122 Bilder zum Thema "huntington disease" bei ClipDealer

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Genetic brain disorders, conceptual 3D illustration. Mutations in the DNA leading to brain diseases. Neurogenetics, neurodegenerative disorders
Dorsal striatum highlighted in human brain and close-up view of degrading neurons of dorsal striatum seen in Huntington's disease, 3D illustration
Dementia Illness Concept
MRI Brain Scan
An old man with Parkinson's disease and highlighted black substance of the midbrain. 3D illustration shows decrease of substantia volume and accumulation of Lewy bodies in its dopaminergic neurons
Neurons of Dorsal striatum, 3D illustration. The dorsal striatum is a nucleus in the basal ganglia, degrading of its neurons plays a crucial role in the development of Huntington's disease
Neurons of Dorsal striatum, 3D illustration. Dorsal striatum is a nucleus in the basal ganglia, degrading of its neurons plays crucial role in development of Huntington's disease
Sydenham's chorea, an autoimmune disease that results from Streptococcus infection, formation of anti-neuronal antibodies damaging brain basal ganglia that cause involuntary movements, 3D illustration
Neurons of Dorsal striatum, 3D illustration. Dorsal striatum is a nucleus in the basal ganglia, degrading of its neurons plays crucial role in development of Huntington's disease
Caudate nuclei in human brain and its neurons, 3D illustration. The caudate nucleus is a component of the basal ganglia, it plays role in choreas, neurodegenerative and other brain diseases
Human brain anatomy, basal ganglia. 3D illustration showing caudate nucleus (green), putamen (yellow), and lateral ventricles (blue)
Sydenham's chorea, an autoimmune disease that results from Streptococcus infection, formation of anti-neuronal antibodies damaging brain basal ganglia that cause involuntary movements, 3D illustration
Sydenham's chorea, an autoimmune disease that results from Streptococcus infection, formation of anti-neuronal antibodies damaging brain basal ganglia that cause involuntary movements, 3D illustration
Black substance of the midbrain in Parkinson's disease, 3D illustration showing decrease of its volume and degeneration of dopaminergic neurons in the pars compacta of the Black substance
Lewy body in parkinson's disease (PD) or dementia (LBD) - isometric 3d illustration
Black substance of the midbrain and its dopaminergic neurons, 3D illustration. Black substance regulates movement and reward, its degeneration is a key step in development of Parkinson's disease
Black substance of the midbrain and its dopaminergic neurons, 3D illustration. Black substance regulates movement and reward, its degeneration is a key step in development of Parkinson's disease
Black substance of the midbrain and its dopaminergic neurons, 3D illustration. Black substance regulates movement and reward, its degeneration is a key step in development of Parkinson's disease
Black substance of the midbrain and its dopaminergic neurons, 3D illustration. Black substance regulates movement and reward, its degeneration is a key step in development of Parkinson's disease
Lewy body in parkinson's disease (PD) or dementia (LBD) - closeup 3d illustration
Dorsal striatum highlighted in child's brain and close-up view of its neurons, 3D illustration. It is a nucleus in the basal ganglia, a component of the motor and reward systems
Neurons of Dorsal striatum, 3D illustration. The dorsal striatum is a nucleus in the basal ganglia, degrading of its neurons plays a crucial role in the development of Huntington's disease
Destruction of neurons of the caudate nucleus, conceptual 3D illustration. Caudate nucleus belongs to the brain basal ganglia, its neurons are damaged in Huntingon's disease and other choreas
Sydenham's chorea, an autoimmune disease that results from Streptococcus infection, formation of anti-neuronal antibodies damaging brain basal ganglia that cause involuntary movements, 3D illustration
Neurons, brain cells located in Amygdala, 3D illustration. Amygdalas are clusters of nuclei within the temporal lobes, part of the limbic system, their neurons play role in memory, emotions
Lewy bodies in parkinson's disease (PD) or dementia (LBD) - isometric 3d illustration
