<p>Washington: Scientists have developed a simple-to-apply, needle-free vaccine patch that may protect people from the potentially deadly mosquito-borne Zika virus.</p>.<p> The experimental vaccine developed by researchers at the University of Adelaide in Australia elicited an effective immune response to Zika virus in mice.</p>.<p> The vaccine, described in the journal Molecular Therapy Nucleic Acids, uses the high-density microarray patch (HD-MAP) patch developed by the University of Queensland (UQ) in Australia for delivery.</p>.Scientists infect volunteers with Zika in hunt for vaccines, treatments.<p> Zika virus is a risk to people across the Pacific, Southeast Asia, India, Africa and South and Central America.</p>.<p> “We can change the way we combat Zika virus with the HD-MAP patch because it is an effective, pain-free, simple to apply, and easy to store vaccination method,” said Danushka Wijesundara, a researcher at The University of Queensland.</p>.<p> “HD-MAP delivers the vaccine to immune cells beneath the skin's surface with thousands of tiny microprojections," Wijesundara said.</p>.<p> In the pre-clinical trial, the vaccine provided rapid protection against live Zika virus, targeting a specific protein called NS1 which is crucial to the virus's survival.</p>.<p> “The vaccine patch evoked T-cell responses that were about 270 per cent higher than from a needle or syringe vaccine delivery," Wijesundara said.</p>.<p> Zika virus generally causes a mild illness but infection in pregnancy can lead to miscarriage and stillbirths or infants born with congenital malformations, the researchers said.</p>.<p> In February 2016, the World Health Organization declared a Public Health Emergency of International Concern when Zika virus spread across 40 countries in Latin America, causing more than 1.5 million confirmed or suspected cases in a 6-month period.</p>.<p> Limited global surveillance shows Zika virus is active in at least 89 countries and territories but there is no currently licensed vaccine, said Branka Grubor-Bauk, an Associate Professor at the University of Adelaide.</p>.<p> “This vaccine is unique because it targets a protein inside, rather than outside of the virus meaning it won't enhance the symptoms of closely related viruses such as dengue fever, in people who have been vaccinated," Grubor-Bauk said.</p>.<p> David Muller from UQ said the microarray patch and the vaccine could have benefits beyond the ability to protect from Zika virus.</p>.<p> “Because the protein we are targeting plays a central role in replication in a virus family known as flaviviruses, there is the potential to apply our approach to target other flaviviruses such as dengue or Japanese encephalitis,” Muller said.</p>.<p> "It could also deliver a vaccine mixture to target the whole family of viruses, providing greater protection," he added.</p>.<p> “A major benefit of the HD-MAP delivery platform is vaccine stability at elevated temperatures -- we found the patch retained vaccine potency when stored at 40 degrees Celsius for up to four weeks."</p>.<p> “This increases the reach of vaccines in low- and middle-income countries where refrigeration is challenging,” said Muller. </p>
<p>Washington: Scientists have developed a simple-to-apply, needle-free vaccine patch that may protect people from the potentially deadly mosquito-borne Zika virus.</p>.<p> The experimental vaccine developed by researchers at the University of Adelaide in Australia elicited an effective immune response to Zika virus in mice.</p>.<p> The vaccine, described in the journal Molecular Therapy Nucleic Acids, uses the high-density microarray patch (HD-MAP) patch developed by the University of Queensland (UQ) in Australia for delivery.</p>.Scientists infect volunteers with Zika in hunt for vaccines, treatments.<p> Zika virus is a risk to people across the Pacific, Southeast Asia, India, Africa and South and Central America.</p>.<p> “We can change the way we combat Zika virus with the HD-MAP patch because it is an effective, pain-free, simple to apply, and easy to store vaccination method,” said Danushka Wijesundara, a researcher at The University of Queensland.</p>.<p> “HD-MAP delivers the vaccine to immune cells beneath the skin's surface with thousands of tiny microprojections," Wijesundara said.</p>.<p> In the pre-clinical trial, the vaccine provided rapid protection against live Zika virus, targeting a specific protein called NS1 which is crucial to the virus's survival.</p>.<p> “The vaccine patch evoked T-cell responses that were about 270 per cent higher than from a needle or syringe vaccine delivery," Wijesundara said.</p>.<p> Zika virus generally causes a mild illness but infection in pregnancy can lead to miscarriage and stillbirths or infants born with congenital malformations, the researchers said.</p>.<p> In February 2016, the World Health Organization declared a Public Health Emergency of International Concern when Zika virus spread across 40 countries in Latin America, causing more than 1.5 million confirmed or suspected cases in a 6-month period.</p>.<p> Limited global surveillance shows Zika virus is active in at least 89 countries and territories but there is no currently licensed vaccine, said Branka Grubor-Bauk, an Associate Professor at the University of Adelaide.</p>.<p> “This vaccine is unique because it targets a protein inside, rather than outside of the virus meaning it won't enhance the symptoms of closely related viruses such as dengue fever, in people who have been vaccinated," Grubor-Bauk said.</p>.<p> David Muller from UQ said the microarray patch and the vaccine could have benefits beyond the ability to protect from Zika virus.</p>.<p> “Because the protein we are targeting plays a central role in replication in a virus family known as flaviviruses, there is the potential to apply our approach to target other flaviviruses such as dengue or Japanese encephalitis,” Muller said.</p>.<p> "It could also deliver a vaccine mixture to target the whole family of viruses, providing greater protection," he added.</p>.<p> “A major benefit of the HD-MAP delivery platform is vaccine stability at elevated temperatures -- we found the patch retained vaccine potency when stored at 40 degrees Celsius for up to four weeks."</p>.<p> “This increases the reach of vaccines in low- and middle-income countries where refrigeration is challenging,” said Muller. </p>