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Nation's medical imaging industry enters new era

By ZHONG NAN and ZHENG YIRAN | China Daily | Updated: 2017-05-26


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Doctors examine a patient's CT images at a hospital in Beijing. PROVIDED TO CHINA DAILY


Medical imaging changed the face of medical science and now it is big business.

In China, the market is estimated to grow between 600 billion yuan ($87 billion) and 800 billion yuan by 2020 from 400 billion yuan in 2015.

Diagnosing major health problems has been revolutionized by imaging technology, which creates a visual representation of the interior of a body for clinical analysis and medical intervention.

But the process is still suffering key problems, according to a report by Firestone Inventing, a consulting company specializing in the medical industry.

"China's medical imaging sector is growing at a rate of 30 percent annually, but the demand for superior medical treatment can not be met at present," said Ni Meng, founder and chief executive officer of Wingspan Technology Inc, a medical imaging company.

Long waiting times, poor diagnosis rates and data managing problems plague the industry here.

But the government is making inroads into tackling the challenges with policies that will open up new opportunities for the medical imaging sector.

One of the priorities will be to manufacture high-tech equipment in China by domestic companies as patients are demanding state-of-the-art treatment techniques.

"Home-made medical imaging equipment is going to be a future direction," said Zhang Jiang, general manager of Ping An Ventures, a venture capital firm specializing in various sectors including healthcare.

"Medical imaging is a core technology of diagnosis, especially for cases such as cancer screening. In fact, more foreign companies are investing in Chinese firms that make domestic medical imaging equipment."

Still, problems persist. The Firestone Inventing report showed there were just 402 Chinese companies manufacturing the equipment, accounting for only 10 percent of the market.

In addition, the healthcare sector lacks imaging technology in ophthalmology and dentistry.

"The major breakthrough for China is to upgrade it by producing high-end products instead of mid-to low-end devices," said Yang Hongfei, chief executive officer of Firestone Inventing in Hangzhou, Zhejiang province.

During the past five years, there has been a rapid growth of Chinese patents covering the sector. The country now ranks third in terms of the number of medical imaging patents filed behind Japan and the United States.

"Big data and artificial intelligence are going to lead the development of medical imaging sector," the Firestone Inventing report highlighted. "Artificial intelligence provides medical imaging with intelligent analysis applications. As for big data, it offers detailed analysis into patients' health."

Last year, the State Council issued a guideline on promoting the application of medical big data in clinical diagnosis, and medical research and development.

Big data are a term used for crunching vast amounts of statistics to show trends and flaws in market information.

"From human body X-rays to telemedicine and medical imaging, we are on the brink of entering a new age of artificial intelligence," said Mou Xiaoyong, president of United Imaging Healthcare.

http://www.chinadaily.com.cn/business/2017-05/26/content_29503820.htm

@Shotgunner51 , @AndrewJin , @cirr , @onebyone , @Jlaw
 
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System of family doctors developing
China Daily, December 21, 2017

China's top health authority is standing by its statement that more than 500 million people had been assigned family doctors as of the end of November, despite a barrage of questions raised by netizens.

The National Health and Family Planning Commission said on Wednesday that the figure was based on data reported by local governments since May. It reiterated that the number of people who accessed family doctor services met the target for the year.

According to a circular from the commission in May last year, more than 30 percent of China's population was supposed to be covered by family doctors by the end of this year.

On Sunday, the commission said residents in more than 95 percent of China's cities can now access family doctors, with the total number exceeding 500 million people, more than 35 percent of the population.

However, the announcement was met with disbelief by some netizens, who said the number was too high, Science and Technology Daily reported.

While the commission said on Wednesday that the number of people covered by family doctors had met the target, it added that coverage varies by area, and quality of service in general needs improvement.

A system of family doctors has been promoted nationwide since May and is in its infancy. Many difficulties exist, including a lack of general practitioners and customized grassroots services, the commission said.

It said it will focus on improving family doctor services next year, so that residents are more satisfied with the services they receive. Measures include more intense training of healthcare workers at the grassroots.

Currently, family doctors comprise physicians mainly working at grassroots medical institutions, such as community health centers and village health facilities.

It is expected that family doctors who serve as health gatekeepers for residents will help solve health challenges such as the increasing number of patients with chronic diseases and soaring medical costs resulting from too many patients going to big hospitals while grassroots medical institutions are ignored, the commission said.

Wang Xin, a family doctor at the Zhongliang Community Health Service Center in Beijing's Shunyi district, said that of all 1,200 residents in the community, about half have signed up with him, the sole family practitioner in the center.

"The biggest difficulty in promoting family doctors in Beijing is lack of enough qualified doctors," Wang said. "In some areas a family doctor may not even have a bachelor's degree and cannot provide medical services; they can only provide public health services or prescribe drugs, so local residents lack trust and still prefer to go to big hospitals for treatment."

The number of people covered by family doctor services reached 7.6 million as of May, accounting for 35 percent of permanent residents in Beijing, according to the city's health commission.

Beijing residents can sign up with family doctors in their communities for free because of subsidies from the city government.

http://www.china.org.cn/china/2017-12/21/content_50117124.htm
 
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Biopharmaceutical R&D rise in China

By New Money
2018-03-16

Biopharmaceuticals are perhaps among the most elegant achievements in modern science and the biggest contributor to human health.

Boosted by preferential policies in research budgets, talent cultivation and tax breaks, thousands of biopharmaceutical companies have emerged all around China. Biological and medical laboratories from top universities have been encouraged to engage in biopharmaceutical development. Despite that China lags behind in biopharmaceutical research and manufacturing, the biopharmaceutical industry is still one of the most promising industries in China.

Biopharmaceutical research is heavy in capital, technology and talent. Risks are evident in the sector include that it usually takes years before tangible results can be made. Trust issues have not been solved with Chinese patients, who would still prefer imported drugs even if they have to spend more to foot the bill. Since the government is introducing various measures to help boost the sector and biopharmaceutical companies are gaining more support from the capital market, industry insiders believe it is the best time for biopharmaceutical research and development in China.

