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  • China will not challenge the economic supremacy of the US in the near to medium term
  • But with a GDP of US$14trn growing at 6.9% a year China is a substantial economy and a significant trading partner of the US
  • China is replacing imported high-tech products with domestic ones and incentivizing Chinese companies to dominate high value global industries
  • China’s large and increasing supply of appropriately qualified human capital gives it a competitive edge
  • Beijing’s US$8trn-30-year Belt and Road (B&R) strategy aims to make China the centre of a new world order in which knowledge-based Chinese companies dominate high-value global markets
  • China is challenged by substantial debt and significant credit it has extended to economically weak nations
  • Notwithstanding, Western companies seeking growth outside their current wealthy markets need to develop constructive trading relationships with China
  • Lack of understanding and cultural differences are barriers to productive West-East trading relations
 
Can Western companies engage with and benefit from China?
 
Previously we described how Beijing had offered Western companies a ‘poisoned challis’: either localize your value chain and help China achieve its goals to dominate key industries globally or be progressively squeezed out of markets. Washington responded by levying punitive tariffs on products manufactured in China and marketed in the US in an attempt to force Beijing to change. China hit back, cross fire ensued, more US tariffs were levied, markets became nervous and a ‘flight for liquidity’ seems a possibility. This is when equity players become nervous about uncertainties in markets and move their investments into more liquid securities in order to increase their ability to sell their positions at a moment’s notice. To some observers the current trade conflict between the world’s two largest trading nations must seem like Stanley Kramer’s 1952 epic ‘High Noon” movie. The difference being the 2018 showdown could affect the lives of billions and threaten the global economy. The fact that the world can be brought to such a position in such a short time is partly due to a profound lack of understanding and cultural differences between Washington and Beijing and vice versa. The differences manifest themselves as: (i) competition versus harmony, (ii) short-termism versus long-termism, (iii) tactics versus strategy and (iv) nationalism versus globalism. These differences pervade organizations, institutions and mindsets in the respective regions.
 
In this Commentary

This Commentary is divided it into 3 parts.
  • Part 1: China’s penetration of emerging markets discusses the implications of China’s stated aim to become a major global high-end, knowledge-based economy and describes how, for the past three decades, the nation has been preparing for this by systematically upgrading its human capital. From a perceived position of strength Beijing suggested to Western companies seeking or increasing their franchises in China that unless they are prepared to localize their value chains, not only will they be squeezed out of the China market, but they will also encounter challenges in other large emerging markets as China’s presence and influence in these markets increase. This is significant because the world’s emerging economies are the growth frontiers of many high-tech industries. 
  • Part 2: China’s economic rise and its strategic objectives briefly describes China’s phenomenal transformation from a centrally managed economy to the world’s second largest economic power and a significant commercial partner of the US. We provide glimpses of some aspects of China’s recent history in order to convey the scale of its industrial reforms and its well-resourced, central government-backed long-term strategies to establish China as a world leader in knowledge-based high-value industries. We describe China’s planned slowdown of its economy and how Beijing is systematically upgrading its human capital. Indicative of China’s increasing trading prowess are its new technology companies. We describe three, which are likely to have a significant global impact in the next 5 years. We conclude part 2 with a description of the Pearl River Delta, China’s high tech production hub, in order to provide further insights into China’s achievements, the nature and scale of its projects to upgrade its economy and the thinking that drives China’s economic transformation. 
  • Part 3: China’s ‘Belts and Road’ (B&R) initiative. B&R is a bold neo colonialistinitiative to build a 21st century ‘Silk Road’ of infrastructure and trade-links between China and Eurasia. This is expected to stimulate trade, economic growth and domestic employment in some of the least developed regions of the world, which have suffered from post-colonial decline and are neglected by the West. Beijing expects that the B&R project will position China at the centre of a newly formed global trading network. We review some of the concerns raised by the R&D initiative including China's increasing exposure as a principal creditor to economically weak nations. This, together with China's mounting debt, presents Western companies with a dilemma: China is too big to be ignored but its structural weaknesses could be damaging.   

 

Part 1
 
 China’s penetration of emerging markets
 
 
Made in China 2025 (MIC25) incentivizes Chinese enterprises to develop their competences and capacities in order to respond to the pivotal needs of global customers to reduce costs while maintaining value by providing affordable quality product offerings.  It also encourages Chinese companies to become ‘global champions’ and help China establish itself as a dominant international force in knowledge-based technologies of the future. As a result, Chinese companies are successfully taking share of key segments in emerging markets. So, Beijing’s industrial strategies not only increase the challenges for Western companies in China, but also provide potential barriers for them to penetrate and increase their franchises in other large emerging markets such India and Brazil, which are the future growth frontiers.
 
China’s investment in human capital

Beijing’s well-resourced strategies to transition China from a manufacturing-based economy to a high-end, innovation-driven, knowledge-based economy could not be achieved without a significant supply of relevant human capital. It is instructive that for the past three decades China has been systematically upgrading its human capital, while Western nations have not been doing so at a similar pace.
 
