Your search keyword '"Pitceathly RDS"' showing total 5 results

1. Iterative Reanalysis of Hypertrophic Cardiomyopathy Exome Data Reveals Causative Pathogenic Mitochondrial DNA Variants

Author

Lopes, LR, Murphy, D, Bugiardini, E, Salem, R, Jager, J, Futema, M, Majid Akhtar, M, Savvatis, K, Woodward, C, Pittman, AM, Hanna, MG, Syrris, P, Pitceathly, RDS, and Elliott, PM

Published

2021

2. Safety of drug use in patients with a primary mitochondrial disease: An international Delphi-based consensus

Author

De Vries MC, Brown DA, Allen ME, Bindoff L, Gorman GS, Karaa A, Keshavan N, Lamperti C, McFarland R, Ng YS, O'Callaghan-Gordo M, Pitceathly RDS, Rahman S, Russel FGM, Varhaug KN, Schirris TJJ, and Mancuso M

Subjects

in vitro studies, in vivo studies, safety, drugs, mitochondrial diseases, mitochondrial toxicity

Abstract

Clinical guidance is often sought when prescribing drugs for patients with primary mitochondrial disease. Theoretical considerations concerning drug safety in patients with mitochondrial disease may lead to unnecessary withholding of a drug in a situation of clinical need. The aim of this study was to develop consensus on safe medication use in patients with a primary mitochondrial disease. A panel of 16 experts in mitochondrial medicine, pharmacology, and basic science from six different countries was established. A modified Delphi technique was used to allow the panellists to consider draft recommendations anonymously in two Delphi rounds with predetermined levels of agreement. This process was supported by a review of the available literature and a consensus conference that included the panellists and representatives of patient advocacy groups. A high level of consensus was reached regarding the safety of all 46 reviewed drugs, with the knowledge that the risk of adverse events is influenced both by individual patient risk factors and choice of drug or drug class. This paper details the consensus guidelines of an expert panel and provides an important update of previously established guidelines in safe medication use in patients with primary mitochondrial disease. Specific drugs, drug groups, and clinical or genetic conditions are described separately as they require special attention. It is important to emphasise that consensus-based information is useful to provide guidance, but that decisions related to drug prescribing should always be tailored to the specific needs and risks of each individual patient. We aim to present what is current knowledge and plan to update this regularly both to include new drugs and to review those currently included.

Published

2020

3. Pathogenic variants in MT-ATP6: A United Kingdom–based mitochondrial disease cohort study

Author

Ng, YS, Martikainen, MH, Gorman, GS, Blain, A, Bugiardini, E, Bunting, A, Schaefer, AM, Alston, CL, Blakely, EL, Sharma, S, Hughes, I, Lim, A, Degoede, C, McEntagart, M, Spinty, S, Horrocks, I, Roberts, M, Woodward, CE, Chinnery, PF, Horvath, R, Nesbitt, V, Fratter, C, Poulton, J, Hanna, MG, Pitceathly, RDS, Taylor, RW, Turnbull, DM, and McFarland, R

Subjects

Adult, Aged, 80 and over, Male, Mitochondrial Diseases, Adolescent, Genetic Variation, Middle Aged, Mitochondrial Proton-Translocating ATPases, Brief Communication, United Kingdom, Cohort Studies, Young Adult, Humans, Female, Brief Communications, Child, Aged, Follow-Up Studies

Abstract

Distinct clinical syndromes have been associated with pathogenicMT‐ATP6variants. In this cohort study, we identified 125 individuals (60 families) including 88 clinically affected individuals and 37 asymptomatic carriers. Thirty‐one individuals presented with Leigh syndrome and 7 with neuropathy ataxia retinitis pigmentosa. The remaining 50 patients presented with variable nonsyndromic features including ataxia, neuropathy, and learning disability. We confirmed maternal inheritance in 39 families and demonstrated that tissue segregation patterns and phenotypic threshold are variant dependent. Our findings suggest thatMT‐ATP6–related mitochondrial DNA disease is best conceptualized as a mitochondrial disease spectrum disorder and should be routinely included in genetic ataxia and neuropathy gene panels.

