Haemodynamic response

Neurons, like all other cells, require energy to function. This energy is supplied in the form of glucose and oxygen (the oxygen being carried in haemoglobin). The blood supply of the brain is dynamically regulated to give active neural assemblies more energy whilst inactive assemblies receive less energy. This dynamic regulation of the blood flow (haemodynamics) is the principle on which functional magnetic resonance imaging is based.

The molecular biology of haemodynamic regulation

 * 1) Active excitatory neurons release the neurotransmitter glutamate
 * 2) Glutamate opens NMDA receptors on other neurons which allows calcium ions into the neuron
 * 3) Calcium activates nitric oxide synthase which produces nitric oxide
 * 4) Nitric oxide diffuses out and dilates smooth muscle surrounding local arterioles
 * 5) This dilation allows more blood into the local capillaries
 * 6) Hence more oxygen and glucose reaches the neurons
 * 7) Glutamate also opens mGluR receptors on astrocytes
 * 8) This allow calcium into the astrocyte
 * 9) Which activates phospholipase A2 (PLA2)
 * 10) Which produces arachidonic acic (AA)
 * 11) Which is converted by cyclo-oxygenase
 * 12) Into PGE2
 * 13) Which dilates local smooth muscle and allows greater blood flow