Your search keyword '"Friedreich ataxia"' showing total 16 results

1. Approval of omaveloxolone for Friedreich ataxia.

Author

Boesch S and Indelicato E

Subjects

Humans, United States, Friedreich Ataxia drug therapy, Drug Approval

Published

2024

2. Friedreich Ataxia: Multidisciplinary Clinical Care.

Author

Lynch, David R, Schadt, Kim, Kichula, Elizabeth, McCormack, Shana, and Lin, Kimberly Y

Subjects

HEARING disorders, ATAXIA, VISION disorders, DIABETES, CARDIOMYOPATHIES, ADULTS, TYPE 2 diabetes

Abstract

Friedreich ataxia (FRDA) is a multisystem disorder affecting 1 in 50,000– 100,000 person in the United States. Traditionally viewed as a neurodegenerative disease, FRDA patients also develop cardiomyopathy, scoliosis, diabetes and other manifestation. Although it usually presents in childhood, it continues throughout life, thus requiring expertise from both pediatric and adult subspecialist in order to provide optimal management. The phenotype of FRDA is unique, giving rise to specific loss of neuronal pathways, a unique form of cardiomyopathy with early hypertrophy and later fibrosis, and diabetes incorporating components of both type I and type II disease. Vision loss, hearing loss, urinary dysfunction and depression also occur in FRDA. Many agents are reaching Phase III trials; if successful, these will provide a variety of new treatments for FRDA that will require many specialists who are not familiar with FRDA to provide clinical therapy. This review provides a summary of the diverse manifestation of FRDA, existing symptomatic therapies, and approaches for integrative care for future therapy in FRDA. [ABSTRACT FROM AUTHOR]

Published

2021

3. Iron Hack - A symposium/hackathon focused on porphyrias, Friedreich's ataxia, and other rare iron-related diseases.

Author

Ferreira GC, Oberstaller J, Fonseca R, Keller TE, Adapa SR, Gibbons J, Wang C, Liu X, Li C, Pham M, Dayhoff Ii GW, Duong LM, Reyes LT, Laratelli LE, Franz D, Fatumo S, Bari AG, Freischel A, Fiedler L, Dokur O, Sharma K, Cragun D, Busby B, and Jiang RHY

Subjects

Databases, Factual, Humans, Iron, Rare Diseases, United States, Friedreich Ataxia, Porphyrias

Abstract

Background : Basic and clinical scientific research at the University of South Florida (USF) have intersected to support a multi-faceted approach around a common focus on rare iron-related diseases. We proposed a modified version of the National Center for Biotechnology Information's (NCBI) Hackathon-model to take full advantage of local expertise in building "Iron Hack", a rare disease-focused hackathon. As the collaborative, problem-solving nature of hackathons tends to attract participants of highly-diverse backgrounds, organizers facilitated a symposium on rare iron-related diseases, specifically porphyrias and Friedreich's ataxia, pitched at general audiences. Methods : The hackathon was structured to begin each day with presentations by expert clinicians, genetic counselors, researchers focused on molecular and cellular biology, public health/global health, genetics/genomics, computational biology, bioinformatics, biomolecular science, bioengineering, and computer science, as well as guest speakers from the American Porphyria Foundation (APF) and Friedreich's Ataxia Research Alliance (FARA) to inform participants as to the human impact of these diseases. Results : As a result of this hackathon, we developed resources that are relevant not only to these specific disease-models, but also to other rare diseases and general bioinformatics problems. Within two and a half days, "Iron Hack" participants successfully built collaborative projects to visualize data, build databases, improve rare disease diagnosis, and study rare-disease inheritance. Conclusions : The purpose of this manuscript is to demonstrate the utility of a hackathon model to generate prototypes of generalizable tools for a given disease and train clinicians and data scientists to interact more effectively., Competing Interests: No competing interests were disclosed., (Copyright: © 2019 Ferreira GC et al.)

Published

2019

4. CO142 A Retrospective Study Characterizing Age at Key Clinical Disease Indicators Among Patients With Friedreich Ataxia Using Health Administrative Claims Data in the United States.

Author

Salvucci, A., Qian, C., Powell, L., Lynch, D., Vasco, G., Johnston, K., and Tomazos, I.

