Table of contents
- Processed and Unprocessed Red Meat Consumption and Risk for Type 2 Diabetes Mellitus: An Updated Meta-Analysis of Cohort Studies - Oct 2021
- Replacing the consumption of red meat with other major dietary protein sources and risk of type 2 diabetes mellitus: a prospective cohort study - Oct 2020
- Meat Consumption as a Risk Factor for Type 2 Diabetes - 2014
- VitaminDWiki pages with MEAT in title (9 as of Oct 2022)
- VitaminDWiki - Overview Diabetes and vitamin D contains
- VitaminDWiki -
29 Diabetes and Magnesium studies - How excess dietary saturated fats induce insulin resistance – Oct 2021
Processed and Unprocessed Red Meat Consumption and Risk for Type 2 Diabetes Mellitus: An Updated Meta-Analysis of Cohort Studies - Oct 2021
Int. J. Environ. Res. Public Health 2021, 18(20), 10788; https://doi.org/10.3390/ijerph182010788by Rui Zhang et al
Type II diabetes mellitus (T2DM) is a metabolic disorder that occurs in the body because of decreased insulin activity and/or insulin secretion. The incidence of T2DM has rapidly increased over recent decades. The relation between consumption of different types of red meats and risk of T2DM remains uncertain. This meta-analysis was conducted to quantitatively assess the associations of processed red meat (PRM) and unprocessed red meat (URM) consumption with T2DM. We searched PubMed, Embase, Web of Science and The Cochrane Library for English-language cohort studies published before January 2021. Summary relative risks (RR) with 95% confidence interval (CI) were estimated using fixed effects and random effects. Additionally, dose–response relationships were explored using meta-regression.
Fifteen studies (n = 682,963 participants cases = 50,675) were identified. Compared with the lowest intake group, high consumption of PRM and URM increased T2DM risk by 27% (95% CI 1.15–1.40) and 15% (95% CI 1.08–1.23), respectively. These relationships were consistently strongest for U.S-based studies, though the effects of sex are inconclusive. In conclusion, PRM and URM are both positively associated with T2DM incidence, and these relationships are strongest in the U.S. reduction of red meat consumption should be explored as a target for T2DM prevention initiatives
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Replacing the consumption of red meat with other major dietary protein sources and risk of type 2 diabetes mellitus: a prospective cohort study - Oct 2020
The American Journal of Clinical Nutrition, Volume 113, Issue 3, March 2021, Pages 612–621, https://doi.org/10.1093/ajcn/nqaa284
Anne Mette L Würtz, Marianne U Jakobsen, Monica L Bertoia, Tao Hou, Erik B Schmidt, Walter C Willett, Kim Overvad, Qi Sun, JoAnn E Manson, Frank B Hu ..etc
Background
Greater consumption of red meat has been associated with a higher risk of type 2 diabetes mellitus (T2DM). A decreased intake of red meat and simultaneous increased intake of other high-protein foods may be associated with a lower risk of T2DM. These analyses of specific food replacements for red meat may provide more accurate dietary advice.
Objective
We examined the association between a decrease in intake of red meat accompanied by an increase in other major dietary protein sources and risk of T2DM.
Methods
We prospectively followed 27,634 males in the Health Professionals Follow-up Study, 46,023 females in the Nurses’ Health Study, and 75,196 females in the Nurses’ Health Study II. Diet was assessed by a validated FFQ and updated every 4 y. Cox proportional hazards models adjusted for T2DM risk factors were used to model the food replacements. We calculated HRs and 95% CIs for the T2DM risk associated with replacements of 1 daily serving of red meat with another protein source.
Results
During 2,113,245 person-years of follow-up, we identified 8763 incident T2DM cases from 1990 to 2013. In the pooled analyses, a decrease in total red meat intake during a 4-y period replaced with another common protein food was associated with a lower risk of T2DM in the subsequent 4-y period. The HR (95% CI) per 1 serving/d was 0.82 (0.75, 0.90) for poultry, 0.87 (0.77, 0.98) for seafood, 0.82 (0.78, 0.86) for low-fat dairy, 0.82 (0.77, 0.86) for high-fat dairy, 0.90 (0.81, 0.99) for eggs, 0.89 (0.82, 0.98) for legumes, and 0.83 (0.78, 0.89) for nuts. The associations were present for both unprocessed and processed red meat, although stronger for the replacement of processed red meat.
