Publications

• Prime editing devised by researchers at the Broad Institute led by David Liu is a significant advance of the original CRISPR gene editing tool discovered in 2012
• CRISPR can cut and edit your DNA to correct defects inside your body’s cells to prevent and heal a range of incurable diseases and has revolutionized biomedicine
• The original CRISPR is fraught with inaccuracies referred to as off target effects
• Prime editing substantially reduces CRISPR’s off target effects and has the potential to correct up to 89% of known disease-causing genetic variations
• CRISPR also has the capacity to edit genes in an embryo in such a way that the change is heritable
• In 2018 Chinese researcher He Jiankui “created” the world’s first CRISPR babies
• This triggered international criticism from scientists and bioethicists
• A principal concern is that CRISPR is easy-to-use, cheap, regularly used in thousands of laboratories throughout the world and there is no internationally agreed and enforceable regulatory framework for its use

Prime editing   Prime editing is different to previous gene editing systems in that it uses RNA to direct the insertion of new DNA sequences in human cells. According to David Liu,  the senior author of the 2019 Nature paper and a world renowned authority on genetics and next-generation therapeutics, “a major aspiration in the molecular life sciences is the ability to precisely make any change to the genome in any location. We think prime editing brings us closer to that goal”.  Because prime editing provides a means to be more precise and more efficient in editing human cells in a versatile way, which eliminates many of CRISPR’s unintentional errors, it significantly expands the scope of gene editing for biological and therapeutic research. You might also like: CRISPR-Cas9 genome editing a 2-edged sword Gene editing positioned to revolutionise medicine

You might also like: Will China become a world leader in health life sciences and usurp the US?   Fierce competition among scientists is not uncommon and competition fuels opacity among scientists in their battle to become the first to make a discovery. Indeed, it is not uncommon for scientists to shield their ideas and research. This does not condone He’s actions, but it might help to explain them. Generally speaking, scientific opacity is not created by ambitious scientists alone, but it is partly created by scientific funding bodies and research institutions. Such opacity is a significant obstacle to open collaboration. In addition to wanting to be the first, He’s intentions might also have been an attempt to spare children of parents with HIV/AIDS  from inheriting the disease.

• Diabetic foot ulcers (DFUs) are a result of diabetes complications and can lead to amputations and death
• Scientists and clinicians struggle to reduce the vast and escalating burden of DFUs
• In wealthy countries like the UK there are specialist multidisciplinary diabetic foot clinics
• New and innovative therapies are beginning to emerge, which accelerates the rate of complete wound closure for DFUs
• Notwithstanding new products coming to market, the best therapy is prevention

How do diabetic foot ulcers heal?

• Hydrocephalus is a chronic condition that occurs when excess cerebrospinal fluid (CSF) collects in your brain’s ventricles and increases pressure inside your head
• Failure to treat the condition can lead to morbidity and death
• First line therapy is the surgical insertion of a ventriculoperitoneal shunt (VPS) to restore your CSF circulation
• A significant risk with the procedure is infection
• To reduce infection manufacturers’ impregnate standard shunts with either silver or antibiotics and market the impregnated shunts at higher prices
• Which VPS (standard, silver or antibiotic) provides patients with the most protection from infection?
• Which VPS is most cost effective for healthcare systems?

Causes
 

Some premature babies have bleeding in the brain, which can block the flow of CSF and cause hydrocephalus. Other possible causes of the condition include: X-linked hydrocephalus, which is caused by a mutation of the X chromosome and rare genetic disorders such as Dandy Walker malformation. This  is  a congenital (present at birth) defect, which affects the back part of the brain (the cerebellum) that controls movement, behaviour and cognitive ability. The most common cause of congenital hydrocephalus is an obstruction called aqueductal stenosis, which occurs when the long, narrow passageway between your third and fourth ventricles (the aqueduct of Sylvius) is narrowed or blocked, perhaps because of infection, haemorrhage, or a tumour. Other conditions, such as neural tube defects (like spina bifida), are also associated with hydrocephalus.

