Space Flight Laboratory (SFL) Announces Key Milestone in Development of Aspera Space Astronomy Microsatellite Mission
Aspera is a bold NASA astrophysics mission that seeks to understand the formation and evolution of galaxies through far-UV observations of the matter surrounding those galaxies, known as the 'circumgalactic medium'. The mission is managed by the University of Arizona's Department of Astronomy & Steward Observatory with funding from the NASA Astrophysics Pioneers Program.
'SFL is proud to play a role in such a challenging space astrophysics mission that will enhance our understanding of how the universe formed,' said SFL Director Dr. Robert E. Zee. 'We have developed Aspera on our 60-kg DEFIANT microsatellite platform.'
The Aspera mission derives its name from the Latin word for 'difficulty' or 'hardship' because astronomers have never been able to successfully observe the hot gasses that compose the circumgalactic medium. Aspera could be the first to do so.
'We know there must be some amount of matter in the universe…we've looked for it and still can't find most of it. It's likely in this circumgalactic medium,' said Prof. Carlos J. Vargas, University of Arizona Astronomer and Aspera Principal Investigator. 'Why do we care about that? Because every star that has formed, every planet that's formed, and all life on those planets must come from matter somewhere.'
A key aspect to the technical success of Aspera – and the reason SFL was selected for spacecraft development – is the importance of very precise pointing of the onboard telescope.
SFL is the acknowledged leader in the development of extremely stable small satellite platforms due to the advanced attitude control systems it has developed and refined for pointing of sensors on low-mass spacecraft. SFL has successfully leveraged this technology in missions for space astrophysics, Earth observation, RF signal detection, and atmospheric monitoring.
Vargas credits the small satellite revolution for making the Aspera mission possible. Just 10 years ago, he said, such a space astrophysics mission would not have been financially viable with traditional satellites.
'Big science can now be done on small platforms, and the University of Arizona and Steward Observatory are big players in the SmallSat revolution,' said Vargas. 'Our partnership with SFL makes that possible.'
Established in 1998, SFL has developed 86 operationally successful smaller satellite missions totaling more than 370 cumulative years in orbit. Another 21 spacecraft are now under development by SFL, which offers a complete suite of nano-, micro- and small satellites – including high-performance, low-cost CubeSats – that satisfy the needs of a broad range of mission types from 3 to 500 kilograms. For a comprehensive list of SFL high-performance satellite platforms, please visit https://www.utias-sfl.net/satellite-platforms/overview/.
About Space Flight Laboratory (SFL) (www.utias-sfl.net)
SFL generates bigger returns from smaller, lower cost satellites. Small satellites built by SFL consistently push the performance envelope and disrupt the traditional cost paradigm. We build quality small satellites at low cost that work the first time and enable NewSpace companies to mass produce through our Flex Production program. Satellites are built with advanced power systems, stringent attitude control and high-volume data capacity that are striking relative to the budget. SFL arranges launches globally and maintains a mission control center accessing ground stations worldwide. The pioneering and barrier-breaking work of SFL is a key enabler to tomorrow's cost-aggressive satellites and constellations.
