The Future is Here: Cancer Drug Developed by AI

AI'sThe development of cancer drugs is a costly, expensive, time-consuming process that has a high probability rate of failure. On average, it takes 24 to 48 months to find a suitable candidate and costs upwards of $100 million. And in the end, roughly 95% of all potential drugs fail in clinical trials. Because of this, scientists are understandably looking for a way to speed up the discovery process.

That’s where the anti-cancer drug known as BPM 31510 comes in play. Unlike most pharmaceuticals, it was developed by artificial intelligence instead of a group of researchers toiling away in a lab. Created by biotech company Berg (named after real estate billionaire Carl Berg) the company seeks to use artificial intelligence to design cancer drugs that are cheaper, have fewer side effects, and can be developed in half the time it normally takes.

drugsTowards this end, they are looking to data-driven methods of drug discovery. Instead of generating cancer drugs based on chemical compounds identified in labs, the company compares tissue, urine, and blood samples from cancer patients and healthy patients, generating tens of trillions of data points that are fed into an artificial intelligence system. That system crunches all the data, looking for problems.

BPM 31510, which is the first of Berg’s drugs to get a real-world test, focuses on mitochondria – a framework within cells that’s responsible for programmed cell death. Normally, mitochondria triggers damaged cells to die. When cancer strikes, this process goes haywire, and the damaged cells spread. Berg’s drug, if successful, will be able to restore normal cell death processes by changing the metabolic environment within mitochondria.

MitochondriaSpeaking on the subject of the drug, which is now in human-clinical trials, Berg president and co-founder Niven Narain said:

BPM 31510 works by switching the fuel that cancer likes to operate on. Cancer cells prefer to operate in a less energy-efficient manner. Cancers with a high metabolic function, like triple negative breast cancer, glioblastoma, and colon cancer–that’s the sweet spot for this technology.

IBM is also leveraging artificial intelligence in the race to design better cancer treatments. In their case, this involves their much-heralded supercomputer Watson looking for better treatment options for patients. In a trial conducted with the New York Genome Center, Watson has been scanning mutations found in brain cancer patients, matching them with available treatments.

dna_cancerAll of these efforts are still in early days, and even on its accelerated timeline, BPM 31510 is still years away from winning an FDA approval. But, as Narain points out, the current drug discovery system desperately needs rethinking. With a success rate of 1 out of 20, their is definitely room for improvement. And a process that seeks to address cancer in a way that is more targeted, and more personalized is certainly in keeping with the most modern approaches to medicine.

Source: fastcoexist.com

Looking Forward: 10 Breakthroughs by 2025

BrightFutureWorld-changing scientific discoveries are emerging all the time; from drugs and vaccines that are making incurable diseases curable, to inventions that are making renewable energies cheaper and more efficient. But how will these develops truly shape the world of tomorrow? How will the combination of advancements being made in the fields of medical, digital and industrial technology come together to change things by 2025?

Well, according to the Thomson Reuters IP & Science unit – a leading intellectual property and collaboration platform – has made a list of the top 10 breakthroughs likely to change the world. To make these predictions, they  looked at two sorts of data – current scientific journal literature and patent applications. Counting citations and other measures of buzz, they identified 10 major fields of development, then made specific forecasts for each.

As Basil Moftah, president of the IP & Science business (which sells scientific database products) said:

A powerful outcome of studying scientific literature and patent data is that it gives you a window into the future–insight that isn’t always found in the public domain. We estimate that these will be in effect in another 11 years.

In short, they predict that people living in 2025 will have access to far more in the way of medical treatments and cures, food will be more plentiful (surprisingly enough), renewable energy sources and applications will be more available, the internet of things will become a reality, and quantum and medical science will be doing some very interesting thins.

1. Dementia Declines:
geneticsPrevailing opinion says dementia could be one of our most serious future health challenges, thanks in no small part to increased life expectancy. In fact, the World Health Organization expects the number of cases to triple by 2050. The Thomson Reuters report is far more optimistic though, claiming that a focus on the pathogenic chromosomes that cause neuro-degenerative disease will result in more timely diagnosis, and earlier, more effective treatment:

In 2025, the studies of genetic mutations causing dementia, coupled with improved detection and onset-prevention methods, will result in far fewer people suffering from this disease.

2. Solar Power Everywhere:
solarpowergeWith the conjunction of increased efficiencies, dropping prices and improved storage methods, solar power will be the world’s largest single source of energy by 2025. And while issues such as weather-dependence will not yet be fully resolved, the expansion in panel use and the incorporation of thin photovoltaic cells into just about every surface imaginable (from buildings to roadways to clothing) will means that solar will finally outstrip fossil fuels as coal as the predominant means of getting power.

As the authors of the report write:

Solar thermal and solar photovoltaic energy (from new dye-sensitized and thin-film materials) will heat buildings, water, and provide energy for devices in the home and office, as well as in retail buildings and manufacturing facilities.

3. Type 1 Diabetes Prevention:
diabetes_worldwideType 1 diabetes strikes at an early age and isn’t as prevalent as Type 2 diabetes, which comes on in middle age. But cases have been rising fast nonetheless, and explanations range from nutritional causes to contaminants and fungi. But the report gives hope that kids of the future won’t have to give themselves daily insulin shots, thanks to “genomic-editing-and-repairing” that it expects will fix the problem before it sets in. As it specifies:

The human genome engineering platform will pave the way for the modification of disease-causing genes in humans, leading to the prevention of type I diabetes, among other ailments.