Signs and symptoms
 

Early signs of hydrocephalus in infants include bulging fontanel, which is the soft membranous gaps between the cranial bones on the surface of the infant skull; a rapid increase in head circumference; eyes that are fixed downward and poor feeding. In both infants and adults, symptoms include seizures; fuzzy vision, nausea, vomiting and excessive sleepiness. 

Diagnosing hydrocephalus
 

The diagnosis of hydrocephalus may be made before birth by an antenatal ultrasound. However, in many cases, hydrocephalus does not develop until the third trimester of a pregnancy and, therefore, may not be detected on an antenatal ultrasound. Congenital hydrocephalus may be diagnosed at birth. Important considerations include antenatal and birth history of your baby and whether there is a family history of hydrocephalus. Physical examination at birth can also detect hydrocephalus. A measurement of the circumference of your baby’s head is taken and compared to a graph that can identify normal and abnormal ranges for a baby’s age. Of interest to an early diagnosis for hydrocephalus are the developmental milestones in older babies since the condition may be associated with developmental delay, which might require further medical investigations for potential underlying problems. Other tests that may be performed to confirm a diagnosis of hydrocephalus include magnetic resonance imaging (MRI) and a computed tomography (CT) scan. MRI or CT images can reveal swellings of your brain or another condition that might be causing your symptoms, such as a tumour.
 
 In the video below Bassi describes how hydrocephalus is diagnosed:

 

 

 

 

Insertion of a ventriculoperitoneal shunt 
 

Although currently there is no known way to prevent or cure hydrocephalus, with early detection and appropriate intervention, the future for many patients with the condition is promising. The  gold standard treatment option available today is the surgical insertion of a ventriculoperitoneal shunt.

A shunt consists of two thin, long flexible hollow tubes, called catheters, with a valve that keeps fluid from your brain flowing in the right direction and at the proper rate and thereby reduces brain pressure to a safe level. To install a shunt a surgeon will make a small insertion behind your ear and also drill a small borehole in your scull. One catheter is then threaded into one of your brain’s ventricles through the hole in your scull, and the other is inserted behind your ear and threaded subcutaneously down to your chest and into your abdomen where excess CSF can drain safely, and your body can reabsorb it. Your surgeon may attach a tiny pump to both catheters and place it under the skin behind your ear. The pump will automatically activate to remove fluid when the pressure in your skull increases. Shunts can be programmable (externally adjustable by a magnetic device) to activate when the fluid increases to a certain volume, or non-programmable. Most surgeons tend to choose a programmable model, despite the fact that in clinical studies both types perform comparably.
 

In the video below Sanj Bassi describes both VPS therapy and some temporary treatment options for hydrocephalus. The latter includes medicines, which decrease the production of CFS, draining fluid from the spine via a lumbar puncture and draining fluid directly from your head into a bag via an external drainage system.

 

To determine the relative clinical benefits and cost-effectiveness of the three different ventriculoperitoneal shunts (standard, silver or antibiotic) following their de novo insertions, the UK’s National Institute for Health Research funded a large prospective multi-centre randomised controlled clinical study - The British Antibiotic and Silver Impregnated Catheters for Ventriculoperitoneal Shunts Study - (BASICS). Findings were published in the September 2019 edition of The Lancet. These concluded that shunts impregnated with antibiotics significantly reduce the risk of infection and also healthcare costs compared to both standard shunts and those impregnated with silver. Conor Mallucci, Consultant Paediatric Neurosurgeon at Alder Hey Children’s Hospital, Liverpool, UK, and lead author of the study, suggests that shunts impregnated with antibiotics should be, “the first choice for patients with hydrocephalus undergoing insertion of their first ventriculoperitoneal shunt”.