(www.utias-sfl.net)
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Sarepta Therapeutics Provides Clarifying Statement on ELEVIDYS
CAMBRIDGE, Mass., July 25, 2025--(BUSINESS WIRE)--Sarepta Therapeutics, Inc. (NASDAQ:SRPT), the leader in precision genetic medicine for rare diseases, today issued the following statement: Just before 6:00 p.m. ET today, the U.S. Food and Drug Administration (FDA) issued a press release announcing an investigation into the death of an eight-year-old Duchenne muscular dystrophy (Duchenne) patient who had received ELEVIDYS (delandistrogene moxeparvovec) gene therapy. The death of this patient was deemed unrelated to treatment with ELEVIDYS. As reported yesterday by Naomi Kresge at Bloomberg News: Roche Holding AG says the recent death of a patient in Brazil who had been treated with gene therapy Elevidys for Duchenne muscular dystrophy is unrelated to the treatment. * The boy wasn't a clinical trial participant; reporting physician assessed his death as being unrelated to the gene therapy, Roche says in statement* Death was reported to health authorities* Roche, which markets Sarepta's Duchenne treatment Elevidys outside the US, declines to comment on the boy's age or details of the case Sarepta reported this event to FDA on June 18, 2025, via the FDA's postmarketing electronic database, FAERS. At Sarepta, patient safety and well-being are always our top priority. We are committed to upholding the highest safety standards for all of our therapies, and do so in accordance with applicable law and commitment to full regulatory transparency. ELEVIDYS is the only approved gene therapy for families and children devastated by Duchenne, a rare, progressive and ultimately fatal disease. We remain committed to working closely with the FDA to ensure that all decisions are grounded in science and the best interests of patients, considering the compelling need of these families to access disease-modifying therapy. About ELEVIDYS (delandistrogene moxeparvovec-rokl)ELEVIDYS (delandistrogene moxeparvovec-rokl) is a single-dose, adeno-associated virus (AAV)-based gene transfer therapy for intravenous infusion designed to address the underlying genetic cause of Duchenne muscular dystrophy – mutations or changes in the DMD gene that result in the lack of dystrophin protein – through the delivery of a transgene that codes for the targeted production of ELEVIDYS micro-dystrophin in skeletal muscle. ELEVIDYS is indicated for the treatment of Duchenne muscular dystrophy (DMD) in individuals at least 4 years of age. For patients who are ambulatory and have a confirmed mutation in the DMD gene For patients who are non-ambulatory and have a confirmed mutation in the DMD gene. The DMD indication in non-ambulatory patients is approved under accelerated approval based on expression of ELEVIDYS micro-dystrophin in skeletal muscle. Continued approval for this indication may be contingent upon verification and description of clinical benefit in a confirmatory trial(s). IMPORTANT SAFETY INFORMATION CONTRAINDICATION: ELEVIDYS is contraindicated in patients with any deletion in exon 8 and/or exon 9 in the DMD gene. WARNINGS AND PRECAUTIONS:Infusion-related Reactions: Infusion-related reactions, including hypersensitivity reactions and anaphylaxis, have occurred during or up to several hours following ELEVIDYS administration. Closely monitor patients during administration and for at least 3 hours after the end of infusion. If symptoms of infusion-related reactions occur, slow, or stop the infusion and give appropriate treatment. Once symptoms resolve, the infusion may be restarted at a lower rate. ELEVIDYS should be administered in a setting where treatment for infusion-related reactions is immediately available. Discontinue infusion for anaphylaxis. Acute Serious Liver Injury: Acute serious liver injury has been observed with ELEVIDYS, and administration may result in elevations of liver enzymes (such as GGT, GLDH, ALT, AST) or total bilirubin, typically seen within 8 weeks. Patients with preexisting liver impairment, chronic hepatic condition, or acute liver disease (e.g., acute hepatic viral infection) may be at higher risk of acute serious liver injury. Postpone ELEVIDYS administration in patients with acute liver disease until resolved or controlled. Prior to ELEVIDYS administration, perform liver enzyme test and monitor liver function (clinical exam, GGT, and total bilirubin) weekly for the first 3 months following ELEVIDYS infusion. Continue monitoring if clinically indicated, until results are unremarkable (normal clinical exam, GGT, and total bilirubin levels return to near baseline levels). Systemic corticosteroid treatment is recommended for patients before and after ELEVIDYS infusion. Adjust corticosteroid regimen when indicated. If acute serious liver injury is suspected, consultation with a specialist is recommended. Immune-mediated Myositis: In clinical trials, immune-mediated myositis has been observed approximately 1 month following ELEVIDYS infusion in patients with deletion mutations involving exon 8 and/or exon 9 in the DMD gene. Symptoms of severe muscle