Subjects

*ATAXIA, *RETROSPECTIVE studies, *AGE

Published

2023

5. RWD128 A Retrospective Claims Analysis Characterizing Health Care Resource Use Among Patients with Friedreich Ataxia in the United States.

Author

Qian, C., Lynch, D., Powell, L., Salvucci, A., Vasco, G., Johnston, K.M, and Tomazos, I.

Subjects

*ATAXIA, *RETROSPECTIVE studies

Published

2023

6. RWD99 The Clinical Burden of Friedreich Ataxia: A Retrospective Claims Analysis in the United States.

Author

Powell, L., Lynch, D., Qian, C., Salvucci, A., Vasco, G., Johnston, K.M, and Tomazos, I.

Subjects

*ATAXIA, *RETROSPECTIVE studies

Published

2023

7. Reproducing results.

Author

Kark P

Subjects

Friedreich Ataxia enzymology, Humans, Kinetics, Pyruvate Dehydrogenase Complex metabolism, United States, Ethics, National Institutes of Health (U.S.)

Published

1982

8. Insight into Nrf2: a bibliometric and visual analysis from 2000 to 2022.

Author

Yawei Ma, Zhongqing Wang, and Yuedong Hu

Subjects

BIBLIOMETRICS, NUCLEAR factor E2 related factor, CITATION analysis, CHINA-United States relations, METABOLIC disorders

Abstract

Background: Nrf2 plays a pivotal role in governing the antioxidant defense system, triggering the transcription of diverse genes involved in cellular protection. Its role in mitigating oxidative damage and modulating inflammatory processes has made Nrf2 an attractive target for therapeutic interventions. Despite the growing interest in Nrf2 research, a bibliometric analysis is relatively rare. This study aimed to clarify Nrf2's role in multiple diseases, identify emerging trends and hotspots using bibliometric analysis, and provide valuable insights and potential directions for future therapeutic interventions. Methods: The Science Citation Index of Web of Science Core library from 2000 to 2022 was searched on 22 October 2022. Use Microsoft Excel, CiteSpace, Bibliometrix, and VOS viewers for data collection and visualization of research focus and trends. Results: A vast collection of 22,040 research studies on Nrf2 published between 2000 and 2022 were identified. Nrf2 research has seen significant growth globally from 2000 to 2022. China leaded in publication numbers (9,623, 43.66%), while the United States dominated in citation frequency with 261,776 citations. China Medical University was the most productive institutions (459, 2.08%). Masayuki Yamamoto topped in publications (307), while Itoh K. ranked first in citations with 3669. Free Radical Biology and Medicine was the journal with the most studies and citations on Nrf2 (613, 29,687 citations). The analysis of keyword clustering enhanced the categorization of topics and can be summarized as oxidative stress, cancer, disorders in glycolipid metabolism, inflammation, and neurological conditions. Conclusion: China and the United States are the pioneers in Nrf2 research. Recently, there has been a comprehensive exploration of Nrf2 involving both experimental and clinical aspects, as well as mechanisms and therapeutic applications. Investigating novel molecular mechanisms, including NF-κB, Ho1, and Keap1, and developing enhanced, targeted Nrf2 activators or inhibitors to uncover the interplay among cancer, glycolipid metabolic disorder, inflammation, and neurological disorders will be upcoming trends and hotspots. [ABSTRACT FROM AUTHOR]

Published

2023

9. Population-Based Screening of Newborns: Findings From the NBS Expansion Study (Part One).

Author

Brower, Amy, Chan, Kee, Williams, Marc, Berry, Susan, Currier, Robert, Rinaldo, Piero, Caggana, Michele, Gaviglio, Amy, Wilcox, William, Steiner, Robert, Holm, Ingrid A., Taylor, Jennifer, Orsini, Joseph J., Brunelli, Luca, Adelberg, Joanne, Bodamer, Olaf, Viall, Sarah, Scharfe, Curt, Wasserstein, Melissa, and Chen, Jin Y.