• CanRisk is a new online gene-based health-risk evaluation algorithm for detecting breast cancer
• It identifies people with different levels of risk of breast cancer, not just those at high risk
• As the infotech and biotech revolutions merge expect authority in medicine to be transferred to algorithms
• CanRisk has the potential to provide a cheap, rapid, non-invasive, highly sensitive and accurate diagnosis before symptoms present
• Breast cancer is the most common cancer in women worldwide and is the 5^th most common cause of death from cancer in women
• Currently mammography screening, which has a sensitivity between 72% and 87%, is the gold standard for preventing and controlling breast cancer
• For every death from breast cancer that is prevented by screening, it is estimated there will be three false-positive cases that are detected and treated unnecessarily
• Lack of resources do not support breast cancer screening in many regions of the world where the incidence rates of the disease are rapidly increasing
• In the near-term expect interest in the CanRisk algorithm to increase

Authority increasingly being transferred to algorithms   Over the past two decades we have increasingly learnt to accept the authority of Big Data algorithms. For example, without question we expect algorithms to give us directions, tell us what movies to watch, who to date, what clothes to wear, where to go on holiday, what flight to take, what hotel to stay in and where to eat. We are  comfortable with algorithms assigning us our credit rating, limiting our overdraft and capping our payments. Furthermore, we are beginning to accept the authority of algorithms in medicine. For example, we are gradually replacing the authority of primary care doctors with algorithms that can diagnose common diseases more accurately and more cost effectively. You might also be interested in: China’s rising MedTech industry and the dilemma facing Western companies

You might also be interested in: Breast cancer and harmful BRCA gene mutations AstraZeneca’s strategy to target early cancer Breast cancer growing rapidly in Asia   Breast cancer was once largely confined to developed Western countries and Australasia, but it has now become the most common cancer in Asia. Although Asian data on breast cancer are patchy, an Economist Intelligence Unit report, suggests that, “since the 1990s, increases in the incidence of breast cancer in Asia, as measured by age-standardised rates (ASRs), is four to eight times that of the global average”. Indeed, as younger cohorts of Asian women age and adopt Western diets and lifestyles (particularly fertility patterns, such as later first childbirth and shorter breast feeding), breast cancer incidence rates in Asia look set to converge with the much higher ones in the West. Further, in LMIC breast cancer is increasing at a more rapid rate than in the West and has become a significant healthcare challenge: 50% of breast cancer cases and 58% of deaths from the disease occur in LMIC.

• Over the past decade MedTech valuations  have outperformed the market without changing its business model
• The healthcare ecosystem is rapidly changing and MedTech is facing significant headwinds which require change
• MedTech’s future growth and value will be derived from data and smart analytics rather than manufacturing
• MedTech leaders will be required to leverage both physical and digital assets

Concern # 3: High asset values slow M&A activity Over the past decade, as markets became more uncertain, monetary policy tightened, technologies advanced and global economic growth slowed MedTech’s, buoyed by the dramatic fall in the cost of capital, increased their mergers and acquisitions (M&A) activity. This optimised portfolios, increased scale, reduced competition and improved profits. Notwithstanding, MedTech’s current high asset valuations make M&A transactions challenging to underwrite, and so, M&A activity has slowed.   You might also like: Is the digital transformation of MedTech companies a choice or a necessity?

You might also like: Will China become a world leader in health life sciences and usurp the US?   According to Euromonitor International more than 50% of the world’s (3.6bn) internet users reside in Asia. Between 2013 and 2018, Asia accounted for 60% of new users coming online and the region has become an economic powerhouse, populated by young, digitally savvy consumers.  China is the largest mobile market in the world with close to 1.2bn subscribers. Significantly, in 2018, China’s rate of growth in mobile internet penetration reached 58% and the number of smartphone connections surpassed 1bn. Similarly, in India, the number of smartphone users is expected to double to 859m by 2022 from 468m in 2017; growing at a compound annual growth rate (CAGR) of 12.9% and expected to reach 859m by 2022.

