Pittwater Online News

Frontline staff caring for people in the community who live with severe mental illness will receive specialised training to improve the care experience for consumers and their families.

 

Minister for Mental Health Tanya Davies today announced the NSW Government will invest $800,000 over the next two years in a new scholarship program for staff who work for non- government organisations (NGOs).

 

“Our NGO networks play a crucial part in helping people who live with mental illness experience a better quality of life by offering specialised assistance,” Mrs Davies said.

 

“Expanding the availability of community-based supports is part of the NSW Government’s commitment to our 10 year reform of mental health care, and a skilled workforce is essential to delivering this.”

 

The Mental Health NGO Workforce Scholarship program will fund up to 300 scholarships to enable NGO staff to study either a Certificate IV in Mental Health or a Diploma in Mental Health.

 

“NGOs in regional, rural and remote parts of NSW will be targeted to ensure staff everywhere across the State have access to mental health training,” Mrs Davies said.

 

The announcement was made at the 2018 Patient Experience Symposium in Sydney today, reinforcing the importance of partnerships in delivering patient-centred care across the NSW health system.

 

Further information on the scholarship application process will be available to participating NGOs in the coming months.

This program includes three hours of professional learning through live webinar participation and the completion of a quiz.

All teachers, and related staff, who complete the program will receive a summative infographic containing key learnings and a participation certificate.

To participate in Safety and Respect Online, register to attend each of the webinar topics during 2018 listed below.

After participating in all three webinars, you will be able to access a 30 minute quiz to complete the three hours of activity.

Please note that certificates of partial completion will not be provided, for example to teachers who have only participated in one of the three webinars, but personal records may be used to support the PD with any teacher association.

By the end of the module teachers will be able to:

3rd May 2018 - 8.00pm

14th June 2018 - 7.00pm

16th June 2018 - 10.00pm

23rd August 2018 - 8.00pm

6th September 2018 - 7.00pm

17th September 2018 - 10.00pm

By the end of the module teachers will be able to:

1st May 2018 - 7.00pm

12th June 2018 - 10.00pm

26th June 2018 - 8.00pm

21st August 2018 - 7.00pm

4th September 2018 - 10.00pm

17th September 2018 - 8.00pm

By the end of the module teachers will be able to:

3rd May 2018 - 10.00pm

14th June 201 8- 8.00pm

26th June 2018 - 7.00pm

23rd August 2018 - 10.00pm

4th September 2018 - 8.00pm

17th September 2018 - 7.00pm

It takes less than 20 minutes to register the birth of a newborn baby using a new online registration system.

New parents can now register the birth of their babies using an online registration system from Births, Deaths and Marriages. Hospitals will provide parents with information on how to register their newborn online before they are discharged.

Births must be registered within 60 days and birth certificates will continue to be provided in paper form.

Attorney General Mark Speakman said the new system will cut the time and effort required for new parents to obtain a birth certificate.

“The previous paper-based system used by the NSW Registry of Births Deaths and Marriages relied on pen and ink, was subject to postal delays and extra time for back office data entry,” Mr Speakman said.

“This new easy to use process can be completed in around 20 minutes and new parents will receive their baby’s birth certificates up to two weeks earlier than the old stork-mail system.”

The new online system has been rolled out across NSW after a successful pilot in two hospitals.

Learn how to register a newborn baby online with Births, Deaths and Marriages

Separating fact from fiction in the age of alternate facts is becoming increasingly difficult, and now a new study has helped reveal why. Research by Dr Eryn Newman of The Australian National University (ANU) has found that when people listen to recordings of a scientist presenting their work, the quality of audio had a significant impact on whether people believed what they were hearing, regardless of who the researcher was or what they were talking about.

Dr Newman, of the ANU Research School of Psychology, said the results showed when it comes to communicating science, style can triumph over substance.

"When people are assessing the credibility of information, most of the time people are making a judgement based on how something feels," Dr Newman said."Our results showed that when the sound quality was poor, the participants thought the researcher wasn't as intelligent, they didn't like them as much and found their research less important."

The study used experiments where people viewed video clips of scientists speaking at conferences. One group of participants heard the recordings in clear high-quality audio, while the other group heard the same recordings with poor-quality audio.

Participants were then asked to evaluate the researchers and their work. Those who listened to the poorer quality audio consistently evaluated the scientists as less intelligent and their research as less important.

In a second experiment, researchers upped the ante and conducted the same experiment using renowned scientists discussing their work on the well-known US Science Friday radio program. This time the recordings included audio of the scientists being introduced with their qualifications and institutional affiliations."It made no difference," she said."As soon as we reduced the audio quality, all of a sudden the scientists and their research lost credibility."

As with the first experiments, participants thought the research was worse, the scientists were less competent and they also reported finding their work less interesting.

Dr Newman said in a time when genuine science is struggling to be heard above fake news and alternate facts, researchers need to consider not only the content of their messages, but features of the delivery.

"Another recent study showed false information travels six times faster than real information on Twitter," she said."Our results show that it's not just about who you are and what you are saying, it's about how your work is presented."

