StemRad#AstroRad
{{Short description|Israeli-American start-up}}
{{Undisclosed paid|date=June 2023}}
{{Infobox company
| name = StemRad Ltd. / StemRad Inc.
| logo = StemRad Logo.jpg
| type =
| foundation = 2011
| location_city = Tampa, Florida, United States
Tel Aviv, Israel
| founders = Oren Milstein and Daniel Levitt
| industry = Personal protective equipment
| homepage = {{URL|http://www.stemrad.com}}
}}
StemRad is an Israeli-American start-up company that develops and manufactures personal protective equipment (PPE) against ionizing radiation. Its first product was the 360 Gamma, a device that protects the user's pelvic bone marrow from gamma radiation.{{cite web |title=The Belt That Protects Against Gamma Radiation |url=https://www.popularmechanics.com/technology/gear/a19053962/stemrad-waistband-belt-astrorad-gamma-radiation-first-responders/ |website=www.popularmechanics.com |date=27 June 2018 |accessdate=27 August 2019}} StemRad has also developed the StemRad MD, a protective suit designed to provide whole-body radiation protection to physicians, and the AstroRad vest for radiation protection in space, which is currently being tested on the International Space Station and is one of the primary payloads onboard NASA's Artemis 1 lunar mission.{{Cite web |title=New radiation vest technology protects astronauts, doctors |url=https://www.upi.com/Science_News/2020/12/24/New-radiation-vest-technology-protects-astronauts-doctors/3471608757303/ |access-date=2022-12-06 |website=UPI |language=en}}{{cite news |title=Israeli radiation protection vest blasts off to Int'l Space Station |url=https://www.jpost.com/Jpost-Tech/Israeli-radiation-protection-vest-to-blast-off-to-Intl-Space-Station-606574 |publisher=The Jerusalem Post |date=November 3, 2019}}{{Cite web |last=Crane |first=Aimee |date=2020-02-13 |title=Orion "Passengers" on Artemis I to Test Radiation Vest for Deep Space |url=http://www.nasa.gov/feature/orion-passengers-on-artemis-i-to-test-radiation-vest-for-deep-space-missions |access-date=2022-11-29 |website=NASA}}
History
StemRad was founded in December 2011 by Oren Milstein and Daniel Levitt. They were inspired to create the company by the Chernobyl disaster where many of the firemen and engineers, who were first on the scene, died from high doses of gamma radiation in an illness known as Acute Radiation Syndrome (ARS), also known as radiation sickness. This idea was fueled by a sense of urgency due to the growing nuclear threat on the state of Israel. Following the Fukushima Daiichi nuclear disaster in March 2011, the two partnered with Roger Kornberg, Aaron Ciechanover and Michael Levitt.{{cite web|title=Dismantling the Bomb: meet the scientists that will cause humanity to stop worrying about nuclear threats| url=http://www.themarker.com/markerweek/1.2275600| publisher=The Marker}}
Products
= 360 Gamma =
The 360 Gamma is a {{cvt|14|kg|lb|abbr=on}} belt designed to protect the pelvic area against gamma radiation. It is meant to be worn by first responders (fire fighters, paramedics, police and the military), that would be exposed to radiation in the event of a nuclear emergency.{{cite web| title=Stemrad Makes Belt to Protect Users From Radiation Exposure| date=28 April 2014 | url=http://jewishbusinessnews.com/2014/04/28/stemrad-makes-belt-to-protect-users-from-radiation-exposure/ |publisher=Jewish Business News}}{{cite web| title=Israeli Company Invents Nuclear Proof Vest That Protects Against Toxic Radiation| url=http://www.algemeiner.com/2014/01/21/israeli-company-invents-nuclear-proof-vest-that-protects-against-toxic-radiation/ |publisher=The Algemeiner}}[https://web.archive.org/web/20140808050824/http://in.reuters.com/video/2014/04/06/radiation-belt-a-new-line-of-defence-in?videoId=304875105 Radiation belt a new line of defence in nuclear emergency.] Reuters It does not attempt to protect the whole body of the wearer, but, rather, selectively protects the bone marrow-rich pelvic region. It is offered as a solution for acute radiation syndrome (ARS),{{cite web |title=StemRad: Innovation in Radiation Protection |url=https://innovationisrael.org.il/en/success-story/stemrad |website=Israel Innovation Authority |accessdate=28 August 2019}} a major component of which is bone marrow failure.{{cite web |title=Acute Radiation Syndrome: A Fact Sheet for Clinicians |url=https://www.cdc.gov/nceh/radiation/emergencies/arsphysicianfactsheet.htm |website=Centers for Disease Control and Prevention |accessdate=28 August 2019}}
File:ZelenskyyKelly360Gamma.png (a member of StemRad's advisory board) presents a 360 Gamma belt to Ukrainian President Volodymyr Zelenskyy as part of StemRad's donation to Ukrainian first responders during the 2022 Russian Invasion of Ukraine.]]