• Experts have called for the worldwide eradication of cervical cancer, but this is not likely to happen for a long time
• Significant progress has been made to eliminate cervical cancer in developed countries
• The overwhelming burden of cervical cancer falls disproportionately on women in low- to middle-income countries (LMIC)
• LMIC have relatively low levels of awareness of cervical cancer, patchy prevent programs and limited treatment options
• Over 80% of cervical cancer cases and deaths occur in LMIC
• Cervical cancer is the fourth most common cancer in women worldwide
• In 2018 there were an estimated 680,000 new cases and 311,000 deaths from the disease worldwide
• Cervical cancer is caused by sexually acquired infection from high-risk strains of the human papilloma virus (HPV)
• The majority of women will be infected with HPV at some point in their life
• HPV also causes genital warts and cancers of the head and neck and is also linked to cancers of the anus, vulva, vagina, penis and oropharynx
• HPV vaccines protect against 70% of cervical cancers and about 90% of genital warts
• Regular screening is also recommended to reduce the incidence of cervical cancer

Because early cervical cancer is asymptomatic, it is important for women to have regular Papanicolaou (Pap) smears - also called Pap tests - to detect any precancerous changes in the cervix that might lead to cancer. This is in addition to the HPV vaccination. In England women are invited to have Pap smears every three years between the ages of 25 and 49, when rates of cervical cancer are at their peak, and every five years between 50 and 65. Other international screening guidelines recommend that women aged 21 to 29 have a Pap smear every three years. Women aged 30 to 65 are advised to continue having a Pap test every three years, or every five years if they also combine it with an HPV DNA test. Women over 65 can stop testing if they have had three consecutive normal Pap tests, or two HPV DNA and Pap tests with no abnormal results.
 
The HPV DNA test determines the most likely cause of cervical cancer by looking for pieces of DNA in cervical cells and is recommended for women over 30 and not for women under 30. This is because women in their 20s tend to be more sexually active and therefore are more likely (than older women) to have an HPV infection that will go away on its own. Results of an HPV DNA test carried out on a woman in her 20s is not as significant as in and older woman and also may be confusing. The HPV DNA test can also be used in women who have slightly abnormal Pap test results to find out if they might need more testing or treatment.
 

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The Pap smear/test
 

The Pap smear or Pap test is a method of cervical screening used to detect potentially precancerous and cancerous processes in your cervix. During the routine procedure, cells from your cervix are gently scraped away and then examined for abnormal growth. Abnormal findings are often followed-up by more sensitive diagnostic procedures and if warranted, by interventions that aim to prevent progression to cervical cancer. Detecting cervical cancer early with a Pap smear significantly increases the chances of a cure. A Pap smear can also detect changes in your cervical cells, which suggest you might develop cancer in the future. In the two videos below Growdon describes the Pap smear and other tests for diagnosing cervical cancer.
 

What is a Pap smear test?

 

 
Diagnostic tests for cervical cancer

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 Women failing to have the Pap test are 6-times at greater risk of cervical cancer
 

There is evidence to suggest that women over 50 who fail to have a regular Pap smear have a much higher risk of developing cervical cancer compared with other women the same age who have a history of regular screening. Research carried out by Cancer Research UK and reported in 2014 investigated the utility of regular cervical cancer screening after 50, and whether 64 was an appropriate age to stop screening and concluded “yes” and “yes”. The study compared the screening history of 1,341 women between 65 and 83 in England and Wales who were diagnosed with cervical cancer over a five-year period, with 2,646 women of the same age without the disease. Findings suggest that women who did not attend screening tests were six times more likely to develop cervical cancer between 65 and 83 compared with women that did. 
 

Australian the first country to eradicate cervical cancer
 

Australia is well positioned to become the first country in the world to eradicate cervical cancer. This is largely due to national vaccination and screening programs, which could see the disease effectively eliminated as a public health issue within the next two decades. In 2007, Australia launched a national publicly-funded school immunisation program to reduce HPV, which complemented a national  cervical cancer screening program that was launched in the 1990s. These have been shown to reduce the incidence of cervical cancer and significantly increase early diagnosis when the disease is curable.
 
