational

Renal sympathetic nervous activity plays a crucial role in the development and maintenance of hypertension (HTN). Renal denervation (RDN) is a minimally invasive catheter-based treatment using mainly radiofrequency or ultrasound energy to selectively disrupt the sympathetic renal nerves. RDN has experienced rises and falls during its development as a treatment option for HTN in humans. Latest well-designed sham-controlled randomised trials with improved methodology confirmed significant blood pressure (BP) reduction in both office and 24-hour ambulatory BP. Although the safety of RDN procedures seems favourable thus, the rate of BP response to the procedure is variable, with response rates reported in the range between 60% and 70%. It is of great importance to identify biomarkers able to reliably predict subjects who would benefit from this treatment, in order to achieve better therapeutic results. Proteomics is the study of the full complement of proteins produced or modified by a biological system (cell, tissue, organ, biological fluid, or organism). Proteomic analysis is used in different research settings to understand pathogenicity mechanisms and emerge biomarkers with predictive role in diagnosis and treatment of different diseases. The main purpose of this study is to investigate the potential predictive role of the urine proteomics in BP response of patients undergoing RDN. This hypothesis may lead to the emergence of biomarkers in urine of hypertensive patients, in order to optimally select those who will undergo RDN. This is a prospective observational study enrolling hypertensive patients, aged 18-80 years who will proceed in RDN as participants of randomized control trials. During baseline evaluation HTN diagnosis will be confirmed by office blood pressure measurement (OBPM) and ambulatory blood pressure measurement (ABPM), while urine sample will be collected before RDN for proteomic analysis. The participants will have a follow-up visit in 3 months since baseline procedure for office blood pressure (OBP) and ambulatory blood pressure (ABP) measurements. A cut off value of 5mmHg reduction in ABP or/and 10mmHg reduction in office blood pressure (OBP) on 3 months visit will be set to categorize the patients to responders or non-responders after RDN. The qualitative and quantitative differences of proteins between the two groups of patients will be investigated, based on proteomic analysis results, in order to determine specific urine proteins with predictive role in blood pressure response. The study results are expected to determine the predictive role of urine proteomics in optimal selection of hypertensive patients who will undergo renal denervation.

NCT ID: NCT06097065 Recruiting - Diabetes Mellitus Clinical Trials

Research on Potential Biomarkers of Prediabetes and Diabetes Based on MALDI-TOF MS Platform.

Start date: May 20, 2022
Phase:
Study type: Observational

Through the MALDI-TOF MS platform, explore the proteomics and peptidomics differences of fasting serum/plasma and urine between non pregnant people with normal glucose tolerance test and prediabetes /diabetes patients, pregnant people with normal glucose tolerance test and pregnant diabetes patients respectively; To explore the role of its proteomics and peptidomics differences in the diagnosis of prediabetes and diabetes, and to establish a new method of differential diagnosis by using the omics data and key characteristic peaks to find potential new diagnostic markers.