Chinese biopharmaceutical researchers and developers are yet to be able to compete with established international brands. The effort to produce the world’s top biopharmaceuticals hasn't changed as Chinese biopharmaceuticals are gradually gaining recognition from patients. With entrepreneurial spirits and expertise, they are carrying with them big visions for the future.
 
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China's first self-developed medical imaging device PET enters final clinical trial

By Pan Zhaoyi
2018-05-08

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China’s first fully-digital PET (short for positron emission tomography) has entered the final phase of its clinical trials, a huge step for breaking up the foreign market monopoly in this field.

PETs have long been used for diagnosing cancer or other cardiovascular diseases, and have an advantage over other medical imaging methods such as CT scans, X-rays and magnetic resonance imaging (MRI).

These cutting-edge devices are able to spot cancer, dementia, Parkinson disease at a very early stage.

The equipment is undergoing clinical trials at the First Affiliated Hospital of Sun Yat-sen University and Sun Yat-sen University Cancer Center in Guangdong Province.

According to Xie Qingguo, leader of the project in China's Huazhong University of Science and Technology, the medical imaging technology developed by his team has been granted several patents, both domestically and abroad.

The breakthrough will help Chinese patients have more access to the advanced technology at a much lower cost.

***

Another brick placed on the perfect sovereignty wall.
 
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WuXi Biologics to Build $384 Million Plant in Ireland

By Coco Feng

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WuXi Biologics has chosen tax-friendly Ireland as the site of its first overseas facility. Photo: VCG

*Sixty-four-acre site will involve a total investment of about $386.3 million over the next five years


*Company move is to expand its global biomanufacturing network

(Beijing) — Chinese biotech firm WuXi Biologics Inc. will build its first manufacturing facility outside its home turf in tax-friendly Ireland.

The 26-hectare (64-acre) plant, located in the northeastern port city of Dundalk, involves a total investment of about 325 million euros ($386.3 million) over the next five years, according to a company filing to the Hong Kong Stock Exchange.

https://www.caixinglobal.com/2018-0...d-384-million-plant-in-ireland-101246445.html
 
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Cancer breakthrough leads China’s biotech boom


David Crow in New York and Tom Hancock and Wang Xueqiao in Nanjing April 11, 2018

A few days before Craig Chase was discharged from the Jiangsu Provincial People’s Hospital in Nanjing, his doctor told him something he never expected to hear: his cancer had been cured.

“His English was not so good, so he used Google Translate. When he said I was cured, I told him it was impossible — there is no cure for multiple myeloma,” he recalls. “But he said, ‘no, you’re definitely cured’. It was unbelievable.”

Unbelievable, perhaps, but also true. When Mr Chase, now 57, returned home to America after his six weeks of treatment in China to undergo further tests, his doctors could find no trace of multiple myeloma. The blood cancer he had suffered for three years — which had threatened to end his life — was gone.

Wealthy Chinese people often travel to the US for healthcare, but it is rare to hear of someone going the other way. Indeed, Mr Chase was the first American to be treated at the Jiangsu hospital, where he underwent an experimental procedure known as chimeric antigen receptor cell therapy or Car-T.

As biotech has gone from strength to strength over the past four decades, China has been a backwater for the industry, tending to follow the west rather than pursuing its own innovations. But it is now rapidly emerging as a world leader in cell therapies like Car-T, which try to treat and even cure illness by hacking the body’s biology.

There are already more clinical trials in the country than in the US, and executives and scientists say it has several strategic advantages that could allow China to challenge US dominance, including an accommodating regulatory regime, low labour costs and expertise in precision manufacturing.

“The Chinese companies I have met are determined to become leaders in this,” says Brad Loncar, founder of the Loncar Cancer Immunotherapy Exchange Traded Fund, who recently returned from a trip to the country. “These treatments have the potential to be highly disruptive to medicine and I think they view it as a unique opportunity as new contenders to spring to the forefront of the biotech industry.”

At a time when President Donald Trump is fretting about Beijing’s plans to dominate the industries of the future, China’s push to become the pre-eminent destination for cell therapies and other evolving technologies such as gene editing would represent a major shift in modern medicine and an important marker in the growing technological competition between the US and China.

Car-T “is among the few corners of biotech in which China may have a chance to compete globally in the near to medium term . . . and even leapfrog global pace in certain targets”, analysts at Bernstein wrote in a report this year.

Mr Chase’s visit to China was not without its jarring moments. On one occasion in Nanjing, his doctor used a herbal wrap to reduce a large swelling in his ankle. “It smelled like an Italian lunch,” recalls Mr Chase, a paper broker, though he says it seemed to work rather well.

This low-tech anecdote belies the fact that Car-T is at the cutting edge of biology: it involves extracting a patient’s blood cells, re-engineering them in a lab so they can identify and destroy cancer and then re-inserting them into the body.

There are already two Car-T products for rare types of leukaemia on the market in the US, made by Novartis, the Swiss pharma company, and Gilead, the west coast biotech group. But the treatment is still in its infancy and many scientists in the field believe the biggest advances are yet to come. The next bigtarget is multiple myeloma, after which companies are expected to turn their attention to solid cancers and even infectious diseases like HIV.

Research into Car-T in China has exploded in recent years. There are currently 116 clinical trials registered in the country, according to a US government database, compared with 96 in the US and 15 in Europe, giving it a lead that would have been unthinkable when the treatment was first discovered.

“It was zero when we started [human trials] in 2010,” says Carl June, a professor at the University of Pennsylvania, who helped develop the earliest Car-Ts. “Then they caught up with us, and now they have surpassed us.”