Conclusions
Replacing red meat consumption with other protein sources was associated with a lower risk of T2DM.
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Meat Consumption as a Risk Factor for Type 2 Diabetes - 2014
Nutrients 2014, 6(2), 897-910; https://doi.org/10.3390/nu6020897
Neal Barnard, Susan Levin. Caroline Trapp
Disease risk factors identified in epidemiological studies serve as important public health tools, helping clinicians identify individuals who may benefit from more aggressive screening or risk-modification procedures, allowing policymakers to prioritize intervention programs, and encouraging at-risk individuals to modify behavior and improve their health. These factors have been based primarily on evidence from cross-sectional and prospective studies, as most do not lend themselves to randomized trials. While some risk factors are not modifiable, eating habits are subject to change through both individual action and broader policy initiatives. Meat consumption has been frequently investigated as a variable associated with diabetes risk, but it has not yet been described as a diabetes risk factor. In this article, we evaluate the evidence supporting the use of meat consumption as a clinically useful risk factor for type 2 diabetes, based on studies evaluating the risks associated with meat consumption as a categorical dietary characteristic (i.e., meat consumption versus no meat consumption), as a scalar variable (i.e., gradations of meat consumption), or as part of a broader dietary pattern.
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VitaminDWiki pages with MEAT in title (9 as of Oct 2022)
This list is automatically updated
Items found: 10
VitaminDWiki - Overview Diabetes and vitamin D contains
- Diabetes is 5X more frequent far from the equator
- Children getting 2,000 IU of vitamin D are 8X less likely to get Type 1 diabetes
- Obese people get less sun / Vitamin D - and also vitamin D gets lost in fat
- Sedentary people get less sun / Vitamin D
- Worldwide Diabetes increase has been concurrent with vitamin D decrease and air conditioning
- Elderly get 4X less vitamin D from the same amount of sun
Elderly also spend less time outdoors and have more clothes on - All items in category Diabetes and Vitamin D
551 items: both Type 1 and Type 2 Vitamin D appears to both prevent and treat diabetes
- Appears that >2,000 IU will Prevent
- Appears that >4,000 IU will Treat , but not cure
- 90% less T2 Diabetes in the group having lots of Vitamin D
- Appears that Magnesium helps both Prevention and Treatment
- Many diabetics would be better treated if Gut-Friendly Vitamin D were used
Number of articles in both categories of Diabetes and:
- Dark Skin
24 ; Intervention 56 ; Meta-analysis 40 ; Obesity 36 ; Pregnancy 44 ; T1 (child) 39 ; Omega-3 11 ; Vitamin D Receptor 24 ; Genetics 13 ; Magnesium 29 Click here to see details Some Diabetes studies
- Take Vitamin D to prevent prediabetes from progressing into diabetes – American Diabetic Association – 2024
- Diabetes and Vitamin D meta-analyses - many studies 39+ as of Nov 2024
- 99.7% of people who got Diabetes had been regularly consuming food emulsifiers - May 2024
- Type 2 Diabetes treated by Vitamin D (often 50,000 IU weekly) – meta-analysis July 2023
- Diabetic inflammation synergistically decreased by Vitamin D and exercise – RCT June 2022
- Incidence of Type-2 Diabetes increased 3X in 30 years (by the way, Vitamin D helps) – July 2022
- Vitamin d treats Type II Diabetes in many ways (14 article review) - Sept 2021
- T2 Diabetes 30 percent more likely if poor Vitamin D Receptor – meta-analysis of 47 studies – July 2021
50 ng of Vitamin D fights Diabetes
- Saudi study defines normal Vitamin D level to be 50 to 70 ng (diabetes, etc.) - June 2020
- Diabetes 5X less likely if more than 50 ng of Vitamin D – April 2018
T1 Diabetes
- T1 Diabetes 3X lower risk if high vitamin D (over 40 ng) – Meta-analysis Nov 2020
- Type 1 Diabetes is prevented and treated by Vitamin D – review of 16 studies – Sept 2019
- Type 1 Diabetes prevention with Vitamin D and Omega-3 – Symposium April 2019
Pre-Diabetes
- 4X reduction in prediabetes progressing to T2D if more than 50 ng of vitamin D – RCT March 2023
- Prediabetes reduced by weekly 60,000 IU of Vitamin D – RCT Jan 2021
- Prediabetes 1.5 X more likely to go away if take Vitamin D – meta-analysis July 2020
Diabetes, Metabolic Syndrome and Magnesium - many studies
