Adrenaline

Adrenaline release in the body contributes to elevated physical energy. The article presents adrenaline as having only an indirect acute relevance to diabetes. Body movement causes the adrenals to release adrenaline. Adrenaline acts through parallel pathways in the body but does not cross the blood-brain barrier. The high-adrenaline state from excess sugar originates from cellular metabolic stress, not mental or emotional stress. Adrenaline triggers signaling relays that reach the locus coeruleus in the brain. Adrenaline is the first hormone released when the nervous system detects danger. Adrenaline surges during sympathetic nervous system activation. Magnesium blocks adrenaline activity as part of its role in stress recovery. Adrenaline increases heart rate, blood pressure, muscle tension, and LDL cholesterol production. Excess sugar damages mitochondrial function, preventing cells from producing sufficient ATP through normal aerobic metabolism. Adrenaline is identified as a stimulating neurotransmitter involved in stress activation. The body releases adrenaline to compensate for insufficient mitochondrial energy production caused by excess sugar. Adrenaline triggers gluconeogen…