Subjects

NEWBORN screening, MEDICAL screening, URBAN growth, GOVERNMENT report writing, COMMITTEE reports, TRANSLATIONAL research

Abstract

Each year, through population-based newborn screening (NBS), 1 in 294 newborns is identified with a condition leading to early treatment and, in some cases, life-saving interventions. Rapid advancements in genomic technologies to screen, diagnose, and treat newborns promise to significantly expand the number of diseases and individuals impacted by NBS. However, expansion of NBS occurs slowly in the United States (US) and almost always occurs condition by condition and state by state with the goal of screening for all conditions on a federally recommended uniform panel. The Newborn Screening Translational Research Network (NBSTRN) conducted the NBS Expansion Study to describe current practices, identify expansion challenges, outline areas for improvement in NBS, and suggest how models could be used to evaluate changes and improvements. The NBS Expansion Study included aworkshop of experts, a survey of clinicians, an analysis of data from online repositories of state NBS programs, reports and publications of completed pilots, federal committee reports, and proceedings, and the development of models to address the study findings. This manuscript (Part One) reports on the design, execution, and results of the NBS Expansion Study. The Study found that the capacity to expand NBS is variable across the US and that nationwide adoption of a new condition averages 9.5 years. Four factors that delay and/or complicate NBS expansion were identified. A companion paper (Part Two) presents a use case for each of the four factors and highlights how modeling could address these challenges to NBS expansion. [ABSTRACT FROM AUTHOR]

Published

2022

10. Collaborative Efforts for Spinocerebellar Ataxia Research in the United States: CRC-SCA and READISCA.

Author

Lin, Chih-Chun, Ashizawa, Tetsuo, and Kuo, Sheng-Han

Subjects

SPINOCEREBELLAR ataxia, CEREBELLUM degeneration, MOLECULAR biology, STATISTICAL power analysis, CRISPRS, NEURODEGENERATION, CLINICAL trials

Abstract

Spinocerebellar ataxias are progressive neurodegenerative disorders primarily affecting the cerebellum. Although the first disease-causing gene was identified nearly 30 years ago, there is no known cure to date, and only a few options exist for symptomatic treatment, with modest effects. The recently developed tools in molecular biology, such as CRISPR/Cas9 and antisense oligonucleotides, can directly act on the disease mechanisms at the genomic or RNA level in disease models. In a nutshell, we are finally just one step away from clinical trials with therapies targeting the underlying genetic cause. However, we still face the challenges for rare neurodegenerative diseases: difficulty in obtaining a large cohort size for sufficient statistical power and the need for biomarkers and clinical outcome assessments (COA) with adequate sensitivity to reflect progression or treatment responses. To overcome these obstacles, ataxia experts form research networks for clinical trial readiness. In this review, we retrace our steps of the collaborative efforts among ataxia researchers in the United States over the years to study and treat these relentless disorders and the future directions of such research networks. [ABSTRACT FROM AUTHOR]

Published

2020

11. Genome-Wide Association Study in an Amerindian Ancestry Population Reveals Novel Systemic Lupus Erythematosus Risk Loci and the Role of European Admixture.

Author

Alarcón‐Riquelme, Marta E., Ziegler, Julie T., Molineros, Julio, Howard, Timothy D., Moreno‐Estrada, Andrés, Sánchez‐Rodríguez, Elena, Ainsworth, Hannah C., Ortiz‐Tello, Patricia, Comeau, Mary E., Rasmussen, Astrid, Kelly, Jennifer A., Adler, Adam, Acevedo‐Vázquez, Eduardo M., Mariano Cucho-Venegas, Jorge, García‐De la Torre, Ignacio, Cardiel, Mario H., Miranda, Pedro, Catoggio, Luis J., Maradiaga‐Ceceña, Marco, and Gaffney, Patrick M.

