INTRODUCTION TO NUTRITIONAL KETOSIS AND CLINICAL APPLICATIONS

INTRODUCTION TO NUTRITIONAL KETOSIS AND CLINICAL APPLICATIONS Jeff S. Volek, Ph.D., R.D. Professor Department of Human Sciences Kinesiology Program Columbus, OH 43210 volek.1@osu.edu

LEARNING OBJECTIVES 1. Review the concept of ketogenesis, nutritional ketosis, and keto-adaptation 2. Discuss potential avenues for ketogenic diets in clinical practice 3. Learn about the potential for ketogenic approaches in exercise and physical performance

Principle of Human Carbohydrate Intolerance Stems from >2 million years of evolution when most humans had limited exposure to sugars/starches Now that carb-based foods are ubiquitous, most of us show signs of metabolic dysfunction For a few, a modest carbs suffices to prevent overt illness But in many, metabolic correction requires greater carb restriction that results in KETO-ADAPTATION

Ketogenesis TG Displace glucose

100% 80% 60% 40% 20% 0% Fed Starvation

Ketone Terminology Ketosis Nutritional Ketosis Keto- Acidosis Keto- Adaptation Hepatically-derived energy containing substances derived from fatty acids that provide fuel to nearly every cell in the body Process of accelerating production of ketones through restriction of carbohydrate A dangerous side effect of Type I diabetes A health-promoting process of shifting to using predominately fat

Optimal Fuel Flow for Brain and Muscles Keto-Adaptation happens when you are in this zone over consecutive weeks Nutritional Ketosis Begins Optimal Ketone Zone Post-Exercise Ketosis Starvation Ketosis Ketoacidosis 0 0.5 1.0 1.5 2.0 2.5 3.0 5.0 10+ Blood Ketones (millimolar)

Keto-Adaptation A metabolic blue print hard-wired into our genetic code that sustains optimum fuel flow to all organs (including the brain) through use of pathways humans have acquired >2 million years as hunters/gatherers/herders.

High-Carb Diet 2x Ketogenic Diet Enhanced fat oxidation facilitates weight loss & broad spectrum health benefits

60 50 Orn Ornish diet SAD Standard American Diet Carbs (%) 40 30 20 10 Medit WFKD Mediterranean diet Paleo Generally accepted upper threshold of Low Carb Paleolithic diet Nutritional Ketosis Space WFKD = Well formulated ketogenic diet 10 20 30 40 Protein (%) 0.8 1.6 2.4 3.2 Protein (g/kg RW) Note: Carbs (%) = Percent of dietary carbs relative to daily energy expenditure Protein (%) = Percent of dietary protein relative to daily energy expenditure Protein (g/kg RW) = Grams of dietary protein relative to reference body weight

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LEARNING OBJECTIVES 1. Review the concept of ketogenesis, nutritional ketosis, and keto-adaptation 2. Discuss potential avenues for ketogenic diets in clinical practice 3. Learn about the potential for ketogenic approaches in exercise and physical performance

The scientific consensus is such that diabetes is a chronic disease that is irreversible. 1 in 4: Americans >65 yr w/ diabetes

the prevalence of prediabetes was 37% to 38% in the overall population, and consequently 49% to 52% of the population was estimated to have either diabetes or prediabetes.

SFA Intake Plasma LDL Heart Disease SFA Intake Carb Intake Metabolic Syndrome???? Suppression of fat oxidation/ketone metabolism Diabetes Poor Health

CARBOHYDRATE PROTEIN FAT

Ubiquitous amounts of carbs is the predominant environmental pressure pushing us toward the insulin resistant phenotype; now over half the population. Carbs Carbs T2D Disease Insulin Resistant Phenotype Keto- Adapted Phenotype Robust Health

Percent Change 10 0 Body Mass Ab Fat TG TG AUC HDL TG/ HDL ApoB ApoB/ ApoA-1 Small LDL Glu Ketogenic Insulin HOMA Leptin Low Fat Total SFA -10-20 -30-40 -50-60 Results after 3 months in 40 subjects with metabolic syndrome randomized to either a ketogenic or low fat diet (Forsythe et al. 2008).