In November 2022, as a precaution to the risk of a nuclear emergency during the 2022 Russian invasion of Ukraine brought about by Russian threats to use nuclear weapons and the continued shelling of the Zaporizhzhia Nuclear Power Plant, StemRad began donating 360 Gamma devices to Ukrainian first responders.{{Cite web |last=Stebbins |first=Ashley Capoot, Jack |title=Zelenskyy on Putin's threat of nuclear weapons: 'I don't think he's bluffing' |url=https://www.cnbc.com/2022/09/25/zelenskyy-on-putins-threat-of-nuclear-weapons-i-dont-think-hes-bluffing.html |access-date=2022-12-05 |website=CNBC |date=25 September 2022 |language=en}}{{Cite web |date=2022-11-03 |title=Ukraine's Zaporizhzhya Nuclear Power Plant lost off-site power again, diesel generators providing back-up electricity |url=https://www.iaea.org/newscenter/pressreleases/ukraines-zaporizhzhya-nuclear-power-plant-lost-off-site-power-again-diesel-generators-providing-back-up-electricity |access-date=2022-12-05 |website=www.iaea.org |language=en}}{{Cite web |date=2022-11-29 |title=A meeting with representatives of the StemRad company and American astronaut Scott Kelly was held at the State Emergency Service |url=https://zt.dsns.gov.ua/uk/news/ostanni-novini/v-dsns-vidbulas-zustric-iz-predstavnikami-kompaniyi-stemrad-ta-amerikanskim-astronavtom-skottom-kelli}}
= AstroRad=
AstroRad is personal protective equipment for astronauts to be worn beyond low Earth orbit which was co-developed by StemRad and Lockheed Martin.{{cite web |title=Space Florida, Israel Innovation Authority Announce Sixth Round Winners of Innovation Partner Funding |url=https://www.spaceflorida.gov/news/space-florida-israel-innovation-authority-announce-sixth-round-winners-of-innovation-partner-funding/ |website=Space Florida |accessdate=27 August 2019}} AstroRad protects bone marrow to prevent acute radiation sickness but is further expanded to also protect the lungs, stomach, colon, breast and ovaries – organs that are particularly sensitive to the development of cancer due to chronic exposure to radiation.{{cite web |title=Tissue weighting factors according to ICRP 103 (ICRP 2007) |url=https://ec.europa.eu/health/scientific_committees/opinions_layman/security-scanners/en/figtableboxes/tissue-weighting-factors.htm |website=European Commission |accessdate=27 August 2019}} The AstroRad vest is strongly effective in shielding astronauts from the solar energetic particles (SEP) released during solar storms. The functional shielding material is made of high-density polyethylene (HDPE), which is a hydrogenous compound (with a high ratio of electrons to neutrons) optimized for shielding against charged particle radiation like SEP, according to the Bethe-Bloch formula.[https://m.esa.int/spaceinimages/Images/2019/01/AstroRad AstroRad.] European Space Agency. 25 January 2019.{{cite web |last1=Gaza |first1=Razvan |title=International Science Aboard Orion EM-1: The Matroshka AstroRad Radiation Experiment (MARE) Payload |url=https://ntrs.nasa.gov/archive/nasa/casi.ntrs.nasa.gov/20180006715.pdf |accessdate=27 August 2019 |website=nasa.gov|date=14 July 2018 }}
File:Watkins AstroRad ISS.png evaluates the AstroRad vest on the ISS for the Comfort and Human Factors AstroRad Radiation Garment Evaluation (CHARGE) study.]]