weakness, including dysphagia, dyspnea, and hypophonia, were observed. Limited data are available for ELEVIDYS treatment in patients with mutations in the DMD gene in exons 1 to 17 and/or exons 59 to 71. Patients with deletions in these regions may be at risk for a severe immune-mediated myositis reaction. Advise patients to contact a physician immediately if they experience any unexplained increased muscle pain, tenderness, or weakness, including dysphagia, dyspnea, or hypophonia, as these may be symptoms of myositis. Consider additional immunomodulatory treatment (immunosuppressants [e.g., calcineurin-inhibitor] in addition to corticosteroids) based on patient's clinical presentation and medical history if these symptoms occur. Myocarditis: Acute serious myocarditis and troponin-I elevations have been observed following ELEVIDYS infusion in clinical trials. If a patient experiences myocarditis, those with pre-existing left ventricle ejection fraction (LVEF) impairment may be at higher risk of adverse outcomes. Monitor troponin-I before ELEVIDYS infusion and weekly for the first month following infusion and continue monitoring if clinically indicated. More frequent monitoring may be warranted in the presence of cardiac symptoms, such as chest pain or shortness of breath. Advise patients to contact a physician immediately if they experience cardiac symptoms. Preexisting Immunity against AAVrh74: In AAV-vector based gene therapies, preexisting anti-AAV antibodies may impede transgene expression at desired therapeutic levels. Following treatment with ELEVIDYS, all patients developed anti-AAVrh74 antibodies. Perform baseline testing for presence of anti-AAVrh74 total binding antibodies prior to ELEVIDYS administration. ELEVIDYS administration is not recommended in patients with elevated anti-AAVrh74 total binding antibody titers greater than or equal to 1:400. Adverse Reactions: The most common adverse reactions (incidence ≥5%) reported in clinical studies were vomiting, nausea, liver injury, pyrexia, and thrombocytopenia. Report negative side effects of prescription drugs to the FDA. Visit or call 1-800-FDA-1088. You may also report side effects to Sarepta Therapeutics at 1-888-SAREPTA (1-888-727-3782). For further information, please see the full Prescribing Information. About Sarepta TherapeuticsSarepta is on an urgent mission: engineer precision genetic medicine for rare diseases that devastate lives and cut futures short. We hold a leadership position in Duchenne muscular dystrophy (Duchenne) and are building a robust portfolio of programs across muscle, central nervous system, and cardiac diseases. For more information, please visit or follow us on LinkedIn, X, Instagram and Facebook. Forward-Looking StatementsThis statement contains "forward-looking statements." Any statements that are not statements of historical fact may be deemed to be forward-looking statements. Words such as "believe," "anticipate," "plan," "expect," "will," "may," "intend," "prepare," "look," "potential," "possible" and similar expressions are intended to identify forward-looking statements. These forward-looking statements include, without limitation, statements relating to our future operations, research and development programs, clinical trials and ELEVIDYS. Actual results could materially differ from those stated or implied by these forward-looking statements as a result of such risks and uncertainties. Known risk factors include the following: our products or product candidates may be perceived as insufficiently effective, unsafe or may result in unforeseen adverse events; our products or product candidates may cause undesirable side effects that result in significant negative consequences following any marketing approval; the possible impact of regulations and regulatory decisions by the FDA and other regulatory agencies on our business; and those risks identified under the heading "Risk Factors" in our most recent Quarterly Report on Form 10-Q filed with the Securities and Exchange Commission (SEC) as well as other SEC filings made by the Company, which you are encouraged to review. Any of the foregoing risks could materially and adversely affect the Company's business, results of operations and the trading price of Sarepta's common stock. For a detailed description of risks and uncertainties Sarepta faces, you are encouraged to review the SEC filings made by Sarepta. We caution investors not to place considerable reliance on the forward-looking statements contained herein. Sarepta does not undertake any obligation to publicly update its forward-looking statements based on events or circumstances after the date hereof, except as required by law. Internet Posting of InformationWe routinely post information that may be important to investors in the 'For Investors' section of our website at We encourage investors and potential investors to consult our website regularly for important information about us. Source: Sarepta Therapeutics, Inc. View source version on Contacts Investor Contact: Ian Estepan617-274-4052iestepan@ Media Contacts: Tracy Sorrentino617-301-8566tsorrentino@ Error in retrieving data Sign in to access your portfolio Error in retrieving data Error in retrieving data Error in retrieving data Error in retrieving data