Although the Trump administration’s recently proposed trade tariffs have targeted raw pharmaceutical ingredients from China, they would have a negligible effect on the country’s ability to pursue and export the cell and gene therapies of the future.

Mr Chase first heard about the particular Car-T that would rid him of cancer after a large clinical trial of the treatment was published last June at the world’s most prestigious oncology meeting. The gathering of the American Society of Clinical Oncology takes place each year in a conference centre by Lake Michigan, where 30,000 researchers and doctors from around the world pore over studies sponsored by the biggest pharma companies in cancer.

But the most eye-catching research at last year’s conference was presented by a Chinese biotech group that virtually no one had heard of: Nanjing Legend.

In a study of 35 Chinese multiple myeloma patients, who had all relapsed and were no longer responding to drugs, 33 participants had entered remission within two months of being treated. The response rate of 94 per cent was among the highest seen for a Car-T trial.

Excitement over the trial soon turned to disbelief in some quarters, in part because Legend was such an unfamiliar name, but also because it was based in China. Some delegates at the conference told the Financial Times that data from a company based in a country that fiddles its economic growth figures could not be trusted.

But Mr Chase, who had spent five months on the waiting list for a Car-T trial in the US, investigated Legend, spoke to its executives and decided it was a credible company.

One of his doctors was worried about how a Chinese hospital would handle the toxic and sometimes fatal side effects of Car-T — the excessive production of immune cells known as the “cytokine storm” — but he reasoned they would do as much as they could to keep him alive. A month later, he caught a flight to Shanghai. “I knew they were setting up to peddle this drug in the US, so they’re not going to take an American into their trial programme and send him home in a body-bag,” he says.

He was not the only one to take note of the data published at Asco. Investors snapped up shares in Legend’s parent company, Hong Kong-listed GenScript, which have appreciated sixfold since the positive study.

Legend also piqued the interest of executives at Johnson & Johnson, the world’s largest healthcare company. The big pharma group had been looking for a way to enter the race to develop a Car-T for multiple myeloma, and was stunned by the trial results.

“The clinical data looked superior to anything else we’d seen,” says Peter Lebowitz, who heads up oncology research at Janssen, J&J’s drugmaking division. “The data were almost too good to believe.”

But over the next few months Dr Lebowitz and his colleagues made several trips to China to carry out due diligence and became confident that Legend’s Car-T, codenamed LCAR-B38M, was a “spectacular asset”.

In December, the pair struck a deal. J&J paid Legend $350m to enter an agreement whereby the companies will share the costs of developing the Car-T and split the profits if it is approved by regulators in the US and China.

Dr Lebovitz thinks LCAR-B38M could be superior to a rival Car-T being developed in a partnership by Bluebird Bio and Celgene, two US-based biotech companies, which is generally seen as the most advanced product in the race to tackle multiple myeloma.


One reason could be that Legend’s Car-T binds to two spots on the cancer-causing protein, he says. “If you’re going to grab a basketball, then it’s easier to grab with two hands than one.”

Even if Legend’s Car-T turns out to be better than its US rival, however, it could be something of an outlier. Researchers in both countries say that despite the surge in research, China is still playing scientific catch-up.

“Legend is the exception,” says Dr June. “The rest are just Xeroxing what we’re doing in the US — there’s not much innovation yet.”

Yang Ling, founder of Persongen Biomedicine, a Chinese Car-T group, agrees. “On a technical level our country is basically following the trend in blood tumours.”

However, some biotech groups are breaking new ground. There are more than 20 Car-T trials targeting solid tumours in the the lungs, liver, pancreas, breasts and ovaries. Treatment of such cancers is a priority for Car-T companies given the vastly higher numbers of people affected by them.

Innovative Cellular Therapeutics, a Shanghai-based biotech group that counts Japan’s SoftBank among its investors, says it has also made significant progress towards turning Car-T into an off-the-shelf product rather than a treatment that is made for each individual patient. Moving from the current “autologous” model — which uses the patient’s own cells — to an “allogeneic” approach that uses donor cells is seen as a major step in reducing the cost and complexity of the treatment.

“We were followers at the beginning, but we have the potential to be a leader,” says ICT founder Xiao Yang.

The Car-T boom is fuelled by a flood of investment — reaching $10bn last year — into Chinese biotech companies, often founded by Chinese-born scientists returning from overseas. Such founders often say it is easier to obtain funding in China than the US.

With an ageing population, unhealthy lifestyles and pollution, China has a world-leading incidence of cancer, with 4.3m cases diagnosed in 2015, twice the 2000 figure. That makes recruiting patients for trials easier and is potentially a huge source of demand.

China also has strategic strengths, such as cheaper overheads and a high-tech manufacturing industry that could help push down the high cost of making a Car-T for each individual patient. The bespoke nature of the process — which is for the most part done by hand — has resulted in record prices for the treatment, which costs up to $475,000 per person in the US.

This worries Chinese patients whose incomes are generally much lower than in the US. Zhang Qi, one of Legend’s trial patients in China says that “Everyone was very anxious after the drug went on sale in the US,” because costs of even RMB1m ($158,000) would be “a huge burden for any Chinese person”.

Nanjing Legend’s chief executive Frank Zhang, who did a PhD at Duke and worked for seven years for a US pharmaceuticals company, says prices could be lower in China as manufacturing costs for Car-T can be one-sixth of those in the US.

Around 30 Chinese companies involved in Car-T trials are building a total of more than 10,000 sq m of dedicated manufacturing facilities, often with local government subsidies.

Vasant Narasimhan, chief executive of Novartis, the first company to launch a Car-T, says his group could end up turning to Chinese companies to help produce its treatments. “There’s no question there’s very strong expertise in China on automation, roboticisation and miniaturisation,” he says. “We want to tap into it if the quality is there.”

Dr June says Tmunity, a company he recently founded, could also carry out research in China, noting that many of the country’s biologists trained at universities in the US before returning home — but can conduct experiments at a much lower cost. If China continues to do such a huge amount of research, it will eventually lead to important breakthroughs.