Subjects

ALLELES, CONFIDENCE intervals, FACTOR analysis, GENETIC polymorphisms, GENETICS, NATIVE Americans, REGRESSION analysis, RESEARCH funding, SYSTEMIC lupus erythematosus, T-test (Statistics), GENOMICS, DATA analysis software, DESCRIPTIVE statistics, ODDS ratio, GENOTYPES, DISEASE risk factors

Abstract

Objective Systemic lupus erythematosus (SLE) is a chronic autoimmune disease with a strong genetic component. We undertook the present work to perform the first genome-wide association study on individuals from the Americas who are enriched for Native American heritage. Methods We analyzed 3,710 individuals from the US and 4 countries of Latin America who were diagnosed as having SLE, and healthy controls. Samples were genotyped with HumanOmni1 BeadChip. Data on out-of-study controls genotyped with HumanOmni2.5 were also included. Statistical analyses were performed using SNPtest and SNPGWA. Data were adjusted for genomic control and false discovery rate. Imputation was performed using Impute2 and, for classic HLA alleles, HiBag. Odds ratios (ORs) and 95% confidence intervals (95% CIs) were calculated. Results The IRF5-TNPO3 region showed the strongest association and largest OR for SLE (rs10488631: genomic control-adjusted P [ Pgcadj] = 2.61 × 10−29, OR 2.12 [95% CI 1.88-2.39]), followed by HLA class II on the DQA2-DQB1 loci (rs9275572: Pgcadj = 1.11 × 10−16, OR 1.62 [95% CI 1.46-1.80] and rs9271366: Pgcadj = 6.46 × 10−12, OR 2.06 [95% CI 1.71-2.50]). Other known SLE loci found to be associated in this population were ITGAM, STAT4, TNIP1, NCF2, and IRAK1. We identified a novel locus on 10q24.33 (rs4917385: Pgcadj = 1.39 × 10−8) with an expression quantitative trait locus (eQTL) effect ( Peqtl = 8.0 × 10−37 at USMG5/miR1307), and several new suggestive loci. SLE risk loci previously identified in Europeans and Asians were corroborated. Local ancestry estimation showed that the HLA allele risk contribution is of European ancestral origin. Imputation of HLA alleles suggested that autochthonous Native American haplotypes provide protection against development of SLE. Conclusion Our results demonstrate that studying admixed populations provides new insights in the delineation of the genetic architecture that underlies autoimmune and complex diseases. [ABSTRACT FROM AUTHOR]

Published

2016

12. Treating thalassemia major-related iron overload: the role of deferiprone.

Author

Berdoukas, Vasilios, Farmaki, Kallistheni, Carson, Susan, Wood, John, and Coates, Thomas

Subjects

THALASSEMIA treatment, BLOOD transfusion reaction, IRON chelates, HEPATITIS treatment

Abstract

Over the last 20 years, management for thalassemia major has improved to the point where we predict that patients' life expectancy will approach that of the normal population. These outcomes result from safer blood transfusions, the availability of three iron chelators, new imaging techniques that allow specific organ assessment of the degree of iron overload, and improvement in the treatment of hepatitis. In October 2011, the Food and Drug Administration licensed deferiprone, further increasing the available choices for iron chelation in the US. The ability to prescribe any of the three chelators as well as their combinations has led to more effective reduction of total body iron. The ability to determine the amount of iron in the liver and heart by magnetic resonance imaging allows the prescription of the most appropriate chelation regime for patients and to reconsider what our aims with respect to total body iron should be. Recent evidence from Europe has shown that by normalizing iron stores not only are new morbidities prevented but also reversal of many complications such as cardiac failure, hypothyroidism, hypogonadism, impaired glucose tolerance, and type 2 diabetes can occur, improving survival and patients' quality of life. The most effective way to achieve normal iron stores seems to be with the combination of deferoxamine and deferiprone. Furthermore, outcomes should continue to improve in the future. Starting relative intensive chelation in younger children may prevent short stature and abnormal pubertal maturation as well as other iron-related morbidities. Also, further information should become available on the use of other combinations in chelation treatment, some of which have been used only in a very limited fashion to date. All these advances in management require absolute cooperation and understanding of parents, children, and, subsequently, the patients themselves. Only with such cooperation can normal long-term survival be achieved, as adherence to treatment is now likely the primary barrier to longevity. [ABSTRACT FROM AUTHOR]