According to the World Economic ForumChina has committed massive resources to education and training. In 2016 China was building the equivalent of one university a week and graduated 4.7m citizens, while in the US 568,000 students graduated. In 2017, there were 2,914 colleges and universities in China with over 20m students. The US had 4,140 with over 17m students enrolled. Significantly, between 2002 and 2014 the number of students graduating in science and engineering in China quadrupled. In 2013, 40% of all Chinese graduates completed a degree in science, technology, engineering or mathematics (STEM), whilst in the US only 20% of its graduates did so. In addition to China producing more STEM graduates than either the US or Europe, which are vital for high-tech knowledge-based industries of the future, the gap between the top Chinese and US and European graduates is widening. Projections suggest that by 2030 the number of 25 to 34-year-old graduates in China will increase by a further 300%, compared with an expected rise of around 30% in the US and Europe. This represents a substantial shift in the world's population of graduates, which was once dominated by the US, and gives China a potential competitive edge in high-tech growth industries of the future.
 
Further, US students struggle to afford university fees. Many American colleges and universities are struggling financially and as a consequence actively recruiting foreign students. In recent years, the number of Chinese students admitted to US universities has increased significantly. In 2017 for instance, some 350,000 Chinese students were recruited. Most graduates return to China with quality degrees. European countries have put a brake on expanding their universities by either not making public investments in them or restricting universities to raise money themselves.
 
Shanghai students are world’s best in maths, reading and science

Supporting this competitive edge is China’s world-beating performance of its 15 and 16-year-olds. According to an internationally recognised test, Shanghai school children are the best in the world at mathematics, reading and science. Every three years 0.5m students aged 15 and 16 from 72 countries representing 80% of the global economy sit a 2-hour examination to assess their comparative abilities in these three subjects. The examination, called the Program for International Student Assessment (PISA), is administered and published triennially by the Organisation for Economic Co-operation and Development (OECD). When the 2009 and 2012 PISA  scores were released they created a sensation, suggesting that students in Shanghai have significantly better mathematics, reading and science capabilities than comparable students in any other country.  Although these scores have been contested, and the most recent test scores suggest Shanghai students have slipped down the rankings, in the 2012 tests Shanghai students performed so well in mathematics that the report compared their scores to the equivalent of nearly three years of schooling above most countries.
 

Human capital strategies challenged by aging populations
Human capital strategies in China, the US and Western Europe are all challenged by aging populations. According to the United Nations, China’s population is ageing more rapidly than any country in recent history. America’s 65-and-over population is projected to nearly double over the next three decades, rising from 48m to 88m by 2050. The UK’s population also is getting older with 18% aged 65-and-over and 2.4% aged 85-and-over. In 2014, 20% of Western Europeans were 65 years or older and by 2030 25% will be that age demographic.
 
Taking share of high-value MedTech markets
 
Many Western MedTech companies are late-bloomers in emerging markets. This can partly be explained by the two decades of economic growth the industry experienced from developed markets and the continued buoyancy of the US stock market.  Thus, Western MedTech companies have felt little pressure to adjust their strategies and business models and venture into territories committed to “affordable (low priced) medical devices”. Beijing seems determined to take advantage of this and Chinese companies are increasing their share of large fast growing and underserved emerging markets by: (i) increasing their innovative go-to-market strategies and (ii) making sure they “localize” their product offerings. We briefly describe these two strategies.
 
Innovative go-to-market approaches

According to OEDC data, between 2000 and 2016 China doubled its R&D investment to 2% of GDP, which is more than the EU but less than America. In 2016, the US spent 2.7% of its GDP on R&D, which is more than any country. Individual Chinese domestic companies are also increasing their investments in R&D as part of their growth strategies. For instance, over the past decade, Mindray, China’s largest MedTech company has spent more than 10% of its annual revenues - currently US$1.7bn - on R&D. The company has a large R&D team of over 1,400 located in 2 centres: 1 in Mahwah, China and another in Seattle, USA. BGI, China’s largest manufacturer of next-generation gene-sequencing equipment, devotes more than 33% of its revenues to R&D, double that of its US competitor Illumina. In aggregate, however, Chinese companies are a long way behind their Western counterparts when it comes to R&D spending.
 

Supercomputers
High-tech companies require supercomputers to assist with their R&D and innovative strategies. These are powerful and sophisticated machines with enormous processing power, which can support medical and scientific R&D. According to an internationally recognised ranking, which has been conducted biannually by leading scientists since 1993, China leads the world with its installed-base of supercomputers. China has 206 and  America has 124. In 2000 China had none. The most recent rankings show that the US has regained the top performance position from China with an IBM-system-backed supercomputer now running at the US Department of Energy’s Oak Ridge National Laboratory. 
 

Increasing number of Chinese patents
Although the US maintains a lead in scientific breakthroughs and their industrial applications, innovation is increasing in China. The number of invention patent applications received by China in 2016 was 1.3m, which was more than the combined total from the US (605,571), Japan (318,381), South Korea (208,830), and the EU (159,358). Patents from these five countries accounted for 84% of the world total in 2016. 
 

