Oil for Life to Balance omega-3 polyunsaturated fatty acids ... - Oil4Life
Oil for Life to Balance omega-3 polyunsaturated fatty acids ... - Oil4Life
Oil for Life to Balance omega-3 polyunsaturated fatty acids ... - Oil4Life
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10 kg/day of EPA+DHA 2:1 as in <strong>Oil</strong>4<strong>Life</strong> <strong>Balance</strong>. The supplementation of EPA and<br />
DHA in relatively high doses compared <strong>to</strong> body weight, verified that an improved AA/EPA<br />
balance in the cell membrane increased attention level and decrease both hyperactivity levels<br />
and impulsiveness. There was a correlation between the dose of long chain <strong>omega</strong>-3 <strong>fatty</strong><br />
<strong>acids</strong>, the decrease of AA/EPA ratio and/or the entity of the clinical improvement. Our data<br />
are in agreement with the results obtained by different Authors.<br />
Depletion of <strong>omega</strong>-3 <strong>fatty</strong> acid levels in red blood cell membranes of depressed patients has<br />
been reported. A significant positive relationship was observed between the severity of the<br />
illness and the AA/EPA ratio in serum phospholipids and in erythrocyte membranes.<br />
Preliminary results in our labora<strong>to</strong>ry on depressed elderly patients demonstrated that<br />
counteracting and balancing high levels of AA with EPA+DHA 2:1, as in <strong>Oil</strong>4<strong>Life</strong> <strong>Balance</strong>,<br />
also decreased depression symp<strong>to</strong>ms. Several authors have also reported lower<br />
concentrations of erythrocyte essential <strong>fatty</strong> <strong>acids</strong> among schizophrenic patients as compared<br />
with control. DHA is the major acid of neurological and retinal membranes. It makes up<br />
more than 30% of the structural lipids of the neuron. Low levels of circulating DHA may be<br />
a significant risk in the development of Alzheimer dementia. The inability <strong>to</strong> maintain a high<br />
level of DHA may be due <strong>to</strong> a reduced capacity <strong>to</strong> synthesise DHA late in life, as the result<br />
of a reduction in Δ-6-desaturase activity. Alterations in phospholipids, which are structural<br />
components of all cell membranes in the brain, may induce changes in membrane fluidity<br />
and, consequently, in various neurotransmitter systems that are believed <strong>to</strong> be related <strong>to</strong> the<br />
pathophysiology of major depression.<br />
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