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Navigating the Frontier of Breakthroughs With ChatGPT

by Karishma Abhishek on February 11, 2024 at 12:13 AM
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Large Language Models (LLMs) such as ChatGPT can unveil breakthroughs beyond human capacity, with implications across diverse fields. In neuroscience particularly, collaboration with these models could be pivotal to avoid being left behind as per a perspective paper in Neuron ().


In their previous studies, the authors showed that important preconditions are met to develop LLMs that can interpret and analyze neuroscientific data like ChatGPT interprets language. These AI models can be built for many different types of data, including neuroimaging, genetics, single-cell genomics, and even hand-written clinical reports.

‘Large Language Models, exemplified by recent innovations like ChatGPT, hold the potential to uncover breakthroughs that surpass human capacity, with implications spanning diverse fields, including neuroscience, where collaboration with these models may be pivotal. #ai #neuroscience #chatgpt #collaboration ’

In the traditional model of research, a scientist studies previous data on a topic, develops new hypotheses, and tests them using experiments.

Because of the massive amounts of data available, scientists often focus on a narrow field of research, such as neuroimaging or genetics. LLMs, however, can absorb more neuroscientific research than a single human ever could.

In their Neuron paper, the authors argue that one day LLMs specialized in diverse areas of neuroscience could be used to communicate with one another to bridge siloed areas of neuroscience research, uncovering truths that would be impossible to find by humans alone.

In the case of drug development, for example, an LLM specialized in genetics could be used along with a neuroimaging LLM to discover promising candidate molecules to stop neurodegeneration. The neuroscientist would direct these LLMs and verify their outputs.

Potential of ChatGPT and Similar Innovations

Lead author Danilo Bzdok mentions the possibility that the scientist will, in certain cases, not always be able to fully understand the mechanism behind the biological processes discovered by these LLMs.

"We have to be open to the fact that certain things about the brain may be unknowable, or at least take a long time to understand," he says. "Yet we might still generate insights from state-of-the-art LLMs and make clinical progress, even if we don't fully grasp the way they reach conclusions."

To realize the full potential of LLMs in neuroscience, Bzdok says scientists would need more infrastructure for data processing and storage than is available today at many research organizations.

More importantly, it would take a cultural shift to a much more data-driven scientific approach, where studies that rely heavily on artificial intelligence and LLMs are published by leading journals and funded by public agencies.

While the traditional model of strongly hypothesis-driven research remains key and is not going away, Bzdok says capitalizing on emerging LLM technologies might be important to spur the next generation of neurological treatments in cases where the old model has been less fruitful.

"To quote John Naisbitt, neuroscientists today are �drowning in information but starving for knowledge,'" he says. "Our ability to generate biomolecular data is eclipsing our ability to glean understanding from these systems. LLMs offer an answer to this problem. They may be able to extract, synergize, and synthesize knowledge from and across neuroscience domains, a task that may or may not exceed human comprehension."

Reference:
  1. Data science opportunities of large language models for neuroscience and biomedicine - (https:www.cell.com/neuron/fulltext/S0896-6273(24)00042-4?)

Source: Eurekalert

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