As a test before its planned use in deep space, an AstroRad vest launched to the International Space Station (ISS) in low Earth orbit on November 2, 2019 aboard Cygnus NG-12 as part of the Comfort and Human Factors AstroRad Radiation Garment Evaluation (CHARGE) study. Four female astronauts wore the AstroRad vest in microgravity for variable durations during routine activities, providing feedback on ergonomics, range of motion, comfort and general user experience.{{cite web |title=AstroRad on the ISS |url=https://embassies.gov.il/washington/NewsAndEvents/Pages/AstroRad-on-ISS.aspx |website=The Embassy of Israel to the United States |accessdate=27 August 2019}} In addition, entrepreneur and former Israeli Air Force pilot Eytan Stibbe wore the AstroRad vest during Axiom Mission 1, a privately funded and operated crewed mission to the ISS, in April 2022.{{Cite web |title=Ax-1 Mission |website=CNBC |date=16 November 2020 |url=https://www.cnbc.com/2020/11/16/israeli-eytan-stibbe-second-member-of-spacex-private-flight-for-axiom.html}}{{Cite web |title=AstroRad_Axiom1 |url=https://www.algemeiner.com/2021/05/05/which-israeli-technologies-will-soon-be-going-to-space/}}
File:HelgaZohar Orion MARE.jpg Helga and Zohar, with Zohar wearing an AstroRad radiation protection vest, inside the Orion spacecraft prior to the launch of Artemis 1.]]
The AstroRad vest was also one of the primary payloads onboard NASA's Artemis 1 mission, which launched an uncrewed Orion spacecraft in a Moon-orbiting trajectory on November 16, 2022, as part of the Matroshka AstroRad Radiation Experiment (MARE), an international collaboration between the Israeli Space Agency, the German Aerospace Center, NASA, and Lockheed Martin.{{cite web |title=NASA Acting Administrator and Israel Space Agency Director General Sign Agreement |url=https://www.nasa.gov/image-feature/nasa-acting-administrator-and-israel-space-agency-director-general-sign-agreement |accessdate=27 August 2019 |website=nasa.gov}}{{cite web |title=Tracking cosmic radiation – To the Moon and back with ISA and NASA |url=https://www.dlr.de/dlr/en/desktopdefault.aspx/tabid-10081/151_read-30072/#/gallery/32230 |accessdate=27 August 2019 |website=dlr.de}}{{Cite web |title=DLR - Institute of Aerospace Medicine - MARE |url=https://www.dlr.de/me/en/desktopdefault.aspx/tabid-14114/ |access-date=2022-11-29 |website=www.dlr.de}} Onboard the crew module were two female radiation dosimetry phantom torsos named Helga and Zohar, which measured radiation exposure throughout the body during the mission via both passive and active dosimeters distributed at sensitive and high stem cell-concentration tissues.{{Cite web |last=Gaza |first=R |date=2019 |title=Orion EM-1 Internal Environment Characterization: The Matroshka AstroRad Radiation Experiment |url=https://ntrs.nasa.gov/api/citations/20190026525/downloads/20190026525.pdf}} By comparing the dosimetry data from Helga and Zohar, the effectiveness of the AstoRad vest in shielding astronauts from radiation in deep space will be experimentally quantified.
= StemRad MD =
The StemRad MD is a protective system designed for interventional radiologists and other physicians who perform medical imaging using ionizing radiation, most notably fluoroscopy.{{Cite web|last=|first=|date=|title=StemRad MD|url=https://stemrad.com/medical/|access-date=|website=}} This technology was designed to increase whole-body protection, particularly to the head, while providing physicians relatively free-range motion capabilities while operating. For ergonomic relief, the StemRad MD system uses a proprietary exoskeleton system.
The protective ensemble consists of four main parts: a protective apron, a protective visor, a thyroid collar, and an exoskeletal system. The protective apron is of bismuth-antimony bilayer composition and offers 0.5mm lead-equivalent protection with a small overlap area of 1mm in the front.{{Cite journal|last=Büermann|first=L.|date=2016-09-06|title=Determination of lead equivalent values according to IEC 61331-1:2014—Report and short guidelines for testing laboratories|journal=Journal of Instrumentation|volume=11|issue=9|pages=T09002|doi=10.1088/1748-0221/11/09/T09002|issn=1748-0221|doi-access=free|bibcode=2016JInst..11.9002B }} The visor is made up of a transparent lead-acrylic material. It is positioned at an angle so that it blocks most of the radiation coming from underneath and allows the physician to wear unshielded prescription glasses while performing procedures. The thyroid collar is integrated into the protective apron component and is flush with the bottom side of the protective visor.