Increasing share of high-tech markets
Emboldened by enhanced processing power, increased patents, greater R&D capacity and improved capabilities, Chinese MedTech companies are increasingly represented across a broad spectrum of high-end medical technologies and have made significant inroads into emerging markets. Some manufacture Class III product offerings such as orthopaedic implants and are beginning to compete in medium-level technology markets in Brazil, India, Japan and the UK. For instance, SHINVA markets its linear accelerators globally. Sinocare is #6 in the global market for blood glucose monitoring devices. In 2008 Mindray paid US$200m to acquire the patient monitoring business of US company Datascope, making it the third-largest player by sales in the global market for such devices. Also, Mindray has increased its share of the ultrasound imaging market to 10%, behind GE and Phillips. MicroPort broke onto the world stage in early 2014 when it acquired Wright Medical’s orthopaedic implant business for US$290m. In 2015 China overtook Germany to become Japan’s second largest supplier of MRI devices, behind the US, and Biosensors International is among the largest suppliers of drug-eluting stents in France, Germany, Italy, Spain and the UK.
 
Localized product offerings in India
 
Mindray, which positions itself as a world-class MedTech solutions company, has established a significant presence in India where it has built local operations, tailored its line of affordable high-quality patient monitoring, ultrasound and in vitro diagnostic devices to address India’s unmet needs, hired local engineers and operators and built a local marketing and sales team, which provides a 24-7 customer service. Mindray has understood that many of the factors, which drive China’s MedTech market growth are mirrored in India and other rapidly growing emerging markets that share a similarly high disease burden, aging demographics and a desire to reduce healthcare costs.
 
Mindray was one of China’s earliest MedTech companies to list in New York in 2006. However, the company felt its shares were undervalued and privatized in 2016 in a deal, which valued the company at US$3.3bn. A funding round shortly after its delisting valued Mindray at US$8.5bn. The company employs over 8,000 and its 2017 revenues were US$1.7bn.
 
India’s MedTech market
 
The attraction of India to MedTech companies is easy to understand. India’s MedTech market is the 5th largest in the world and could rival that of Japan and Germany in size by 2022 if it continues its 17% annual growth. Although India mainly has been an out-of-pocket healthcare market this is changing. In September 2018, the Indian government launched one of the world’s largest publicly funded health insurance schemes, which will provide some 0.5bn poor people with health cover of US$7,000 per year (a sizable sum in India) for free treatment of serious ailments. India’s medical device markets, like those of China’s, will benefit from this, but also from the country’s large and growing middle class with relatively high disposable incomes in an economy growing at around 7 to 7.5% annually.
 
In 2016 India’s middle class was estimated to be 267m - 83% of the total population of the US - and projected to increase to 547m by 2025. Further, India has a large and growing incidence of lifetime chronic diseases, which expands the need for medical devices. Between 2009 and 2016, China emerged as India’s 3rd largest supplier of medical devices (behind the US and Germany) and is currently India’s leading provider of CT scanners, representing 50% of the US$69m that India spent on imports of these high-tech devices during 2016. India’s orthopaedic devices market is estimated to be around US$375m and is projected to grow at about 20% each year for the next decade to reach US$2.5bn by 2030. In contrast the global orthopaedics industry is estimated to grow at 5% annually.

China is positioned to increase its share of MedTech markets in India and other emerging countries. This suggests that unless Western companies are prepared to transform their strategies and change their business models similar to what Medtronic and GE Healthcare have done, they will not only be squeezed out of the China market but shall encounter challenges to penetrate and increase their franchises in other large emerging MedTech markets. This is significant because the world’s emerging economies are the growth frontiers of the MedTech industry.



Part 2

China’s economic rise and strategic objectives: background

 
How long can China sustain its rise?”. We broach this question in the next two parts of this Commentary. Here in Part 2, we describe some relevant aspects of China’s recent commercial history, its success in producing high tech global companies and we also provide a glimpse of its urban communities for creating and developing companies of the future.

It was not until the early 1980s, after the death of Mao Zedong in 1976, that China started to dismantle its centrally planned economy and began implementing its free market reforms and opened its economy to foreign trade and investment. Shortly afterwards China: (i) became the world’s fastest growing market-based economy with real annual GDP growth averaging 9.5% through 2017, (ii) lifted 800m citizens out of poverty and (iii) overtook Japan to become the world's second largest economy. By 2010 China had become a significant commercial partner of the US and is now America’s largest merchandise trading partner, its biggest source of imports and America’s third largest export market. Also, China holds US$1.7trn of US Treasury securities, which help fund the federal debt and keep US interest rates low. It is worth noting that China has a long history dating back more than 2,000 years BC. In more recent times, Adam Smith the father of modern capitalism, described China in The Wealth of Nations (1776) as a country which is, “one of the most fertile, best cultivated, most industrious, most prosperous and most urbanized countries in the world”.

 
Avoiding a middle-income trap
 
Over the past decade China’s economy has matured and Beijing has managed a planned slowdown of its growth rate to what it calls the “new-normal”. In 2017 China’s GDP was 6.9% and is projected to fall to 5.6% by 2022. The orchestrated slowdown is less based on fixed investment and exports and more on private consumption of China’s large and growing middle class, enhanced services and innovation. A previous Commentary described Beijing’s Made in China 2025 (MIC25) initiative and other policies, which prioritised innovation and the systematic upgrading of its domestic industries whilst decreasing its reliance on foreign technology. This is essential for China to avoid a ‘middle income trap’, which happens when nations achieve a certain level of economic growth, but then begin to experience diminishing returns because they are unable to restructure their economies to embrace new sources of growth.
 