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39 minutes ago
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Sarepta Therapeutics Provides Clarifying Statement on ELEVIDYS
CAMBRIDGE, Mass.--(BUSINESS WIRE)--Sarepta Therapeutics, Inc. (NASDAQ:SRPT), the leader in precision genetic medicine for rare diseases, today issued the following statement: Just before 6:00 p.m. ET today, the U.S. Food and Drug Administration (FDA) issued a press release announcing an investigation into the death of an eight-year-old Duchenne muscular dystrophy (Duchenne) patient who had received ELEVIDYS (delandistrogene moxeparvovec) gene therapy. The death of this patient was deemed unrelated to treatment with ELEVIDYS. As reported yesterday by Naomi Kresge at Bloomberg News: Roche Holding AG says the recent death of a patient in Brazil who had been treated with gene therapy Elevidys for Duchenne muscular dystrophy is unrelated to the treatment. * The boy wasn't a clinical trial participant; reporting physician assessed his death as being unrelated to the gene therapy, Roche says in statement * Death was reported to health authorities * Roche, which markets Sarepta's Duchenne treatment Elevidys outside the US, declines to comment on the boy's age or details of the case Sarepta reported this event to FDA on June 18, 2025, via the FDA's postmarketing electronic database, FAERS. At Sarepta, patient safety and well-being are always our top priority. We are committed to upholding the highest safety standards for all of our therapies, and do so in accordance with applicable law and commitment to full regulatory transparency. ELEVIDYS is the only approved gene therapy for families and children devastated by Duchenne, a rare, progressive and ultimately fatal disease. We remain committed to working closely with the FDA to ensure that all decisions are grounded in science and the best interests of patients, considering the compelling need of these families to access disease-modifying therapy. About ELEVIDYS (delandistrogene moxeparvovec-rokl) ELEVIDYS (delandistrogene moxeparvovec-rokl) is a single-dose, adeno-associated virus (AAV)-based gene transfer therapy for intravenous infusion designed to address the underlying genetic cause of Duchenne muscular dystrophy – mutations or changes in the DMD gene that result in the lack of dystrophin protein – through the delivery of a transgene that codes for the targeted production of ELEVIDYS micro-dystrophin in skeletal muscle. ELEVIDYS is indicated for the treatment of Duchenne muscular dystrophy (DMD) in individuals at least 4 years of age. For patients who are ambulatory and have a confirmed mutation in the DMD gene For patients who are non-ambulatory and have a confirmed mutation in the DMD gene. The DMD indication in non-ambulatory patients is approved under accelerated approval based on expression of ELEVIDYS micro-dystrophin in skeletal muscle. Continued approval for this indication may be contingent upon verification and description of clinical benefit in a confirmatory trial(s). IMPORTANT SAFETY INFORMATION CONTRAINDICATION: ELEVIDYS is contraindicated in patients with any deletion in exon 8 and/or exon 9 in the DMD gene. WARNINGS AND PRECAUTIONS: Infusion-related Reactions: Infusion-related reactions, including hypersensitivity reactions and anaphylaxis, have occurred during or up to several hours following ELEVIDYS administration. Closely monitor patients during administration and for at least 3 hours after the end of infusion. If symptoms of infusion-related reactions occur, slow, or stop the infusion and give appropriate treatment. Once symptoms resolve, the infusion may be restarted at a lower rate. ELEVIDYS should be administered in a setting where treatment for infusion-related reactions is immediately available. Discontinue infusion for anaphylaxis. Acute Serious Liver Injury: Acute serious liver injury has been observed with ELEVIDYS, and administration may result in elevations of liver enzymes (such as GGT, GLDH, ALT, AST) or total bilirubin, typically seen within 8 weeks. Patients with preexisting liver impairment, chronic hepatic condition, or acute liver disease (e.g., acute hepatic viral infection) may be at higher risk of acute serious liver injury. Postpone ELEVIDYS administration in patients with acute liver disease until resolved or controlled. Prior to ELEVIDYS administration, perform liver enzyme test and monitor liver function (clinical exam, GGT, and total bilirubin) weekly for the first 3 months following ELEVIDYS infusion. Continue monitoring if clinically indicated, until results are unremarkable (normal clinical exam, GGT, and total bilirubin levels return to near baseline levels). Systemic corticosteroid treatment is recommended for patients before and after ELEVIDYS infusion. Adjust corticosteroid regimen when indicated. If acute serious liver injury is suspected, consultation with a specialist is recommended. Immune-mediated Myositis: In clinical trials, immune-mediated myositis has been observed