A research paper about the Australian initiative published in the January 2019 edition of The Lancet Public Health concludes that, “the annual incidence of cervical cancer in Australia is likely to decrease to fewer than six new cases per 100 000 women by 2020 (range 2018–22) and to fewer than four cases per 100 000 women by 2028 (2021–35). The annual incidence of cervical cancer could decrease to one new case per 100 000 by 2066 (2054–77) if the existing HPV-based screening program continues in cohorts who are offered the nonavalent vaccine”; [a nonavalent vaccine works by stimulating an immune response against nine different antigens, such as nine different viruses or other microorganisms]. According to Suzanne Garland, Professor and Clinical Director of Microbiology and Infectious Diseases at the Royal Women’s Hospital, Melbourne, Australia, who led the research, “within 40 years the number of new cases of cervical cancer [in Australia] is projected to drop to just a few”.
 

The two worlds of cervical cancer
 

Global efforts to reduce the incidence rates of cervical cancer have focused on HPV vaccination  and the Pap test. Although experts are optimistic about eliminating cervical cancer in developed nations, which have advanced healthcare systems and extensive HPV vaccination, screening and treatment programs, they are significantly less sanguine about eradicating the disease in LMIC where there are relatively low levels of awareness of cervical cancer, a dearth of  preventative strategies, limited expertise and a narrow band of treatment options. This results in the disease being identified late when it is at an advanced stage, which leads to higher rates of morbidity and death. Indeed, 85% of all cases and cervical cancer deaths occur in LMIC, where the death rate is 18 times higher than in wealthy nations.
 

Cervical cancer a challenge for LMIC
 

The gap in preventing, diagnosing and treating cervical cancer between wealthy nations and LMIC is  described in a paper published in the November 2017 edition of Gynecologic Oncology Reports and suggests that, “Developing countries continue to bear a disproportionate percentage of the global cervical cancer burden. Investigations into the growing gap in incidence and mortality between developed nations and LMIC have cited persistent financial, infrastructural and educational limitations as key drivers. Pervasive lack of access to both preventative and definitive care has left a substantial portion of cervical cancer patients with minimal options for disease management”.
 

WHO strategy to eliminate cervical cancer
 

Recognising this disparity, in 2018, the Director-General of the World Health Organization (WHO) announced a call to action for the eradication of cervical cancer as a public health problem. In January 2019, the Executive Board of the WHO requested the Director General to develop a draft strategy to accelerate cervical cancer elimination, with clear targets for the period 2020 - 2030.
 

Vaccination and screening must be linked to effective therapies

 
The expansion of screening programs for cervical cancer in LMIC is only part of the answer to closing the gap with developed nations and eradicating cervical cancer globally. It is imperative that screening is linked to increased access to effective treatment for women with cervical cancer, particularly in its early stages when it is still curable.  In LMIC there is often not only reduced access to preventive HPV vaccines and screening, but limited access to treatment and trained personnel. Notwithstanding, there is evidence to suggest that, in LMIC less-invasive and less–resource-intensive treatment options can be effective and are increasingly being made available.
 

Late presentation of cervical cancer in LMIC
 

Women from LMIC generally seek treatment for cervical cancer only after the presentation of symptoms when the disease is advanced and challenging to treat. Also, they often lack awareness of the disease and ways to prevent it. Further, in some regions of the world, cultural norms and myths about cervical cancer pose additional barriers to prevention. Despite such obstacles, the disease can be prevented at low cost by healthcare providers employing relatively simple techniques to screen women for precancerous conditions and treat abnormal tissue early. Among the most promising low cost and low-tech screening alternatives to the Pap smear, is visual screening, which only requires either simple vinegar or iodine solutions and the eye of a trained healthcare provider to spot abnormal tissue.
 

