Plasticity example sentences

"Plasticity" Example Sentences

1. Brain plasticity refers to the brain's ability to form and reorganize synaptic connections, especially in response to learning or experience.
2. Neural plasticity allows the brain to adapt and change in response to experience or injury.
3. Cognitive plasticity refers to changes in cognitive functions that arise from experience and learning.
4. Developmental plasticity describes changes in the brain during sensitive periods of early development.
5. The brain exhibits remarkable plasticity throughout the lifespan.
6. Experience-dependent plasticity allows the brain circuits to be modified by experiences.
7. The plasticity of the young brain is especially robust during early childhood.
8. Synaptic plasticity refers to changes in synaptic strength and formation that underlie memory and learning.
9. Brain plasticity decreases with age but is preserved to some extent throughout life.
10. Studies have shown that mental and physical exercise can enhance brain plasticity.
11. Learning and memory depend on synaptic plasticity in the brain.
12. Hebbian plasticity refers to changes in synaptic strength that depend on correlated pre- and post-synaptic activity.
13. Environmental enrichment can promote neural plasticity and cognitive performance.
14. Structural plasticity involves changes in the actual structure of neural circuits.
15. Brain plasticity allows people to recover functions after brain damage or stroke.
16. Brain derived neurotrophic factor (BDNF) plays an important role in neural plasticity.
17. Reorganization of neural maps and circuits underlies representational plasticity.
18. Compensatory plasticity refers to changes that help compensate for loss or injury.
19. Recovery from addiction depends in part on plasticity in reward circuits.
20. The mechanisms of neural plasticity are still under active investigation.
21. Plasticity at the cellular level involves changes in synapses and gene expression.
22. Research suggests that exercise promotes neurogenesis and angiogenesis to enhance plasticity.
23. Practice and repetition are thought to induce plastic changes that improve performance.
24. Stimulating environments can promote neurogenesis that supports plasticity.
25. Neuroplasticity diminishes with age but interventions may help preserve plasticity.
26. Plasticity enables the formation of new memories and the extinction of old associations.
27. Training and rehabilitation programs attempt to harness and enhance brain plasticity.
28. Plasticity in cognitive control networks helps adults adjust behavior as goals change.
29. Reorganization of function to undamaged areas depends on plasticity mechanisms.
30. Neurofeedback aims to induce plastic changes that improve cognitive performance.
31. Pruning and remodeling of synapses underlie many aspects of neural plasticity.
32. Gene expression is altered to support activity-dependent plasticity in learning.
33. Changes in neurotransmitter levels and receptor density facilitate plasticity.
34. Neurogenesis, gliogenesis and angiogenesis promote conditions for neural plasticity.
35. Non-invasive brain stimulation techniques aim to induce plastic changes therapeutically.
36. Activity-dependent plasticity in adults preserves adaptability of neural circuits.
37. Repetitive behaviors may reflect reduced neural plasticity in psychiatric conditions.
38. Brain-machine interface devices rely on interfacing with plastic brain circuits.
39. Sensitive periods early in life showcase heightened neural plasticity.
40. Biomarkers of plasticity are areas of active research investigation.
41. Changes in white matter suggest that plasticity involves more than just synapses.
42. Cognitive enrichment programs work by promoting neuroplastic change.
43. Hormones and growth factors influence the degree of neuroplasticity observed.
44. Plasticity underlies the reassignment of functions to alternate neural substrates.
45. Video game training regimens attempt to induce plastic changes to improve function.
46. Plasticity diminishes with age but may be enhanced with interventions.
47. Stress hormones are thought to negatively impact neuroplastic processes.
48. Neural stem cells support neurogenesis that enables neuroplastic change.
49. Epigenetic mechanisms facilitate activity-dependent changes in synaptic plasticity.
50. Homeostatic plasticity acts to stabilize neural activity within an optimal range.