Black substance of the midbrain and its dopaminergic neurons in normal state and in Parkinson's disease. 3D illustration showing volume decrease and accumulation of Lewy bodies in neurons
Black substance of the midbrain and its dopaminergic neurons, 3D illustration. Black substance regulates movement and reward, its degeneration is a key step in development of Parkinson's disease
Dorsal striatum highlighted in child's brain and close-up view of its neurons, 3D illustration. It is a nucleus in the basal ganglia, a component of the motor and reward systems
Dorsal striatum in the human brain, 3D illustration. It is a nucleus in the basal ganglia, consists of the caudate nucleus (red) and the putamen (green), is a component of the motor and reward systems
Black substance of the midbrain and its dopaminergic neurons, 3D illustration. Black substance regulates movement and reward, its degeneration is a key step in development of Parkinson's disease
Black substance of the midbrain in Parkinson's disease, 3D illustration showing decrease of its volume and accumulation of Lewy bodies in dopaminergic neurons of the black substance
Amygdala in the brain, and closeup view of amygdala neurons, 3D illustration. Two almond-shaped clusters of nuclei within temporal lobes, part of the limbic system, play role in memory and emotions
Black substance of the midbrain in Parkinson's disease, 3D illustration showing decrease of its volume and accumulation of Lewy bodies in dopaminergic neurons of the black substance
Anti-basal ganglia antibodies. 3D conceptual illustration showing molecules of immunoglobulins attacking dorsal striatum highlighted in the human brain. They are found in post-rheumatic fever chorea
Brain dorsal striatum anatomy, 3D illustration. The dorsal striatum consists of the caudate nucleus (orange) and the putamen (blue). Amygdala is colored in red. Front view
Caudate nuclei in human brain and its neurons, 3D illustration. The caudate nucleus is a component of the basal ganglia, it plays role in choreas, neurodegenerative and other brain diseases
Amygdala in the brain, and closeup view of amygdala neurons, 3D illustration. Two almond-shaped clusters of nuclei within temporal lobes, part of the limbic system, play role in memory and emotions
Huntington Disease concept
Amygdala in the brain, and closeup view of amygdala neurons, 3D illustration. Two almond-shaped clusters of nuclei within temporal lobes, part of the limbic system, play role in memory and emotions
Amygdala in the brain, and closeup view of amygdala neurons, 3D illustration. Two almond-shaped clusters of nuclei within temporal lobes, part of the limbic system, play role in memory and emotions
Caudate nuclei in human brain and its neurons, 3D illustration. The caudate nucleus is a component of the basal ganglia, it plays role in choreas, neurodegenerative and other brain diseases
Sydenham's chorea, an autoimmune disease that results from Streptococcus infection, formation of anti-neuronal antibodies damaging brain basal ganglia that cause involuntary movements, 3D illustration
Amygdala in the brain, and closeup view of amygdala neurons, 3D illustration. Two almond-shaped clusters of nuclei within temporal lobes, part of the limbic system, play role in memory and emotions
Black substance of the midbrain, 3D illustration. Black substance regulates reward and movement, its degeneration is a key step in development of Parkinson's disease
Anti-basal ganglia antibodies. 3D conceptual illustration showing molecules of immunoglobulins attacking dorsal striatum highlighted in the child's brain. They are found in post-rheumatic fever chorea
Black substance of the midbrain and its dopaminergic neurons, 3D illustration. Black substance regulates movement and reward, its degeneration is a key step in development of Parkinson's disease
Amygdala in the brain, and closeup view of amygdala neurons, 3D illustration. Two almond-shaped clusters of nuclei within temporal lobes, part of the limbic system, play role in memory and emotions
Amygdala in the brain, and closeup view of amygdala neurons, 3D illustration. Two almond-shaped clusters of nuclei within temporal lobes, part of the limbic system, play role in memory and emotions
HUNTINGTON DISEASE concept

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