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Bridging the gap between medical science and policy to reduce the biggest 21st century healthcare burden

 
In November 2018 the Mayor on London Sadiq Khan, announced that junk food adverts will be banned on all London transport from February 2019 in an attempt to reduce the “ticking time bomb” of childhood obesity in the city.

London has one of the highest obesity rates in Europe with some 40% of 10 to 11-year olds either overweight or obese, with children from more deprived areas disproportionately affected. Obesity is a common and costly source of type-2 diabetes (T2DM), which is much more aggressive in youngsters and complications of the condition - blindness, amputations, heart disease and kidney failure - can present earlier. What is happening in London and the UK is replicated in varying degrees in cities and nations throughout the world: there is a global epidemic of obesity and T2DM, which together is often referred to as ‘diabesity’.
 
The “good” news is that at the same time Khan announced the advertising ban, the UK’s national news outlets were reporting the product of four decades of scientific research, which suggested that T2DM could be reversed by a liquid diet of 800-calories a day for three months.
 
Although this offers hope for millions of people, an unresolved challenge is whether this simple and cheap therapy will be implemented effectively to significantly dent the burden of diabesity, which arguably is the biggest healthcare challenge of the 21st century.
 
In this Commentary

We describe some of the research behind the news reports about the therapy to reverse T2DM. Although the scientists’ innovative solution of a low-calorie liquid diet has been adopted enthusiastically by some healthcare providers and organizations specifically set up to dent the burden of diabesity, it is questionable whether the gap between science and policy can be bridged. This, we suggest, is because the prevalence of diabesity is growing at a significantly faster rate than the effect of programs to prevent and reduce the condition.
 

Obesity and T2DM

Obesity, which is a significant risk of T2DM, is a complex, multifaced condition, with genetic, behavioural, socioeconomic and environmental origins. Diet and sedentary lifestyles may affect energy balance through complex hormonal and neurological pathways that influence satiety. Also, urbanization, the food environment and the marketing of processed foods are contributory factors to becoming overweight and obese. Notwithstanding, the main driver of weight gain is energy intake exceeding energy expenditure.
 
T2DM is a chronic, progressive metabolic disease, which until recently has been perceived as incurable. Although genetic predisposition partly determines the condition’s onset, being overweight and obese are significant risk factors. Generally accepted clinical guidelines to treat the condition is to reduce glycated haemoglobin (HbA1c) - blood sugar (glucose) - levels. The HbA1c test assesses your average level of blood sugar over the past two to three months. The normal range for HbA1c is 4% to 5.9%. In well-controlled diabetic patients HbA1c levels are less than 6.5% or 48mmol/moll. High levels of HbA1c mean that you are more likely to develop diabetes complications, such as serious problems with your heart, blood vessels, eyes, kidneys, and nerves. T2DM is treated primarily with drugs and generic lifestyle advice, but many patients still develop vascular complications and life expectancy remains up to six years shorter than in people without diabetes. 

 
Obesity

The Organisation for Economic Co-operation and Development’s (OEDC) 2017 Health at a Glance Report warned that obesity in the UK has increased by 92% in the past two decades. Two-thirds of the UK’s adult population are overweight and 27% have a body mass index (BMI) of 30 and above, which is the official definition of obesity. In 2017 there were 0.6m obesity-related hospital admissions in the UK, an 18% increase on the previous year. Each year, obesity cost NHS England in excess of US$10bn in treatment alone.
 
A 2018 World Health Organization (WHO) report suggests that obesity globally has almost tripled since 1975. In 2016, more than 1.9bn adults, 18 years and older, were overweight. Of these over 650m were obese. According to a 2018 WHO report on childhood obesity 41m children under the age of 5 were overweight or obese in 2016 and over 340m children and adolescents aged 5-19 were overweight or obese.
Bad diets
 
Diets in the UK, and in most wealthy advanced industrial economies, tend to have insufficient fruit and vegetables, fibre and oily fish and too much added sugar, salt and saturated fat. Rising consumption of processed food and sugary drinks are significant contributors to the global obesity epidemic. A typical 20-ounce soda contains 15 to 18 teaspoons of sugar and upwards of 240 calories. A 64-ounce cola drink could have up to 700 calories. People who consume such drinks do not feel as full as if they had eaten the same number of calories from solid food and therefore do not compensate by eating less. While healthy diets are challenging for most populations, low income levels and poor education are associated with less healthy diets.

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Weight loss surgery to treat T2DM

T2DM brief epidemiology

Almost 4.6m people in the UK and 30m Americans are living with diabetes:  90% of whom have T2DM. It is estimated that 12.3m people in the UK and some 70m in the US are considered pre-diabetic, which is when you have high blood glucose levels, but not high enough to be diagnosed with diabetes. The first WHO Global report on diabetes published in 2016 suggests that 422m adults (1 in 11) worldwide are living with the condition, which has quadrupled over the past three decades. The International Diabetes Federation (IDF) estimates that this figure will rise to 642m by 2040.  A further challenge is the undiagnosed. A December 2017 paper in Nature Reviews: Endocrinology suggests 46% of all cases of diabetes globally are undiagnosed and therefore at enhanced risk of complications. Until complications develop, most T2DM patients are managed within primary care, which constitutes a significant part of general practice activity. International data suggest that medical costs for people with diabetes are two to threefold greater than the average for people without diabetes.
 
T2DM treated but not cured

The most common therapy for T2DM patients who are overweight is metformin, which is usually prescribed when diet and exercise alone have not been enough to control your blood glucose levels. Metformin reduces the amount of sugar your liver releases into your blood and also makes your body respond better to insulin. Insulin is a hormone produced by your pancreas that allows your body to use sugar from carbohydrates in food that you eat for energy or to store glucose for future use. The hormone helps to keep your blood sugar levels from getting too high (hyperglycaemia) or too low (hypoglycaemia). Metformin does not cure T2DM and does not get rid of your glucose, but simply transfers your excess sugar from your blood to your liver. When your liver rejects your excess sugar, the medicine passes the glucose onto other organs: kidneys, nerves, eyes and heart. Much of your excess sugar gets turned into fat and hence you become overweight or obese. T2DM has long been understood to progress despite glucose-lowering therapy, with 50% of patients requiring insulin therapy within 10 years. This seemingly inexorable deterioration in control has been interpreted to mean that T2DM is treatable but not curable. Research briefly described in this Commentary suggests that T2DM can be beaten into ‘remission’, but it requires losing a lot of weight and keeping it off.
 
Reversing T2DM

Over the past decade a series of studies, led by Roy Taylor, Professor of Medicine and Metabolism at the University of Newcastle, England and colleagues from Glasgow University have explored the notion that losing weight could be the solution for controlling T2DM and lowering the risk of debilitating and costly complications.
 
Findings of a study in the December 2017 edition of the  Lancet, suggested that nearly 50% of people living with T2DM who had participated in a low-calorie liquid diet of about 800 calories a day for three to five months had lost weight and had reverted to a non-T2DM state. The study was comprised of 298 adults between 20 and 65 who had been diagnosed with T2DM within the past six years drawn from 49 primary care practices in Scotland and Tyneside in England. Half of the practices put their patients on the low-calorie diet, while the rest were in a control group and received the standard of care of anti-diabetic medicines to manage their blood glucose levels. About 46% of 149 individuals with T2DM who followed a weight loss regimen achieved ‘remission’, which the study defined as a HbA1c of less than 6.5% after one year. Only 4% of the control group managed to achieve ‘remission’. ‘Remission’ rather than ‘cure’ was used to describe the reversal of T2DM because if patients put weight back on, they may become diabetic again. Results improved according to the amount of weight lost: 86% of those who lost more than 33 pounds attained remission, while 57% of those who lost 22 to 33 pounds reached that goal.
 
Another paper by Taylor and his colleagues published in the October 2018 edition of Cell Metabolism, examined reasons why substantial weight loss - (15kg) in some patients - produces T2DM remission in which all signs and symptoms of the condition disappear, while in other patients it does not. Using detailed metabolic tests and specially developed MRI scans, Taylor observed that fat levels in the blood, pancreas and liver were abnormally high in people with T2DM. But after following an intensive weight loss regimen, all participants in the study were able to lower their fat levels. As fat decreased inside the liver and the pancreas, some participants also experienced improved functioning of their pancreatic beta cells, which store and release insulin, controls the level of sugar in their blood and facilitates glucose to pass into their cells as a source of energy. The likelihood of regaining normal glucose control depends on the ability of the beta cells to recover. But, losing less than 1gm of fat from your pancreas through diet can re-start your normal production of insulin and thereby reverse T2DM.
 
“The good news for people with T2DM is that our work shows that you are likely to be able to reverse T2DM by moving that all important tiny amount of fat out of your pancreas. At present, this can only be done through substantial weight loss,” says Taylor.

While a significant proportion of participants in Taylor’s study responded to the weight loss program and achieved T2DM remission, others did not. To better understand this, researchers focused on 29 participants who achieved remission after dieting and 16 who dieted but continued to have T2DM. Taylor and his colleagues observed that people who were unable to restart normal insulin production had lived with T2DM for a longer time than those that could. Individuals who had lived with T2DM for an average of 3.8 years could not correct their condition through weight loss, while those who had the condition for an average of 2.7 years were able to regain normal blood sugar control.

“Many [patients] have described to me how embarking on the low-calorie diet has been the only option to prevent what they thought - or had been told - was an inevitable decline into further medication and further ill health because of their diabetes. By studying the underlying mechanisms, we have been able to demonstrate the simplicity of T2DM and show that it is a potentially reversible condition. but commencing successful major weight loss should be started as early as possible,” says Taylor.
 
Click on Newcastle University to find out more information about reversing T2DM by weight loss.
 