Published

2019

4. Autosomal dominant optic atrophy and cataract 'plus' phenotype including axonal neuropathy

Author

Horga, A, Bugiardini, E, Manole, A, Bremner, F, Jaunmuktane, Z, Dankwa, L, Rebelo, AP, Woodward, CE, Hargreaves, IP, Cortese, A, Pittman, AM, Brandner, S, Polke, JM, Pitceathly, RDS, Züchner, S, Hanna, MG, Scherer, SS, Houlden, H, and Reilly, MM

Subjects

RE

Abstract

Objective To characterize the phenotype in individuals with OPA3-related autosomal dominant optic atrophy and cataract (ADOAC) and peripheral neuropathy (PN).\ud Methods Two probands with multiple affected relatives and one sporadic case were referred for evaluation of a PN. Their phenotype was determined by clinical ± neurophysiological assessment. Neuropathologic examination of sural nerve and skeletal muscle, and ultrastructural analysis of mitochondria in fibroblasts were performed in one case. Exome sequencing was performed in the probands.\ud Results The main clinical features in one family (n = 7 affected individuals) and one sporadic case were early-onset cataracts (n = 7), symptoms of gastrointestinal dysmotility (n = 8), and possible/confirmed PN (n = 7). Impaired vision was an early-onset feature in another family (n = 4 affected individuals), in which 3 members had symptoms of gastrointestinal dysmotility and 2 developed PN and cataracts. The less common features among all individuals included symptoms/signs of autonomic dysfunction (n = 3), hearing loss (n = 3), and recurrent pancreatitis (n = 1). In 5 individuals, the neuropathy was axonal and clinically asymptomatic (n = 1), sensory-predominant (n = 2), or motor and sensory (n = 2). In one patient, nerve biopsy revealed a loss of large and small myelinated fibers. In fibroblasts, mitochondria were frequently enlarged with slightly fragmented cristae. The exome sequencing identified OPA3 variants in all probands: a novel variant (c.23T>C) and the known mutation (c.313C>G) in OPA3.\ud Conclusions A syndromic form of ADOAC (ADOAC+), in which axonal neuropathy may be a major feature, is described. OPA3 mutations should be included in the differential diagnosis of complex inherited PN, even in the absence of clinically apparent optic atrophy.

5. Novel C12orf65 mutations in patients with axonal neuropathy and optic atrophy

Author

Tucci, A, Liu, Y-T, Preza, E, Pitceathly, RDS, Chalasani, A, Plagnol, V, Land, JM, Trabzuni, D, Ryten, M, Jaunmuktane, Z, Reilly, MM, Brandner, S, Hargreaves, IP, Hardy, J, Singleton, AB, Abramov, AY, and Houlden, H

Subjects

RM

Abstract

Objective Charcot-Marie Tooth disease (CMT) forms a clinically and genetically heterogeneous group of disorders. Although a number of disease genes have been identified for CMT, the gene discovery for some complex form of CMT has lagged behind. The association of neuropathy and optic atrophy (also known as CMT type 6) has been described with autosomaldominant, recessive and X-linked modes of inheritance. Mutations in Mitofusin 2 have been found to cause dominant forms of CMT6. Phosphoribosylpyrophosphate synthetase-I mutations cause X-linked CMT6, but until now, mutations in the recessive forms of disease have never been identified.\ud Methods We here describe a family with three affected individuals who inherited in an autosomal recessive fashion a childhood onset neuropathy and optic atrophy. Using homozygosity mapping in the family and exome sequencing in two affected individuals we identified a novel protein-truncating mutation in the C12orf65 gene, which encodes for a protein involved in mitochondrial translation. Using a variety of methods we investigated the possibility of mitochondrial impairment in the patients cell lines.\ud Results We described a large consanguineous family with neuropathy and optic atrophy carrying a loss of function mutation in the C12orf65 gene. We report mitochondrial impairment in the patients cell lines, followed by multiple lines of evidence which include decrease of complex V activity and stability (blue native gel assay), decrease in mitochondrial respiration rate and reduction of mitochondrial membrane potential.\ud Conclusions This work describes a mutation in the C12orf65 gene that causes recessive form of CMT6 and confirms the role of mitochondrial dysfunction in this complex axonal neuropathy.