approximately 1 month following ELEVIDYS infusion in patients with deletion mutations involving exon 8 and/or exon 9 in the DMD gene. Symptoms of severe muscle weakness, including dysphagia, dyspnea, and hypophonia, were observed. Limited data are available for ELEVIDYS treatment in patients with mutations in the DMD gene in exons 1 to 17 and/or exons 59 to 71. Patients with deletions in these regions may be at risk for a severe immune-mediated myositis reaction. Advise patients to contact a physician immediately if they experience any unexplained increased muscle pain, tenderness, or weakness, including dysphagia, dyspnea, or hypophonia, as these may be symptoms of myositis. Consider additional immunomodulatory treatment (immunosuppressants [e.g., calcineurin-inhibitor] in addition to corticosteroids) based on patient's clinical presentation and medical history if these symptoms occur. Myocarditis: Acute serious myocarditis and troponin-I elevations have been observed following ELEVIDYS infusion in clinical trials. If a patient experiences myocarditis, those with pre-existing left ventricle ejection fraction (LVEF) impairment may be at higher risk of adverse outcomes. Monitor troponin-I before ELEVIDYS infusion and weekly for the first month following infusion and continue monitoring if clinically indicated. More frequent monitoring may be warranted in the presence of cardiac symptoms, such as chest pain or shortness of breath. Advise patients to contact a physician immediately if they experience cardiac symptoms. Preexisting Immunity against AAVrh74: In AAV-vector based gene therapies, preexisting anti-AAV antibodies may impede transgene expression at desired therapeutic levels. Following treatment with ELEVIDYS, all patients developed anti-AAVrh74 antibodies. Perform baseline testing for presence of anti-AAVrh74 total binding antibodies prior to ELEVIDYS administration. ELEVIDYS administration is not recommended in patients with elevated anti-AAVrh74 total binding antibody titers greater than or equal to 1:400. Adverse Reactions: The most common adverse reactions (incidence ≥5%) reported in clinical studies were vomiting, nausea, liver injury, pyrexia, and thrombocytopenia. Report negative side effects of prescription drugs to the FDA. Visit or call 1-800-FDA-1088. You may also report side effects to Sarepta Therapeutics at 1-888-SAREPTA (1-888-727-3782). For further information, please see the full Prescribing Information. About Sarepta Therapeutics Sarepta is on an urgent mission: engineer precision genetic medicine for rare diseases that devastate lives and cut futures short. We hold a leadership position in Duchenne muscular dystrophy (Duchenne) and are building a robust portfolio of programs across muscle, central nervous system, and cardiac diseases. For more information, please visit or follow us on LinkedIn, X, Instagram and Facebook. Forward-Looking Statements This statement contains 'forward-looking statements.' Any statements that are not statements of historical fact may be deemed to be forward-looking statements. Words such as 'believe,' 'anticipate,' 'plan,' 'expect,' 'will,' 'may,' 'intend,' 'prepare,' 'look,' 'potential,' 'possible' and similar expressions are intended to identify forward-looking statements. These forward-looking statements include, without limitation, statements relating to our future operations, research and development programs, clinical trials and ELEVIDYS. Actual results could materially differ from those stated or implied by these forward-looking statements as a result of such risks and uncertainties. Known risk factors include the following: our products or product candidates may be perceived as insufficiently effective, unsafe or may result in unforeseen adverse events; our products or product candidates may cause undesirable side effects that result in significant negative consequences following any marketing approval; the possible impact of regulations and regulatory decisions by the FDA and other regulatory agencies on our business; and those risks identified under the heading 'Risk Factors' in our most recent Quarterly Report on Form 10-Q filed with the Securities and Exchange Commission (SEC) as well as other SEC filings made by the Company, which you are encouraged to review. Any of the foregoing risks could materially and adversely affect the Company's business, results of operations and the trading price of Sarepta's common stock. For a detailed description of risks and uncertainties Sarepta faces, you are encouraged to review the SEC filings made by Sarepta. We caution investors not to place considerable reliance on the forward-looking statements contained herein. Sarepta does not undertake any obligation to publicly update its forward-looking statements based on events or circumstances after the date hereof, except as required by law. Internet Posting of Information We routinely post information that may be important to investors in the 'For Investors' section of our website at We encourage investors and potential investors to consult our website regularly for important information about us. Source: Sarepta Therapeutics, Inc.