“Part of the discovery process is just doing the human trials and studying the things that come out,” he says. “They’ll make new unexpected observations, and that will lead to new intellectual property. That’s what happens if you do enough experiments.”

Gap in the rules: regulatory loophole boosts trials in China

The proliferation of Car-T trials in China has benefited from a loophole in the regulations. As the therapy was classed as a medical technology rather than a drug, trials required only the permission of internal hospital ethics committees, rather than China’s Food and Drug Administration. That process can take as little as two months, doctors say.

US patients are only eligible for Car-T trials when all other treatments have failed; in China patients can begin after failing chemotherapy, which would be considered “first-line” in the US, says Yang Jianmin, a doctor at the Changhai hospital in Shanghai which has conducted Car-T trials.

Most of the hospital’s Car-T patients experienced adverse reactions resulting in fever, high blood pressure and in some cases dangerous toxicity in the nervous system, he says. But in cases where patients die, it is up to the internal ethics committee to decide whether to suspend the trial, he adds.

At least two Car-T trials in China have made use of the Crispr gene editing technique, which scientists in the US have so far not been allowed to use in human trials. “What would be considered irresponsible to life in the west has in fact pushed forward the development of the sector,” says Persongen’s Mr Yang. “It’s chaotic. But companies can also see quickly if their treatment is effective.”

Frank Zhang, Legend’s chief executive, says faster trials have aided his company. “The US may take a year or more, and China may be able to recruit in a few months.”

China’s drug regulator announced in December that Car-T therapies could be regulated as drugs, meaning it might approve some trials. Four companies including Legend have applied.

Analysts say that while slowing the breakneck development of Car-T in China, the decision would help prevent a “wild west” situation.

“This is the first time they’ve done it so there are components of making sure it is done in the right way,” says Dr Lebowitz at J&J. “But they also want to show that from a scientific and regulatory perspective, they can move forward as rapidly as everyone else.”

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https://www.ft.com/content/30b5a944-3b57-11e8-b9f9-de94fa33a81e
 
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Chinese brands in medical rehabilitation coming

By Zheng Yiran | China Daily | Updated: 2018-11-26

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Visitors have their blood pressure checked at a recent international aging industry fair in Beijing. [Photo by Chen Xiaogen / For China Daily]

China's medical rehabilitation industry is estimated to reach 100 billion yuan ($14.4 billion) in annual sales by 2023, with an annual compound growth rate of over 18 percent, according to a recent report.

Released during the China International Medical Equipment Fair held in Shanghai, the report showed that currently, the usage ratio of the elderly rehabilitation and home healthcare equipment in China is 1:10.

The corresponding figure for European and American countries is 1:1, demonstrating great growth potential for China's medical rehabilitation industry.

The nation's medical rehabilitation industry remains at a relatively low level, due to lack of rehabilitation equipment, related hospitals and beds.

At present, there are 3,800 rehabilitation institutions in China, taking up 28 percent of the total number of hospitals nationwide. A complete rehabilitation medical equipment supply system remains to be established.

"The backwardness of Chinese consumers' spending on rehabilitation showed that the domestic medical rehabilitation industry is still quite immature, and the public awareness, equipment, talent and industry chain remain at a primary level," said a report from online market research consultancy Qianzhan.

According to a report released by Chyxx, an online industry information network, currently, the volume of China's rehabilitation medical industry is 20 billion yuan, and the annual per capita expenditure is 15 yuan.

The corresponding figures for the United States are 138 billion yuan and 552 yuan respectively.

In 2011, the National Health Commission issued a guideline on the establishment and management of rehabilitation departments in hospitals, requiring that comprehensive hospitals must set up rehabilitation departments and standard rehabilitation equipment, including multi-functional assessment equipment, exercise therapy equipment, physical treatment equipment and speech disorder-related cognitive treatment equipment.

According to the guideline, 10,000 comprehensive hospitals in China will need to establish rehabilitation departments. Given that the average cost of setting up rehabilitation equipment for each hospital is 3 million yuan to 5 million yuan, the total cost will add up to 30 billion yuan to 50 billion yuan.

Each year, an average of over 7 million disabled people get rehabilitation treatment, taking up lower than 10 percent of the total 85 million. China is constrained by the lack of awareness of rehabilitation and the lack of rehabilitation education.

A recent survey conducted by the Shandong University of Traditional Chinese Medicine showed that nearly 24 percent of the surveyed residents have no idea about rehabilitation treatment, 40 percent hold wrong notions about rehabilitation treatment, and only 26 percent have correct knowledge about it.

Chapal Khasnabis, a representative from the World Health Organization, said: "Twenty years ago, people had a misunderstanding that only the disabled people need rehabilitation equipment. Therefore, when some of them really had the need to use the equipment, they felt shameful. However, now, the situation is different.

"As people age, and their physical condition deteriorates, for the consideration of health, they will become users of rehabilitation equipment sooner or later.

"Apart from providing timely medicines and vaccines to more patients in need, medical rehabilitation or auxiliary equipment should be included in future medical public services."

Agreed Fan Yubo, director of the National Research Center for Rehabilitation TechnicalAids, which is part of the Ministry of Civil Affairs: "Internet, virtual reality, big data, artificial intelligence, 3-D printing, new material... all these cutting-edge sciences and technologies are dedicated to solving problems related to medical rehabilitation

"Aging, food safety issues and lifestyle have resulted in many chronic diseases in China. People need the help of medical rehabilitation equipment. Currently, there is a gap between China and other countries in the medical rehabilitation industry. China needs to bring about innovative breakthroughs and have its own medical rehabilitation brands."

http://www.chinadaily.com.cn/a/201811/26/WS5bfb4c20a310eff30328afaa.html
 
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Eliminate all dairy products and red meat. Eat a Chinese diet not a western one n you can greatly lower your chance of getting cancer.

