View clinical trials related to Polyneuropathy.
Filter by:This is a multicenter observational study consisting of retrospective and prospective phases. The retrospective phase will entail secondary data collection from electronic or paper medical records of patients who underwent surgery for CTS to assess their probability of having ATTR PN.
To investigate to what extent chronic axonal length-dependent polyneuropathy (CAP) and/or small-fiber neuropathy (SFN) is part of early non-cardiac manifestations of wild-type TTR cardiac amyloidosis (wtTTR-CA). Consequently, explore whether this could ultimately lead to faster diagnosis and clinical outcome of wild-type TTR cardiac amyloidosis (wtTTR-CA).
A study of patients with hereditary transthyretin amyloidosis (ATTRv) and wild-type transthyretin amyloidosis (ATTRwt) that have been enrolled in B3461028 and B3461045 studies in Spain - exposed to tafamidis 61mg for ≥12 months with polyneuropathy (PN) have kept going to their multisystemic follow-ups (neuro/ophthalmo/gastrointestinal) ≥12 months.
The purpose of this study is to collect and evaluate pregnancy outcomes, pregnancy complications, and fetal/neonatal/infant outcomes in women exposed to patisiran-LNP.
To evaluate the effectiveness of patisiran in patients with ATTRv amyloidosis with polyneuropathy who have a V122I or T60A mutation.
Peripheral neuropathies are diseases that affect the nervous system outside the brain and spinal cord, their prevalence is 1% in the general population, the causes are extremely varied with more than 200 identified causes; the main ones are diabetes, excessive alcohol consumption and chemotherapy. They may be sometimes disabling but generally preserve autonomy. Transthyretin amyloidosis is a rare multisystematic hereditary disease with autosomal dominant transmission. They present usually as a peripheral neuropathies (FAP). They are due to a point mutation of the transthyretin gene (chr 18q). FAP is secondary to endoneurial amyloid deposits and are characterized by a slowly progressive sensory, motor and autonomic. FAP is the most severe hereditary polyneuropathy of the adult are irreversible and fatal within 5 to 12 years from onset. Most frequent mutation of TTR gene is located on the second exon; but more than 100 mutations have been reported. Prevalence of FAP is 1 per 1 million inhabitants. They have been reported until 1990s' in four endemic areas North of Portugal, Sweden, Japan and Majorca. In these areas, diagnosis is facilitated because of the stereotypical presentation : a length-dependent polyneuropathy with predominant involvement of thermal and pain sensations and autonomic dysfunction, early onset in the third decade and a predominant Met30 TTR mutation. Positive family history is frequent 85% (one of the parents is affected). Diagnosis requires detection of TTR mutation by molecular biology (blood sample) and characterization of amyloid deposit on labial salivary gland biopsy.
In a Phase-III Study Patients With Chemotherapy-induced Polyneuropathy (NCI CTC Grade 2/3) Are Randomized for an Integrated Program (IP) Including Massage, Mobilization in Posture and Transport Layers, Physical Exercises (Standard) or With Whole-body Vibration (WBV) Platform Training (Experimental).
Critical illness in the ICU setting has high medical and socioeconomic importance. Critically ill patients frequently develop severe neurologic impairment during their course of disease, typically presenting as critical-illness-polyneuropathy (CIP), which is associated with an increased mortality rate. To date neither strategies are available to predict nor to specifically treat CIP. Diagnostic tests to determine CIP during the course of critical illness are available through nerve conduction studies. Further research is needed to find diagnostic tools to identify patients who are on high risk to develop CIP, which could encourage the evolution of new therapeutic strategies for CIP patients. The aims of the study are: 1. An early detection of changes in intramural neuronal networks of human colon samples induced by human blood serum from critically ill patients in order to predict the development of CIP 2. The comparison of different diagnostic tests to diagnose and monitor CIP during the course of critical illness (neurologic examination versus nerve conduction study versus neuromyosonography)
Cross-sectional and longitudinal analysis of the somatosensory phenotype, assessed by quantitative sensory testing (QST) and Information obtained by questionnaires to detect risk factors for neuropathic pain development and chronification in painless and chronic pain patients.
Neuromuscular stimulation (NMES) has been used for several years in the rehabilitation of COPD (chronic obstructive pulmonary disease) patients (among others) to improve their resistance to efforts in everyday life. In patients in intensive care, it seems to improve strength, reduce the loss of muscle mass, prevent the development of CIP / CIM (Critical illness polyneuropathy / critical illness myopathy) and perhaps even reduce ventilation days, with expected effects on the duration of hospitalization and the long-term functional outcome. Although its use could sometimes be limited by the development of peripheral edema and use of vasoconstrictors, the main advantage of this technique is the possibility of being used very early, even in patients that require deep sedation . This is extremely important given that the muscular atrophy process already starts 18h after the onset of invasive ventilation and as signs of impaired nerve transmission are developed in one third of patients at risk within 72 hours. The purpose of the study is to assess the effects, in the short and medium term, of early neuromuscular stimulation in patients who are at higher risk of developing a critical illness polyneuropathy (CIP) / critical illness myopathy (CIM) spectrum disease. This is a randomized controlled single-blind study comparing a group of patients submitted to NMES early (up to 5 days after admission) versus a control group unstimulated.