Screening linked to effective therapy
 

Increasingly, these simply tests are being linked with effective treatment. Increasingly, in LMIC relatively cheap and simple therapies are being used to either destroy or remove abnormal cervical tissue, depending on the severity, location and size of the affected area. Two such procedures include cryotherapy and loop electrosurgical excision procedure (LEEP). The former uses extremely low temperatures to destroy abnormal tissue and requires no electricity. The latter involves using a thin wire to remove lesions in the affected area. While this procedure requires more medical equipment than cryotherapy, it allows tissue to be removed for analysis, reducing the possibility that advanced cancer will go unnoticed. Although many LMIC have had cervical cancer prevention programs and simple treatment strategies in place for some time, some have failed to reduce death rates of the disease.
 

Radiotherapy and cervical cancer in LMIC
 

Research findings published in the May 2019 online edition of The Lancet Oncology suggest that the availability of radiotherapy in LMIC (where gross national income is <US$12,000 a year) would generate millions of productive life years and billions of dollars in economic benefits for the patients' families and communities. The study suggests that implementing a 20-year strategy for radiotherapy to treat cervical cancer in LMIC between 2015 and 2035, in parallel with an HPV vaccination program, would save the lives of some 9.4m women and provide a net benefit to economies of US$151.5bn as a direct result of women living longer and more productive lives.

According to Danielle Rodin, lead author and Radiation Oncologist at the Princess Margaret Cancer Centre, University of Toronto, Canada, "Vaccination is hugely important, but we can't neglect the millions of women who are contracting cervical cancer and dying in pain without access to treatment. These are women who have curable cancers: even advanced cervical cancer can be cured with radiotherapy. The possibility exists to make this treatment universally available". Radiation therapy makes small breaks in the DNA inside cells. This stops cancer cells from growing and dividing and causes them to die. Unlike cisplatin therapy, [an anti-cancer ("antineoplastic" or "cytotoxic") chemotherapy], which usually exposes the whole body to cancer-fighting drugs, radiation therapy is usually a local treatment.
 

According to the 2019 Lancet Oncology study, HPV vaccination would result in a 3.9% reduction in cervical cancer incidence over the 20-year study period; assuming a best-case scenario of vaccinating every 12-year-old girl in the world starting in 2014. By 2072, when the first vaccinated cohort reaches 70, there would be a 22.9% reduction in incidence, still leaving 41.6m in need for therapy over that time period.

“We know that when administered together (chemoradiation) you can give lower doses of both and get a better kill-rate on the tumour. This is now the backbone of cervical cancer therapy”, says Growdon; see video below.
 

 

Abu Dhabi’s endeavours to reduce cervical cancer
 

For some years, experts have discussed religious and cultural barriers to cervical cancer screening and drew attention to the relatively low levels of cervical cancer awareness and screening for women in Middle Eastern Arab countries. Meta-analysis of cervical cancer studies conducted in Arab countries between January 2002 and January 2017 and published in the December 2017 edition of Nursing & Health Sciences, suggest that in Arab speaking countries there tends to be, “low knowledge of and perceptions about cervical screening among Arab women, the majority of whom are Muslim. Factors affecting the uptake of cervical cancer screening practices were the absence of organized, systematic programs, low screening knowledge among women, healthcare professionals' attitudes toward screening, pain and embarrassment, stigma, and sociocultural beliefs”.
 

The success of HPV vaccination in Abu Dhabi and the UAE
 

Notwithstanding, there are signs that this is changing. Leading such changes is Abu Dhabi of the United Arab Emirates (UAE). Over a decade ago, a mandatory free HPV vaccination program for school girls was introduced by Abu Dhabi’s Ministry of Health and Prevention and extended in 2013 to include women between 18 and 26. Also, the Ministry recommends that woman aged 25 to 65 years get a Pap smear every three to five years. Since 2018, HPV vaccinations have been provided free and compulsory for all school girls in Dubai and the Northern Emirates following a campaign to raise awareness.
 