4. No More Food Shortages:
GMO_seedsContrary to what many speculative reports and futurists anticipate, the report indicates that by the year 2025, there will be no more food shortages in the world. Thanks to a combination of lighting and genetically-modified crops, it will be possible to grow food quickly and easily in a plethora of different environments. As it says in the report:

In 2025, genetically modified crops will be grown rapidly and safely indoors, with round-the-clock light, using low energy LEDs that emit specific wavelengths to enhance growth by matching the crop to growth receptors added to the food’s DNA. Crops will also be bred to be disease resistant. And, they will be bred for high yield at specified wavelengths.

5. Simple Electric Flight:
Solar Impulse HB-SIA prototype airplane attends his first flight over PayerneThe explosion in the use of electric aircraft (be they solar-powered or hydrogen fueled) in the past few decades has led to predictions that by 2025, small electric aircraft will offset commercial flight using gas-powered, heavy jets. The report says advances in lithium-ion batteries and hydrogen storage will make electric transport a reality:

These aircraft will also utilize new materials that bring down the weight of the vehicle and have motors with superconducting technology. Micro-commercial aircraft will fly the skies for short-hop journeys.

6. The Internet of Things:
internet-of-things-2By 2025, the internet is likely to expand into every corner of life, with growing wifi networks connecting more people all across the world. At the same time, more and more in the way of devices and personal possessions are likely to become “smart” – meaning that they will can be accessed digitally and networked to other things. In short, the internet of things will become a reality. And the speed at which things move will vastly increase due to proposed solutions to the computing bottleneck.

Here’s how the report puts it:

Thanks to the prevalence of improved semiconductors, graphene-carbon nanotube capacitators, cell-free networks of service antenna, and 5G technology, wireless communications will dominate everything, everywhere.

7. No More Plastic Garbage:
110315-N-IC111-592Ever heard of the Great Pacific Garbage Patch (aka. the Pacific Trash Vortex), the mass of plastic debris in the Pacific Ocean that measures somewhere between 700,000 and 15,000,000 square kilometres (270,000 – 5,800,000 sq mi)? Well, according to the report, such things will become a thing of the past. By 2025, it claims, the “glucose economy” will lead to the predominance of packaging made from plant-derived cellulose (aka. bioplastics).

Because of this influx of biodegradable plastics, there will be no more permanent deposits of plastic garbage filling our oceans, landfills, and streets. As it says:

Toxic plastic-petroleum packaging that litters cities, fields, beaches, and oceans, and which isn’t biodegradable, will be nearing extinction in another decade. Thanks to advancements in the technology related to and use of these bio-nano materials, petroleum-based packaging products will be history.

8. More Precise Drugs:
drugsBy 2025, we’ll have sophisticated, personalized medicine, thanks to improved production methods, biomedical research, and the growth of up-to-the-minute health data being provided by wearable medical sensors and patches. The report also offers specific examples:

Drugs in development are becoming so targeted that they can bind to specific proteins and use antibodies to give precise mechanisms of action. Knowledge of specific gene mutations will be so much more advanced that scientists and physicians can treat those specific mutations. Examples of this include HER2 (breast cancer), BRAF V600 (melanoma), and ROS1 (lung cancer), among many others.

9. DNA Mapping Formalized:
DNA-1Recent explosions in genetic research – which include the Genome Project and ENCODE – are leading to a world where personal genetic information will become the norm. As a result, kids born in 2025 will be tested at the DNA level, and not just once or twice, but continually using nano-probes inserted in the body. The result will be a boon for anticipating genetic diseases, but could also raise various privacy-related issues. As it states:

In 2025, humans will have their DNA mapped at birth and checked annually to identify any changes that could point to the onset of autoimmune diseases.

10. Teleportation Tested:
quantum-entanglement1Last, but certainly not least, the report says research into teleportation will be underway. Between the confirmation of the Higgs Boson (and by extension, the Standard Model of particle physics), recent revelations about quantum entanglements and wormholes, and the discovery of the Amplituhedron, the field of teleportation is likely to produce some serious breakthroughs. No telling what these will be – be it the ability to teleport simple photons or something larger – but the fact that the research will be happening seems a foregone conclusion:

We are on the precipice of this field’s explosion; it is truly an emerging research front. Early indicators point to a rapid acceleration of research leading to the testing of quantum teleportation in 2025.

Summary:
Will all of these changes come to pass? Who knows? If history has taught us anything, it’s that predictions are often wrong and much in the way of exciting research doesn’t always make it to the market. And as always, various factors – such as politics, money, public resistance, private interests – have a way of complicating things. However, there is reason to believe that the aforementioned 10 things will become a viable reality. And Moftah believes we should be positive about the future:

[The predictions] are positive in nature because they are solutions researchers and scientists are working on to address challenges we face in the world today. There will always be obstacles and issues to overcome, but science and innovation give us hope for how we will address them.

I, for one, am happy and intrigued to see certain items making this list. The explosion in solar usage, bioplastics, and the elimination of food scarcity are all very encouraging. If there was one thing I was anticipating by 2025, it was increased drought and food shortages. But as the saying goes, “necessity is the mother of invention”. And as someone who has had two grandmothers who lived into their nineties and have both suffered from the scourges of dementia, it is good to know that this disease will be on the wane for future generations.

It is also encouraging to know that there will be better treatments for diseases like cancer, HIV, and diabetes. While the idea of a world in which all diseases are preventable and/or treatable worries some (on a count of how it might stoke overpopulation), no one who has ever lived with this disease, or known someone who has, would think twice if presented with a cure. And hardship, hunger, a lack of education, resources and health services are some of the main reasons for population explosions.

And, let’s face it, its good to live in an age where the future looks bright for a change. After a good century of total war, totalitarianism, atomic diplomacy, terrorism, and oh so much existential angst and dystopian fiction, it’s nice to think that the coming age will turn out alright after all.

Sources: fastcoexist.com, ip-science.thomsonreuters.com