Bridging the gap between science and policy

Taylor and his colleagues describe their research findings as “very exciting” because “they could revolutionise the way T2DM is treated”, but caution that a series of management issues will need to be overcome before their therapy becomes common practice. This includes, (i) familiarizing primary care doctors and T2DM patients with the treatment regimen, (ii) establishing a generally accepted standard for what actually constitutes “remission”. Taylor and colleagues recommend “remission” to be when a patient has not taken diabetes medicines for at least two months and then has two consecutive HbA1c levels, taken two months apart, which are less than 6.5%. Researchers also recommend that data on T2DM reversal rates should be routinely collected, stored, analysed and reported.

Notwithstanding, the ‘elephant in the room’ is the vast extent of diabesity, the eye-watering rate at which it is growing and the general ineffectiveness of policy makers and prevent programs to dent the burden. Research findings presented at the 2018 European Congress on Obesity in Vienna emphasize the magnitude of the problem. If current trends continue, almost a quarter (22%) of the world’s population will be obese by 2045 (up from 14% in 2017), and 12% will have T2DM (up from 9% in 2017). Findings also suggest that in order to prevent the prevalence of T2DM from going above 10% by 2045, global obesity levels must be reduced by 25%. The problem is no less grave at the national level. For example, in the UK, if current trends continue obesity will rise from 32% today to 48% in 2045, while diabetes levels will rise from 10.2% to 12.6%, a 28% rise. This is unsustainable. Here’s the challenge for policy makers.

To stabilise UK diabetes rates over the next 25 years at 10%, which is high and extremely costly, obesity prevalence must fall from 32% to 24%. Similarly, in the US, if current trends continue over the next 25 years, then to keep diabetes rates stable over the same period, obesity in the US would have to be reduced by 10%: from 38% today to 28%.
 
Takeaways

Taylor and his colleagues have delivered a simple and cheap solution to one of the biggest burdens of the 21st century. But unless there is effective strategy to implement this solution the four decades of research undertaken by Taylor and his colleagues will be wasted. Previous Commentaries have described the vast and crippling burden of diabesity and the failure of well-funded programs to make any significant dent in this vast and escalating burden, which is out of control. We have suggested, this is partly because, at the operational level, programs have tended to be predicated upon inappropriate, old fashioned, 20th century organizational methods and technology and focused on “activities” rather than “outcomes”. At a policy level, government agencies have systematically failed to slow the rise of processed food becoming the “new tobacco.  Most UK endeavours to reduce the burden of diabesity are like putting up an umbrella to fend off a tsunami. This must change if we are to harness and effectively deploy the research findings of Professor Taylor et al.
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  • 16% of cancers in the UK are linked to excess weight and type-2 diabetes (T2DM)
  • 62% of adults are overweight or obese in England
  • 4m people are living with T2DM in the UK and another 12m are at increased risk of T2DM
  • Prevalence rates of both obesity and T2DM are rising
  • Ineffective prevention initiatives should be replaced with effective ones if we are to dent the vast and escalating burden of obesity, T2DM and related cancers
  • Public health officials, clinicians and charities need to abandon ineffective inertia projects embrace innovation and look to international best practice 

 
Excess weight and type-2 diabetes linked to 16% of cancers in the UK
 
 
Being overweight and living with type-2 diabetes (T2DM) is a potentially deadly combination because it significantly increases your risk of cancer and contributes to the projected increase in cancer cases and deaths in the UK. Findings of a study published in the February 2018 edition of The Lancet Diabetes and Endocrinology suggest that a substantial number of UK cancer cases are linked to a combination of excess body mass index (BMI) and T2DM, which here we refer to as diabesity. To lower the growing burden of cancer associated with diabesity, more effective prevention strategies will be required. To achieve this, clinicians, public health officials and charities will need to reappraise their current projects, innovate, and learn from international best practice. 
 

BMI, obesity and T2DM defined
 
Body mass index (BMI) is a simple index of weight-for-height that is commonly used to classify overweight and obesity in adults. It is a person's weight in kilograms divided by the square of his height in meters (kg/m2). Overweight is a BMI greater than or equal to 25; and obesity is a BMI greater than or equal to 30. T2DM is a long-term metabolic disorder characterized by high blood glucose (sugar), insulin resistance, and relative lack of insulin. Insulin is a hormone produced in the pancreas, which is used by the body to manage glucose levels in the blood and helps the body to use glucose for energy.

 In this Commentary
 
This Commentary describes the findings of a study reported in a 2018 edition of The Lancet Diabetes and Endocrinology, which suggests that current initiatives to prevent and reduce the burden of diabesity are ineffective. Previous Commentaries have described the Mexican Casalud and the Oklahoma City projects, which have successfully reduced obesity and type-2 diabetes (T2DM). These represent innovative international best practice, which have been largely gone unnoticed by the UK’S diabetes establishment. Also, we describe findings of a study published in the May 2017 edition of Scientific Reports, which suggests that although Google trend data can detect early signs of diabetes, they are underutilized by traditional diabetes surveillance models. The prevalence of diabesity in the UK is significant and growing so fast that public health officials, clinicians and charities will have to replace failing inertia projects with more effective ones if they are to dent the growing burden of cancer linked to a combination of obesity and T2DM.
 
The Lancet Diabetes and Endocrinology study
 
A comparative risk assessment study published in The Lancet Diabetes and Endocrinology was carried out by researchers from Imperial College London, Kent University and the World Health Organization. It suggests that in 2012, 5.6% of all cancers worldwide were linked to the combined effect of obesity and diabetes, which corresponded to about 0.8m new cancer cases. 25% of these account for liver cancer in men, and 38% account for endometrial cancer, which affects the lining of the womb in women.
 

Obesity T2DM and cancer
 
There is a close association between obesity and T2DM. The likelihood and severity of T2DM are closely linked with BMI. If you are obese your risk of T2DM is 7-times greater than someone with a healthy weight. If you are overweight your risk of T2DM is 3-times greater. Whilst it is known that the distribution of body fat is a significant determinant of increased risk of T2DM, the precise mechanism of association remains unclear. It is also uncertain why not all people who are obese develop T2DM and why not all people with T2DM are either overweight or obese. Also, the link between obesity and some cancers is well established. More recently, researchers have linked diabetes to several cancers, including liver, pancreatic and breast cancer. The 2018 Lancet Diabetes and Endocrinology study described in this Commentary is the first time anyone has calculated the combined effect of excess BMI and T2DM on cancer worldwide.
 
Findings

According to the Lancet study’s findings, cancers diagnosed in 2012, which are linked to diabesity are almost twice as common in women (496,700 cases) as men (295,900 cases). The combination of excess BMI and T2DM risk factors in women accounts for the highest proportion of breast and endometrial cancer: about 30% and 38% respectively. In men, the combination accounts for the highest proportion of liver and colorectal cancers. Overall, the biggest proportion of cancers linked to diabesity is found in high income western nations, such as the UK (38.2% of 792,600 cancer cases diagnosed in 2012), followed by east and southeast Asia (24.1%). 16.4% of cases of cancer in men and 15% in women in high income western nations are linked to being overweight, compared to 2.7% and 3% respectively in south Asia. Researchers suggest that on current trends, the number of cancers linked to a combination of excess BMI and T2DM could increase by 30% by 2035, which would take the worldwide total of these cancers from 5.6% to 7.35%. 
Uneven prevalence of cancers resulting from diabesity

While cancers associated with diabesity are a relatively small percentage of the total - the global 5.6% masks wide national variations of cancer prevalence resulting from diabesity. For example, in high income western nations, such as the UK, 16% of cancers are linked to excess BMI and T2DM, which suggests a potentially significant trend. As known cancer risk factors such as smoking tobacco have declined in the UK and other wealthy nations, so diabesity has increased as a significant risk factor.
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According to Jonathan Pearson-Stuttard,of Imperial College London and lead author of the 2018 Lancet study, the prevalence of cancer linked to excess BMI and diabetes is, “particularly alarming when considering the high and increasing cost of cancer and metabolic diseases. As the prevalence of these cancer risk factors increases, clinical and public health efforts should focus on identifying optimal preventive and screening measures for whole populations and individual patients”.
 
Risks of cancer and their vast and escalating costs

Clinicians, public health officials and charities are mindful of the vast and escalating risks of excess BMI and T2DM on cancer. According to Diabetes UK, 4.5m people are living with diabetes in the UK, 90% of these have T2DM, and another 11.9m are at increased risk of T2DM. Research published in the May 2016 edition of the British Medical Journal reports that prevalent cases of T2DM in the UK more than doubled between 2000 and 2013: from 2.39% to 5.32%, while the number of incident cases increased more steadily.
 
According to a 2014 report by Public Health England entitled “Adult obesity and type-2 diabetes”, the direct annual economic cost of patient care for people living with T2DM in 2011 was £8.8bn; the indirect costs, such as lost production, were about £13bn, and prescribing for diabetes accounted for 9.3% of the total cost of prescribing in 2012-13. The Report concludes, “the rising prevalence of obesity in adults has led, and will continue to lead, to a rise in the prevalence of type 2 diabetes. This is likely to result in increased associated health complications and premature mortality . . . Modelled projections indicate that NHS and wider costs to society associated with overweight, obesity and type 2 diabetes will rise dramatically in the next few decades”.
 
Preventing excess BMI and T2DM as a way to reduce the burden of cancer

Because of the increasing prevalence of diabesity clinicians, healthcare providers and charities have invested substantially in programs to prevent obesity and T2DM. Notwithstanding, the UK’s record of reducing the burden of these disorders is poor. According to the authors of The Lancet study, “Population-based strategies to prevent diabetes and high BMI have great potential impact … but have so far often failed.” Despite an annual NHS spend of £14bn on diabetes care, and over £20m spent annually by Diabetes UK  on “managing diabetes, transforming care, prevention, understanding and support”, over the past 10 years people with diabetes have increased by 60%.
 