Although the UAE is among the few countries to have relatively low incidence rates of cervical cancer, the disease still ranks as the third most frequent cancer among women in the UAE and the third most frequent cancer among women between 15 and 44. Estimates suggest that every year, 93 women are diagnosed with cervical cancer and 28 die from the disease in the UAE. Although Abu Dhabi is successfully leading the fight against cervical cancer and provides a roadmap for others to follow, the incidence of cervical cancer in the Middle East generally is expected to more than double by 2035 (>33,000 cases) and be responsible for more than 18,000 deaths. In some countries including Morocco and Saudi Arabia, low societal awareness and relatively low levels of screening results in about one in four women with HPV.

• AstraZeneca has turned traditional biopharma R&D on its head and is targeting early stage cancer
• This strategy benefits from  some of AstraZeneca’s R&D endeavours
• But the strategy faces strong headwinds, which include significant technological and market challenges and substantial Competition from at least two unicorns

 
In this Commentary we discuss the drivers and headwinds of AstraZeneca’s strategy to increase its R&D focus on early stage cancer. But first we briefly describe cancer, the UK’s situation with regard to the disease and explain why big pharma targets advanced cancers. Also, we provide a brief description of AstraZeneca’s recent history.  
 

What is cancer?

Cancer occurs when a normal cell’s DNA changes and multiplies to form a mass of abnormal cells, which we refer to as a tumour. If not controlled and managed appropriately the tumour can spread and invade other tissues and organs. In the video below Whitfield Growdon, a surgical oncologist at the Massachusetts General Hospital in Boston US, and a Professor at the Harvard University Medical School explains.
 

 

The UK’s record of cancer treatment
 

In the UK cancer survival rates vary between types of the disease, ranging from 98% for testicular cancer to just 1% for pancreatic cancer. Although the UK’s cancer survival rates lag those of other European countries, the nation’s overall cancer survival rate is improving. Several cancers are showing significant increases in five-year survival, including breast (80% to 86%), prostate (82% to 89%), rectum (55% to 63%) and colon (52% to 60%). Many of the most commonly diagnosed cancers in the UK have ten-year survival of 50% or more. With regard to cancer spending, compared with most Western European countries, including France, Denmark, Austria and Ireland, the UK spends less on cancer per person, with Germany spending almost twice as much per head.

 
Why big pharma targets advanced cancers?
 

Most cancers are detected late when symptoms have manifested themselves, which renders treatment less effective and more costly. When cancer is caught early, as in some cases of breast and prostate cancer, tumours tend to be removed surgically or killed by chemoradiation therapy (CRT) and this, for many people, provides a “cure”, although in some cases the cancer returns.
 
Studies in developed economies suggest that treatment costs for early-diagnosed cancer patients are two to four times less expensive than treating those diagnosed with advanced-stage cancer. Notwithstanding, there are physical, psychological, socio-economic and technical challenges to accessing early cancer diagnosis and these conspire to delay cancer detection. Thus, big pharma companies have traditionally aimed their new cancer drugs at patients with advanced forms of the disease. This provides pharma companies access to patients who are willing to try unproven therapies, which significantly helps in their clinical studies. And further, big pharma is advantaged because regulators tend to support medicines that slow tumour growth and prolong life, albeit by a few months.

 
Imfinzi: the only immunotherapy to demonstrate survival at three years
 

A good example of this is AstraZeneca’s immunotherapy drug called Imfinzi (durvalumab) used in unresectable stage-III non-small cell lung cancer (NSCLC), which has not spread outside the chest and has responded to initial chemoradiation therapy. Imfinzi works by binding to and blocking a protein called PD-L1, which acts to disguise cancer cells from your immune system. Imfinzi removes the disguise so that your immune system is better able to find and attack your cancer cells.
 
Findings presented at the June 2019 meeting of the American Society of Clinical Oncology (ASCO), build on a clinical study of Imfinzi reported  in the September 2018 edition of The New England Journal of Medicine, and suggest that Imfinzi is the only immunotherapy to demonstrate survival at three years in unresectable stage-III NSCLC. AstraZeneca has begun a phase-3 clinical study of the PD-L1 inhibitor protein in stage II NSCLC patients.