Baidu, Alibaba and Tencent: BAT

An example of China’s ability to upgrade its economy and avoid a middle-income trap is its new technology companies, which are positioned to have significant global roles in the next five years. We briefly describe three: Baidu, Alibaba and Tencent: collectively referred to as BAT. Baidu, is a Chinese language Internet search provider incorporated in 2000, which has grown to  become the world’s 8th largest internet company by revenue. It has a market cap of US$80bn, annual revenues US$13bn and has the world’s largest Internet user population of about 800m. Alibaba, was founded in 2000 as a business-to-business (B2B) portal connecting Chinese manufacturers to overseas buyers. Today, the company is a multinational conglomerate with a market cap in excess of US$500bn and annual revenues of US$13bn. It is the world’s largest e-commerce company in terms of gross merchandise volume (GMV). For the fiscal year ended March 31, 2017, Alibaba had a GMV of US$0.43trn and 454m annual active buyers on its marketplaces. Alibaba’s long-term vision is to become a global company providing solutions to real world problems and using e-commerce to help globalization by making trade more inclusive. The company expects GMV to reach US$1trn by 2020, and to serve 2bn consumers(one-third of the world’s total population)and to support the profitable operation of 10m businesses on its platforms by 2036. Alibaba is sometimes referred to as the "Amazon of China," but the company’s founder Jack Ma suggests there are differences. "Amazon is more like an empire: everything they control themselves. Our philosophy is be an ecosystem”, says Ma. Tencentfounded in 1998, has become a multinational investment holding corporation with a market cap of US$556bn, annual revenues of US$22bn and specializes in various internet-related services, entertainment, AI and technology.  
 
The Pearl River Delta
 
Tencent has its HQs in Shenzhen, a megacity in the Pearl River Delta, which is China’s hub for high tech production. We briefly describe the delta to further show the progress China has made in transforming its economy. In the early 1980s the Pearl River Delta was primarily an agricultural area and Shenzhen was an unassuming town of about 30,000 (now 13m). The delta witnessed the most rapid urban expansion in human history to become the world’s largest urban area in both size and population by 2015, with more inhabitants than Argentina, Australia or Canada. Today the Pearl River Delta has a population of 120m and a GDP of US$1.5trn - growing at 12% per year - which is greater than that of Indonesia and equal to 9.1% of China’s output.
 
Land, sea and air infrastructure serving the delta is state of the art. For example, the delta has six airports; three of which are international air hubs. In 2016, the passenger traffic of Baiyun Airport in Guangzhou (population 15m) surpassed 60m and the volume of freight it handled was over 2m tonnes. In the same year passenger traffic at Shenzhen (population 13m) airport was in excess of 42m and the volume of freight it handled was over 1m tonnes.  This compares favourably with JFK and Newark Liberty airports. In 2017 both airports set records with more than 59m and 43m passengers respectively
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Part of the delta’s infrastructure is the new Hong Kong-Zhuhai-Macau Bridge, which spans 34 miles (55klm), crosses the waters of the Pearl River and connects Hong Kong with Macao. It is the longest sea-crossing bridge ever built and has a section that runs for seven kilometres in a submarine tunnel that passes four artificial islands. Its construction cost US$16bn, which is part of a US$30bn plan announced in 2009 to develop an infrastructure network to connect the nine cities in the delta so that collectively they would become the largest contiguous urban region in the world, which was achieved in 2015.  One of the infrastructure goals is to reduce travel time between the nine cities and Hong Kong and Macao to one hour from any which way.
 
The Pearl River Delta is the most southern of three major Chinese coastal growth areas. In the middle is the Yangtze River Delta region, which includes Shanghai with a population of 130m and a GDP of US$2trn. To the north is the Beijing-Tianjin-Bohai corridor, covering 10 cities and has a population of 100m and a GDP of US$1.3trn. These three urban clusters account for 21% of China’s population and about 40% of its GDP.



Part 3

 China’s Belt and Road initiative

 
It is not only important to understand the changes in China within the context of its recent history, MIC25 and Beijing’s restructuring of its healthcare sector, but also against the backdrop of China’s ambitious Belt and Road” (B&R) initiative. Unveiled by President Xi Jinping in September 2013, it has become the centre of Beijing’s ambitions for a new world order predicated upon a modern-day Silk Road connecting China by land and sea to Southeast Asia, Central Asia, the Middle East, Europe and Africa. It is a bold model of economic development, which Xi has called, “the project of the century”. The initiative is supported by the new Asian Infrastructure Investment Bank (AIIB) and the Silk Road Fund. Some estimates suggest that Beijing has already invested US$900bn in the project. Overall, it is expected to cost US$8trn and take three decades to complete. At its core are 6 economic corridors, which connect 65 countries, about 65% of the world’s population, involve some 40% of global trade and 33% of global GDP.
 
