Dairy
Episodes
Dr. Rhonda Patrick answers audience questions on various health, nutrition, and science topics in this Q&A session.
Dr. Rhonda Patrick answers audience questions on various health, nutrition, and science topics in this Q&A session.
Dr. Rhonda Patrick answers audience questions on various health, nutrition, and science topics in this Q&A session.
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Rhonda Ketosis Heart Disease Omega-3 Fasting Pregnancy Eyes Muscle Sauna Protein Dairy Intestinal Permeability Brown Fat Moringa SupplementsDr. Rhonda Patrick answers audience questions on various health, nutrition, and science topics in this Q&A session.
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Rhonda Exercise Cancer Diet Sleep Heart Disease Omega-3 ADHD Sugar Sulforaphane Sauna Dairy Supplements Red Light TherapyDr. Rhonda Patrick answers audience questions on various health, nutrition, and science topics in this Q&A session.
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Dr. Rhonda Patrick answers audience questions on various health, nutrition, and science topics in this Q&A session.
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Dr. Satchin Panda describes how autophagy, as part of the body's response to time-restricted eating, benefits health on a daily basis.
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Dr. Ruth Patterson discusses how simply changing when one eats can have a profound effect on the risk of breast cancer recurrence.
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Dr. Ruth Patterson describes how eating following the body's circadian clock enables the body to focus on repair rather than on digestion.
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Rhonda Omega-3 Fasting Circadian Rhythm Mushroom Sugar Sauna Saturated Fat Vegetarian Protein Dairy NAD+ Cardiovascular SupplementsDr. Rhonda Patrick answers audience questions on various health, nutrition, and science topics in this Q&A session.
Topic Pages
News & Publications
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Consumption of a fermented dairy beverage improves hippocampal-dependent relational memory in a randomized, controlled cross-over trial www.tandfonline.com
Drinking kefir, a probiotic dairy beverage, improves memory.
The community of microbes that comprise the gut microbiota act a bit like a sensory organ in the body, communicating information about the outside world to the brain and forming a gut-brain axis. Antibiotic and other medication use and changes in the diet can modulate the gut microbiota community in ways that reduce or increase the risk of neuropsychiatric illnesses such as depression. Findings of a recent report show that consuming a fermented dairy beverage may improve memory via changes in the gut-brain axis.
The hypothalamic-pituitary-adrenal axis (i.e., gut-brain axis) is formed by neural and endocrine connections between the hypothalamis, a brain region that controls body temperature, hunger, and sleep; the pituitary gland, a endocrine organ in the brain that produces hormones; and the adrenal gland, which is located above the kidneys and produces hormones that regulate stress such as adrenaline and cortisol. This axis of stress control communicates directly with the hippocampus, the memory center of the brain, which helps the brain retain memories of stressful situations, but also contributes to the development of depression. Previous research shows that probiotics can reduced depression severity; however, additional research is necessary to understand the mechanisms of this relationship.
The authors recruited 18 healthy adults and randomly assigned them to consume eight ounces of either kefir (i.e., a fermented dairy beverage with 12 strains of active bacteria) or low-fat lactose-free milk daily for four weeks. Participants completed questionnaires about their health, performed cognitive testing with electroencephalogram (EGG) measurement, and provided a fecal sample for the sequencing of the gut microbiome. After a washout period of about three weeks, participants switched to the opposite treatment and repeated the experiment.
The authors found that Lactobascillus bacteria more than doubled following kefir consumption suggesting significant change in the gut microbial community. Participants consuming kefir performed better on two measures of memory called misplacement and object-location binding. The researchers did not observe changes in depression scores in either group.
It’s important to note that more than 50 percent of participants in the study had a post-graduate degree, which could skew these results. Future studies in larger and more diverse populations are needed to better understand the effects of probiotics on the brain.
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Consumption of dairy products – especially high fat products – linked to lower risk of developing diabetes and high blood pressure. www.eurekalert.org
Metabolic syndrome is a constellation of disorders that includes high blood pressure, high blood sugar, excess abdominal fat, and abnormal cholesterol and triglyceride levels. Having metabolic syndrome increases a person’s risk for developing cardiovascular disease, diabetes, and premature death. An estimated one billion people worldwide have metabolic syndrome. Findings from a new study indicate that dairy product intake is associated with a lower prevalence of metabolic syndrome and its complications.
Dairy products comprise a wide range of foods derived from the milk of cows, sheep, goats, and others. They provide protein, carbohydrates, fats, vitamins, and minerals. Full-fat dairy products are high in saturated fat. The nutritional benefits of dairy products are hotly debated.