However this is a breakthrough. Looking forward for Chinese to come up with a cure for all cancer and not treatments that don't work.

Cancer breakthrough leads China’s biotech boom


David Crow in New York and Tom Hancock and Wang Xueqiao in Nanjing April 11, 2018

A few days before Craig Chase was discharged from the Jiangsu Provincial People’s Hospital in Nanjing, his doctor told him something he never expected to hear: his cancer had been cured.

“His English was not so good, so he used Google Translate. When he said I was cured, I told him it was impossible — there is no cure for multiple myeloma,” he recalls. “But he said, ‘no, you’re definitely cured’. It was unbelievable.”

Unbelievable, perhaps, but also true. When Mr Chase, now 57, returned home to America after his six weeks of treatment in China to undergo further tests, his doctors could find no trace of multiple myeloma. The blood cancer he had suffered for three years — which had threatened to end his life — was gone.

Wealthy Chinese people often travel to the US for healthcare, but it is rare to hear of someone going the other way. Indeed, Mr Chase was the first American to be treated at the Jiangsu hospital, where he underwent an experimental procedure known as chimeric antigen receptor cell therapy or Car-T.

As biotech has gone from strength to strength over the past four decades, China has been a backwater for the industry, tending to follow the west rather than pursuing its own innovations. But it is now rapidly emerging as a world leader in cell therapies like Car-T, which try to treat and even cure illness by hacking the body’s biology.

There are already more clinical trials in the country than in the US, and executives and scientists say it has several strategic advantages that could allow China to challenge US dominance, including an accommodating regulatory regime, low labour costs and expertise in precision manufacturing.

“The Chinese companies I have met are determined to become leaders in this,” says Brad Loncar, founder of the Loncar Cancer Immunotherapy Exchange Traded Fund, who recently returned from a trip to the country. “These treatments have the potential to be highly disruptive to medicine and I think they view it as a unique opportunity as new contenders to spring to the forefront of the biotech industry.”

At a time when President Donald Trump is fretting about Beijing’s plans to dominate the industries of the future, China’s push to become the pre-eminent destination for cell therapies and other evolving technologies such as gene editing would represent a major shift in modern medicine and an important marker in the growing technological competition between the US and China.

Car-T “is among the few corners of biotech in which China may have a chance to compete globally in the near to medium term . . . and even leapfrog global pace in certain targets”, analysts at Bernstein wrote in a report this year.

Mr Chase’s visit to China was not without its jarring moments. On one occasion in Nanjing, his doctor used a herbal wrap to reduce a large swelling in his ankle. “It smelled like an Italian lunch,” recalls Mr Chase, a paper broker, though he says it seemed to work rather well.

This low-tech anecdote belies the fact that Car-T is at the cutting edge of biology: it involves extracting a patient’s blood cells, re-engineering them in a lab so they can identify and destroy cancer and then re-inserting them into the body.

There are already two Car-T products for rare types of leukaemia on the market in the US, made by Novartis, the Swiss pharma company, and Gilead, the west coast biotech group. But the treatment is still in its infancy and many scientists in the field believe the biggest advances are yet to come. The next bigtarget is multiple myeloma, after which companies are expected to turn their attention to solid cancers and even infectious diseases like HIV.

Research into Car-T in China has exploded in recent years. There are currently 116 clinical trials registered in the country, according to a US government database, compared with 96 in the US and 15 in Europe, giving it a lead that would have been unthinkable when the treatment was first discovered.

“It was zero when we started [human trials] in 2010,” says Carl June, a professor at the University of Pennsylvania, who helped develop the earliest Car-Ts. “Then they caught up with us, and now they have surpassed us.”

Although the Trump administration’s recently proposed trade tariffs have targeted raw pharmaceutical ingredients from China, they would have a negligible effect on the country’s ability to pursue and export the cell and gene therapies of the future.

Mr Chase first heard about the particular Car-T that would rid him of cancer after a large clinical trial of the treatment was published last June at the world’s most prestigious oncology meeting. The gathering of the American Society of Clinical Oncology takes place each year in a conference centre by Lake Michigan, where 30,000 researchers and doctors from around the world pore over studies sponsored by the biggest pharma companies in cancer.

But the most eye-catching research at last year’s conference was presented by a Chinese biotech group that virtually no one had heard of: Nanjing Legend.

In a study of 35 Chinese multiple myeloma patients, who had all relapsed and were no longer responding to drugs, 33 participants had entered remission within two months of being treated. The response rate of 94 per cent was among the highest seen for a Car-T trial.

Excitement over the trial soon turned to disbelief in some quarters, in part because Legend was such an unfamiliar name, but also because it was based in China. Some delegates at the conference told the Financial Times that data from a company based in a country that fiddles its economic growth figures could not be trusted.

But Mr Chase, who had spent five months on the waiting list for a Car-T trial in the US, investigated Legend, spoke to its executives and decided it was a credible company.

One of his doctors was worried about how a Chinese hospital would handle the toxic and sometimes fatal side effects of Car-T — the excessive production of immune cells known as the “cytokine storm” — but he reasoned they would do as much as they could to keep him alive. A month later, he caught a flight to Shanghai. “I knew they were setting up to peddle this drug in the US, so they’re not going to take an American into their trial programme and send him home in a body-bag,” he says.

He was not the only one to take note of the data published at Asco. Investors snapped up shares in Legend’s parent company, Hong Kong-listed GenScript, which have appreciated sixfold since the positive study.

Legend also piqued the interest of executives at Johnson & Johnson, the world’s largest healthcare company. The big pharma group had been looking for a way to enter the race to develop a Car-T for multiple myeloma, and was stunned by the trial results.

“The clinical data looked superior to anything else we’d seen,” says Peter Lebowitz, who heads up oncology research at Janssen, J&J’s drugmaking division. “The data were almost too good to believe.”