Belt and Road’s 6 economic corridors
  1. The Eurasia-Land-Bridge economic corridor is developing rail transportation between China and Europe through Kazakhstan, Russia and Belarus
  2. The China-Mongolia-Russia economic corridor aims to develop trade between China and Mongolia by modernizing transport, telecommunication and energy networks to make Mongolia a hub between China and Russia
  3. The China-Central Asia-West Asia economic corridor connects the Chinese province of Xinjiang to the Mediterranean Sea, through Kazakhstan, Kyrgyzstan, Tajikistan, Uzbekistan, Turkmenistan, Iran and Turkey 
  4. The China-Indochina-Peninsula economic corridor aims to strengthen cooperation among states of the Greater Mekong sub-region and support trade between China and the 10 nations of the Association of Southeast Asian Nations (ASEAN) that are already bound by a free trade agreement since 2010 to facilitate economic growth
  5. The China-Pakistan economic corridor connects Kashgar in the Chinese province of Xinjiang to the port of Gwadar in Pakistan and includes the construction of railways, highways, optical fibre networks, and the creation of an international airport in Gwadar as well as the establishment of special economic zones
  6. The Bangladesh-China-India-Myanmar economic corridor links Kunming to Kolkata (Calcutta) via Mandalay and Dhaka to strengthen connections between China and various economic centres of the Gulf of Bengal in order to increase interregional trade by reducing non-tariff barriers.
China’s neo-colonial strategy
 
China’s B&R initiative is based upon an interpretation of colonialism, which is significantly different to Western  interpretations. While Western nations struggle with a sense of guilt associated with their past colonial rule and feel responsible for the abject economic failure, widespread poverty and erosion of governance in post-colonial independent states, Beijing believes that there are lessons to be learned from colonialism, which are relevant today and necessary prerequisites to stimulate trade, economic growth and domestic employment. Beijing’s B&R initiative is best understood as a neo colonial strategy to strengthen China’s slowing economy, enhance its industrial capabilities and improve its geopolitical standing by driving economic growth in some of the least developed regions of the world, which are neglected by the West.
 
The lessons of Singapore
 
China’s neo-colonialist policies are influenced by Singapore, an island city-state located in Southeast Asia off southern Malaysia. The country gained independence from Malaysia in 1965 and has become a global financial centre with a multicultural population and a multi-party parliamentary representative democracy with a President as head of state and a Prime Minister as the head of government. Although China is 14,000-times bigger than Singapore, has 1bn more citizens and its GDP is US$14trn compared to Singapore’s US$300bn; China views Singapore as an object lesson of political stability and prosperity predicated upon aspects of its colonial legacy, which Beijing believes can be replicated in under-developed regions of the world. These include basic infrastructure, improved administration, widened employment opportunities, female rights, expanded education, improved public healthcare, taxation, access to capital, independent judiciary, and national identity. Such factors China views as benefits of colonialism and necessary prerequisites for trade, economic growth and prosperity. Singapore has a colonial history, but today is a rich country with a GDP per capita of US$55,235, (higher than that of the US: US$53,128) and where Asian culture is intact and Western knowhow is harnessed for economic growth and prosperity for its citizens and is where China would like to be in the future.
 
The AIIB comparable to other development banks
 
In 2013, when Xi Jinping first proposed creating the Asian Infrastructure Investment Bank (AIIB), Washington was against it and campaigned rigorously to persuade potential donor countries not to participate. The US expressed concerns that the AIIB would undermine the World Bank, and the Asian Development Bank (ADB), which operate in Asia and lend to China. Washington also believed that the AIIB would unfairly benefit Chinese companies and argued that China would not adhere to international banking standards of transparency and accountability. Today, the AIIB is up and running as a medium-sized regional development bank with capital of US$100bn and lending at around US$4bn. It is broadly comparable with other development banks and Washington’s concerns appear unfounded.
 
Systematically migrating low-tech manufacturing to low-cost locations
 
An important role of the AIIB is to assist the B&R initiative to open up and create new markets for Chinese goods and services, to stimulate exports and to provide low-wage locations, to which China can migrate its light manufacturing industries. Beijing no longer sees its country’s economy as competitive on the basis of low wages. China’s labour costs are rising faster than gains in productivity and cost estimates of outsourcing production to China will soon be equal to the cost of manufacturing in the US and Western Europe. China is adjusting to rising real wages in its domestic markets by systematically migrating its low-tech industries to less-common low-wage production operations in new locations in Africa such as Ethiopia.

A rationale for this strategy is provided in a 2017 paper from the Center for Global Development, which suggests that “Ethiopia could become the new China” as, “the cost of Ethiopian industrial labour is about 25% that of China today”. This suggests that migrating Chinese low-tech manufacturers might leap-frog middle and lower-middle income developing countries in favour of the poorest countries such as Ethiopia, which is included in China’s B&R initiative. African countries view B&R as a platform to promote global cooperation based on win-win strategies. Speaking at a conference in June 2018 in Addis Ababa, Tan Jian, the Chinese ambassador to Ethiopia said, "We are working closely with Ethiopia in advancing the Belt and Road Initiative. Ethiopia is a very important partner in this regard. We have been doing a lot of projects here in Ethiopia: infrastructure, policy dialogue, trade, financing and people-to-people exchanges.” At the same conference Afework Kassu, Ethiopia's Minister of Foreign Affairs, said, “the Belt and Road initiative is an advantage for African countries for infrastructure development and for economic growth”.
 
