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Half of all adults and a third of children with asthma are missing out on essential treatment due to out-of-pocket costs, a new study has found.

A team of researchers led by The George Institute for Global Health and the Woolcock Institute of Medical Research surveyed 1400 people with asthma (adults with asthma and parents of children with asthma) across Australia and found that half of the adults and one-third of the children in the study were either decreasing or skipping doses of asthma medicines to make them last longer.

Senior Research Fellow Tracey-Lea Laba, of The George Institute, said the results published in the journal JACI : In Practice were especially concerning because around two-thirds of adults and children had poorly controlled asthma symptoms.

“Asthma affects around one in nine Australians and is one of the world’s leading causes of death and disability. We know that preventer inhalers can be incredibly effective at controlling symptoms and preventing people from being hospitalised or even from dying of asthma, yet our study has found that out-of-pocket costs are preventing Australians from accessing medicines which can be life-saving.”

The most commonly prescribed preventer treatments for asthma contain inhaled corticosteroids (ICS), which if taken regularly reduce the severity of the disease and the number of asthma related deaths. Unlike many other countries, Australia has a national medicines subsidy program through the Pharmaceutical Benefits Scheme (PBS), but most patients still have a co-payment. In Australia, patients with healthcare cards (pensioners, unemployed, single parents and people with a long term disability) pay $6.50 per prescription. Everyone else (around 40% of people with asthma) pays up to $40.30.

The study, which was funded by the National Health and Medical Research Council (NHMRC), NPS MedicineWise, and Asthma Australia, found out-of-pockets costs were leading many people to either skip or decrease dosages to make medicines last longer, and that young male adults were the most likely to under-use asthma treatments. This was compounded by GPs being largely unaware that out-of-pocket costs were a significant concern for many of their patients, or that some preventers had lower out-of-pocket costs for patients than others.

Key findings

Fellow author Professor Helen Reddel, of the Woolcock Institute, said it was clear that prescription costs were off-putting for many people with asthma in Australia.

“It all adds up and $40 a prescription is a lot of money for people on a budget. So you can start to understand why so many people with asthma are not taking preventer medications either correctly or at all.

“But asthma is a long-term disease and one where you really need to keep the inflammation under control by taking a preventative medicine and not just relying on short-term symptom relief from a blue inhaler. We need doctors to talk to their patients to stress that this Band-Aid approach does not work, and can leave them hospitalised or even worse as a result.”

The paper called for urgent interventions to promote discussions between patients and their GPs about the cost of medicines, including the availability of lower cost preventer treatments.

The study was funded by the NHMRC, NPS MedicineWise, and Asthma Australia and was a collaboration of The George Institute, The Woolcock Institute of Medical Research, UNSW Sydney, the University of Sydney and the University of South Australia.

The latest independent quarterly Bureau of Health Information figures on public hospital performance, released today, shows more than 750,000 patients presented to emergency departments during January to March 2019.

NSW Health Deputy Secretary Susan Pearce said this was an increase of around 42,000 people, a 5.9 per cent increase from the same quarter in 2018 and higher than any previous quarter on record.

“While many people will remember the 2017 winter, our worst flu season on record, we saw thousands more patients this quarter, and these figures do not even show the full winter months,” Ms Pearce said.

Ms Pearce said despite the challenges posed by the record rise in patients, hospital performances across the state maintained a high standard, with nearly three-quarters of emergency department patients, 543,000 people, starting treatment on time.   

“While there is always room for improvement, it was pleasing to see that some of our hospitals improved their performance despite large increases in presentations and very unwell patients”.

“These results are a testament to the efforts of our doctors, nurses and paramedics, but NSW Health continues to urge people to get their flu shots to protect them during the cold days ahead, because it’s not too late, and the flu jab is an important step in reducing the risk of succumbing to the potentially lethal virus,” she said.

NSW Ambulance experienced a very busy quarter, responding to close to 307,000 responses, up by 10.2 per cent or an additional 28,359 responses, on 2018’s quarter.

Almost 170,000 patients in emergency departments arrived by ambulance, also a 10 per cent increase, and almost 90 per cent (88.8 per cent) were transferred from paramedics to hospital staff within the benchmark time of 30 minutes.

Ms Pearce said elective surgery also continued to lead the nation in elective surgery performance, with 96.4 per cent of all elective surgeries were performed within recommended time frames.

In 2018-19, the NSW Government is investing a record $22.9 billion in health, an increase of $1.1 billion on the previous financial year. This includes $19.2 billion towards improving services in hospitals in NSW this year.

An investment of $759 million for acute patient services will fund an additional 40,000 emergency department attendances in addition to 2.9 million already provided and an extra 3,200 elective surgeries in addition to the 225,500 already provided.

The NSW Government’s record $1 billion 2018-19 NSW Ambulance budget includes a commitment to provide an additional 700 paramedics and 50 Triple Zero control centre staff over the next four years.

The 2018-19 Budget also added 1,370 health staff, including 950 nurses and midwives, 300 medical practitioners and 120 allied health professionals – resulting in a record frontline clinical and clinical support staff of over 105,000.

Viruses, spread through mosquito bites, cause human illnesses such as dengue fever, Zika and yellow fever. A new control technique harnesses a naturally occurring bacterium called Wolbachia that blocks replication of viruses and breaks the cycle of mosquito-borne disease, according to an international team of researchers.

