Poor brain function from degeneration or past head trauma.
Not exact matches
Celiac patients can also develop headaches, tingling, fatigue, muscle pain, skin rashes, joint pain, and other symptoms, because the autoimmune attack at the root of the disease gradually erodes the wall of the intestine, leading to
poor absorption of iron, folate, and other nutrients that affect everything
from energy to
brain function.
A. Folate / folic acid (B9)- Mouth sores and pale skin B. Inositol -
Poor brain function, hair loss, high LDL, and eczema C. Vitamin A-Dry eyes, dry skin, bright lights at night bothersome, trouble distinguishing between blues and purples D. Vitamin B1 (Thiamine)- Loss of appetite, pain in limbs swollen feet or legs E. Vitamin B2 (Riboflavin)- Anemia, nerve damage, sluggish metabolism, sore throat F. Vitamin C - Bruising, bleeding gums, fatigue, loss of appetite G. Vitamin D - Thin or brittle bones, joint pain, fatigue, depression, getting sick often, impaired wound healing H. Vitamin E-Muscle weakness, Abnormal eye movements, vision problems I. Vitamin K2 - Easy bruising, excessive bleeding
from wounds, blood in urine or stool
While
brain function keeps coming up as a symptom here,
poor cognition
from nutritional issues can usually be spotted if you are particularly fuzzy when you first wake up and feel clearer after meals.
The clear social gradient associated with children's vocabulary, emerging literacy, well - being and behaviour is evident
from birth to school entry.1 These trajectories track into adolescence and correspond to
poorer educational attainment, income and health across the life course.2 — 10 Neuroimaging research extends the evidence for these suboptimal trajectories, showing that children raised in poverty
from infancy are more likely to have delayed
brain growth with smaller volumetric size of the regions particularly responsible for executive
functioning and language.11 This evidence supports the need for further effort to redress inequities that arise
from the impact of adversity during the potential developmental window of opportunity in early childhood.
ECD programmes can take many forms, including promotion of good health and nutrition, support for safe and stimulating environments, protection
from risks such as violence or abandonment, parenting support and early learning experiences, media, preschools and community groups.4 Poverty is the key underlying cause of
poor child development; children living in poverty are exposed to many negative influences, including
poor physical environments, inadequate nutrition, parental stress and insufficient cognitive stimulation.5 Undernutrition can influence
brain development directly by affecting
brain structure and
function, or indirectly via
poor physical or motor development, in addition to other pathways.6 — 8 Exposure to multiple co-occurring risks most likely contributes to greater disparities in developmental trajectories among children with differential exposure.9 — 12 This paper focuses on associations between specific aspects of children's physical environments — access to improved water and sanitation (W&S)-- and childhood development as measured by performance on a test of receptive language.