 

Some information about AstraZeneca   AstraZeneca is a British-Swedish multinational biopharmaceutical company with a market cap of US$107bn and annual revenues of US$22bn. The company operates in over 100 countries, employs more than 61,000, has its headquarters in Cambridge, UK, and is recovering after patents expired on some of its best-selling drugs and a failed takeover bid in 2014 by Pfizer. You might also be interested in: A paradigm shift in cancer diagnosis

• People are living longer, the prevalence of age-related degenerative disc disease is increasing and sufferers are more and more turning to spinal implant surgery as a solution
• As this significantly raises the burden on over-stretched healthcare systems, so is spine surgery increasingly becoming a key target for cost reduction within healthcare systems
• This intensifies the pressure on manufacturers to innovate and make spinal implants more cost effective

The first surgery using a 3D printed spinal implant   The first surgery to implant a 3D printed interbody fusion device was carried out in China in August 2014, when surgeon Liu Zhongjun from Peking University Hospital successfully implanted an artificial 3D printed vertebra into a 12-year-old bone cancer patient to help him walk again. Liu first removed a tumour located in the second vertebra of the boy's neck before replacing it with the 3D printed implant between the first and third vertebrae to allow him to lift his head. “The customized 3D printed technology made the disc replacement stronger and more convenient than normal procedures”, said Liu. You might also be interested in: Age of the aged and low back pain

You might also be interested in: MedTech must digitize to remain relevant   3D printing medical devices market   The 3D printing medical devices market is projected to grow at a CAGR of 17.5% and reach US$2bn by 2022. Currently, the market is dominated by North America, followed by Europe, Asia Pacific and the rest of the world. Over the next decade, the Asia Pacific 3D printing medical devices market is expected to grow at the highest CAGR. Emerging markets are attractive for spine companies as they have large patient populations, which are growing fast, rising government healthcare expenditure, vast and rapidly increasing middle classes, rising income levels and rising obesity cases.

• Two Boston Consulting Group studies say MedTech innovation productivity is in decline
• A history of strong growth and healthy margins render MedTechs slow to change their outdated business model
• The MedTech sector is rapidly shifting from production to solutions
• The dynamics of MedTechs' customer supply chain is changing significantly and MedTech manufacturers are no longer in control
• Consolidation among buyers - hospitals and group purchasing organisations (GPO) - adds downward pressure on prices
• Independent distributors have assumed marketing, customer support and education roles
• GPOs have raised their fees and are struggling to change their model based on aggregate volume
• Digitally savvy new entrants are reinventing how healthcare providers and suppliers work together
• Amazon’s B2B Health Services is positioned to disrupt MedTechs, GPOs and distributors 
• MedTech manufacturers need to enhance their digitization strategies to remain relevant

As MedTech manufacturers have been slow to develop strong and effective data strategies, so MedTech distributors have increased their bargaining power through M&As and internationalisation. Some distributors have even assumed marketing, customer support and education roles, while others have launched their own brands. MedTechs' response to these changes has been to increase their direct sales representatives. However, consolidation among buyers - hospitals and GPOs -  and the extra downward pressure this puts on prices, is likely to make it increasingly costly for MedTechs to sustain large permanent sales forces.  You might also be interested in: Who should lead MedTech?

You might also be interested in: Is the digital transformation of MedTech companies a choice or a necessity? Millennials are used to going to Amazon and quickly finding anything they need; even the most obscure items. According to Holt, “A real example is somebody who wants to find peanut butter that is gluten-free, non-GMO, organic, crunchy and in a certain size. And they want to find it in three to five clicks. That’s the mentality of millennial buyers at home, and they want to be able to do the same things at work. . . . The shift from offline traditional methods to online purchasing is very significant. It is our belief that the online channel is going to be the primary marketplace for even the most premium of medical devices in the future. That trend is already proven by data. So, we’ve created a dedicated team within Amazon Business to enable medical product suppliers to be visible and participate in that channel.”