Brain Cell Collection

brain cells
microscopic image

Cross section biomedical illustration of pain signal is transmitted from one brain cell to the next before opioid drug is administered

Model of a brain cell

Deep brain stimulation and nerve cells C016 / 7200
Deep brain stimulation (DBS). Computer artwork showing an electrode sending electrical impulses to nerve cells. DBS was developed for the treatment of Parkinsons disease

Deep brain stimulation and nerve cell C016 / 7205
Deep brain stimulation. Computer artwork showing an electrode sending electrical impulses to nerve cells. In the background a light micrograph (LM) of a section through grey matter in the brain

Deep brain stimulation and nerve cell C016 / 7203
Deep brain stimulation. Computer artwork showing an electrode sending electrical impulses to nerve cells. In the background a light micrograph (LM) of a section through grey matter in the brain

Deep brain stimulation and nerve cells C016 / 7206
Deep brain stimulation (DBS). Computer artwork showing an electrode sending electrical impulses to nerve cells. DBS was developed for the treatment of Parkinsons disease

Artwork of a nerve cell of the brain & a synapse
Nerve cell and synapses. Artwork of a nerve cell (neurone) of the brain with a close-up of a synapse. The nerve cell body is at lower right

F / col TEM of polyribosomes from brain cell
False-colour transmission electron micrograph (TEM) of a polyribosome from a human brain cell. Polyribosomes (or polysomes)

Coloured SEM of a nerve cell in brain tissue
Nerve cell. Coloured scanning electron micrograph (SEM) of a section through grey matter in the brain, showing a nerve cell (neurone)

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"Unlocking the Mysteries of Brain Cells: Exploring the Intricate Pathways and Potential Treatments" This captivating illustration showcases a cross-section of biomedical art, revealing how pain signals are transmitted from one brain cell to another before an opioid drug is administered. The intricate network of brain cells, also known as neurons, plays a crucial role in our daily lives. Intriguingly, we get a glimpse into the model of a brain cell, highlighting its complex structure and function. This model serves as a reminder that these tiny entities hold immense power in shaping our thoughts, emotions, and actions. The images depicting deep brain stimulation and nerve cells further emphasize the significance of understanding these cellular components. Scientists continue to explore this groundbreaking technique to treat various neurological disorders by precisely targeting specific areas within the brain. As we delve deeper into this fascinating subject matter, artwork showcasing a nerve cell and synapse captures our attention. It reminds us that communication between brain cells is essential for proper functioning and coordination throughout our body. Colored scanning electron microscopy (SEM) provides breathtaking visuals of nerve cells embedded within brain tissue. These vibrant images offer glimpses into their intricate structures while igniting curiosity about their remarkable capabilities. Furthermore, transmission electron microscopy (TEM) reveals polyribosomes extracted from brain cells—a testament to ongoing research efforts aimed at unraveling their inner workings on a molecular level. These captivating visuals serve as reminders that there is still much more to discover about these incredible building blocks of cognition. As scientists strive to unlock the mysteries surrounding brain cells' functions and potential treatments for neurological conditions, we embark on an exciting journey toward better understanding ourselves—both mentally and physically.