Concerns about China’s neo colonialism and debt management
 
Despite these good words, China's B&R initiative is not free of criticism mostly from Western nations and international institutions, which suggest Beijing’s motivation is a retrograde strategy that employs globalization to service its domestic economy, and many of the concerns are about China’s potential economic predominance.
 
A March 2018 Center for Global Development (CGD) paper suggests that because China’s record of international debt financing is not good, and the B&R initiative follows China’s past practices for infrastructure financing, which entail lending to sovereign borrowers, then the initiative runs the risk of creating debt distress in some borrower nations. The paper identifies 8 of the 68 B&R borrower countries as “particularly at risk of debt distress”. Pakistan is the largest country at high risk with the development of its Gwadar deep-sea port, which is part of the B&R China-Pakistan Economic Corridor. China is financing about 80% of this endeavour, which is estimated to cost US$62bn.  Other countries mentioned in the CGD paper to be at high-risk of debt distress from the R&D initiative include Djibouti, the Maldives, Laos, Mongolia, Montenegro, Tajikistan and Kyrgyzstan. The concern is that these at-risk nations could be left with significant debt ‘overhangs’, which could impede their ability to make essential future public investments and thereby challenge their economic growth more generally. Recently, public concerns from within China have been raised over the costs of the initiative. There is also concern that debt problems will create “an unfavourable degree of dependency” on China as a creditor. Several US Senators have expressed similar concerns and suggest that potential defaults could have a deleterious economic impact more generally. In addition to B&R loans, which have been questioned, it has been rumoured that Beijing has lent Venezuela US$60bn and also extended significant credit to Argentina. Venezuela is in economic meltdown and Argentina has applied to the IMF for a bailout
 
China’s mounting debt
 
China’s increasing exposure as a significant creditor to economically weak developing nations is compounded by its mounting debt and triggers concerns about China’s future stability. A popular Washington view, endorsed by President Trump’s chief economic adviser Larry Kudlow, is that China’s mounting debt and slowing growth mean that its “economy is going south”, and the recent imposition of tariffs on Chinese exports to the US will accelerate the nation’s demise. However, there is a view that Washington’s imposition of punitive tariffs is an over-reaction because the Chinese economy is nowhere as strong as that of the US economy. Notwithstanding, China is an important trading partner for the US and American companies should find a way to engage with China.
 
Since the 2008 financial crisis, China’s debt has been a concern in Beijing because it was a driver of the country’s economic growth. In 2016, Vice-Premier Liu He, President Xi’s top economic adviser, conscious of the potential national security risks of China’s mounting debt, took steps to de-risk the country’s financial sector. More recently, Liu has accelerated infrastructure investment and taken steps to avoid a banking crisis by ensuring that the renminbi does not fall too rapidly against the US dollar. Over the past 5 months the renminbi has weakened about 10% against the US$ and could weaken further if the currency becomes politicized. Despite Liu’s efforts to reign-in and control China’s debt, which some estimates put at about  260% of GDP, it is not altogether clear how successful these efforts will be especially if China’s debt challenges are considered in conjunction with its loose credit conditions.
 
Changing world economic order

Putting aside these concerns, it is instructive to note that a 2017 study by Price Waterhouse Coopers (PwC), suggests, ceteris paribus, that within the next decade China’s economy will be bigger than America’s and within the next three decades India’s economy will overtake that of the US. The study argues that the US will rank 3rd in the world and in 4th place could be Indonesia. The study suggests that China will have an economy of US$59trn, while India’s will be around US$44trn and America’s will total $34trn. Significantly, Japan (US$6.7trn), Germany (US$6.1trn), the UK ($5.3trn) and France (US$4.7trn), key markets for Western MedTech companies, are expected to fall respectively to 8th, 9th, 10th and 12th in the list. They are expected to be replaced by Indonesia (US$10.5trn), Brazil (US$7.5trn), Russia (US$7.1trn), and Mexico (US$6.8trn), which climb to 4th, 5th 6th and 7th positions respectively. This signals some significant economic shifts likely to take place over the next two to three decades and underlines the importance of emerging economies in the medium-term strategic plans of Western companies.
 