Healthier You a national diabetes prevention program

Healthier You, a joint venture between NHS England, Public Health England and Diabetes UK was launched in 2016 and aims to deliver evidence-based behaviour change interventions at scale to people at high risk of T2DM to support them in reducing their risk. In December 2017, an interim analysis of the program’s performance was published in the journal Diabetic Medicine. Findings suggest that Healthier You has achieved higher than anticipated numbers of referrals: 49% as opposed to 40% projected, and the, “characteristics of attendees suggest that the programme is reaching those who are both at greater risk of developing Type 2 diabetes and who typically access healthcare less effectively.”
 
Cautionary note
 
Notwithstanding, the study’s authors conclude with a cautionary note and say that when data become available from the 2019 National Diabetes Audit (NDA) they will be better positioned to assess the program’s performance. Specifically, whether Healthier You participants changed their weight and HbAc1 levels over time. (HbA1c is a blood test that indicates blood glucose levels and is the main way T2DM is diagnosed). We are mindful that earlier National UK Diabetes Audits suggest there are significant challenges associated with incomplete and inconsistent patient data at the primary care level, and also significant variation in diabetes care across the country. It seems reasonable to assume that incomplete and inconsistent data will present analytical challenges.
 
Outcomes as key performance indicators
 
Notwithstanding, the authors of the interim appraisal of Healthier You are right to attempt to link key performance indicators (KPI) with patient outcomes rather than provider activities, which tend to be the preferred performance indicators used by public officials, clinicians and charities engaged in preventing obesity and T2DM. At the population level, there is a dearth of data that associate specific prevention programs with the reduction of the prevalence of obesity and T2DM. Until actual patient outcomes become the key performance indicators, it seems reasonable to suggest that inertia rather than innovation in prevention and care of T2DM and obesity will prevail, and year-on-year the burden of diabesity and associated cancers will continue to increase.
 
Casalud

Two significant and effective innovations to reduce excess BMI and T2DM, which have been largely ignored by the UK’s diabetes establishment are the Casalud and Oklahoma City projects. Casalud is a nation-wide online continuing medical education program launched in Mexico in 2008, which has demonstrated influence on the quality of healthcare, and subsequent influence on patient knowledge, disease self-management, and disease biomarkers. Casalud provides mHealth tools and technical support systems to re-engineer how primary care is delivered in Seguro Popular (Mexico’s equivalent to NHS England) primary health clinics.  By focusing on prevention and using technology, Casalud has increased the number of diabetes screenings and improved clinical infrastructure. An appraisal of the program published in the October 2017 edition of Diabetes, Metabolic Syndrome and Obesity suggests that the Casalud program successfully impacts changes in obesity and T2DM self-management at the primary care level throughout the country.
 
Oklahoma city’s transformation

Oklahoma is a city of about 550,000 people. In 2007, it was dubbed America’s “fast food capital" and “fattest city". A decade later, the city was in the middle of a transformation. While the state still has among the highest adult obesity rates in the nation – climbing from 32.2% to 33.9% between 2012 and 2015 – obesity rates in Oklahoma City dropped from 31.8% to 29.5% during that time frame, according to the US Centers for Disease Control and Prevention data. The city’s transformation started with city’s Mayor Mick Cornett. Cornett, who has been in office since 2004, brought notoriety to the city’s public health efforts beginning at the end of 2007 with the goal to collectively lose 1m pounds. The people of Oklahoma City met that goal in 2012, but have not slowed down their efforts. What began as a campaign to promote healthy eating and exercise became a citywide initiative to, "rebuild the built environment and to build the city around people instead of cars," Cornett says.
 
Underutilized data that detect early people at risk of T2DM
 
Findings of a study published in the May 2017 edition of Scientific Reports suggest an innovative way to improve early diagnosis of excess BMI and T2DM when the diseases are easier and less costly to treat, but so far these data are underutilised. The study reports that increasingly people are searching the Internet to assess their health and records of these activities represent an important source of data about population health and early detection of T2DM. The study based on data from the 2015 Digital Health Record produced by Push Doctor, a UK based online company, which has over 7,000 primary care clinicians available for online video consultations. According to the study, which is based on 61m Google searches and a survey of 1,013 adults, 1 in 5 people chose self-diagnosis online rather than a consultation with their primary care doctor. The study makes use of commercially available geodemographic datasets, which combine marketing records with a number of databases in order to extract T2DM candidate risk variables. It then compares temporal relationships with the search keywords used to describe early symptoms of the T2DM on Google. Researchers suggest that Google Trends can detect early signs of T2DM by monitoring combinations of keywords, associated with searches. Notwithstanding, the value of these data they are underutilized by clinicians, public health officials and charities engaged in reducing the risks of excess BMI and T2DM, which can lead to cancer.
 
Takeaways

Over the past decade, NHS England has spent more than £100bn on diabetes treatment alone, and Diabetes UK has spent some £200m on education and awareness programmes, yet diabetes in the UK has increased by 60%. 90% of diabetes cases are T2DM, which is closely linked to obesity. The combination of excess BMI and T2DM causes some 16% of all cancers in the UK. The burden of these diseases destroys the lives of millions and cost billions. It is imperative that this vast and escalating burden is dented. This will not be achieved if clinicians, public health officials and charities continue with ineffective inertia projects. They will need innovate and embrace best practice if they are to prevent and reduce the vast and escalating burden of excess BMI, T2DM and cancer.
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  • Obesity is one of the most serious global public health challenges of the 21st century and a major cause of type-2 diabetes (T2DM), a life-threatening illness, which costs billions
  • 60% of adults in the UK are either overweight or obese, 74% in the US
  • Low calorie diets and exercise are difficult to sustain and therefore tend to fail as treatment options 
  • Conventional treatments for T2DM have failed to dent the vast and escalating burden of the condition, so interest is increasing in alternative treatment options
  • Bariatric (stomach reduction) surgery is a therapy for obesity, which has been shown to “cure” T2DM
  • In 2016, 45 international health organizations called for bariatric surgery as a treatment for T2DM
  • Is bariatric surgery the biggest step forward in T2DM treatment in 100 years?
 

Weight loss surgery to treat T2DM


It is five minutes to midnight for healthcare systems struggling in vein to reduce the vast and escalating burden of type-2 diabetes (T2DM). Doing more of the same is no longer an option. Given the lack of alternatives, experts are calling for an increase in bariatric surgery because it has been shown to “cure” T2DM.
 
Bariatric surgery not only reduces weight, it also improves glycemic control by a combination of enforced caloric restriction, enhanced insulin sensitivity, and increased insulin secretion with a consequent reduction in the symptoms of T2DM.
 
In the video below Kenneth D’Cruz, Senior Consultant Gastroenterological Surgeon at Narayana Health, India describes bariatric surgery, which refers to a range of procedures including gastric bypassgastric sleeve, gastric band, and gastric balloon. Such procedures are often performed to limit the amount of food that an individual can consume, and are mainly used to treat those with a body mass index (BMI) of above 40, and in some cases where BMI is between 30 and 40, if the patient has additional health problems such as T2DM.
 
 
Epidemiology of obesity

Overweight and obesity are principal risk factors of T2DM. In the UK, the number of people classified as obese has doubled over the past 20 years and continues to rise. According to data from the 2014 Health Survey for England, 24% of adults in England are obese and a further 36% are overweight. In 2015, there were 440,288 admissions to England's hospitals for which obesity was the main reason or a secondary factor.
 
Data from the National Child Measurement Programme (NCMP), suggest 10% of children in the UK are obese by the time they start primary school, and 25% are so by the time they finish. 6% of people in the UK are living with diabetes of which 90% have T2DM. Over the past decade the incidence rate of T2DM has increased by 65%.
 
The situation is similar in the US, where 36% of adults are obese, and 6.3% have extreme obesity. Almost 74% of adults are considered either overweight or obese. Over the past 30 years, childhood obesity has more than doubled, and it has quadrupled in adolescents. The percentage of children who were obese increased from 7% in 1980 to nearly 18% in 2012. 9.3% of people in the US are living with diabetes.
 
The World Health Organization warns that obesity is, “one of the most serious global public health challenges of the 21st century”.
 
Causes of obesity

There are many complex behavioural and societal factors that combine to contribute to the causes of obesity. At its simplest, the body needs a certain amount of energy (calories) from food to keep up basic life functions. When people consume more calories than they burn, their energy balance tips toward weight gain, excess weight, and obesity. In the videos below Mohammed Hankir, Department of Medicine, University of Leipzig, Germany, describes what causes obesity, and the relationship between obesity and T2DM:
 
What are the causes of obesity?
 
What is the relationship between obesity and type-2 diabetes?
 
The cost of diabesity

Obesity costs the UK £47bn every year. The medical care costs alone for obesity in the US are estimated to be more than US$147bn. Diabetes treatment and indirect medical costs run to £10.3bn in the UK and US$176bn in the US, representing significant increases over the past five years. The medical costs for an individual with diabetes are typically 2.5 times higher than for someone without the disease. As prevalence of obesity increases these costs will rapidly rise.
 
T2DM prevention and treatment

NHS England, Public Health England and Diabetes UK’s National Diabetes Prevention Program is based upon diet and exercise-induced weight loss, which sometimes remedies insulin resistance. For obese people dietary and lifestyle therapies have limited short-term and almost non-existent long-term success records. According to Professor John Wilding, Head of the Department of Obesity and Endocrinology at the University of Liverpool, UK; the problem with low calorie diets, “is that most people will lose weight, but most people will also regain much of that weight that has been lost.” The UK’s National Institute of Health and Clinical Excellence (NICE) does not support the routine use of low calorie diets.
 
Once an overweight or obese person has T2DM the stakes change. With the limited success of conventional medical therapies, bariatric surgery has become an increasingly popular treatment in the war against obesity and latterly also for T2DM. The 2014 UK National Bariatric Surgery Registry reported that there is good evidence from randomised controlled studies that surgery is superior to medical therapy in improving diabetes control and metabolic syndrome. Surgery lowers the number of hypoglycaemic medications needed, including some people no longer needing insulin. It also means many people living with T2DM going into remission, and it markedly lowers the incidence of T2DM compared to matched-patients not having surgery.
 
