How is AI useful for pharma?
There is great potential for AI to transform the pharmaceutical industry and introduce huge cost savings in all stages of the business. Like AI in healthcare in general, uptake of AI, machine learning, and natural language processing in pharma is just recently beginning, and already pharmaceutical companies are beginning to see large returns on the initial investment.
At Fast Data Science we specialise in applying natural language processing and AI to problems in the pharmaceutical and healthcare industries. To find out more, read on or get in touch with us.
AI in pharma for drug discovery
Traditional pre AI drug discovery
The first phase of drug development is the drug discovery phase, where candidate compounds are discovered before testing in humans. Historically, candidate medications were discovered by identifying the active ingredient in traditional remedies. For example in the 1800s chemists isolated salicylic acid from the bark of the willow tree, long used as a folk remedy to treat headaches, and this became the basis of Aspirin, which is widely used today. Nowadays, drug discovery involves screening millions of molecules, initially using sophisticated computer programs to simulate the interaction of the molecules with targets in the human body.
Initially, researchers simulated molecule interactions using software that was pre-programmed with the rules of physics and chemistry. However recently there has been a trend of using machine learning algorithms to learn what kind of proteins interact with what kind of targets and generalise to new unseen molecules that have not yet been synthesised.
Convolutional neural networks for drug discovery
In 2015, the San Francisco-based startup Atomwise developed a convolutional neural network-based algorithm called AtomNet, which was given a dataset of observed interactions between molecules, and which was able to learn some of the rules of organic chemistry without being explicitly taught. Atomwise used AtomNet to identify lead candidates for drug research programs, and it went on to identify one candidate in the fight against the Ebola virus, which later went on to pre-clinical trials.
Natural Language Processing for pharma literature review
At Fast Data Science we have worked on a project for Boehringer Ingelheim, where the company has open-sourced a number of proprietary molecules. Researchers are free to order samples of the compounds in question, and the molecule structure is published online and in the literature.
The company was interested in following publications where the authors have used Boehringer’s molecules, whether or not Boehringer is cited, for the purposes of tracking any new developments arising from the discoveries, and identifying potential future collaborations. Fast Data Science developed a bespoke natural language processing algorithm to track collaborations and mentions of molecules and flag them to the drug discovery team, even if a variant of the molecule name is used.
If you have a large set of unstructured text data such as scientific literature, Fast Data Science can help run an analysis or build a predictive model using cutting edge machine learning and natural language processing technologies. Please get in touch to arrange a free consultation.
AI and NLP for drug-drug interactions in pharma
There are many possible combinations of potential drug-drug interactions and it is a labour intensive task to read through medical literature to identify them. The danger of adverse effects from drug-drug interactions increases considerably when a patient is on multiple prescriptions.
Deep learning and text mining algorithms have been used to process the body of scientific literature and identify candidate interactions and their possible effects. Researchers developing algorithms for this purpose use the DDIExtraction Challenge as a standardised test for algorithms that identify drug-drug interactions, and every year new deep learning algorithms are improving on the top score on this metric.
Identifying drug targets with AI in pharma
A challenging part of drug development is the problem of identifying targets for drug development. Drug targets are molecules in the body which are associated with a particular disease. When the drug target is identified, it is possible to look for candidate molecules which are likely to interact with that target and inhibit the disease.
Neural network for drug target discovery
The biopharma company Berg has used a deep learning approach to identify drug targets. They have taken an array of tissue samples of patients with and without a particular disease, and exposed the tissues to a range of drugs and conditions. The response of the tissue is recorded and this is fed into a deep learning algorithm which searches for any likely change in the disease state, leading to candidate proteins which may be connected to the disease.
Using this approach, Berg was able to produce a candidate drug called BPM31510, which has recently completed phase 2 trials for late stage pancreatic cancer.
Natural Language Processing for Clinical Trial Protocols
When candidate drugs have been identified, the pharma company will progress to clinical trials before the drug can be approved. In Phase 0 trials, the drugs are tested on a small number of people to gain some understanding of how it affects the body. Phase I trials involve giving the drug to 15 to 30 patients, to understand any side effects that may occur. This progresses through to Phase II trials, which begin to assess if the drug has an effect on the disease, and Phase III trials, which involve more than 100 patients and involve a comparison to existing drugs.
As of 2020, the average cost of bringing a new drug to market is $1.3 billion. Even then, only a small proportion of drugs in the Phase I stage make it through to Phase III and approval.
When a clinical trial is run, the pharmaceutical company must write a detailed plan for the trial, typically a 200-page PDF document with sensitive information redacted, and submit it to a database such as clinicaltrials.gov.
At Fast Data Science we have developed a convolutional neural network to process clinical trial protocols for Boehringer Ingelheim and predict various complexity metrics which allow the pharma company to calculate the cost of running the trial. The neural network can read a report in plain English written by any pharma company and produce a number of quantitative metrics relating to the trial complexity. This allows the company to estimate costs in advance and plan trials to reduce both cost and risk.
Lim et al, Drug drug interaction extraction from the literature using a recursive neural network, PLoS ONE (2018)
Freedman, Hunting for New Drugs with AI, Scientific American (2020)
Segura-Bedmar et al, Lessons learnt from the DDIExtraction-2013 Shared Task (2014)