VitaminDWiki -
29 Diabetes and Magnesium studies This list is automatically updated
- Retinopathy in males 6.9 X more likely if low vitamin D and low Magnesium - June 2024
- Magnesium Depletion Score predicts increased risk of various health problems
- High fluoride in water: 5X more likely to be Vitamin D deficient – Jan 2023
- Diabetes, Metabolic Syndrome and Magnesium - many studies
- More Magnesium needed to decrease diabetes, cardio, HT (body weight has increased) - March 2021
- Treating pre-diabetes with Magnesium Chloride should be cost effective – June 2022
- Reduced Magnesium is associated with reduced health (Diabetes in this case) - April 2022
- Magnesium in Obesity, Metabolic Syndrome, and Type 2 Diabetes - Jan 2021
- The Role of Magnesium in the Pathogenesis of Metabolic Disorders – April 2022
- Magnesium fights diabetes (yet again)– meta-analysis Nov 2021
- Excessive insulin decreases vitamin D in 4 ways – problems for diabetic COVID-19 – Dec 2020
- Low Magnesium associated with diabetes, etc. – meta-analysis 2016
- Low Level Laser Therapy greatly increased Vitamin D and Magnesium (for diabetics with nephropathy) – March 2019
- Young Diabetics had 3.8 X higher risk of Parkinson’s (perhaps low Mg or low Vitamin D)– June 2018
- Cardiometaboic problems decreased with increased Vitamin D, unless low Magnesium – Aug 2017
- Diabetes 29 % less likely if consume lots of Magnesium and cereal fiber (surveys of 200,000 people) – Oct 2017
- Magnesium is associated with prevention and treatment of Diabetes – Meta-analysis Aug 2016
- Type 2 diabetes associated with low Magnesium
- MAGNESIUM IN MAN - IMPLICATIONS FOR HEALTH AND DISEASE – review 2015
- More vitamin D makes for better health – dissertation based on Rotterdam studies – Oct 2015
- Prediabetes reduced in half by those getting Magnesium Chloride – RCT April 2015
- Type II Diabetes might be prevented and treated with Magnesium – Review Feb 2015
- Diabetes decreased with 300 mg of Mg (Mg Sulfate) – RCT July 2014
- Daily Magnesium improved all aspects of metabolic profile – RCT July 2014
- Diabetes and low Magnesium - Mercola 2014 - 2019
- Diabetics have problems with low Magnesium, especially if taking statins – Aug 2013
- Low Magnesium and type II diabetes – June 2012
- Hypothesis: Decreasing Magnesium and increasing CaMg ratio are increasing health problems – 2012 - 2013
- Reduced chance of diabetes 46 percent with Magnesium - Oct 2010
It appears that a good level of vitamin D and Magnesium reduces risk more than by not eating meat
Both appear to treat diabetes as well
How excess dietary saturated fats induce insulin resistance – Oct 2021
International Journal of Translational Science DOI: 10.36879/IJTS.21.000104
Steve Blake Director of Nutritional Neuroscience, Maui Memory Clinic, USA, Dustin RudolpExcess dietary saturated fatty acids can increase the risk of and progression of type 2 diabetes. We will explore the mechanisms by which excess saturated fatty acids can reduce insulin sensitivity, suppress insulin production of beta cells through glucolipotoxicity, raise blood glucose, and lessen energy production in cells.
Higher dietary saturated fatty acids, especially palmitic acid, can reduce the number of insulin receptors to approximately one-half of their normal number. This contributes to hyperinsulinemia, elevated blood glucose, and reduced mitochondrial energy production. Higher dietary saturated fatty acids also interfere with the signaling between the insulin receptor and the glucose transporter. This reduces the amount of glucose that can enter the cell and increases the risk of elevated blood glucose. Excess dietary saturated fatty acids have been found to suppress insulin production of beta cells and also to stimulate apoptosis of beta cells. Higher dietary saturated fatty acids can reduce the ability of the cells to produce glycogen from glucose, thus lowering energy storage. Finally, higher dietary saturated fatty acids can reduce mitochondrial energy production. Conclusion: Reducing dietary saturated fatty acids may help clear blood of excess glucose in type 2 diabetes.
 Download the PDF from VitaminDWikiRed meat consumption increases risk of Diabetes - many studies147521 visitors, last modified 10 Oct, 2022, This page is in the following categories (# of items in each category)Attached files
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