NICE guidelines for bariatric surgery as a therapy for diabesity

Concerned about the rising prevalence of diabesity (obesity and diabetes) and the limited success of conventional strategies, in 2011, the International Diabetes Federation endorsed bariatric surgery as a T2DM treatment for obese people. The Federation’s endorsement is a validation of research and medical experience showing that surgery to reduce food intake can alter the biochemistry of the entire body. It also marked the beginning of a major new assault on diabetes.

In 2014, NICE introduced guidelines for bariatric surgery as a treatment option for obese adults, and suggested that it would greatly help T2DM. Current NICE guidelines state that bariatric surgery should be offered to anyone who is morbidly obese (a BMI of 40 or over), to those with a BMI over 35 if they have another condition, such as T2DM, and to those with a BMI of at least 30 with a recent diagnosis of diabetes.
 
In the UK only about 6,500 people each year have bariatric surgery. This is significantly lower than other European countries, which perform on average about 50,000 stomach reduction surgeries each year. Under the NICE guidelines, up to 2m people would be eligible for free bariatric surgery on the NHS, which would cost the taxpayer £12bn.

 
Biggest breakthrough in diabetes care since the introduction of insulin
 
In 2016 a review written by a group of researchers led by David Cummings, an endocrinologist at the University of Washington set out guidelines for bariatric surgery as a treatment option for diabetes. Francesco Rubino, one of the experts behind the guidelines and professor of metabolic and bariatric surgery at King's College London, said: “This is the closest that we have ever been to a cure for diabetes. It is the most powerful treatment to date.” Other doctors who drew up the guidelines said such changes could amount to the most significant breakthrough in diabetes care since the introduction of insulin in the 1920s.
 
The modern Roux-en-Y gastric bypass

The ‘gold standard’ bariatric surgical procedure is the Roux-en-Y Gastric Bypass, which is the most commonly performed bariatric procedure worldwide, named after a 19th century Swiss surgeon César Roux, who first performed the surgery to reroute the small intestine. The modern version of the procedure involves reducing the stomach to a little pouch, to curb eating and appetite, and then connecting that pouch to a lower section of the intestine. By using less of the intestine, fewer nutrients are absorbed, and the patient loses weight.
 
Until recently it has been poorly understood why, after bariatric surgery, a significant proportion of patients with T2DM leave hospital either needing no insulin, or lower doses, before ever losing any weight. Re-plumbing the GI-tract appears to reprogram the body’s hormones and resets its metabolism.

 
Advances in bariatric surgery

Thirty years ago there was little interest in bariatric surgery, which was risky, and not widely practiced. It involved a large, bloody incision, the prising apart of the heavy, fatty abdominal walls with metal arms, which then had to be held in place while the surgeon carried out procedures deep in the gut. Patient recovery times were long, and the risk of complications high.

By the first decade of the 21st century, when obesity became an epidemic in advanced economies the relationship between bariatric surgery and T2DM was given more attention. The medical device industry developed new surgical tools to facilitate blood free minimally invasive procedures for obese people, but researchers were still struggling to understand why bariatric surgery “cured” diabetes.

 
Understanding why bariatric surgery cures diabetes

One of the scientists to discover why bariatric surgery cures T2DM is Blandine Laferrère, an endocrinologist at the New York Obesity Nutrition Research Center at St. Luke’s. Our gut hormone ghrelin signals to our brain that we are hungry and to start eating. Receptors in out GI tract signal to our brain that we are full and to stop eating. In obese people such signalling malfunctions, and leaves them perpetually hungry. According to Laferrère, “It just happened that the surgeons did this type of surgery for weight loss, and that turned out to have a spectacular effect on the remission of T2DM.

Further research was undertaken by Laferrère and influenced by Werner Creutzfeldt, a German doctor who published work on gut hormones that increased stimulation of insulin secretion, which he called an “incretin effect”. According to Laferrère, bariatric surgery, rather than actual weight loss, stimulates the incretin effect, which boosts the production of insulin while lowering the symptoms of diabetes. She concluded that the surgery itself triggered the hormone network, which diet-induced weight loss could not provide.
 
Takeaways

Scientists claim that bariatric surgery is the biggest step forward in diabetes treatment in 100 years, and suggest we are no longer talking about the treatment of obesity, but treatment of diabetes.
 
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The Mexican Connection
A Special Report 

 
  • People are eating themselves to death and our healthcare systems and governments are failing to stop it
  • Obesity and type-2 diabetes (diabesity) kills thousands unnecessarily, and threatens the stability of healthcare systems around the world
  • In the UK there is mounting frustration with the diabetes establishment’s failure to make inroads into the prevention and management of diabesity
  • Mexico is re-engineering the way primary care delivers its services in order to prevent and reduce the burden of diabesity
  • There are lessons from Mexico for healthcare systems challenged by the diabesity epidemic
 

Breaking the cycle of ineffective diabesity services
 
People are eating themselves to death, and our healthcare systems are failing to stop it. Not more so than in Mexico, where 70% of the population is overweight and 33% obese; both risk factors of type-2 diabetes (T2DM), which kills 70,000 Mexicans each year.
 
The situation is not that different in the UK, which has the highest levels of obesity in Western Europe: 64% of adults in the UK are either overweight or obese, and the incidence rates of diabetes have more than trebled over the past 30 years. Each year, in the UK diabetes kills 22,000 people unnecessarily, and leads to 7,000 avoidable lower limb amputations.
 
The two countries differ however in their respective responses to the epidemic of obesity and diabetes (diabesity), which is the subject of this Commentary. While the UK’s diabetes establishment appears to be locked into a cycle of ineffectiveness, the Fundación Carlos Slim (FCS), is re-engineering the way Mexico’s primary healthcare system delivers its services in order to prevent and reduce the vast and escalating burden of diabesity. The FCS’s endeavours have important lessons for the UK, and indeed other countries battling with a similar epidemic.  
Diabesity a global challenge
Diabesity is no longer a disease of rich countries; it is increasing everywhere. An estimated 422m adults were living with diabetes in 2014, compared to 108m in 1980. The global prevalence (age-standardized) of diabetes has nearly doubled since 1980, rising from 4.7% to 8.5% in the adult population. This reflects an increase in associated risk factors such as being overweight or obese. Uncontrolled diabesity has devastating consequences for health and wellbeing, and it also impacts harshly on the finances of individuals and their families, and the economies of nations.


Mounting frustration with the UK’s diabetes establishment

Although there is consensus about what needs to be done to prevent and enhance the management of obesity and T2DM, and although each year NHS England spends £10.3bn on diabetes care, and £4bn to treat obesity, the prevalence rates of the conditions continue to rise, and the UK’s diabetes establishment seem unable to do anything about it.
 
This ineffectiveness has caused mounting frustration with the diabetes establishment on the part of the UK government’s National Audit Office (NAO) and the Public Accounts Committee (PAC). Numerous official inquiries into adult diabetes services have found no evidence to suggest that T2DM prevention and care are effectively managed, and failure to do so leads to higher costs to the NHS as well as less than adequate support for at risk people and those with the condition.
 
Damning official inquires into adult diabetes services
A 2015 NAO report into adult diabetes services found, “that performance in delivering key care processes and achieving treatment standards [recommended by the National Institute for Health and Care Excellence (NICE)], which help to minimise the risk of diabetes patients developing complications in the future, is no longer improving . . . . There are significant variations across England in delivering key care processes, achieving treatment standards and improving outcomes for diabetes patients, (and)  . . . There are still 22,000 people estimated to be dying each year from diabetes-related causes that could potentially be avoided”. 
The 9 basic processes for diabetes care
The nine NICE recommended basic processes of diabetes care are: (i) blood glucose level measurement (HbA1c), (ii) blood pressure measurement, (iii) cholesterol level measurement, (iv) retinal screening, (v) foot and leg checks, (vi) kidney function testing (urine),  (vii) kidney function testing (blood), (viii) weight check, and (ix) smoking status check.
No strong national leadership and depressingly poor progress
When the Public Accounts Committee (PAC) reported on adult diabetes services in 2012 it found that, "progress in delivering the (NICE) recommended standards of care and in achieving treatment targets has been depressingly poor. There is no strong national leadership, no effective accountability arrangements for commissioners (local healthcare providers), and no appropriate performance incentives for providers." Four years later, a 2016 PAC inquiry into adult diabetes services reported that nothing of significance had changed. The Committee was concerned, “that performance in delivering key care processes and achieving treatment standards is no longer improving”, and it challenged, “the Department of Health, the NHS and Public Health England on their lack of progress in improving patient care and support”.
 
The UK’s cycle of ineffective diabesity services
The NAO and the PAC inquiries appear to have identified a cycle of ineffectiveness among the UK’s diabetes establishment, which manifests itself in a familiar scenario. Here is a stereotypical picture.
 
Each year, after the publication of the latest prevalence data for obesity and diabetes, Diabetes UK, a leading charity, “calls on the government to do more”, the National Clinical Director for Obesity and Diabetes at NHS England makes a defensive statement usually emphasising the positive aspects of diabetes services. NHS England continues to spend £14.3bn each year on the treatment of diabesity. There continues to be little improvement in the 20,000 plus unnecessary annual diabetes-related deaths, and 7,000 avoidable amputations. Diabesity services continue to be inflexible and process, rather than outcomes driven. Nothing of substance changes, prevalence rates and eye-watering costs continue to rise, and no one is accountable.
 
This cycle of ineffectiveness reflects a dearth of national leadership among the diabetes establishment.
 