Takeaways
 
The world is on the cusp of some significant  economic changes and the two nations most likely to affect those changes are the US and China. Beijing’s policies and global aspirations are helping China to step into a leadership void created by Washington’s current rejection of multilateralism. However, it is still not altogether clear whether China will be able to sustain this new position, and the uncertainty this causes presents a significant strategic dilemma for Western companies seeking growth outside their current markets in the developed world. China is too big to be ignored by Western companies, but China’s conditions for engagement are onerous and its long-term stability remains in doubt.
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  • A 2017 research project found that only 6 out of 18 FDA-approved blood glucose monitoring (BGM) systems tested were accurate
  • Each day BGM systems are used by millions of people with diabetes to help them self-manage their condition, and avoid devastating and costly complications
  • Thousands of similar smart devices support the prevention and self management of other chronic lifetime conditions, whose prevalence levels are high
  • The increasing demand for healthcare, its escalating costs, and rapidly evolving technologies are driving the growth of such remote self-managed devices
  • The most valuable aspect of such devices is the data they produce
  • These data tend to be under valued and under utilized by healthcare providers
  • This has created an opportunity for giant technology companies to enter the healthcare market with a plethora of smart devices and start utilizing the data they collect to enhance patient outcomes and lower costs
  • Giant technology companies could dis-intermediate GPs and re-engineer primary care
 

Digital blood glucose monitors and the disruptive impact of giant tech companies on healthcare


A 2017 research project, which tested 18 FDA-approved digital blood glucose monitoring (BGM) systems, which are used daily by millions of people with diabetes to check the concentration of glucose in their blood, found that only 6 were accurate. The research, led by David Klonoff of the Diabetes Research Institute at San Mateo, California, was funded by Abbott Laboratories.
 
This Commentary describes both traditional and next-generation BGM systems, and Klonoff’s research. The Commentary suggests that BGM systems are just one part of a vast, global, rapidly growing market for consumer healthcare devices, and argues that the most valuable aspect of these devices is the data they collect. With some notable exceptions, healthcare professionals do not optimally utilize these data to enhance care and reduce costs. This has created for an opportunity for technology companies to enter the healthcare market and re-engineer primary care. The one thing, which might slow the march of giant technology companies into mainstream healthcare, is the privacy issue.
 

Traditional and next-generation BGM systems
 
Traditional BGM systems
Regularly, each day, BGM systems are used by millions of people with diabetes to help them manage their condition. Managing diabetes varies from individual to individual, and peoples with diabetes usually self-monitor their blood glucose concentration from a small drop of capillary blood taken from a finger prick. They then apply the blood to a chemically active disposable 'test-strip'. Different manufacturers use different technology, but most systems measure an electrical characteristic, and use this to determine the glucose level in the blood. Such monitoring is the most common way for a person with diabetes to understand how different foods, medications, and activities affect their condition. The challenge for individuals with diabetes is that blood glucose levels have to be tested up to 12 times a day. People obliged to do this find finger pricking painful, inconvenient and intrusive, and, as a consequence, many people with diabetes do not check their glucose levels as frequently as they should, and this can have significant health implications. If your levels drop too low, you face the threat of hypoglycemia, which can cause confusion or disorientation, and in its most severe forms, loss of consciousness, coma or even death. Conversely, if your blood glucose levels are too high over a long period, you risk heart disease, blindness, renal failure and lower limb amputation.
 

Next generation BGM system
Abbott Laboratories Inc. markets a BGM system, which eliminates the need for routine finger pricks that are necessary when using traditional glucose monitors. Instead of finger pricks and strips, the BGM system, which measures interstitial fluid glucose levels, comprises a small sensor and a reader. An optional companion app for Android mobile devices is also available. The sensor is a few centimetres in diameter and is designed to stay in place for 10 days. It is applied to the skin, usually on the upper arm. A thin (0.4 mm), flexible and sterile fibre within the sensor is inserted in the skin to a depth of 5 mm. The fibre draws interstitial fluid from the muscle into the sensor, where glucose levels are automatically measured every minute and stored at 15-minute intervals for 8 hours. Glucose levels can be seen at any time by scanning the reader over the sensor. When scanned the sensor provides an answer immediately. It also shows an 8-hour history of your blood glucose levels, and a trend arrow showing the direction your glucose is heading. The device avoids the pain, and inconvenience caused by finger-prick sampling, which can deter people with diabetes from taking regular measurements. In the UK the system costs £58 for the reader, plus £58 for a disposable sensor, which must be replaced every 10 days and from November 2017 have been available on the NHSAbbott Laboratories is a global NASDAQ traded US MedTech Company, with a market cap of US$86bn; annual revenues of US$21bn, and a diabetes care division, which produces annual revenues of some US$600m.
 
Klonoff’s research on BGM systems

BGM systems used by Klonoff and his team for their research were acquired over-the-counter and independent of their manufacturers. All were tested according to a protocol developed by a panel of experts in BGM surveillance testing.
 
Klonoff’s research specified that for a BGM system to be compliant, a blood glucose value must be within 15% of a reference plasma value for a blood glucose >100 mg/dl, and within 15 mg/dl of a reference plasma value for a blood glucose approved” a BGM system had to pass all 3 trials.  Only 6 out of 18 passed by achieving an overall compliance rate of 95% or higher. 