JMIR Diabetes. 2017;2(1):e5, published March 7, 2017.

CLINICAL TRIAL Patients N = 378 262 with type 2 diabetes (T2D) 116 with pre-diabetes Location Greater Lafayette, Indiana T2D Mean Characteristics Starting age: 54 yrs Starting BMI: 41 kg/m2 Starting weight: 257 lbs (117 kg) 67% female

Key Results For the N=262 T2DM participants at 10 wk. Intent to treat analysis & completers analysis. 1.0 87% 56% 75% 91% 20% Average reduction in HbA1c (from 7.6 to 6.6) Eliminated or reduced insulin Reduced HbA1c < 6.5* Of completers experienced clinically significant weight loss of >5% Completed Virta protocol Average reduction in triglycerides * 48% Reduced A1c < 6.5 and eliminated all diabetes medications or used metformin only

Adult Obesity Fatty Liver Pediatric Obesity Cancer Type-2 Diabetes Type-1 Diabetes Autism Polycystic Ovary Syndrome (PCOS) Epilepsy Alzheimer s Disease Parkinson Disease Hypertension/Vascular Function

Less stimulation of insulin, its receptor, and signaling pathways Less generation of reactive oxygen species (ROS) Endogenous inhibitor of HDACs Increased antioxidant defense Greater efficiency in providing cellular energy

LEARNING OBJECTIVES 1. Review the concept of ketogenesis, nutritional ketosis, and keto-adaptation 2. Discuss potential avenues for ketogenic diets in clinical practice 3. Learn about the potential for ketogenic approaches in exercise and physical performance

Tim Olsen Wins 2012 Western States 100 Mike Morton American 24-hr Distance Running Record (172 Miles) Zach Bitter American 100 Mile Track Record Holder (11:47:21)

Froome in 2015 and 2009. When he turned pro in 2007 he weighed 167 pounds. In his 3 Tour de France victories 2013, 2015, & 2016 he has weighed as little as 145 lbs.

All Blacks I switched to a low-carbohydrate/high-fat lifestyle in 202 and was able to win back to back 100 mile races one week apart including setting a course record. The diet has transformed my health and performance. -MIKE MORTON, MASTER SERGEANT US ARMY SPECIAL OPERATIONS COMMAND, AMERICAN 24-HR DISTANCE RUNNING RECORD (172 MILES) Columbu s Crew

Fat Adapted Substrate Oxidation in Trained Elite Runners

Take a deeper look into the keto-adapted athlete LCD Protein 20% Fat 70% Carb 10-12% HCD Fat 25% Protein 15% Carb 60%

Peak Fat Oxidation (g/min) 1.8 1.6 1.4 X = 1.54 1.2 1.0 0.8 0.6 X = 0.67 0.4 0.2 0.0 0 1 2 3 HCD LCD

100% 90% 80% 70% 60% 50% 40% 30% 20% 10% 0% HCD Fat Carbohydrate 100% 90% 80% 70% 60% 50% 40% 30% 20% 10% 0% 0 60 120 150 180 Minutes During Exercise LCD Fat Carbohydrate 0 60 120 150 180

Muscle Glycogen (mmol/kg w.w.) Muscle Glycogen (mmol/kg w.w.) A 180 160 HC LC B 250 140 120 100 * 200 150 80 60 * 100 40 20 0 Baseline IP IP-120 50 0 HC LC BL IP IP-120 BL IP IP-120

SUMMARY 1. Ketosis & keto-adaption are natural, if not preferred, metabolic states for humans 2. Sustained restriction of carbs to achieve nutritional ketosis results in a shift from an insulin-resistant (unhealthy) to a ketoadapted (healthy) phenotype 3. Because it gets at the root cause, ketoadaptation has broad applications for managing disease & promoting health