Published

2012

13. Gene and genetic diagnostic method patent claims: a comparison under current European and US patent law.

Author

Huys, Isabelle, Van Overwalle, Geertrui, and Matthijs, Gert

Subjects

GENETIC disorder diagnosis, GENES, DEBATE

Abstract

The paper focuses on the fundamental debate that is going on in Europe and the United States about whether genes and genetic diagnostic methods are to be regarded as inventions or subject matter eligible for patent protection, or whether they are discoveries or principles of nature and thus excluded from patentability. The study further explores some possible scenarios of American influences on European patent applications with respect to genetic diagnostic methods. Our analysis points out that patent eligibility for genes and genetic diagnostic methods, as discussed in the United States in the Association of Molecular Pathology versus US Patent and Trademark Office decision, is based on a different reasoning compared with the European Patent Convention. [ABSTRACT FROM AUTHOR]

Published

2011

14. Legal uncertainty in the area of genetic diagnostic testing.

Author

Huys, Isabelle, Berthels, Nele, Matthijs, Gert, and Overwalle, Geertrui Van

Subjects

PATENTS, GENETIC disorder diagnosis, NONINVASIVE diagnostic tests, PATENT infringement

Abstract

The article discusses a study which examined 22 patented genetic diagnostic tests in the U.S. and Europe. The study analyzed the exact number, status, nature and scope of granted disease-specific patents being applied in the U.S. and Europe. The profile of patent applicants is presented, along with the typology and impact of claim analysis. The authors noted that the study highlighted the problem of lack of transparency and clarity that lead to legal uncertainty. Such legal uncertainty poses risks if genetic tests are performed without knowledge of patent infringement.

Published

2009

15. 2,4 Dinitrophenol as Medicine.

Author

Geisler, John G.

Subjects

OXYGEN in the blood, GRAFT versus host disease, INVESTIGATIONAL drugs, TERATOGENICITY testing, DUCHENNE muscular dystrophy, AMYOTROPHIC lateral sclerosis

Abstract

In the sanctity of pure drug discovery, objective reasoning can become clouded when pursuing ideas that appear unorthodox, but are spot on physiologically. To put this into historical perspective, it was an unorthodox idea in the 1950's to suggest that warfarin, a rat poison, could be repositioned into a breakthrough drug in humans to protect against strokes as a blood thinner. Yet it was approved in 1954 as Coumadin® and has been prescribed to billions of patients as a standard of care. Similarly, no one can forget the horrific effects of thalidomide, prescribed or available without a prescription, as both a sleeping pill and "morning sickness" anti-nausea medication targeting pregnant women in the 1950's. The "thalidomide babies" became the case-in-point for the need of strict guidelines by the U.S. Food & Drug Administration (FDA) or full multi-species teratogenicity testing before drug approval. More recently it was found that thalidomide is useful in graft versus host disease, leprosy and resistant tuberculosis treatment, and as an anti-angiogenesis agent as a breakthrough drug for multiple myeloma (except for pregnant female patients). Decades of diabetes drug discovery research has historically focused on every possible angle, except, the energy-out side of the equation, namely, raising mitochondrial energy expenditure with chemical uncouplers. The idea of "social responsibility" allowed energy-in agents to be explored and the portfolio is robust with medicines of insulin sensitizers, insulin analogues, secretagogues, SGLT2 inhibitors, etc., but not energy-out medicines. The primary reason? It appeared unorthodox, to return to exploring a drug platform used in the 1930s in over 100,000 obese patients used for weight loss. This is over 80-years ago and prior to Dr Peter Mitchell explaining the mechanism of how mitochondrial uncouplers, like 2,4-dinitrophenol (DNP) even worked by three decades later in 1961. Although there is a clear application for metabolic disease, it was not until recently that this platform was explored for its merit at very low, weight-neutral doses, for treating insidious human illnesses and completely unrelated to weight reduction. It is known that mitochondrial uncouplers specifically target the entire organelle's physiology non-genomically. It has been known for years that many neuromuscular and neurodegenerative diseases are associated with overt production of reactive oxygen species (ROSs), a rise in isoprostanes (biomarker of mitochondrial ROSs in urine or blood) and poor calcium (Ca2+) handing. It has also been known that mitochondrial uncouplers lower ROS production and Ca2+ overload. There is evidence that elevation of isoprostanes precedes disease onset, in Alzheimer's Disease (AD). It is also curious, why so many neurodegenerative diseases of known and unknown etiology start at mid-life or later, such as Multiple Sclerosis (MS), Huntington Disease (HD), AD, Parkinson Disease, and Amyotrophic Lateral Sclerosis (ALS). Is there a relationship to a buildup of mutations that are sequestered over time due to ROSs exceeding the rate of repair? If ROS production were managed, could disease onset due to aging be delayed or prevented? Is it possible that most, if not all neurodegenerative diseases are manifested through mitochondrial dysfunction? Although DNP, a historic mitochondrial uncoupler, was used in the 1930s at high doses for obesity in well over 100,000 humans, and so far, it has never been an FDA-approved drug. This review will focus on the application of using DNP, but now, repositioned as a potential disease-modifying drug for a legion of insidious diseases at much lower and paradoxically, weight neutral doses. DNP will be addressed as a treatment for "metabesity", an emerging term related to the global comorbidities associated with the over-nutritional phenotype; obesity, diabetes, nonalcoholic steatohepatitis (NASH), metabolic syndrome, cardiovascular disease, but including neurodegenerative disorders and accelerated aging. Some unexpected drug findings will be discussed, such as DNP's induction of neurotrophic growth factors involved in neuronal heath, learning and cognition. For the first time in 80's years, the FDA has granted (to Mitochon Pharmaceutical, Inc., Blue Bell, PA, USA) an open Investigational New Drug (IND) approval to begin rigorous clinical testing of DNP for safety and tolerability, including for the first ever, pharmacokinetic profiling in humans. Successful completion of Phase I clinical trial will open the door to explore the merits of DNP as a possible treatment of people with many truly unmet medical needs, including those suffering from HD, MS, PD, AD, ALS, Duchenne Muscular Dystrophy (DMD), and Traumatic Brain Injury (TBI). [ABSTRACT FROM AUTHOR]

