"For decades, osteoporosis has been treated as an inevitable loss of mineral - a calcium problem that stays hidden until a hip or wrist breaks. Conventional care concentrates on measuring damage after it has already occurred, offering little insight into what drives the slow decay in the first place."
"A growing body of metabolic research points to a signaling breakdown involving a molecule most people associate with mood: serotonin. While serotonin helps regulate your emotional state in your brain, approximately 90% of your body's serotonin is actually produced in your gut and circulates through your bloodstream."
"This peripheral serotonin has completely different effects than brain serotonin: instead of influencing mood, it acts as a stress signal that directly communicates with bone tissue. When those signals intensify, bone integrity declines in a measurable and orderly way."
"By focusing on serotonin chemistry rather than mineral density alone, osteoporosis begins to look less like an unavoidable consequence of aging and more like a detectable metabolic state."
Osteoporosis has traditionally been viewed as an inevitable loss of calcium, with little understanding of its underlying causes. Research indicates that peripheral serotonin, produced in the gut, plays a crucial role in bone health. Unlike brain serotonin, which affects mood, peripheral serotonin acts as a stress signal that communicates with bone tissue. Increased levels of this signaling molecule lead to a decline in bone integrity, suggesting that osteoporosis is not just a consequence of aging but a detectable metabolic condition that can be addressed.
Read at Alternative Medicine Magazine
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