The study drew on data from the Prospective Urban Rural Epidemiology study, which involved participants between the ages of 35 and 70 years living in Africa, Asia, Europe, and North and South America. The authors of the study first conducted a cross-sectional analysis involving nearly 113,000 people to determine whether there was an association between dairy intake and prevalence of metabolic syndrome. The participants completed food frequency questionnaires that provided information about their dietary intake, including dairy products.
Analysis of the questionnaires revealed that people who consumed two or more servings of dairy products per day were 24 percent less likely to have metabolic syndrome. If they consumed two or more servings of high fat dairy products (instead of low fat) per day, they were 28 percent less likely to have metabolic syndrome.
The study authors also conducted a prospective analysis to determine whether there was an association between dairy intake and the incidence of hypertension and diabetes. They reviewed data from nearly 190,000 participants. People who consumed three or more servings of dairy products per day were as much as 14 percent less likely to develop the two conditions. The associations were stronger when the people consumed full fat dairy products (instead of low fat).
High fat dairy products include full fat milk, full fat yogurt, and cheese. Cheese, in particular, contains spermidine, a compound that serves as a calorie restriction mimetic, capable of inducing autophagy even in the setting of sufficient nutrient intake. Watch this clip with autophagy expert Dr. Guido Kroemer in which he describes this phenomenon.
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Fish oil supplementation provides protection against fine particulate air pollution www.onlinejacc.org
An estimated 4.2 million deaths each year, many of which are cardiovascular disease-related, are associated with exposure to air pollution. The mechanisms that drive this association include systemic inflammation, endothelial dysfunction, oxidative stress, hypertension, and metabolic dysfunction. Findings from a recent study suggest that supplemental omega-3 fatty acids may reduce the risk of cardiovascular disease-related death associated with exposure to particulate air pollutants.
Particulate matter in air pollution is a mixture of solid particles and liquid droplets. It is present in fine inhalable particles, with diameters that are generally 2.5 micrograms (PM2.5) or less. The daily standard for PM2.5 in the United States is 35 micrograms per cubic millimeter per day, as long as the average annual exposure is less than 12 micrograms per cubic millimeter daily.
Omega-3 fatty acids, especially eicosapentaenoic acid (EPA) and docosahexaenoic acid (DHA), which are derived from marine sources, elicit a wide array of health benefits. The American Heart Association recommends that people who have coronary heart disease consume approximately 1 gram of DHA and EPA daily in foods or supplemental form.
The randomized, double-blind study involved 65 healthy students attending Fudan University in Shanghai, China. Participants received either a 2.5-gram EPA- and DHA-rich fish oil supplement or a placebo daily for a period of four months. The authors of the study measured PM2.5 levels throughout the study. They also collected blood samples from the participants to assess levels of 18 cardiovascular disease-related biomarkers.
The average PM2.5 level during the study period was 38 micrograms per cubic millimeter. Whereas the participants who took the fish oil supplement had biomarker profiles that were cardioprotective, the participants who took the placebo had biomarker profiles associated with inflammation and cardiovascular disease. In particular, taking the fish oil supplement was associated with having higher levels of glutathione peroxidase (an enzyme that protects against oxidative stress) but the supplement was associated with having higher levels of C-reactive protein (a driver of inflammation).
These findings suggest that the intake of fish oil supplements rich in EPA and DHA may provide cardiovascular protection to people living in areas of high air pollution.
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Fish oil supplementation may improve night vision medicalxpress.com
The eyes' ability to adjust to changes in illumination, referred to as light and dark adaptation, varies between individuals. Dark adaptation, in particular, is critical to survival in low light and is responsible for what is commonly referred to as “night vision.” A recent study indicates that supplementation with omega-3 fatty acid-rich fish oil may improve night vision in humans.
Omega-3 fatty acids are polyunsaturated fats that are essential for human health. They include alpha-linolenic acid (ALA), eicosapentaenoic acid (EPA), and docosahexaenoic acid (DHA). ALA is found mainly in plant oils such as flaxseed, soybean, and canola oils. DHA and EPA are found in fish and other seafood. The human body can convert some ALA into EPA and then to DHA, but the process is very inefficient. Omega-3 fatty acids accumulate in the human retina and play instrumental roles in vision.
The study involved 20 adults who took four omega-3 fatty acid-rich fish oil supplements three times daily, providing approximately 3 grams of EPA and 1 gram of DHA, for four weeks. Six weeks after the last supplementation, the participants' blood concentrations of omega-3 fatty acids were measured and their ability to adjust to low light was assessed.
Participants who took EPA/DHA-rich fish oil supplements for four weeks demonstrated a 25 percent improvement in their ability to identify numbers in low light, compared to those who took a placebo. These changes in visual acuity were attributed to increased levels of omega-3 fatty acids in the participants' blood.