 

The FDA
Klonoff’s findings add credibility to patients’ concerns about the accuracy of BGM systems, which triggered responses from both manufactures and the US Food and Drug Administration  (FDA). Manufacturers suggest that increasing the accuracy of BGM systems would raise their costs, and reduce their availability, which patients do not want. The FDA tightened approvals for BGM systems, and in 2016 issued 2 sets of guidelines, one for clinical settings, and another for personal home-use. The guidelines only apply to new products, and do not impact BGM systems already on the market. So while the FDA’s tighter accuracy requirements are a positive change, there are a significant number of less-accurate BGM systems still on the market. 
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Next-generation BGM systems
Next generation BGM systems use ‘sensing’ technology, and have the capacity to automatically track and send blood glucose readings to the user’s smartphone, then onto their healthcare provider through the cloud where they can be amalgamated with other data. Analytics can then track an individual’s data, and compare them to larger aggregated data sets to detect trends, and provide personalized care.

Large rapidly growing remote self-managed device market

Although BGM systems address a vast global market, they represent just one part of a much larger, rapidly growing, remote monitoring market to help prevent and self-manage all chronic lifetime conditions, while improving healthcare utilization, and reducing costs. In 2015 some 165,000 healthcare apps were downloaded more than 3bn times. Of these, 44% were medical apps, and 12% were apps for managing chronic lifetime conditions. Today, mobile devices enable people to use their smartphones to inspect their eardrums, detect sleep apnoea, test haemoglobin, vital signs such as blood pressure, and oxygen concentration in the blood. This is a significant advance from the early precursor of activity tracker and step counting.

Chronic lifetime conditions
21st century healthcare in developed countries is predominantly about managing chronic lifetime illnesses such as diabetes, cancer, heart disease and respiratory conditions. These 4 diseases have high prevalence levels, relatively poor outcomes, and account for the overwhelming proportion of healthcare costs. For instance, in the US alone, almost 50% of adults (117m) suffer from a chronic lifetime condition, and 25% have multiple chronic conditions. 86% of America’s $2.7 trillion annual health care expenditures are for people with chronic health conditions. This chronic disease pattern is replicated throughout the developed world, and has significant healthcare utilization and cost implications for public and private payers, individuals, and families.
 
Healthcare providers tend not to optimally utilize data

Although personal remote devices are increasingly important in the management of chronic conditions, the data these devices create are underutilized, despite their potential for improving outcomes and reducing costs. This is partly because doctors and health providers neither have the capacity nor the resources to exploit the full potential of these data; partly because doctors tend to resist technology to improve doctor-patient interactions, and partly because remote healthcare devices have not been validated for clinical use. 

Validation
Although health professionals tend to prefer to use more expensive medical grade devices, which ensure data validity, but often drive up costs, research validating the data collected by remote self-managed devices for clinical use is beginning to emerge. In 2016 Analog Devices, a US multinational semiconductor company specializing in data conversion and signal processing technology, and LifeQa private US company with advanced bio-mathematical capabilities, announced a joint venture to establish whether data from wearable’s are accurate enough for clinical use.
 
A study published in 2017 in the journal Nature Biotechnologyprovides some validation for data derived from apps to be used clinically. Using ResearchKit, an open source framework introduced by Apple in 2015 that allows researchers and developers to create powerful apps for medical research, the 6-month study enrolled 7,600 smartphone users who completed surveys on how they used an app to manage their asthma. Researchers then compared these patient-reported data with similar data from traditional asthma research, and found that there were no significant differences. Although there still remains some methodological challenges, the findings gave scientists confidence that data derived from an app could be reliable enough for clinical research. If data from self-managed remote monitoring devices are validated, then such devices could be used to unobtrusively and cost effectively enter the daily lives of patients to collect meaningful healthcare patient data, which could be used to enhance outcomes. Early research adopters of ResearchKit include the University of Oxford, Stanford Medicine, and the Dana-Farber Cancer Institute.

 
Giant technology companies entering healthcare market
 
The increasing validation of data generated by mobile devices and the continued underutilization of such data by health providers has created an opportunity for giant global technology companies to enter the healthcare market by: (i) developing and marketing self-monitoring devices directly to consumers, (ii) collecting, integrating, storing and analysing data generated by these remote devices, and (iii) supporting research initiatives to validate data from remote devices for clinical use.
 

Apple Inc.
Just one example of giant technology companies entering the healthcare market is Apple Inc., which has a market cap of about US$1tn and 700m users worldwide. In 2017, Apple announced that it has been testing a BGM system, which pairs with the company’s existing Watch wearable. In August 2017, the US Patent and Trademark Office officially published a series of 50 newly granted patents to Apple. One covers an invention relating to health data, and more specifically to a smartphone that computes health data. 
 
The technology involves emitting light onto a user’s body part and measuring the amount of light reflected back. This data can then help to determine body fat, breathing and even emotional health. This, and other patents issued to Apple fuel rumors that the company is preparing to turn its flagship smartphone into a predominantly healthcare-focused device.

 
Takeaway
 
Given the size and momentum of technology giants entering the healthcare market, and given the powerful demographic, technological, social and economic drivers of this market, it seems reasonable to assume that in the medium term, giant technology companies are well positioned to dis-intermediate primary care doctors, and re-engineer primary care. One thing that could slow this march, is the question of privacy. Health records are as private as private gets - from alcohol or drug abuse to sexually transmitted diseases or details of abortions: things we may never want to reveal to employers, friends or even family members. Significantly, these data are permanent, and privacy at this point is non-negotiable.
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