But over the next few months Dr Lebowitz and his colleagues made several trips to China to carry out due diligence and became confident that Legend’s Car-T, codenamed LCAR-B38M, was a “spectacular asset”.

In December, the pair struck a deal. J&J paid Legend $350m to enter an agreement whereby the companies will share the costs of developing the Car-T and split the profits if it is approved by regulators in the US and China.

Dr Lebovitz thinks LCAR-B38M could be superior to a rival Car-T being developed in a partnership by Bluebird Bio and Celgene, two US-based biotech companies, which is generally seen as the most advanced product in the race to tackle multiple myeloma.


One reason could be that Legend’s Car-T binds to two spots on the cancer-causing protein, he says. “If you’re going to grab a basketball, then it’s easier to grab with two hands than one.”

Even if Legend’s Car-T turns out to be better than its US rival, however, it could be something of an outlier. Researchers in both countries say that despite the surge in research, China is still playing scientific catch-up.

“Legend is the exception,” says Dr June. “The rest are just Xeroxing what we’re doing in the US — there’s not much innovation yet.”

Yang Ling, founder of Persongen Biomedicine, a Chinese Car-T group, agrees. “On a technical level our country is basically following the trend in blood tumours.”

However, some biotech groups are breaking new ground. There are more than 20 Car-T trials targeting solid tumours in the the lungs, liver, pancreas, breasts and ovaries. Treatment of such cancers is a priority for Car-T companies given the vastly higher numbers of people affected by them.

Innovative Cellular Therapeutics, a Shanghai-based biotech group that counts Japan’s SoftBank among its investors, says it has also made significant progress towards turning Car-T into an off-the-shelf product rather than a treatment that is made for each individual patient. Moving from the current “autologous” model — which uses the patient’s own cells — to an “allogeneic” approach that uses donor cells is seen as a major step in reducing the cost and complexity of the treatment.

“We were followers at the beginning, but we have the potential to be a leader,” says ICT founder Xiao Yang.

The Car-T boom is fuelled by a flood of investment — reaching $10bn last year — into Chinese biotech companies, often founded by Chinese-born scientists returning from overseas. Such founders often say it is easier to obtain funding in China than the US.

With an ageing population, unhealthy lifestyles and pollution, China has a world-leading incidence of cancer, with 4.3m cases diagnosed in 2015, twice the 2000 figure. That makes recruiting patients for trials easier and is potentially a huge source of demand.

China also has strategic strengths, such as cheaper overheads and a high-tech manufacturing industry that could help push down the high cost of making a Car-T for each individual patient. The bespoke nature of the process — which is for the most part done by hand — has resulted in record prices for the treatment, which costs up to $475,000 per person in the US.

This worries Chinese patients whose incomes are generally much lower than in the US. Zhang Qi, one of Legend’s trial patients in China says that “Everyone was very anxious after the drug went on sale in the US,” because costs of even RMB1m ($158,000) would be “a huge burden for any Chinese person”.

Nanjing Legend’s chief executive Frank Zhang, who did a PhD at Duke and worked for seven years for a US pharmaceuticals company, says prices could be lower in China as manufacturing costs for Car-T can be one-sixth of those in the US.

Around 30 Chinese companies involved in Car-T trials are building a total of more than 10,000 sq m of dedicated manufacturing facilities, often with local government subsidies.

Vasant Narasimhan, chief executive of Novartis, the first company to launch a Car-T, says his group could end up turning to Chinese companies to help produce its treatments. “There’s no question there’s very strong expertise in China on automation, roboticisation and miniaturisation,” he says. “We want to tap into it if the quality is there.”

Dr June says Tmunity, a company he recently founded, could also carry out research in China, noting that many of the country’s biologists trained at universities in the US before returning home — but can conduct experiments at a much lower cost. If China continues to do such a huge amount of research, it will eventually lead to important breakthroughs.

“Part of the discovery process is just doing the human trials and studying the things that come out,” he says. “They’ll make new unexpected observations, and that will lead to new intellectual property. That’s what happens if you do enough experiments.”

Gap in the rules: regulatory loophole boosts trials in China

The proliferation of Car-T trials in China has benefited from a loophole in the regulations. As the therapy was classed as a medical technology rather than a drug, trials required only the permission of internal hospital ethics committees, rather than China’s Food and Drug Administration. That process can take as little as two months, doctors say.

US patients are only eligible for Car-T trials when all other treatments have failed; in China patients can begin after failing chemotherapy, which would be considered “first-line” in the US, says Yang Jianmin, a doctor at the Changhai hospital in Shanghai which has conducted Car-T trials.

Most of the hospital’s Car-T patients experienced adverse reactions resulting in fever, high blood pressure and in some cases dangerous toxicity in the nervous system, he says. But in cases where patients die, it is up to the internal ethics committee to decide whether to suspend the trial, he adds.

At least two Car-T trials in China have made use of the Crispr gene editing technique, which scientists in the US have so far not been allowed to use in human trials. “What would be considered irresponsible to life in the west has in fact pushed forward the development of the sector,” says Persongen’s Mr Yang. “It’s chaotic. But companies can also see quickly if their treatment is effective.”

Frank Zhang, Legend’s chief executive, says faster trials have aided his company. “The US may take a year or more, and China may be able to recruit in a few months.”

China’s drug regulator announced in December that Car-T therapies could be regulated as drugs, meaning it might approve some trials. Four companies including Legend have applied.

Analysts say that while slowing the breakneck development of Car-T in China, the decision would help prevent a “wild west” situation.

“This is the first time they’ve done it so there are components of making sure it is done in the right way,” says Dr Lebowitz at J&J. “But they also want to show that from a scientific and regulatory perspective, they can move forward as rapidly as everyone else.”