A research paper for the study has been published in the journals Science Communication.

The study was co-authored by Professor Norbert Schwarz of the University of Southern California.

Eryn J. Newman, Norbert Schwarz. Good Sound, Good Research: How Audio Quality Influences Perceptions of the Research and Researcher. Science Communication, 2018; 40 (2): 246 DOI: 10.1177/1075547018759345

Cancers that can jump from one animal to another of the same species are rare, but the endangered Tasmanian devil is doubly unlucky: in the last few decades, two transmissible cancers affecting them have been identified. A comparison of these two cancers, published April 9 in the journal Cancer Cell, suggests that they are similar in origin, leading researchers at the University of Cambridge to believe that devils simply may be at greater risk for these kinds of diseases. The researchers also identified drugs that are effective against the cancers and could potentially be used in the fight to save the devils from extinction.

Tasmanian devils, while relatively docile with humans, are known for biting each other on the face as they fight over mates and food. This is the route by which both cancers, which cause similar facial tumors before metastasizing, spread from devil to devil. But even though the cancers manifest similarly, they originated in two different individuals, probably years apart.

There are only eight known naturally occurring transmissible cancers: one in dogs, two in Tasmanian devils, and five in various species of marine bivalves, so to see two such cancers appear in such a short time in a single species was quite surprising. "When the first one was discovered, we thought that transmissible cancers were extremely rare and that Tasmanian devils were just really unlucky to get this cancer," says senior researcher Elizabeth Murchison, a geneticist at the University of Cambridge who grew up in Tasmania. "But the emergence of the second one made us wonder whether Tasmanian devils might be particularly at risk for developing this kind of disease."

It was also possible some sort of environmental or anthropogenic change affecting the devils might have made the emergence of these cancers more likely. To evaluate these hypotheses, the researchers conducted genetic and functional comparisons of the two devil cancers.

They were unable to identify genomic markers of any viruses or external carcinogens, like UV light, that might have caused the cancers, although the researchers readily point out that there could be something they didn't test for or look for that does play a role. What they did find, however, was that the two cancers, despite originating in different individuals, had similar mutational processes and similar tissues of origin, and responded to similar drugs. "It really pointed to some kind of problem that the devils have with this kind of cell's regulation, which probably gives them a greater risk of developing this type of disease," Murchison says.

And it might all come back to that biting behavior. The effective drugs that the researchers identified when they compared the cancers inhibit pathways normally involved in healing, suggesting that wound repair pathways might somehow be involved in the origin of the cancers. So the devils' frequent facial injuries could actually play a role in causing the cancer to arise, as well as providing a route by which the diseases can jump from host to host.

Humans may have played a role, too. "When white people first settled in Tasmania, they'd hear these screams at night. And they thought there must be a devilish creature out there," says first author Maximilian Stammnitz. The settlers persecuted the devils, and the subsequent decline in their population probably further decreased the already low genetic diversity of the species. This is important, he says, because transmissible cancers need to escape the new host's immune system, just as any other foreign tissue transplant would in order to take hold. "Their immune systems may be less poised to detect foreign tumor cell grafts, compared to other species that have more genetic diversity." Furthermore, the changes to the landscape that have resulted from European settlement in Tasmania may have indirectly altered devil population dynamics and migration patterns, possibly creating conditions conducive for transmissible cancer emergence and spread.

The effects of these cancers have been devastating, wiping out 90% of the devils in some parts of Tasmania and threatening the survival of the species. "As scavengers, they're an important placeholder in the ecosystem of the island. They're sort of the ecological clean-up service, so their absence is visible in the landscape," Stammnitz says. While conservation efforts are already underway, the researchers are optimistic that, with further research and testing, the drugs their comparison has identified -- which are currently used for precision cancer therapy in humans -- could provide another option for helping the devils.

This research also has broader implications for our understanding of transmissible cancers. "Just in the last couple of years, we've gone from knowing of two transmissible cancers -- the dogs and the devils -- to eight. It's hinting at the possibility that perhaps transmissible cancers were not so well recognized before, and maybe they're more common than we previously thought," says Murchison.

Maximilian R. Stammnitz, Tim H.H. Coorens, Kevin C. Gori, Dane Hayes, Beiyuan Fu, Jinhong Wang, Daniel E. Martin-Herranz, Ludmil B. Alexandrov, Adrian Baez-Ortega, Syd Barthorpe, Alexandra Beck, Francesca Giordano, Graeme W. Knowles, Young Mi Kwon, George Hall, Stacey Price, Ruth J. Pye, Jose M.C. Tubio, Hannah V.T. Siddle, Sukhwinder Singh Sohal, Gregory M. Woods, Ultan McDermott, Fengtang Yang, Mathew J. Garnett, Zemin Ning, Elizabeth P. Murchison. The Origins and Vulnerabilities of Two Transmissible Cancers in Tasmanian Devils. Cancer Cell, 2018; 33 (4): 607 DOI: 10.1016/j.ccell.2018.03.013

Tasmanian devil examination in the field. Credit: Maximilian Stammnitz