View clinical trials related to Ophthalmoplegia.
Filter by:This is an open-label, multi-centre study in subjects with a genetically confirmed mitochondrial deoxyribonucleic acid (DNA) transfer ribonucleic acid (tRNA)Leu(UUR) m.3243A>G mutation who completed study KH176-202. In the KH176-203 study subjects will be receiving KH176 100 mg BID or KH176 50 mg bid in die (BID) (as determined by the investigator based on safety / tolerability considerations) for a year, thereby ensuring continued treatment with KH176 after study KH176-202. A final follow-up visit is scheduled 4 weeks after the intake of the last dose of study medication for patients not rolling over into the compassionate use program. Primary safety data and secondary efficacy (endpoint) data will be monitored and reviewed every three months by an independent Data Safety Monitoring Board (DSMB) to evaluate potential risks and benefits.
Mitochondria are important parts of the cell that are responsible for producing energy. The amount of energy they produce depends on how much energy the body needs to function and this energy production can be severely impaired in people with mitochondrial disease. Symptoms of mitochondrial disease vary widely but usually involve the brain, nerves and muscles, as these are tissues that need a lot of energy. Mitochondrial disorders affect 1 in 5000 of the UK population and there is currently no cure. Some scientists think that increasing the number of mitochondria in the body (mitochondrial biogenesis) might be an effective treatment for the symptoms of mitochondrial disease. Studies carried out in mice have shown that a type of B-vitamin called Nicotinamide Riboside (NR) is able to increase the number of mitochondria, leading to increased energy and a reduction in the symptoms of mitochondrial disease. The aim of this study is to investigate if the same B vitamin, Nicotinamide Riboside, can increase energy production and reduce symptoms in humans with mitochondrial disease. The study will consist of two parts: Part 1: Participants will be given a single oral dose of Nicotinamide Riboside and the levels of NR in their bloodstream will be measured at regular intervals. This will involve a single overnight stay and simple blood tests. Part 2: This requires 6 separate visits from each participant. Each participant will undergo a series of standard tests including a muscle biopsy and an MRI scan, then they will take a course of Nicotinamide Riboside (twice daily for 4 weeks). After 4 weeks of treatment, the participants will undergo the same tests again to see if there have been any changes in response to the treatment.
Oculomotor nerve (third cranial nerve or "III") palsy is a relatively frequent cause of consultation in ophthalmology. It may reveal a life-threatening pathology such as aneurysm rupture, pituitary apoplexy, and therefore need imaging in emergency. Apart from few extreme emergency situations, MRI of the oculomotor tract is the first-line examination required. In our usual clinical practice, we noticed in several patients unusual contrast enhancement within the oculomotor nerve on T1 sequence with gadolinium injection, observed in various locations along the nerve path (cavernous and/ or intra-orbital segment). This contrast enhancement, could confirm the nerve impairment This study aims to analyse the efficiency of a new sequence 3D PD T1 which isotropic spatial resolution less than 1mm, not yet described in the literature, to depict this enhancement. In patients with ophthalmoplegia involving probably the third cranial nerve, disclosing this MRI sign could help (i) to confirm the involvement of the oculomotor nerve and eliminate differential diagnoses such as myasthenia (ii) to orientate the etiological diagnosis (inflammatory or ischemic origin). This new sequence 3D PD T1 sequence focused on the III could thus be systematically included in the usual MRI protocol.
Oculomotor nerve (third cranial nerve or III) palsy is a relatively frequent cause of consultation in ophthalmology. It may reveal a life-threatening pathology such as aneurysm rupture, pituitary apoplexy, and therefore need imaging in emergency. Apart from few extreme emergency situations, MRI of the oculomotor tract is the first-line examination required. In the usual clinical practice, the investigators noticed in several patients unusual areas of high-intensity signal within the oculomotor nerve on T2 sequence, observed in various locations along the nerve path (cavernous and/ or intra-orbital segment). This abnormal signal, at the best knowledge of the investigators, has never been reported in the literature and could confirm the nerve impairment. In patients with ophthalmoplegia involving probably the third cranial nerve, disclosing this new MRI sign could help (i) to confirm the involvement of the oculomotor nerve and eliminate differential diagnoses such as myasthenia (ii) to orientate the etiological diagnosis (inflammatory or ischemic origin). A T2 sequence focused on the III could thus be systematically included in the usual MRI protocol.
Primary fatigue represents a major cause of disability in patients with multiple sclerosis (MS), being reported in about 90% of cases. Fatigue interferes with everyday functioning but, unfortunately, little is known about its mechanisms. The investigators propose a characteristic eye movement abnormality (internuclear ophthalmoparesis, INO), commonly encountered in MS, as a simple model for primary motor fatigue. The investigators described worsening of ocular performance in MS patients with INO following visual tasks (ocular motor fatigue), which is likely due to decreased neural conduction along brain pathways injured by MS. This mechanism could represent a major component of MS-related primary motor fatigue. Relevant to Veterans' care, INO is a significant cause of visual disability, especially when complicated by ocular fatigue, and limits daily activities such as reading and driving. The investigators propose a medical treatment to improve ocular performance/fatigue in INO, which can reduce visual disability and improve quality of life in Veterans with MS.
The purpose of this study is to investigate the fraction of fat on a MRI scan of lower bag muscles, thighs and calves in patients with the mitochondrial disease chronic progressive external ophthalmoplegia (CPEO). Additionally an investigation of the volume of the eye muscles will be done and compared to the patient's clinical presentation of ptosis and ophthalmoplegia.
So far, only limited data is available regarding the natural course in Congenital Cataract Facial Dysmorphism Neuropathy Syndrome (CCFDN) and sporadic and hereditary inclusion body myopathies (IBM). Several criteria and outcome measures have led to contradicting results. The investigators want to retrospectively assess the natural course of the disease in CCFDN and IBM patients according to the data recorded during clinical routine visits.