Code:
https://www.ft.com/content/30b5a944-3b57-11e8-b9f9-de94fa33a81e
 
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Chinese researchers improve titanium implant biocompatibility

(Xinhua) 14:33, January 01, 2019

BEIJING, Dec. 31 (Xinhua) -- Chinese researchers have developed a new surface treatment method for titanium alloy to improve the biocompatibility of titanium material used for dental or orthopedic implants.

Titanium is one of the most widely used materials for medical implants but it has poor bioactivity. It is imperative to increase its biocompatibility so titanium-based implants can better connect with bone tissues.

Researchers from Anhui University of Science and Technology have used surface mechanical attrition treatment to modify the surface of titanium. In vitro, experimental results showed the modified surface layer can significantly enhance the response of osteoblasts and greatly improv the biocompatibility of titanium.

The research provides a promising means of surface modification for future medical titanium-based implants.

http://en.people.cn/n3/2019/0101/c90000-9533634.html
 
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Alibaba launches service reclaiming expired medicine
Xinhua, March 15, 2019

The online health service arm of Chinese internet company Alibaba has initiated a campaign allowing people to experience its door-to-door service of reclaiming unwanted and expired medications.

During its campaign from March 13 to March 31, customers in 28 major Chinese cities can enjoy the free service operated by AliHealth, which dispatches couriers to collect expired medications, after users scan the medicine's pill bottle through Alibaba's Taobao and Alipay apps on their cell phones.

Expired medications can be less effective or risky due to changes in chemical composition or a decrease in strength, leading to failures to treat infections, which may cause more serious illnesses or antibiotic resistance. Certain expired medications are at the risk of bacterial growth.

China listed expired medications on the directories of hazardous wastes in 2016. According to AliHealth, the reclaimed medications are subject to centralized bio-safety disposal using gasification incineration.

AliHealth has partnered with 12 Chinese pharmaceutical firms to treat unwanted medications.

It has also teamed up with Guangzhou Pharmaceutics Holdings to operate the service. The pharmaceutical firm boasts an offline network of expired medicine reclaiming services in over 200 Chinese cities.

http://www.china.org.cn/business/2019-03/15/content_74573868.htm
 
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Nation's medical imaging industry enters new era

By ZHONG NAN and ZHENG YIRAN | China Daily | Updated: 2017-05-26


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Doctors examine a patient's CT images at a hospital in Beijing. PROVIDED TO CHINA DAILY


Medical imaging changed the face of medical science and now it is big business.

In China, the market is estimated to grow between 600 billion yuan ($87 billion) and 800 billion yuan by 2020 from 400 billion yuan in 2015.

Diagnosing major health problems has been revolutionized by imaging technology, which creates a visual representation of the interior of a body for clinical analysis and medical intervention.

But the process is still suffering key problems, according to a report by Firestone Inventing, a consulting company specializing in the medical industry.

"China's medical imaging sector is growing at a rate of 30 percent annually, but the demand for superior medical treatment can not be met at present," said Ni Meng, founder and chief executive officer of Wingspan Technology Inc, a medical imaging company.

Long waiting times, poor diagnosis rates and data managing problems plague the industry here.

But the government is making inroads into tackling the challenges with policies that will open up new opportunities for the medical imaging sector.

One of the priorities will be to manufacture high-tech equipment in China by domestic companies as patients are demanding state-of-the-art treatment techniques.

"Home-made medical imaging equipment is going to be a future direction," said Zhang Jiang, general manager of Ping An Ventures, a venture capital firm specializing in various sectors including healthcare.

"Medical imaging is a core technology of diagnosis, especially for cases such as cancer screening. In fact, more foreign companies are investing in Chinese firms that make domestic medical imaging equipment."

Still, problems persist. The Firestone Inventing report showed there were just 402 Chinese companies manufacturing the equipment, accounting for only 10 percent of the market.

In addition, the healthcare sector lacks imaging technology in ophthalmology and dentistry.

"The major breakthrough for China is to upgrade it by producing high-end products instead of mid-to low-end devices," said Yang Hongfei, chief executive officer of Firestone Inventing in Hangzhou, Zhejiang province.

During the past five years, there has been a rapid growth of Chinese patents covering the sector. The country now ranks third in terms of the number of medical imaging patents filed behind Japan and the United States.

"Big data and artificial intelligence are going to lead the development of medical imaging sector," the Firestone Inventing report highlighted. "Artificial intelligence provides medical imaging with intelligent analysis applications. As for big data, it offers detailed analysis into patients' health."

Last year, the State Council issued a guideline on promoting the application of medical big data in clinical diagnosis, and medical research and development.

Big data are a term used for crunching vast amounts of statistics to show trends and flaws in market information.

"From human body X-rays to telemedicine and medical imaging, we are on the brink of entering a new age of artificial intelligence," said Mou Xiaoyong, president of United Imaging Healthcare.

http://www.chinadaily.com.cn/business/2017-05/26/content_29503820.htm

@Shotgunner51 , @AndrewJin , @cirr , @onebyone , @Jlaw

打破国外垄断 联影医疗发布3.0T探索磁共振 :-)

2019-05-14 16:31:53 来源:观察者网

关键字:医疗影像联影

(观察者网 文/一鸣)5月14日,第81届中国国际医疗器械(春季)博览会(CMEF)在上海开幕,长期垄断中国高端医疗设备市场的通用电气、飞利浦等巨头也携自己的拳头产品亮相本次展会。但与往年不同的是,毗邻这两家展台的一家中国医械企业——联影,吸引了更多观众的目光。

20190514160243870.jpg


作为科创板的热门候选企业,联影此次携30余款产品登陆展会,并发布了3.0T探索磁共振等一系列高端产品和技术,再次在医疗科技行业为“中国创造”划下浓重一笔。

新产品集体亮相

3.0T探索磁共振是此次联影发布的重磅产品。凭借业界领先的超高性能梯度系统、光梭成像技术与光梭引擎,能够提供更高的图像对比度和更精细的结构显示。设备还搭载了丰富全面的高级应用、AI应用,如静息态脑功能成像、脑结构量化分析、脑肿瘤量化分析等,为临床、科研的前沿探索与研究提供了有力工具。

