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Prompt: Multimodal deep learning in biomedical applications - clinical, lab tests, -omics, medical images, patients history and more. — Iryna Skrypnyk
Model: OpenArt SDXL
Prompt:
Multimodal deep learning in biomedical applications - clinical, lab tests, -omics, medical images, patients history and more.
Negative prompt:
illustration, painting, drawing, art, sketch
Width: 1024
Height: 1024
Scale: 7
Steps: 25
Seed: 1346764143
Sampler: DPM++ 2M SDE Karras

Iryna Skrypnyk — Iryna Skrypnyk
Model: OpenArt SDXL
Prompt:
Multimodal deep learning in biomedical applications - clinical, lab tests, -omics, medical images, patients history and more.
Negative prompt:
illustration, painting, drawing, art, sketch
Width: 1024
Height: 1024
Scale: 7
Steps: 25
Seed: 1346764143
Sampler: DPM++ 2M SDE Karras

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Prompt: Create an image of many neurons in a dish as a model for brain in a dish. Show several neurons, that may look a little like a brain, too, and also show neurons to record the electrical activity and sensors to record chemical processes. Show the dish, too, with electrodes: little filled circles

Prompt: Nanobots attack a cancerous growth inside someone's brain.

Prompt: Generate an image for this text:

A groundbreaking study has revealed new insights into the structure of synapses using advanced imaging techniques. Researchers discovered that astrocytes, star-shaped glial cells in the brain, play a crucial role in synaptic function by tightly interacting with synapses. This interaction is essential for maintaining healthy brain communication. In mouse models of Huntington’s disease, astrocytes failed to properly engage with synapses, leading to leaks of potassium and glutamate, which could disrupt normal brain function. This research highlights the potential of targeting astrocytes in treating neurodegenerative diseases and improves our understanding of the cellular mechanisms underlying these conditions.

For more details, you can read the full article [here]

Prompt: Nanobots attack a cancerous growth inside someone's brain.

Prompt: Relationships and Potential Pathogenic Mechanisms between PM2.5 Exposure and Neurological/Psychiatric Disorders

Prompt: brain cells