The Fundación Carlos Slim (FCS) appears successfully to have broken a similar cycle of ineffectiveness for the prevention and treatment of diabesity in Mexico. The Fundación used the weaknesses in Mexico’s primary healthcare system as an opportunity to re-engineer the prevention and treatment of diabesity with an innovative program called Casalud. The name is derived from two Spanish words: “casa” (house) and “salud” (health): ‘Homehealth’.
 
In 2008, when the FCS launched the Casalud program, the primary care services of both the UK and Mexico were similar in in their inflexibility, and in emphasising treatment processes and service delivery rather than value-based healthcare. This emphasis results in weak primary care systems, which contribute to the increased prevalence of diabesity.
 
We will draw lessons from the Casalud program, but before doing so let us consider the grounds for a comparison between the healthcare systems of the UK and Mexico.
 


UK and Mexico compared

In both countries the prevalence of obesity and T2DM are high and increasing. Both governments’ healthcare systems are struggling to effectively cope with the vast and growing burden of diabesity. Mexico’s Seguro Popular, which is roughly equivalent to NHS England, serves about 57m people: which includes 60% - 34m - of Mexico’s poorest non-salaried workers employed in the informal sector. Mexico’s population is younger than the UK’s. The median age of Mexico’s 129m citizens is 29 years, whereas in the UK, which has a population of 65m, the median age is 40 years.
 
Both the UK and Mexico struggle with structural challenges associated with the supply and competence levels of health professionals. These manifest themselves in significant local variations in the effectiveness of diabesity prevention and treatment, and in lengthy waiting times for GP consultations.
 
Annual foot checks in the UK and Mexico
In England for instance, standard annual recommended foot checks for people with diabetes vary as much as 4Xs depending on where you live. Each year 415,000 or 13.3% of people with T2DM do not receive foot checks, which increases their risk of amputation, and fuels the 7,000 avoidable lower limb amputations carried out each year. Similarly in Mexico, 60% of people with diabetes fail to have their feet examined during primary care consultations, and between 86,000 and 134,000 diabetes-related amputations occur each year.
 
Responding to the recent English findings, Professor Jonathan Valabhji, the National Clinical Director for Obesity and Diabetes at NHS England said; “It is very important as many people as possible receive their foot checks at the right time – currently each year 85% of people with diabetes receive these foot checks.”
 

Leadership to break the cycle of ineffective healthcare services
In contrast to the UK’s diabetes establishment, the Casalud program provides strong, well-coordinated national leadership, and effective accountability and performance incentives for local healthcare providers. It does not however, deliver direct healthcare services; these are provided by the state. Instead Casalud concentrates on fostering the implementation and use of innovative technology, which it has designed to enhance patient centred primary care, extend healthcare into communities and homes, encourage self-management, engage in prevention programs, and enhance the competence and capacity of healthcare professionals within Seguro Popular.
 
For the Casalud program to stand a chance of being supported by the Mexican government, and implemented nationally, the FCS understood that it was essential to collect convincing performance data in its pilot program. From its inception therefore, the Casalud program developed and agreed with the relevant healthcare agencies a suite of performance measures, data collection protocols and reporting systems. This helped the Fundación to secure the backing of key national and regional healthcare agencies.
 
The FCS chose a social franchising model for the Casalud program, which uses commercial best practice to achieve socially beneficial ends, rather than profit. This makes the program significantly different to the endeavours of some UK public and non-profit bureaucracies, which provide diabesity services.
Some common aspects of bureaucracies
Here we briefly describe some common aspects of bureaucracies, which suggest that over time, bureaucratic organizations may become ineffective diabesity service providers. Bureaucracies are machine-like organizations characterised by hierarchical authority, a detailed division of labour, and a set of rules and standard procedures, which staff are obliged to follow. Rules provide a means for achieving organisational goals, but the following of the rules sometimes displaces the actual objective of the organisation, and organisational objectives become secondary. This is encouraged by the fact that people in bureaucracies tend to be judged on the basis of observance of rules and not results. For example, in an organisation, say committed to diabetes services, performance may be judged on the basis of whether expenditure has been incurred according to rules and regulations. Thus, expenditure becomes the criterion of performance measurement, and not the results achieved through expenditure. Bureaucracies almost completely avoid public discussion of its techniques, although there may be some discussion of its policies. This secrecy is believed to be necessary to prevent “valuable information” from leaking out, and going to competitors. “Trained incapacity” is a term sometimes applied to bureaucracies to describe training and skills, which have been successful in the past, but are unsuccessful under present changed conditions. Inadequate flexibility, in an evolving environment such as healthcare, will result in ineffectiveness.
 mHealth platform embedded with bespoke tools
The Casalud program avoided bureaucratic traps that result in ineffectiveness by developing a flexible mHeath platform (the use of mobile phones and other wireless technology in medical care) with an embedded suite of proprietary software, which connects patients to health providers, nudges people to self-manage their own health, and to become integral members of local care teams. The platform is used for mobile screening, providing patients with their own individual healthcare dashboards, online healthcare education, supply chain monitoring, standardizing electronic patient records, and big data strategies. It also acts as an entry point for patients, support for health professionals to identify at-risk people, make early diagnosis, and quickly begin diabesity management, and structure follow-up with patients over time.
 


The Casalud program’s successful pilot

In 2009, the FCS began a 3-year pilot of its Casalud program in 7 Mexican states, which resulted in improved patient knowledge about diabesity, enhanced self-management among people with the condition, increased clinician knowledge of diabesity prevention and management, and improved clinical decision-making.
 
The FCS used performance data from its pilot to secure a partnership with the Mexican Ministry of Health to extend the Casalud program to 120 primary care clinics serving 1.3m people across 20 Mexican states - 4 to 10 clinics in each state. Also, the performance data was successful in getting the Casalud program adopted as an integral component of the National Strategy for the Prevention and Control of Pre-obesity, Obesity and Diabetes. So, within three years the Casalud program went from a relatively small charity-backed start-up to a significant component in a nationally supported healthcare system.
 
It is reasonable to assume that this was partly due to the leadership provided by the FCS, and partly due to setting, collecting and reporting appropriate performance indicators. The FCS acted similarly to a lead institution in a commercial endeavour, and successfully recruited key contributing partners who were prepared to share the costs of the program’s national rollout. The FCS covers the cost of all the software development, and the training of healthcare professionals for the Casalud program. All the software is owned by the FCS, and licensed free-of-charge to the Mexican government. The federal government covers the cost of all computer hardware used in participating clinics, and local state governments cover the cost of Casalud’s operations, which include such things as laboratory tests and medications.
 


The 5 components of the Casalud program

To better understand the Casalud program and its contribution to enhanced diabesity services we review its five components: (i) proactive prevention and detection of diabesity, (ii) evidence-based management of diabesity, (iii) supply chain improvements, (iv) capacity-building of healthcare professionals, and (v) patient engagement and empowerment. Each component has an on-going monitoring system associated with it, which informs the FCS on the status of the program’s implementation.
 
1. Proactive prevention and detection of diabesity
Previous attempts in Mexico at community based screening for diabesity have failed. However, the FCS insisted that a national screening strategy was important for reducing the burden of diabesity, but understood its case would need to be supported by appropriate performance data, which would require systematic collection and reporting. To help achieve this the FCS developed two online risk assessment tools, which capture, assess and report data on peoples’ risk factors of diabesity.
 
One of these tools is used in clinics, and the other, which is portable, used in homes and communities. Both screen and categorise people as, (i) healthy, (ii) at risk of diabesity, and (iii) already diagnosed as obese or with T2DM. Screening allows local healthcare professionals to suggest personalised lifestyle changes to individuals either to help them reduce their risk of diabesity or to improve their management of the condition. Each participating clinic has a screening goal. Screening data are collated and reported weekly on a pubic system, which incentivizes the clinics in their screening endeavours.
 
Having a portable device means that populations, which previously did not have access to healthcare are included in the screening. While this increased the number of reported people with diabesity, over time it lowered healthcare costs because early detection reduced the use of urgent care facilities. This proactive component of the Casalud program and the performance data resulted in the support of federal healthcare officials who saw the advantages of using technology to integrate communities, families, and patients into a continuum of care. The tools also extended care to people and communities that previously had little access to healthcare, and encouraged patients to use technology to manage their own health, which health authorities appreciated.
 
2. Evidence-based diabesity management
The second component of the Casalud program is an evidence-based diabesity management system, which is supported by more software developed by the FCS. This includes agreed international best practice protocols for diabesity prevention and management, a digital portfolio for health professionals, electronic monitoring of patients in order to improve the accuracy and reliability of performance measurements and patient data. Such data are used to improve the quality of clinical decision-making.

Examples of the data collected and reported are the percentages of people with T2DM and their corresponding laboratory test results. Casalud’s study found that out of 961,733 patients with T2DM, only 20% had an HbA1c (blood glucose) measurement. Further, only 40.7% of patients with an HbA1c measurement had their HbA1c levels under control (below 7%).  All data are made available at the national, state and clinic levels, and are thereby expected to empower healthcare providers to base their health policy decisions on the areas of most need.
 
3. Supply chain improvement
Mexico like other emerging countries suffers from an inconsistent supply of medicines and laboratory tests, which is a significant obstacle to optimal disease prevention and management. Drug supply decisions in Mexico are centralized and made at a state or federal level. This is different to the UK, and other developed countries.
 
This component of the Casalud program uses a proprietary online information system that standardizes metrics for stock management at the clinic level to improve the supply of medicines and laboratory tests. The software is made available on mobile phones to make it easy for health professionals to ensure that stock levels are adequate for clinics to provide a quality service. In addition, Casalud uses these data to raise awareness with federal and state healthcare officials of inefficiencies in supply chains, which could fuel complications and increase healthcare costs. Prior to Casalud there was no accurate and systematic way to assess and report on the supply of medicines and laboratory tests.
 