20190514160046655.jpg

nMR790探索磁共振

据了解,当前脑部疾病如阿尔兹海默症、抑郁症等越来越成为人类健康重大威胁。据世界卫生组织数据,全球脑疾病所带来的社会经济负担占所有疾病的19%,已经超过心血管病的11%和癌症7%,脑科学的发展对脑疾病的诊断治疗将有关键性的贡献。世界各国纷纷积极探索大脑的奥秘,中国也展开了相关的脑科学研究计划。

基于3.0T探索磁共振,联影目前与上海脑科学与类脑研究中心、上海交通大学、复旦大学附属华山医院(西院)、中国科学院昆明动物研究所、浙江大学医学院第二附属医院等国内顶尖科研院所和医院开展深度合作,围绕健康人类脑分子与功能脑图谱基础验证研究、中老年人的正常脑衰老图谱、脑肿瘤及退行性神经疾病研究、灵长类动物脑分子与功能图谱研究、神经疾病研究等方向展开脑科学研究。

中科院院士、中科院上海分院副院长、张江实验室脑与智能研究院院长张旭院士说:“在成像技术、软件应用上,联影提供了强有力的技术支持。尤其联影3.0T探索磁共振所提供的脑影像数据,可支持脑解剖连接模式和脑功能研究、脑疾病研究,帮助进一步完善有明确生物学意义的脑图谱及适用性的验证方法体系,助力脑科学研究从源头上进行创新。”

中华医学会神经外科分会候任主任委员,复旦大学附属华山医院副院长毛颖指出:“我们正与联影围绕健康人脑的分子与功能脑图谱验证展开研究,实现脑科学研究的临床转化,进而治疗以脑肿瘤、脑血管为首的脑疾病。联影3.0T探索磁共振为脑疾病研究提供了坚实的基础。同时,联影以医院科研需求为出发点,与我们共同开发新序列和新算法,大幅缩短科研向临床应用转化的时间。”

此次展会上,联影还公布了世界首台全景动态扫描PET-CT uEXPLORER探索者的最新进展。探索者从诞生起就聚焦着全世界的目光——被《物理世界》(Physics World)杂志评为2018年度十大科学突破之一。

20190514160101409.jpg

全景动态扫描PET-CT uEXPLORER探索者

2019年4月,全球首台全景动态扫描PET-CT uEXPLORER探索者入驻复旦大学附属中山医院,进入临床验证阶段。中山医院核医学科石洪成主任介绍说:“uEXPLORER探索者入驻后,我们将基于其超高性能与实时动态代谢过程成像的特点,在全身性疾病、微小病灶代谢变化与新药研发等一系列领域展开探索。”

目前这一设备已通过美国FDA审批,全球第二台uEXPLORER探索者正在美国加利福尼亚大学戴维斯分校装机,即将投入使用。此外,联影还收到来自全球十余家科研及临床机构的订单。

打破“GPS”垄断

长久以来,以通用电气、飞利浦和西门子组成的“GPS”三巨头占据高端医疗设备市场。根据中国医学装备协会的统计,截至2013年,中国高端医疗设备行业超过7成份额属于“GPS”,而一百多家中国品牌,只拿下20%的市场份额。

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GE展台

国外品牌的垄断,直接导致国内高端医疗设备价格高企,例如,一台1.5T核磁共振,在美国售价为75万美元,在中国市场则超过500万美元,产业链层层叠加,最终,国内一次PET-CT扫描收费最高可达1.2万元。

“中国当时的医疗器械行业比较落后,处于小、乱、散状态,”联影医疗联席总裁张强表示,“2011年,中国医疗器械行业产值超过1000亿元,当年西门子的年产值已达到1200亿元,也就是说,一家外国大企业的某个板块业务比中国的整个产业还要大。”

为了打破跨国企业的垄断,11年成立的联影被国家寄予厚望。2014年5月,习近平总书记在视察联影时指出:“‘健康梦’是‘中国梦’的一部分。因此,医疗水平要不断提高,要满足人民基本要求。要改变我国医疗设备产业与国外的差距,要有排头兵、要有弄潮儿,要立足国内、放眼全球,着力实施创新驱动发展战略。”

当年下半年,联影开始将产品推向市场。时年9月,张强在接受媒体采访时表示,“现在已经有了6亿多元的订单,有信心完成今年10亿元的销售额目标。”安信证券报告推测,这意味着在过去几年中,联影医疗的年营收或均已达到10亿元以上。

过去8年中,联影医疗陆续推出50多款医疗器械产品,入驻近3000家医院,被视为挑战通用电气等国外行业巨头的主干力量。2018年10月,联影医疗推出经药监局批准的一体化PET/MR设备,成为国内首个、全球第三家具备研发和生产该设备的公司。

目前,联影已能通过自主研发全线生产高性能设备:分子影像(MI)、磁共振(MR)、计算机断层扫描仪(CT)、X射线(XR)等产品,并提供精细、精准的影像信息。

当有了高性能影像设备作基础,联影影像云也开始为精准医疗搭建桥梁,从全国三甲医院到省级医院再到县域精准医疗中心最后到乡镇社区医院进行全线影像设备的连接,实现区域间互联、协同。

其中,“联影—嘉定区域影像中心”通过对区内17家社区医院、7家区级医院和1家三甲医院的连接,完成远程诊断报告逾13万份,实现社区拍片、中心医院诊断出报告的全区医学影像三级诊疗模式。

截至2018年,联影已先后将56款产品推向市场,进驻全国共2600多家医院,其中300多家为三甲医院,总装机达4700多台。

https://www.guancha.cn/industry-science/2019_05_14_501554.shtml?s=zwyxgtjbt
 
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