Raymond D. Palmer scite author profile

This paper aims to perform a scoping review of existing published literature and determine inconsistencies versus consistencies, if any.The methodology here was to examine multiple published papers regarding nicotinamide adenine dinucleotide (NAD) synthesis, and from there data was extrapolated to evidence the ability of nicotinamide riboside (NR), nicotinamide mononucleotide (NMN), nicotinamide (NAM), nicotinamide mononucleotide (NMNH), and dihydronicotinamide riboside (DNR) as NAD precursors. This scoping

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Trimethylamine N-oxide (TMAO): a new attractive target to decrease cardiovascular risk

Swanepoel

Roberts

Brauns

et al. 2021

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Cardiovascular disease (CVD) is one of the greatest disease burdens and takes the lives of many each year. There are many risk factors both modifiable and non-modifiable which contribute to the onset and progression of the disease. Trimethylamine N-oxide (TMAO) in recent years has been found to have a correlation with CVD onset. Those with increased levels of the metabolite have a markedly increased risk of future development of cardiometabolic disorders.This literature review aimed to critique past studies undertaken to find a consensus of the significance of the interrelationship between TMAO and cardiovascular risk. A definite link between TMAO levels and a CVD outcome was found. The majority of the literature stated the relationship with evidence; however, there is still some uncertainty as to why and how the correlation occurs. Further study needs to be done to further dissect and understand the relationship between TMAO and CVD risk.

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Aging clocks & mortality timers, methylation, glycomic, telomeric and more. A window to measuring biological age

Palmer¹

2022

Aging Medicine

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As humans age multiple forms of biological decay ensue, and many aspects of human biology can be measured to determine how far biological machinery has drifted from homeostasis. Research has led to aging clocks being developed that claim to predict biological age as opposed to chronological age. Aging could be regarded as a measured loss of homeostatic biological equilibrium that augments biological decay in fully developed tissues. Measuring aspects of how far various elements of biology have drifted from a youthful state may allow us to make determinations on a subject's health but also make informed predictions on their biological age. As we see across human physiology, many facets that maintain human health taper off such as nicotinamide adenine dinucleotide, glutathione, catalase, super oxide dismutase, and more.Extracellular vesicle density also tapers off during age combined with epigenetic drift, telomere attrition, and stem cell exhaustion, whilst genomic instability and biological insults from environment and lifestyle factors increase. Measuring these types of biomarkers with aging clocks may allow subjects to understand their own health more accurately and enable subjects to better focus on their efforts in the pursuit of longevity and, in addition, allow healthcare practitioners to deliver better health advice.

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The Ability of Nutrition to Mitigate Epigenetic Drift: A Novel Look at Regulating Gene Expression

Palmer¹,

Papa²,

Vaccarezza

2021

J Nutr Sci Vitaminol

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Epigenetic drift causes modification in gene expression during aging and a myriad of physiological changes that are mostly undesirable, remove youthful phenotype and are related to biological decay and disease onset. The epigenome is considered a stable regulator of genetic expression. Moreover, evidence is now accumulating that commonly available compounds found in foods can influence the epigenome to embrace a more youthful and therefore, more disease resistant state. Here we explore the correlation between nutriment and the epigenetic regulation through various types of alimentation. The aim is not to discuss specific chemicals involved in disease onset. Instead, we offer a brief glance at pathogens and offer a practical pathway into epigenetic regulation, hypothesizing that epigenetic drift might be attenuated by several foods able to drive a more youthful and disease resistant phenotype.

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Raymond D. Palmer

New Promises and Challenges on Inflammation and Atherosclerosis: Insights From CANTOS and CIRT Trials

Precursor comparisons for the upregulation of nicotinamide adenine dinucleotide. Novel approaches for better aging

Trimethylamine N-oxide (TMAO): a new attractive target to decrease cardiovascular risk

Aging clocks & mortality timers, methylation, glycomic, telomeric and more. A window to measuring biological age

The Ability of Nutrition to Mitigate Epigenetic Drift: A Novel Look at Regulating Gene Expression

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