Yahoo
2 hours ago
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500-Million-Year-Old Fossil Suggests Ocean Origin For Spiders
The special brains of spiders may have started to evolve in the oceans, long before their ancestors crawled onto land. A fresh look at a 500-million-year-old fossil by researchers from the University of Arizona and Lycoming College in the US and King's College London has revealed remarkable similarities between the brains of extinct marine arthropods and modern-day arachnids. The discovery wades into controversial territory regarding the evolutionary origin of spiders and their relatives. Today, spiders, scorpions, mites, and ticks are virtually all terrestrial, and the prevailing view is that these arachnids evolved from a common, land-dwelling ancestor. Related: Where that ancestor came from is a whole other mystery. Arachnids on land are related to other 'chelicerates' in the ocean, like sea spiders and horseshoe crabs, but the fossil record is very patchy. "It is still vigorously debated where and when arachnids first appeared, and what kind of chelicerates were their ancestors, and whether these were marine or semi-aquatic like horseshoe crabs," explains University of Arizona neuroscientist Nicholas Strausfeld. The transition from sea to land is a big step for a little creature, no matter how many legs it has. The oldest accepted remains of an arachnid are of a 430-million-year-old scorpion, a critter that lived on land. But new evidence suggests that arachnids as a whole may have started to diverge from other chelicerates long before that. On the outside, Mollisonia symmetrica may not look very 'spidery'. It kind of resembles a pillbug with a bunch of little legs, and previously, it was thought to be an ancestor of horseshoe crabs. Using light microscopy, researchers have now imaged the fossil's central nervous system and come across an unexpected find. The nervous system of Mollisonia doesn't resemble that of a horseshoe crab or even a crustacean or insect. Instead, the pattern of radiating neural centers was flipped backward, like that of an arachnid. "The arachnid brain is unlike any other brain on this planet," explains Strausfeld. In the Mollisonia fossil, the unique nervous system seems to innervate numerous legs, as well as two pincer-like mouth parts, where modern spiders now have fangs. "This is a major step in evolution, which appears to be exclusive to arachnids," says evolutionary neuroscientist Frank Hirth from King's College London. "Yet already in Mollisonia, we identified brain domains that correspond to living species… " That seems to be no coincidence. Upon further statistical analysis, Hirth and colleagues have found that arachnids probably didn't evolve similar structures to Mollisonia by accident; they were more likely inherited. If the team is right, that puts Mollisonia at the base of the arachnid lineage, making it a sister to horseshoe crabs and sea spiders. While still speculative, it's possible that the unique brain structure seen in the Mollisonia lineage helped its later successors survive on land. Neural 'shortcuts' to the legs and pincers, for instance, could make it easier to control and coordinate complex movements, like walking or weaving webs. "We might imagine that a Mollisonia-like arachnid also became adapted to terrestrial life making early insects and millipedes their daily diet," theorizes Strausfeld. Perhaps it was the earliest arachnids on land that first drove insects to evolve wings and hence flight – and maybe, in turn, airborne prey led to the evolution of webs. From the ocean floor to the treetops, the way that arachnids have adapted to the changing times is truly enviable. The study was published in Current Biology. Related News Secret Bone Armor Discovered Beneath Skins of Australian Lizards Many Butterflies Have a Second 'Head' – This Could Be Why Your Dog May Prefer Certain TV Shows, Research Suggests Solve the daily Crossword