4. Capacity building for healthcare professionals
Casalud’s forth component is an interactive platform to develop the capacity of healthcare professionals through online education, which leads to diplomas conferred by national and foreign universities. The FCS partnered with Harvard University’s Joslin Diabetes Center, and Mexico’s National Institute of Medical Sciences and Nutrition to develop courses that certify competence in key areas of diabesity prevention, diagnosis and management. One course is designed to update doctors’ knowledge of diabesity, and the other is a practical course developed by faculty of the Joslin Diabetes Center in which health professionals solve real-life cases to test their knowledge in practical settings.
 
Certificates act as non-monetary incentives for health professionals, and to promote competition between clinics and health professionals. This helps to increase participation in the program, improve the quality of care, encourage openness and transparency, and increase collaboration between clinics.
 
Software developed by the FCS assists local clinics to capture data on the characteristics of the participating healthcare professionals, their baseline knowledge, and improvements after each course. These data are aggregated to choose a clinic of excellence for each state, and a national clinic of excellence; both of which are publicly recognised awards, and help with Casalud’s national rollout strategy.
 
Further, performance data are contributed to the National Strategy for Improving Skills and Capacity of Healthcare Personnel, which obliges all Mexican healthcare institutions to engage in formal online training that is, personalized, linked to a continuing education program, validated by academic institutions and independently monitored. Casalud’s capacity building component fulfils all of these criteria.
 
5. Patient engagement and empowerment
With the help of the Joslin Diabetes Center, the Mayo Clinic, and Mexico’s National Nutrition Institute, this component has two mobile applications, which assess patient engagement, knowledge of diabesity, and confidence and skills in order to help them understand their health, begin to self-monitor their condition, interpret their own results, and implement beneficial lifestyle changes. A specific app for people with T2DM allows them to schedule medicines and appointment reminders, input glucose and weight measurements, and receive immediate personalized feedback and educational messages from health professionals.

However, the FCS changed its approach following evidence from the program’s pilot, which suggested that due to the characteristics of the patient population – elderly, rural, and with limited access to and familiarity with technology – mobile technology alone would not lead to a high percentage of patient engagement. So, Casalud implemented a suite of in-person interactions and activities, which are thought to be more appropriate for the specific patient population.

Such a change may not be necessary in the UK and other developed countries. In the UK for instance, the growth trend in smartphone ownership is present in all age groups, and fastest among 55-64 year olds, which jumped from 39% in 2014 to 50% in 2015. While those aged over 55 are more likely to own a laptop the gap is closing. Among younger age groups, 90% of those aged 16-24 now owns a smartphone.
 


Takeaways

Although the Casalud program has encountered challenges associated with Mexico’s patchy technological infrastructure, entrenched attitudes of some health professionals, and fragmentation and lack of uniformity of its primary healthcare system; the program has been successful; not least because of its flexibility and speed of adjusting to prevailing conditions. In 2015 a Brookings Institution research paper concluded that, “Casalud has made significant strides in transforming care delivery in Mexico”. 

Casalud’s development and implementation continues. It is an innovative program, which employs appropriate technology and evidence-based knowledge to re-engineer Mexico’s public sector primary healthcare system by encouraging patient self-management to reduce the country’s vast and increasing diabesity burden.
 
Casalud provided leadership and seed money to secure financial support from and create consensus between the federal and state governments, and obtain local support from clinics, healthcare professionals and patients. The program is on-going and warrants consideration from the UK’s diabetes establishment, and those of other countries wrestling with the burden of diabesity.
 
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  • 16% of Mexico’s population has type-2 diabetes (T2DM) and each year it kills 70,000
  • Mexican mothers feed their children sugary beverages from birth and create soda addicts
  • In 2014 a national sugar tax on fizzy drinks was introduced, but sales on untaxed sugary beverages increased
  • The Carlos Slim Foundation (CSF) takes fundamental action to dent Mexico’s T2DM epidemic
  • The CSF collaborates with MIT’s Broad Institute to conduct the largest and most comprehensive genomic study on T2DM in Mexican populations
  • Three years later CSF announces the discovery of the first common genetic variant shown to predispose Mexicans to T2DM
  • Findings could lead to improved diagnostics and new therapies for T2DM, say experts
  • The Broad Institute and the CSF make their genomic studies and other data freely available to scientists worldwide
  • Organizations with bureaucratic walls that restrict the free-flow and sharing of knowhow and information significantly impede the advancement of our understanding and management of globally important chronic conditions such as T2DM
 
Slim lessons in diabetes understanding and management

What can a self-made 77-year-old son of Catholic Lebanese immigrants to Mexico contribute to our understanding and management of T2DM?
 
77-year-old Carlos Slim built a business empire, which today is worth the equivalent to 6% of Mexico’s GDP. His company Grupo Carso is influential in every sector of the Mexican economy, and he is currently the chairman and CEO of telecom giants Telmex and América Móvil. Slim believes that businessmen should do more than just give‍ money, and says they "should participate in solving problems".

An important aspect of reducing the significant burden of chronic health conditions such as T2DM, is to reduce the bureaucracies of key organizations, which impede the sharing of important knowhow that help our understanding and management of these globally important disease.
 
Slim has turned his attention to Mexico’s vast and escalating diabetes epidemic, which devastates the lives of millions, and significantly dents the Mexican economy. Recently, the Carlos Slim Foundation (CSF) started applying the knowhow and skills used to build world-class companies to tackle the Mexican diabetes burden, and in less than three years, discovered a gene, which contributes to the significantly higher incidence rate of T2DM in Latin Americans. The CSF intends to build on this to develop new treatments.
 


Diabetes in Mexico

Each year, T2DM related complications kill 70,000 Mexicans. In 2015, there were 11m people with diabetes in Mexico - almost 12% of its adult population - projected to rise to some 16m by 2035. Mexico has one of the world’s highest rates of childhood obesity, a significant contributory risk factor of T2DM. The prevalence of overweight or obese children and adolescents between 5 and 19 years is 35%. This is believed to be the result of mother’s feeding their babies sugary drinks: partly because of the lack of clean water, and partly cultural since many Mexicans consider chubby babies to be good. According to Dr. Salvador Villalpando, a childhood obesity specialist at the Federico Gomez Children's Hospital in Mexico City, “about 10% of Mexican children are fed soda from birth to six months, and by the time they reach two it's about 80%." Mexico has become the No. 1 per capita consumer of sugary beverages, with the average person drinking more than 46 gallons per year: nearly 50% more than the average American.
 
Over the last 20 years, the prevalence of T2DM in Mexico, a country with a population of 122 million, has increased rapidly. The Mexican health system is struggling to effectively adapt to the diabetes burden facing the nation. Healthcare spending represents approximately 6% of GDP and is divided near equally between the public and private sectors. The former, supports mostly low-income non-salaried workers, accounting for about 60% of those in work: some 30m. The latter, is an employer-based scheme linked to salaried workers.


Sugar tax

So acute is the problem of T2DM in Mexico that in January 2014, the government introduced a 10% tax on sugar-sweetened beverages. Research published in the British Medical Journal in 2016 suggests that the tax resulted in a 6% reduction in the purchases of taxed beverages in the first year, increasing to 12% by the end of the second year. The study also reported increases in purchases of untaxed beverages. Findings are disputed by the drinks industry. “Fizzy drinks only account for 5.6% of Mexico's average calorie consumption so can only be a small part of the solution to obesity and diabetes,” says Jorge Terrazas of Anprac; Mexico's bottled drinks industry body.
  
Carlos Slim Foundation and diabetes

The obesity epidemic, aging population and escalating health costs have increasingly strained resources and exacerbated Mexico’s diabetes burden, which the CSF is intent to reduce. In 2010 the Foundation formed an association with MIT’s Broad Institute. With an investment of US$74m it formed the Slim Initiative in Genomic Medicine for the Americas (SIGMA). It was a natural fit because Slim knows just how big data strategies transformed retail businesses and also cancer research and therapies; and the Broad Institute specialises in developing big genomic data sets and making them available to molecular scientists in premier research centres throughout world in order to transform medicine. From its inception SIGMA set out to systematically identify genes underlying diabetes.
 
The development of T2DM depends on complex inheritance-environment interactions along with certain lifestyle behaviors. Previous HealthPad Commentaries have described such complexities. One described the lifetime research endeavors of Professor Sir Steve Bloom, Head of Diabetes, Endocrinology and Metabolism at Imperial College London, on obesity and the gut-brain relationship.
 
SIGMA believed that having access to genomic research undertaken by a network of world class scientists holds out the possibility of discovering fundamental aspects of the biological mechanisms linked to T2DM. And this could form the basis for more effective diagnostics and new and improved therapies for the condition. Until recently, only a select group of specialists had full access to such data. The CSF was also mindful that their relationship with the Broad Institute would help build Mexico’s capacity in genomic medicine.
 
T2DM risk gene found in Latin Americans

A major focus of SIGMA’s 2010 research agenda was to identify the genetic risk factors that contribute to the significantly higher incidence rate of T2DM in Mexico compared with the rest of the world. SIGMA conducted the largest and most comprehensive genomic study to date on T2DM in Mexican populations, which involved scientists at 125 institutions in 40 countries, and resulted in the discovery of the first common genetic variant shown to predispose Latin American’s to T2DM.

Findings show that people who carry the higher risk version of the gene are 25% more likely to have diabetes than those who do not. People who inherit copies of the gene from both parents are 50% more likely to have diabetes. The higher risk-form of the gene is present in half of the people with recent Native American ancestry, including Latin Americans. The elevated frequency of this risk gene in Latin Americans could account for, as much as 20% of the populations’ increased prevalence of T2DM. The gene variant also is found in about 20% of East Asians, but is rare in populations from Europe and Africa.

 
Doing science with one eye closed

"Most genomic research has focused on European or European-derived populations, which is like doing science with one eye closed,” says Eric Lander, Professor of Biology at MIT and President and Founding Director of the Broad Institute, who went on to say, “There are many discoveries that can only be made by studying non-European populations." José Florez, a principal investigator of the SIGMA study adds, “By expanding our search to include samples from Mexico and Latin America, we’ve found one of the strongest genetic risk factors discovered to date, which could illuminate new pathways to target with drugs and a deeper understanding of T2DM.”
 
