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Quercetin: Difference between revisions

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'''Quercetin''' has been the focus of numerous clinical studies aiming to understand its potential applications and efficacy in addressing age-related conditions and promoting longevity due to its diverse biological activities.  
'''Quercetin''' has been the focus of numerous clinical studies aiming to understand its potential applications and efficacy in addressing age-related conditions and promoting longevity due to its diverse biological activities.  


===Anti-inflammatory Effects===
; Anti-inflammatory Effects
Quercetin’s potent anti-inflammatory properties have led to its investigation for use in chronic inflammatory conditions such as arthritis and cardiovascular diseases. It modulates inflammatory pathways by inhibiting the release of pro-inflammatory cytokines and reducing the activation of inflammatory cells.
: Quercetin’s potent anti-inflammatory properties have led to its investigation for use in chronic inflammatory conditions such as arthritis and cardiovascular diseases. It modulates inflammatory pathways by inhibiting the release of pro-inflammatory cytokines and reducing the activation of inflammatory cells.


===Antioxidant Properties===
; Antioxidant Properties
The antioxidant activity of quercetin is attributed to its ability to neutralize free radicals and reduce oxidative stress, potentially mitigating aging-related cellular damage and dysfunction. Its antioxidant properties are linked to a reduction in the risk of chronic conditions such as cancer and neurodegenerative diseases.
: The antioxidant activity of quercetin is attributed to its ability to neutralize free radicals and reduce oxidative stress, potentially mitigating aging-related cellular damage and dysfunction. Its antioxidant properties are linked to a reduction in the risk of chronic conditions such as cancer and neurodegenerative diseases.


===Impact on Cellular Senescence ===
; Impact on Cellular Senescence
Research has indicated that quercetin may delay cellular senescence by modulating senescence-associated signaling pathways and reducing the accumulation of senescent cells, potentially impacting aging processes and age-related diseases.
: Research has indicated that quercetin may delay cellular senescence by modulating senescence-associated signaling pathways and reducing the accumulation of senescent cells, potentially impacting aging processes and age-related diseases.


===Clinical Studies and Trials related to Aging===
; Clinical Studies and Trials related to Aging
Several clinical trials and studies have been conducted to assess the safety and efficacy of quercetin supplementation in age-related conditions. The data, however, are still inconclusive, necessitating further well-designed studies to establish its therapeutic benefits in aging and longevity comprehensively.
: Several clinical trials and studies have been conducted to assess the safety and efficacy of quercetin supplementation in age-related conditions. The data, however, are still inconclusive, necessitating further well-designed studies to establish its therapeutic benefits in aging and longevity comprehensively.


=== Role as an NAD+ Booster===
; Role as an NAD+ Booster
Quercetin has been identified as a potential NAD+ booster, which is significant as NAD+ is a crucial coenzyme involved in numerous biological processes, including energy metabolism, DNA repair, and aging. The depletion of NAD+ is associated with aging and several age-related diseases.
: Quercetin has been identified as a potential NAD+ booster. Studies have demonstrated that quercetin can inhibit the activity of [[NADase]] ([[CD38]]), an enzyme responsible for the degradation of NAD+, thus potentially increasing the levels of NAD+ in cells. Elevated NAD+ levels are associated with improved mitochondrial function, enhanced cellular metabolism, and reduced oxidative stress, all of which are key components in the aging process.
 
Studies have demonstrated that quercetin can inhibit the activity of [[NADase]] ([[CD38]]), an enzyme responsible for the degradation of NAD+, thus potentially increasing the levels of NAD+ in cells. Elevated NAD+ levels are associated with improved mitochondrial function, enhanced cellular metabolism, and reduced oxidative stress, all of which are key components in the aging process.


==Dosage and Administration==
==Dosage and Administration==
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