Forum for Science, Industry and Business

Sponsored by:     3M 
Search our Site:

 

Sars Could Have Less Serious Effects On Young Children

29.04.2003


Preliminary findings from Hong Kong investigators fast-tracked for publication on THE LANCET’s website-www.thelancet.com - outline how severe acute respiratory syndrome (SARS) may have a less serious effect on young children compared with teenagers and adults.



There have been no childhood deaths from SARS up to April 25, 2003. Tai Fai Fok from the Chinese University of Hong Kong and colleagues prospectively studied the first 10 children with SARS who received treatment during the early phase of the epidemic in Hong Kong.

Two distinct patterns of clinical presentation were evident: teenage patients presented with symptoms similar to adult cases-malaise, muscle ache, chill and rigor, whereas younger children had milder symptoms such as cough and runny nose; none had chills, rigor, or myalgia. The clinical course was also much milder and shorter among the younger patients. All 4 teenagers had more severe respiratory symptoms requiring supplemental oxygen.


Tai Fai Fok comments: “Our preliminary observations suggest that younger children possibly develop a milder form of disease and tend to run a less aggressive clinical course.”



Richard Lane | alfa

More articles from Health and Medicine:

nachricht Researchers develop high-performance cancer vaccine using novel microcapsules
25.05.2020 | Chinese Academy of Sciences Headquarters

nachricht Blood flow recovers faster than brain in micro strokes
25.05.2020 | Rice University

All articles from Health and Medicine >>>

The most recent press releases about innovation >>>

Die letzten 5 Focus-News des innovations-reports im Überblick:

Im Focus: I-call - When microimplants communicate with each other / Innovation driver digitization - "Smart Health“

Microelectronics as a key technology enables numerous innovations in the field of intelligent medical technology. The Fraunhofer Institute for Biomedical Engineering IBMT coordinates the BMBF cooperative project "I-call" realizing the first electronic system for ultrasound-based, safe and interference-resistant data transmission between implants in the human body.

When microelectronic systems are used for medical applications, they have to meet high requirements in terms of biocompatibility, reliability, energy...

Im Focus: When predictions of theoretical chemists become reality

Thomas Heine, Professor of Theoretical Chemistry at TU Dresden, together with his team, first predicted a topological 2D polymer in 2019. Only one year later, an international team led by Italian researchers was able to synthesize these materials and experimentally prove their topological properties. For the renowned journal Nature Materials, this was the occasion to invite Thomas Heine to a News and Views article, which was published this week. Under the title "Making 2D Topological Polymers a reality" Prof. Heine describes how his theory became a reality.

Ultrathin materials are extremely interesting as building blocks for next generation nano electronic devices, as it is much easier to make circuits and other...

Im Focus: Rolling into the deep

Scientists took a leukocyte as the blueprint and developed a microrobot that has the size, shape and moving capabilities of a white blood cell. Simulating a blood vessel in a laboratory setting, they succeeded in magnetically navigating the ball-shaped microroller through this dynamic and dense environment. The drug-delivery vehicle withstood the simulated blood flow, pushing the developments in targeted drug delivery a step further: inside the body, there is no better access route to all tissues and organs than the circulatory system. A robot that could actually travel through this finely woven web would revolutionize the minimally-invasive treatment of illnesses.

A team of scientists from the Max Planck Institute for Intelligent Systems (MPI-IS) in Stuttgart invented a tiny microrobot that resembles a white blood cell...

Im Focus: NASA's Curiosity rover finds clues to chilly ancient Mars buried in rocks

By studying the chemical elements on Mars today -- including carbon and oxygen -- scientists can work backwards to piece together the history of a planet that once had the conditions necessary to support life.

Weaving this story, element by element, from roughly 140 million miles (225 million kilometers) away is a painstaking process. But scientists aren't the type...

Im Focus: Making quantum 'waves' in ultrathin materials

Study co-led by Berkeley Lab reveals how wavelike plasmons could power up a new class of sensing and photochemical technologies at the nanoscale

Wavelike, collective oscillations of electrons known as "plasmons" are very important for determining the optical and electronic properties of metals.

All Focus news of the innovation-report >>>

Anzeige

Anzeige

VideoLinks
Industry & Economy
Event News

Dresden Nexus Conference 2020: Same Time, Virtual Format, Registration Opened

19.05.2020 | Event News

Aachen Machine Tool Colloquium AWK'21 will take place on June 10 and 11, 2021

07.04.2020 | Event News

International Coral Reef Symposium in Bremen Postponed by a Year

06.04.2020 | Event News

 
Latest News

New technology can detect anti-virus antibody in 20 minutes

25.05.2020 | Medical Engineering

ATLAS telescope discovers first-of-its-kind asteroid

25.05.2020 | Physics and Astronomy

Researchers develop high-performance cancer vaccine using novel microcapsules

25.05.2020 | Health and Medicine

VideoLinks
Science & Research
Overview of more VideoLinks >>>