The impact of evolutionary science on healthcare systems

Roger Kornberg, Professor of Medicine at Stanford University who won the 2006 Nobel Prize in chemistry, "for his studies of the molecular basis of eukaryotic transcription", describes how human genome sequencing and genomic research fundamentally changed the way healthcare is organized and delivered. “Genomic sequencing enables us to identify every component of the body responsible for all life processes. In particular, it enables the identification of components, which are either defective or whose activity we may wish to edit in order to improve a medical condition,” says Kornberg.
 
 
Website helps translating genomic discoveries into therapies

Three years following their discoveries; the CSF launched SIGMA 2 with a mandate to complete its genetic analysis of T2DM, improve diagnostics, and develop therapeutic roadmaps to guide the development of new treatments. SIGMA 2 also planned to ramp up scientific capabilities in both the US, and Mexico by developing a unique resource. In 2016 SIGMA 2 created a website of open-access genetic data on T2DM. The site contains data available from all the SIGMA studies, plus information on major international data networks, including more than 100,000 DNA samples, and the complete results of 28 large genome association studies. Scientists throughout the world have free access to these data.
 
The importance of the open exchange of information

The new web portal represents a breakthrough, because it allows scientists throughout the world access to genetic information, and this is expected to accelerate progress of our understanding and treating diabetes. “The open exchange of information is essential for scientific progress, but it is not always easily achievable. This site not only helps us to overcome this barrier – by allowing access to patient data from around the world – but also will allow directing scientists to the most prevalent genetic risk factors among the populations of Latin America and others who have been underrepresented in large-scale genomic studies,” says Lander who believes that, "It is essential that the benefits of the genomic revolution are accessible to people throughout the Americas and the world."

The SIGMA project has been a story of total success. Our extraordinary partners, both in Mexico and the US, have made it possible to make historic advances in the understanding of the basic causes of T2DM. We hope that through our contributions we will be able to improve the ways in which the disease is detected, prevented and treated,” says Roberto Tapia-Conyer, CEO of the CSF.

 
Takeaways
 
So, for an investment of US$25m a year for three years SIGMA made a significant discovery, which could beneficially affect the diagnostics and treatment of T2DM, and it also enhanced Mexico’s capacity for genomic research. Such success was due, in part, to the leadership of a 77-year-old Mexican businessman intent on solving problems, who thought globally, partnered with world-class institutions, understood and supported the potential of big data strategies and genomic research, and stood shoulder-to-shoulder with Eric Lander against healthcare organizations, which build and defend bureaucratic walls that significantly restrict the open access of knowhow and data.
 
 
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  • It is one of the most serious global health challenges of the 21st century
  • It causes high incidence of morbidity, disability and premature mortality
  • It affects 30% of children and 62% of adults in the UK
  • It costs the UK £47bn a year
  • For 40 years official statistics have under-reported its main cause
  • Doctors have neither been able to reduce nor prevent it
  • Behavioural scientists are well positioned to reduce it
  
A major 21st century health challenge is under-reported for 40 years
 
A 2016 study by the UK’s Behavioural Insight Team (BIT) found that, for the past 40 years, official UK statistics have under-reported the main cause of it. The Office for National Statistics failed to pick up the fact that people consistently under-report the principal cause of it. “Such a large underestimate has misinformed policy debates, and led to less effective strategies to combat it,” says Michael Hallsworth, co-author of the study. Jamie Jenkins, head of health analysis at the Office for National Statistics, replied, “We are actively investigating a range of alternative data sources to improve our understanding of the causes of obesity”.
  
Obesity should be treated like terrorism

Although we know how to prevent obesity, it devastates the lives of millions and costs billions. In the UK obesity affects 33% of primary school children, and 62% of adults. Its prevalence among adults rose from 15% to 26% between 1993 and 2014. In 20 years, obese adults are expected to increase to 73%.
 
The UK spends £640m on programs to prevent obesity. Each year, the NHS spends £8bn treating it, and obesity has the second-largest overall economic impact on the UK; generating an annual loss equivalent to 3% of GDP. 
 
The World Health Organization warns that obesity is, “one of the most serious global public health challenges of the 21st century”. The UK’s Health Secretary says obesity is a “national emergency”, and the UK’s Chief Medical Officer argues that obesity should be treated similarly to “terrorism”.
 
Here we suggest how behavioural science rather than doctors can help to reduce and prevent obesity.
 

Vast, persistent and growing

Although we know how to address obesity, there are few effective interventions in place to reduce it. According to a 2014 McKinsey Global Institute study, the UK Government’s efforts to tackle obesity are, ''too fragmented to be effective'', while investment in its prevention is, ''low given the scale of obesity''. Being obese in childhood has both short and long-term consequences. Once established, obesity is notoriously difficult to treat. This raises the importance of prevention. Obese children are more likely to become obese adults, and thereby have a significantly higher risk of morbidity, disability and premature mortality. The global rise in obesity has led to an urgent call for action, but still its prevalence, which is significant, is rapidly increasing.
 

The incidence of certain cancers is significantly higher in obese people, and is expected to increase 45% in the next two decades. Professor Karol Sikora, a leading cancer expert, describes the association, but says we do not know the reasons why, and Dr Seth Rankin, Founder and CEO of the London Doctors Clinicsuggests that virtually every health problem known to mankind is made worse by obesity:

 

Prof. Karol Sikora - Cancer linked to obesity


Dr Seth Rankin - Can being overweight lead to health problems?
 
 The success and growth of Nudge Units

A previous Commentary drew attention to the fact that obesity is connected with a relationship between the gut and brain. Gut microbiota are important in the development of the brain, and research suggests that an increasing number of different gut microbial species regulate brain functions to cause obesity. Notwithstanding, the UK’s Behavioural Insight Team (BIT), which started life in 2010 as a government policy group known as the "Nudge Unit", revolutionized the way we get people to change their entrenched behaviours, and this has important implications for public policy strategies to reduce and prevent obesity.
 
Under the leadership of David Halpern, the BIT has been very successful and has quadrupled in size since it was spun out of government in 2014. Now a private company with some 60 people, the Nudge Unit permeates almost every area of government policy, and also is working with Bloomberg Philanthropies on a US$42m project to help solve some of the biggest problems facing US cities. The UK’s Revenue and Customs (HMRC) has set up its own nudge unit, and nudge teams are being established throughout the world.
 
The genesis of Nudge Units

It all started in 2008 with the ground-breaking publication on behavioral economics, Nudge: Improving Decisions About Health, Wealth and Happiness, written by US academics Cass Sunstein and Richard Thaler. Their thesis suggests that simply making small changes to the way options are framed and presented to people “nudges” them to change their lifestyles without actually restricting their personal freedoms. Politicians loved the thesis, not least because it was cheap and easy to implement, and ‘Nudge’ became compulsory reading among politicians and civil servants. “Nudge Units” were set up in the White House and in 10 Downing Street to improve public services and save money by tackling previously intractable policy issues.
 
Nudging people to change

The UK’s Nudge Unit has, among other things, signed up an extra 100,000 organ donors a year, persuaded 20% more people to consider switching energy provider, and doubled the number of army applicants. Now it is turning its attention to health and healthcare, and already has implemented behavior change strategies that motivate individuals to initiate and maintain healthier lifestyles. The Unit’s strategies that have demonstrated self-efficacy and self management are examples that can be further incorporated into lifestyle change programs, which help people maintain healthy habits even after a program ends and thereby be a significant factor in reducing and preventing obesity.
 
Takeaway
 
Doctors understand the physiology of obesity, but they do not understand the psychology of people living with it. Doctors are equipped to treat the morbidities and disabilities associated with obesity, but ill-equipped to reduce and prevent it. The sooner the Nudge Unit is tasked with reducing and preventing obesity the better.
 
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  • Obesity is common, serious and costly
  • Obese adults in the UK will soar by a staggering 73% to 26m by 2030
  • Obesity generates an annual loss equivalent to 3% of the UK’s GDP
  • Obesity cost NHS England £8bn in 2015
  • The obesity epidemic will only get worse unless we take effective action
  • Innovative research to control appetite could provide a cheap and scalable answer to the obesity epidemic
  • The UK’s obesity crisis should learn from the way AIDS was tackled 

Can the obesity epidemic learn from the way Aids was tackled?
 
Obesity is a common chronic health challenge, which is serious and costly.It is one of the biggest risk factors for type-2 diabetes (T2DM) and together - obesity and T2DM - form a rapidly growing global diabesity epidemic, which today affects some 9m people in England.
 
Experts forecast the incidence rate of obesity will rise sharply, and bankrupt the NHS. Conventional strategies to reduce obesity and prevent T2DM have failed. According to the Mayo Clinic it is common to regain weight no matter what weight loss treatment methods you try, and you might even regain weight after weight-loss surgery. This Commentary suggests that extra resources are urgently needed to accelerate and broaden innovative obesity research.
  
Efforts to tackle obesity are low priority and fragmented
 
Overweight and obesity lead to adverse metabolic effects on blood pressure, cholesterol, triglycerides and insulin resistance. Risks of coronary heart disease, ischemic stroke, and T2DM increase steadily with raised body mass index (BMI). High BMI also increases the risk of osteoarthritis; sleep apnoea, gallbladder disease, and some cancers. Cancer Research UK predicts that obesity related cancers are expected to increase 45% in the next two decades, causing 700,000 new cases of cancer. Mortality rates will increase with increasing degrees of obesity. It is therefore important that obesity is treated aggressively. According to a 2014 McKinsey Global Institute study, the UK’s Government efforts to tackle obesity are ''too fragmented to be effective'', while investment in obesity prevention is ''relatively low given the scale of the problem''.
 