"Wolbachia is present in around 50 percent of all insects," said Beth McGraw, professor and Huck Scholar in Entomology at Penn State, who did this research while at Monash University. "Interestingly it is not present in some of the major mosquito vectors (insects that transmit pathogens). After researchers put Wolbachia into mosquitoes, they found that, quite excitingly, Wolbachia effectively vaccinates mosquitoes, preventing viruses from replicating."

Spread by Aedes aegypti mosquitoes, dengue virus affects millions of people each year. Symptoms include fever, body aches and nausea, although a more severe version, known as dengue hemorrhagic fever, can be fatal.

In the tropics and subtropics where Ae. aegypti resides, several large releases of Wolbachia are underway to test whether Wolbachia can reduce the incidence of human disease.

In a paper published today in Virus Evolution, McGraw and her team report that dengue virus failed to evolve resistance to Wolbachia in controlled lab-based experiments. These findings show promise for the long-term efficacy of Wolbachia following field release.

"I am continually surprised by Wolbachia," said McGraw. "I thought we would get dengue variants that would evolve resistance. Wolbachia is doing a better job than I expected at controlling virus replication in cells."

The researchers took dengue virus and infected mosquito cells that either had Wolbachia or were free of bacteria. After five days, they collected the viruses that had been released from the cells and used them to infect fresh cells.

"Dengue takes over the machinery of the host cells, makes lots of copies of itself, and then it buds or burst out of the cell," explained McGraw.

After nine rounds of passaging the virus through mosquito cells, the team found that the amount of virus released was stable in the Wolbachia-free cells. However, in the presence of Wolbachia, virus levels crashed -- and in some cases, disappeared completely.

Dengue viruses grown with Wolbachia were also less effective at infecting mosquito cells and had reduced ability to replicate, compared to viruses grown without the bacterium.

Although this is good news for the control of dengue and other mosquito-transmitted diseases, the researchers note the study has limitations. The researchers used mosquito cells -- which may not reflect what happens within the whole insect. And outside the lab, where mosquito populations are much larger, there may be more opportunities for the virus to develop resistance to Wolbachia.

"I think our study suggests that the evolution of resistance to Wolbachia in the virus is challenging," said McGraw. "I don't think it's a guarantee that the virus is not going to evolve under field conditions because the natural system is much more complex. The real experiment is being done in the field right now, because Wolbachia has been released into communities in Australia, Indonesia and Brazil, among others. Monitoring in release areas will be needed to test for the emergence of resistance in the virus."

Other control methods for dengue have largely been unsuccessful. Because Ae. aegypti is active during the day, bed nets are ineffective at reducing mosquito bites. Spraying of insecticides to control the mosquito and removing standing-water breeding sites have also been difficult to implement in urban environments where the mosquito thrives.

Wolbachia is an attractive control option because it blocks the replication of many disease-causing viruses. It is also self-spreading because of a curious effect, where Wolbachia-containing male mosquitoes cannot reproduce successfully with Wolbachia-free females. According to McGraw, this means that these males prevent Wolbachia-free females from reproducing. Because the bacterium is transmitted from mother to offspring, each generation has successively more mosquitoes containing Wolbachia.

Researchers are still unsure exactly how Wolbachia reduces virus replication in the mosquito.

"We think it might have to do with competition between Wolbachia and the virus for physical space (inside the cell) or for nutrition they both need from the mosquito," said McGraw. "Or it could be that Wolbachia is increasing the immune capacity of the mosquito. There are a whole range of theories, none of which are entirely satisfying."

Cassandra Koh, Michelle D Audsley, Francesca Di Giallonardo, Emily J Kerton, Paul R Young, Edward C Holmes, Elizabeth A McGraw. Sustained Wolbachia-mediated blocking of dengue virus isolates following serial passage in Aedes aegypti cell culture. Virus Evolution, 2019; 5 (1) DOI: 10.1093/ve/vez012

The measurement is the highest seasonal peak recorded in 61 years of observations on top of Hawaii's largest volcano and the seventh consecutive year of steep global increases in concentrations of carbon dioxide (CO2), according to data published today by NOAA and Scripps Institution of Oceanography. The 2019 peak value was 3.5 ppm higher than the 411.2 ppm peak in May 2018 and marks the second-highest annual jump on record.

Monthly CO2 values at Mauna Loa first breached the 400 ppm threshold in 2014.

"It's critically important to have these accurate, long-term measurements of CO2 in order to understand how quickly fossil fuel pollution is changing our climate," said Pieter Tans, senior scientist with NOAA's Global Monitoring Division. "These are measurements of the real atmosphere. They do not depend on any models, but they help us verify climate model projections, which if anything, have underestimated the rapid pace of climate change being observed."

The concentration of CO2 in the atmosphere increases every year, and the rate of increase is accelerating. The early years at Mauna Loa saw annual increases averaging about 0.7 ppm per year, increasing to about 1.6 ppm per year in the 1980s and 1.5 ppm per year in the 1990s. The growth rate rose to 2.2 ppm per year during the last decade. There is abundant and conclusive evidence that the acceleration is caused by increased emissions, Tans said.

The Mauna Loa data, together with measurements from sampling stations around the world, are collected by NOAA's Global Greenhouse Gas Reference Network and produce a foundational research dataset for international climate science.

The highest monthly mean CO2 value of the year occurs in May, just before plants start to remove large amounts of the greenhouse gas from the atmosphere during the northern hemisphere growing season. In the northern fall, winter and early spring, plants and soils give off CO2, which cause levels to rise through May.

Charles Keeling was the first to observe this seasonal rise and subsequent fall in CO2 levels embedded within annual increases, a cycle now known as the Keeling Curve.