Published

2019

16. Understanding the mechanisms of food effect on omaveloxolone pharmacokinetics through physiologically based biopharmaceutics modeling.

Author

Pepin XJH, Hynes SM, Zahir H, Walker D, Semmens LQ, and Suarez-Sharp S

Subjects

Humans, Area Under Curve, Administration, Oral, Biopharmaceutics methods, Male, Adult, Fasting metabolism, United States, Food-Drug Interactions, Models, Biological

Abstract

Omaveloxolone is a nuclear factor (erythroid-derived 2)-like 2 activator approved in the United States and the European Union for the treatment of patients with Friedreich ataxia aged ≥16 years, with a recommended dosage of 150 mg orally once daily on an empty stomach. The effect of the US Food and Drug Administration (FDA) high-fat breakfast on the pharmacokinetic profile of omaveloxolone observed in study 408-C-1703 (NCT03664453) deviated from the usual linear correlation between fed/fasted maximum plasma concentration (C max ) and area under the concentration-time curve (AUC) ratios reported for various oral drugs across 323 food effect studies. Here, physiologically based biopharmaceutics modeling (PBBM) was implemented to predict and explain the effect of the FDA high-fat breakfast on a 150-mg dose of omaveloxolone. The model was developed and validated based on dissolution and pharmacokinetic data available across dose-ranging, food effect, and drug-drug interaction clinical studies. PBBM predictions support clinical observations of the unique effect of a high-fat meal on omaveloxolone pharmacokinetic profile, in which the C max increased by 350% with only a 15% increase in the AUC. Key parameters influencing omaveloxolone pharmacokinetics in the fasted state based on a parameter sensitivity analysis included bile salt solubilization, CYP3A4 activity, drug substance particle size distribution, and permeability. Mechanistically, in vivo omaveloxolone absorption was solubility and dissolution rate limited. However, in the fed state, higher bile salt solubilization led to more rapid dissolution with predominant absorption in the upper gastrointestinal tract, resulting in increased susceptibility to first-pass gut extraction; this accounts for the lack of correlation between C max and AUC for omaveloxolone., (© 2024 Biogen Inc and The Author(s). CPT: Pharmacometrics & Systems Pharmacology published by Wiley Periodicals LLC on behalf of American Society for Clinical Pharmacology and Therapeutics.)

Published

2024