A multi-generational problem
 
The 2014 Health Survey found that 61.7% of adults in England (16 years or over) are either overweight or obese, and the prevalence of obesity among adults rose from 14.9% to 25.6% between 1993 and 2014. The number of obese adults in the UK is forecast to soar by a staggering 73% to 26m over the next 20 years.

In 2014-15, there were 440,288 hospital admissions in England due to obesity: 10 times higher than the 40,741 recorded in 2004-5. In England one in five children in their first year at school, and one in three in year 6 are obese or overweight. Also, in the past 10 years there has been a doubling of children admitted to hospital for obesity. Over the past three years 2,015 overweight youngsters needed hospital treatment, and 43 of these have had to undergo weight-loss surgery to reduce the size of their stomachs. Today, diabesity is a multi-generational problem, which suggests that far worse is still to come.
 
Costs and spends
 
The UK spends less than £638 million a year on obesity prevention programs - about 1% of the country's social cost of obesity. But the NHS spends about £8bn a year on the treatment costs of conditions related to being overweight or obese and a further £10bn on diabetes.
 
Obesity is a greater burden on the UK’s economy than armed violence, war and terrorism, costing the country nearly £47bn a year, the 2014 McKinsey study found. Obesity has the second-largest economic impact on the UK behind smoking, generating an annual loss equivalent to 3% of GDP. The current rate of obesity and overweight conditions suggest the cost to NHS England alone could increase from £8bn in 2015 to between £10bn and £12bn in 2020.

 
19th century technologies for a 21st pandemic
 
A year after the publication of the McKinsey study, the UK government launched a national Diabetes Prevention Program (DPP) led by NHS England, Public Health England (PHE), and the charity Diabetes UK (DUK). The program offers people at risk of T2DM an intensive personalised course in weight loss, physical activity and diet, comprising of 13 one-to-one, two-hour sessions, spread over nine months, and is expected to significantly reduce the estimated five million overweight and obese people in England, and thereby prevent them from developing T2DM. A previous Commentary predicted that the DPP would fail because it is using a 19th century labour intensive method to address a 21st epidemic.
 
This suggests that the diabesity epidemic will only get worse unless we take more urgent and effective action. A view supported by Majid Ezzati, Professor of Global Environmental Health at Imperial College, London, and the senior author of the most comprehensive review of obesity ever undertaken, and published in The Lancet in April 2016. According to Ezzati, “The epidemic of severe obesity is too extensive to be tackled with medications such as blood pressure lowering drugs or diabetes treatments alone, or with a few extra bike lanes”.

 
Radical action: weight loss surgery
 
The gravity of the UK’s obesity epidemic is demonstrated by the National Institute for Health and Care Excellence (Nice) 2016 suggestion to lower the threshold at which overweight people are offered weight loss surgery. The UK lags behind other European countries in this regard, and experts argue that lowering the threshold would mean the number of people who qualify for weight loss surgery would increase significantly.

According to a report prepared by English surgeons, weight-loss surgery would make people healthier and save the NHS money. The report concluded that after weight loss surgery obese people are 70% less likely to have a heart attack, those with T2DM are nine times more likely to see major improvements in their condition, and also the surgery has a positive effect on angina and sleep apnoea. If all the 1.4m most severely obese people in the UK had weight loss surgery, which costs the NHS around £6,000 per operation, the total cost would be £8.4bn.

 
Weight loss surgery and the brain
 
Initially it was thought that weight-loss surgery worked by reducing the amount of food that can be held by the stomach. However, some patients were found to have elevated levels of satiety hormones, the chemical signals released by the gut to control digestion and hunger cravings in the brain. Patients who had undergone surgery were also found to prefer less fatty foods, which supports the thesis that the hormones also change the patients’ desire to eat, and reinforce the gut brain relationship. This finding reinforces the important link between the gut and the brain on which some of the most promising obesity research is predicated.
 
Gut brain relationship
 
Dr Syed Sufyan Hussain, Darzi Fellow in Clinical Leadership, Specialist Registrar and Honorary Clinical Lecturer in Diabetes, Endocrinology and Metabolism at Imperial College London describes the gut-brain relationship and explains why we eat and why we stop eating:
 

 
Cheap, safe and scalable treatment for obesity
 
The person who has spent most of his professional life searching for cheap, safe and scalable alternatives to weight loss surgery and ineffective weight loss therapies is Professor Sir Steve Bloom, Head of Diabetes, Endocrinology and Metabolism at Imperial College London. Bloom believes that the answer to the UK’s obesity epidemic lies in the gut-brain relationship, and is working on two innovative methods of appetite control, which he and his colleagues believe could significantly reduce the burden of obesity.
 
Method 1: an implantable microchip
 
One method is comprised of a small implantable microchip attached to the vagus nerve to suppress appetite in a natural way. The chip reads and processes both electrical and chemical signatures of appetite within the vagus nerve, and then sends electrical signals to the brain to either reduce or stop eating. Bloom has proven the method’s concept, and in 2013 was awarded €7m from the European Research Council to continue his research. Early findings suggest that chemical rather than electrical impulses are more selective and precise, and the chip reduces both consumption and hunger pangs. All things being equal, it will take another 10 years before this treatment gets to market.
 
Method 2: naturally occurring hormones
 
Bloom is also working on another method to treat obesity, which uses naturally occurring hormones that reduce appetite. Early clinical studies suggest that people will consume 13% fewer calories when they eat a meal after taking the hormones. In 2013 Bloom received £2m from the Medical Research Council to develop this research. One of the significant challenges he faces is hormones normally last only a few minutes in the human body. To overcome this Bloom and his colleagues have had to develop versions of the hormones that can last up to a week before they start breaking down. This suggests that patients could take a single weekly injection to control their appetites. Another approach would be to develop a device, which delivers the hormones continuously. While promising, this method too will take 10 years to get to market.
 
Takeaway: treat obesity the same as Aids
 
Bloom believes that if we approached obesity as we did Aids, the time to develop a cheap, effective and scalable drug for weight control could be cut by half. "The obesity pandemic is the biggest disease that has hit mankind ever in terms  [of] numbers. It is killing more people than anything else has ever killed, . . . . . . . in terms of disease [there are] more deaths from obesity than anything we have known about. The time needed to develop an effective drug could be cut by more than half if conservative checks and balances were loosened. I think we might need to treat obesity in a hurry, and we are being held up. The Aids lobby forced Aids’ drugs on to the market before they had finished testing, but they turned out to be useful and lives were saved. Something similar should be considered for obesity,” says Bloom.
 
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Diabesity and the food-brain relationship

Scientists from Imperial College London have enhanced our understanding of the food-brain relationship by discovering a brain mechanism that drives our appetite for foods rich in glucose, which could lead to treatments for diabesity.

Obesity, insulin resistance, metabolic syndrome and type-2 diabetes have reached epidemic proportions, yet few people understand how closely they're related, and what causes them. Diabesity is a metabolic dysfunction that ranges from mild blood glucose imbalance to fully-fledged type-2 diabetes.


Intimate food-brain relationship

Diabesity accounts for between 65 and 85% of new cases of type-2 diabetes, and affects more than one billion people worldwide; including 60 million Europeans, and 100 million Americans.

For most people, neither dieting nor current pharmacological interventions are effective in achieving long-term weight reduction. Therefore, to prevent and treat diabesity we must develop approaches to modulate the ways in which the brain controls body weight.

"This is the first time anyone has discovered a system in the brain that responds to a specific nutrient, rather than energy intake in general, and it raises the potential that diabesity could be reduced and prevented by medication acting on the part of the brain that craves glucose," says Dr James Gardiner who led the study.

Our brain rules our belly
Researchers identified a mechanism, which senses how much glucose is reaching our brain, and if our brain detects a shortfall, it makes prompts to seek more glucose. This mechanism is more active in people who are obese-prone, suggesting that the brain can promote obesity.

The Imperial College study is published in The Journal of Clinical Investigation . According to its lead author, Dr Syed Sufyan Hussain, 'Glucose is a component of carbohydrates, and the main energy source used by brain cells. This study demonstrates that the brain plays a significant role in driving our preference for sweet and starchy foods. Prior to industrialisation, such glucose rich foods were not easily available, but today they're everywhere.'

Addicted to food?
Dr Mohammed Hankir, a neuroscientist at the University of Leipzig, Germany, says, 'It's becoming increasingly clear that when we consume certain types of food, particularly those high in fat and sugar, the same brain circuits are engaged as when taking drugs of abuse. We may therefore have little choice about overeating and becoming obese.'

If the diabesity epidemic is the result of our brains being hard-wired to consume energy rich food, can we cure diabesity with pharmacological manipulation of these brain pathways?

Bowels control the brain
Professor Sir Stephen Bloom, Head of Division for Diabetes, Endocrinology and Metabolism, Imperial College London, thinks we can, and says, 'Gut hormones are chemical messengers secreted by the digestive system that affect our brain and control appetite. Hijacking this natural messenger system is an attractive and likely option for treating diabesity'. The GLP-1 hormone is widely used for the treatment of diabetes. It also leads to weight loss. There are other such gut hormones that need further evaluation because they could provide attractive solutions for obesity. 
 
Takeaways
The food-gut-brain relationship promises a much-needed solution for the diabesity epidemic. Whilst the search continues, we must act now to prevent this. Most healthcare systems are organized to treat the acute symptoms of diabesity, and manage the condition once it's been diagnosed. Healthcare systems are less adept at prevention, and early detection. This requires effective education, which is currently not available. 

 

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Richard Lane, former President of DUK, and a patient diagnosed with T2DM suggest that the biggest challenge for diabetes care is actually engaging people who are either at risk of the condition or living with diabetes. Only once people are engaged do you stand a chance to raise their awareness of the disease, and encourage them to change their diets and lifestyles in order to slow the progression of the condition and even prevent it.

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