Common Phases

1. Brain plasticity allows us to learn new skills and adapt to changes throughout our lives.
2. Synaptic plasticity refers to the ability of neuronal connections in the brain to change and adapt in response to experience.
3. The lifelong neuronal plasticity of the brain enables us to acquire new knowledge and skills as adults.
4. The malleability and adaptability displayed by the developing infant brain is a form of neural plasticity.
5. Linguistic plasticity enabled humans to develop speech and language.
6. Neuronal plasticity declines with age, making it more difficult to learn new things as an older adult.
7. Neural and synaptic plasticity underlie the processes of memory formation, learning, and cognition.
8. The spines of dendrites are remarkably plastic, changing shape and size based on patterns of neural activity.
9. Exercise increases levels of growth factors that promote neurogenesis and neuronal plasticity.
10. Cultural plasticity refers to the adaptability of society and culture over time.
11. Environmental changes shape phenotypic plasticity in organisms.
12. Stress can affect the normal physiological plasticity of the body.
13. The plasticity of the developing nervous system allows for adaptive responses to hormones and experiences.
14. Genetic plasticity enables organisms to modify their traits in response to the environment.
15. Psychological plasticity has enabled humans to adapt to rapidly changing social environments.
16. Morphological plasticity describes the ability of organisms to change their physical form in response to conditions.
17. The sensory plasticity of the brain ensures continuous development and adaptation across the lifespan.
18. Behavioral plasticity encompasses the capacity of organisms to modify their behavior based on experience.
19. Plant growth exhibits remarkable plasticity in response to changes in water, nutrients, and light.
20. The evolution of phenotypic plasticity has likely contributed to the success of many species.
21. Behavioral flexibility arises from synaptic and neuronal plasticity within the nervous system.
22. Plastic organs can change in size, shape and biochemical composition due to developmental plasticity.
23. Sociocultural plasticity refers to the adaptability of customs and norms to changing circumstances.
24. The developmental plasticity of polar bears helps them adapt to changes in their Arctic habitat.
25. Adult neurogenesis is a process that depends on the plasticity of the neural environment.
26. Structural plasticity is the ability of dendrites and synapses to modify their form based on activity.
27. Physiological plasticity enables organisms to adapt to diverse environments through changes in function.
28. Chemical plasticity describes modifications in biochemical composition and metabolites in response to stimuli.
29. The degree of plasticity differs across tissues and organ systems in the human body.
30. Cardiac plasticity allows the heart to adapt its structure and function over a person's lifetime.
31. Cognitive plasticity refers to the capacity of the mind to modify and reorganize thought processes.
32. Because of their plasticity, children's brains are particularly sensitive to environmental influences.
33. The ability of finches' beaks to change size shows morphological and phenotypic plasticity.
34. Physiological and behavioral plasticity support the survival of honeybees in new environments.
35. Production plasticity enables plants to maximize reproductive success under changing conditions.
36. Developmental plasticity enables organisms to respond adaptively to environmental cues early in life.
37. Stress-induced neuroplasticity activates compensatory changes to restore stability and resilience.
38. Functional plasticity describes modifications in organ function due to changes in physiological demands.
39. Perceptual and attentional plasticity supports continuous integration of sensory input in the brain.
40. Mutations can increase the genetic plasticity of organisms and facilitate adaptation over generations.
41. The plasticity of genomes enables organisms to evolve adaptive changes within a few generations.
42. Phenotypic plasticity buffers organisms against environmental fluctuations in the short term.
43. Plasticity at the cellular level underlies developmental changes throughout the body.
44. Chromatin plasticity is an important mechanism of rapid epigenetic responses to environmental stimuli.
45. Phonological plasticity enables children to acquire new sounds and constructs during language development.
46. Climate-driven adaptive changes depend on the plasticity of plant and animal phenotypes.
47. Metabolic plasticity allows organisms to alter their energy metabolism based on resource availability.
48. Cellular plasticity describes adaptive modifications at the level of cells and tissues.
49. Cancer cells often exhibit increased plasticity that facilitates metastasis and invasion.
50. Biological plasticity has enabled life to diversify and adapt to a wide range of conditions on Earth.
51. Technological plasticity describes the adaptability of engineered devices and systems.
52. Mechanisms of plasticity underlie normal biological processes as well as pathological conditions.
53. The plasticity of microbial genomes enables rapid adaptation to antibiotic treatment.
54. Social plasticity enables groups to reorganize themselves in response to environmental challenges.
55. Systems-level plasticity encompasses changes that span multiple organizational levels in an organism.
56. Epigenetic plasticity provides a fast route for gene regulation changes in response to environmental cues.
57. Ecological plasticity refers to the adaptability of whole populations to changes in their surroundings.
58. Industrial plasticity describes the capacity for economic systems to change and evolve over time.
59. Protein plasticity underlies alterations in cellular structure and function mediated by protein modifications.
60. The limitless plasticity of the human mind enables constant development and growth across the lifespan.