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American Focus > Blog > Tech and Science > How brain organoids are revealing what truly makes humans unique
Tech and Science

How brain organoids are revealing what truly makes humans unique

Last updated: October 1, 2025 9:08 am
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How brain organoids are revealing what truly makes humans unique
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Understanding Brain Organoids: A Revolutionary Breakthrough in Neuroscience

A 100-day-old brain organoid
Caption: A 100-day-old brain organoid – Credit: Madeline Lancaster

Contents
Understanding Brain Organoids: A Revolutionary Breakthrough in NeuroscienceWhat Exactly is a Brain Organoid? Are They Mini-Brains?The Milestone of Creating Brain OrganoidsWhy the Creation of Brain Organoids is GroundbreakingKey Insights Gained from Brain OrganoidsPractical Applications and Future TreatmentsThe Intersection of Organoids and Animal ModelsEthical Considerations of Implanting OrganoidsThe Potential for Enhanced Cognition through OrganoidsThe Future of Brain OrganoidsNavigating the Ethical Landscape

Since the groundbreaking creation of brain organoids by Madeline Lancaster in 2013, these engineered tissues have revolutionized neuroscience research across the globe. But what exactly are brain organoids? Are they akin to miniature brains in petri dishes? Could there be a future where implanting them into animals enhances cognitive function? In this exploration, we uncover the fascinating world of brain organoids, their potential implications, and the ethical questions they raise.


What Exactly is a Brain Organoid? Are They Mini-Brains?

Michael Le Page: Can you explain what a brain organoid is? Is it a mini-brain?

Madeline Lancaster: It’s essential to clarify that brain organoids are not miniature brains. They represent small, immature cellular structures that mimic specific parts of the human brain, but they lack the complex organization and functionality of fully developed brains. Think of them more like an early developmental stage. In size comparison, they resemble insect brains, but they do not possess the interconnectedness typical of a functioning brain. I would place them below insect brain tiers in terms of organization.


The Milestone of Creating Brain Organoids

How did you come to grow the first brain organoids?

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In my early research, I worked with mouse embryonic brain cells plated in petri dishes. A curious phenomenon occurred where some cells detached and began to cling to one another, formed self-organizing structures resembling early brain tissue. This fundamental discovery led to our success in generating organoids from human embryonic stem cells.


Why the Creation of Brain Organoids is Groundbreaking

Why was this breakthrough significant?

The human brain holds immense complexity and has been likened to a black box for an extended period. Traditional models like mice cannot encapsulate the intricacies of the human brain. The advent of brain organoids has illuminated parts of this black box, offering insights into human brain development.

Can you provide an example?

One of our initial projects involved modeling microcephaly—a condition where the brain is abnormally small. Unlike in mice, where the cerebral mutation has no discernible impact, our human brain organoids exhibited reduced size and allowed us to glean valuable knowledge about the disorder.


Key Insights Gained from Brain Organoids

What have we discovered through brain organoids?

Our findings highlight what distinguishes the human brain. Notably, human stem cells responsible for producing neurons behave differently than their mouse or chimpanzee counterparts. This difference is key to our slower brain development, allowing for increased stem cell proliferation and subsequent neuron production.


Practical Applications and Future Treatments

Will this research yield tangible applications?

A significant part of our fundamental biology research is poised to lead to treatments for various disorders. Although our focus often centers on evolutionary distinctions between humans and chimpanzees, the identified genetic variants frequently relate to human brain disorders.

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What kind of treatments might emerge from this?

In the short term, we anticipate that brain organoids will facilitate drug screening, particularly in understudied mental health issues and neurodegenerative diseases. For instance, we still rely on treatments for schizophrenia developed over fifty years ago. Organoid models could pave the way for novel therapeutic strategies. In the future, organoids themselves might evolve into treatments. While we may not use them for critical areas like the hippocampus, they could potentially serve to replace lost dopaminergic neurons in conditions like Parkinson’s disease.


The Intersection of Organoids and Animal Models

Are human brain organoids already being implanted into animals?

Yes, while not for therapeutic purposes, animal implantation helps us enhance organoid efficacy. Standard organoids significantly lack vasculature and external cell types, such as microglia—the immune cells of the brain. Transplanting them into mice allows for observation of these interactions.


Ethical Considerations of Implanting Organoids

Should we be cautious about implanting human organoids into animals?

When human brain organoids are integrated into a mouse brain, the neurons connect, but disorganized structures result in poorer cognitive performance in the mice. This doesn’t lead to the creation of ‘super-smart’ mice as one might assume.


A colored image showing nerve connections within a brain organoid
Caption: A colored image of a brain organoid, showing its nerve connections – Credit: MRC Laboratory of Molecular Biology


The Potential for Enhanced Cognition through Organoids

Are we close to enhancing cognition through organoids?

We are far from achieving this. The core of higher-order thinking entails the intricate connectivity of various brain components. A substantial structural organization is necessary for cognitive enhancement, a feat that current organoids cannot replicate. Moreover, the size of a mouse brain limits this possibility, as it can’t accommodate human-sized cognitive functions.

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What limits exist regarding blood vessel development in organoids?

Creating brain tissue is relatively straightforward, but constructing the necessary vascular structures is complex. Progress is being made in incorporating vascular cells, but fully functional blood flow in organoids remains an elusive goal.


The Future of Brain Organoids

How far off are we from developing fully vascularized brains in vitro?

Achieving this is likely decades away. Unlike the body, which coordinates various systems seamlessly, vascularization of an organoid is an intricate endeavor. The body’s interconnectedness is crucial to progress, and generating a fully functioning organoid remains a distant objective.

If such a breakthrough occurs, could we develop a fully-sized human brain?

Creating a full-sized developing brain in isolation poses philosophical questions surrounding consciousness. An organ without sensory inputs or experiences lacks awareness and real-world interaction; thus, consciousness development remains linked to bodily experiences.


Navigating the Ethical Landscape

How do we determine the ethical boundaries concerning organoid development?

The discussion surrounding consciousness and ethical boundaries is complex and often contentious. Key considerations such as organization, input/output systems, maturity, and size provide a framework to evaluate consciousness levels. As long as human organoids remain small, significant ethical concerns regarding human-like cognition are mitigated.


As we advance into the future of neuroscience with brain organoids, the intersections of research, ethics, and application will undoubtedly shape the landscape of cognitive science and beyond. The exciting potential of this technology comes with crucial responsibilities we must navigate thoughtfully.

Watch more about brain organoids in action

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