NCT ID: NCT05307367 Recruiting - Quality of Life Clinical Trials

Cancer-associated Muscle Mass - Molecular Factors and Exercise Mechanisms

PANACEA
Start date: April 1, 2022
Phase: N/A
Study type: Interventional

Muscle mass loss is a common adverse effect of cancer. Muscle mass loss occurs with or without reduction in body weight. Cancer cachexia (CC) is the involuntary loss of body weight of >5% within 6 months and it occurs in 50-80% of patients with metastatic cancer. It is estimated that CC is a direct cause of up to 30% of all cancer-related deaths. No treatment currently is available to prevent CC, likely because the chemical reactions that causes of this devastating phenomenon in unknown. No treatment currently is available to prevent muscle mass loss in patients with cancer but is urgently needed as the reduced muscle mass and function is associated with impaired physical function, reduced tolerance to anticancer therapy, poor quality of life (QoL), and reduced survival. There is evidence of an interdependence between informal caregiver (e.g. spouse) and patient QoL. Thus, identifying caregiver distress and needs can potentially benefit QoL for patients with cancer cachexia. Despite the enormous impact on disease outcomes, it is not known why the loss of muscle mass and function occurs and very few studies have investigated the underlying molecular causes in humans. In particular, there is a severe lack of studies that have obtained human skeletal muscle and adipose tissue sample material. Such reference sample materials will be invaluable to obtaining in-depth molecular information about the underlying molecular causes of the involuntary but common muscle mass and fat mass loss in cancer. At a whole body level, cancer cachexia is associated with reduced sensitivity to the hormone insulin, high levels of lipids in the blood, and inflammation. Within the skeletal muscle, the muscle mass loss is associated with elevated protein breakdown and reduced protein build-up while emerging, yet, limited data also suggest malfunction of the power plants of the cells called mitochondrions. The role of malnutrition and how it contributes to weight loss is understood only to the extent of the observed loss of appetite and the reduced food intake because of pain, nausea, candidiasis of the mouth, and breathlessness. Evidence is increasing that the environment of the intestinal system could be implicated in cancer cachexia, yet, the possible effect of cancer and the cancer treatment on the intestinal environment is not understood. Thus, large and as yet poorly understood details of this syndrome precede a later weight loss. Exercise training could help restore muscle function and how the chemical reactions works in cancer. In healthy people, and patients with diabetes, cardiovascular disease, and obesity exercise potently improves health. Exercise has been thought to slow down the unwanted effects of cancer cachexia by changing the reactions mentioned above. Thus, there is a tremendous gap in our knowledge of how and if exercise can restore the cells power plants function, muscle mass, strength, and hormone sensitivity in human cachexic skeletal muscle. Tackling that problem and examining potential mechanisms, will enable us to harness the benefits of exercise for optimizing the treatment of patients with cancer. The data will provide novel clinical knowledge on cachexia in cancer and therefore addressing a fundamental societal problem. Three specific aims will be addressed in corresponding work packages (WPs): - investigate the involvement of hormone sensitivity of insulin and measure the chemical reactions between the cells in patients with lung cancer (NSCLC) and describe the physical performance and measure amount of e.g. muscles and adipose tissue across the 1st type of cancer treatment and understand how that is related to the disease and how patients and informal caregiver feel (WP1). - find changes in the chemical reactions in skeletal muscle, adipose tissue (AT), and blood samples in these patients, to understand how to predict how the disease will develop (WP2). - measure changes of skeletal muscle tissue in response to exercise and see if it might reverse the hormone insensitivity and improve muscle signaling and function (WP3). The investigators believe that: - the majority of patients with advanced lung cancer, at the time of diagnosis already are in a cachectic state, where they lose appetite, and have hormonal changes, and an overall altered chemical actions between the cells affecting both muscle mass and AT. The investigators propose that all this can predict how the disease will progress, and how patient- and informal caregiver fell and how they rate their quality of life. - lung cancer and the treatment thereof is linked with changes in the blood, the muscle tissues, and the adipose tissues, especially in patients experiencing cachexia, that could be targeted to develop new treatment. - exercise can restore the muscles and improve insulin sensitivity and improve the function of the cells power plants in patients with lung cancer-associated muscle problems.

NCT ID: NCT04851145 Recruiting - Clinical trials for Kidney Transplantation

Mass Spectrometry-based Proteomics in Microvascular Inflammation Diagnosis in Kidney Transplantation.

TranSpec
Start date: November 8, 2021
Phase: N/A
Study type: Interventional

Microvascular inflammation, the hallmark histological criteria of antibody-mediated rejection in kidney transplantation, remains an issue in routine practice, due to a lack of reproducibility in its recognition by pathologists and an incomplete comprehension of its pathophysiology, leading to a poor treatment efficacy. The main objective of this study is to assess the performances of tissue proteic signatures designed for the diagnosis of microvascular inflammation in kidney transplantation, from formalin-fixed and paraffin-embedded (FFPE) allograft biopsies analyzed by mass spectrometry-based proteomics.

NCT ID: NCT04257877 Recruiting - Clinical trials for Diabetic Peripheral Neuropathy

Proteomic Analysis in Paediatric Diabetes Type 1 (PAPD)

PAPD
Start date: November 20, 2018
Phase:
Study type: Observational

The aim of the present study is to investigate a targeted proteomic analysis in plasma of children - of Greek origin- with type 1 diabetes (DT1) and its correlation with the electrophysiological findings that accompany diabetic peripheral neuropathy. Diabetic neuropathy is the most frequent chronic complication in adults with DT1 and rarely appears in childhood. Nevertheless, cases of acute mononeuritis have been described at the time of diagnosis of DT1. According to recent reports several biomarkers, including proteomic analysis, have been proposed for the early detection of peripheral neuropathy in children and young adults with T1DM. In the present study the researchers will attempt to investigate the role of biomarkers with targeted proteomic analysis in the plasma of children with DT1 in combination with an electrophysiological study, which includes a nerve conduction study, to detect early diabetic peripheral neuropathy, before the appearance of clinical manifestations.

NCT ID: NCT03932058 Recruiting - Osteosarcoma Clinical Trials

Proteomics Research of Osteosarcoma

PROS001
Start date: September 1, 2018
Phase:
Study type: Observational

Retrospectively collected 400 cases of clinical data and pathological paraffin specimens of osteosarcoma, chondrosarcoma (control) and endogenous chondroma (control) in our hospital from 2008 to 2014, combined with high-pressure cycle-satellite scanning mass spectrometry (PCT-SWATH) Molecular typing of osteosarcoma and prediction of targeted therapy, the establishment of a new molecular classification based on proteomics for osteosarcoma to predict the chemotherapy response and recurrence risk of osteosarcoma. Clinical osteosarcoma patients include as many types as possible: pre-chemotherapy, post-chemotherapy, recurrence, and metastasis. The study did not involve vulnerable groups, and it was taken as a postoperative wax specimen for patients, which had no health, life and other effects on patients. Study application exemption from informed consent.