Мишель Харви - 2-дневная диета

Belliste F et al., ‘Meal frequency and energy balance’, British Journalof Nutrition , 77/1 (1997), S57–70.

Holmback U et al., ‘The human body may buffer small differences in meal size and timing during a 24-hour wake period provided energy balance is maintained’, Journalof Nutrition , 133/9 (2003), 2748–2755.

Nedeltcheva, AV et al., ‘Sleep curtailment is accompanied by increased intake of calories from snacks’, The American Journal of Clinical Nutrition , 89 (2009), 126–133.

Buxton OM et al., ‘Adverse metabolic consequences in humans of prolonged sleep restriction combined with circardian disruption’, Science Translational Medicine, 4/129 (2012),12.

Morgan PJ et al., ‘Efficacy of a workplace-based weight loss program for overweight male shift workers: the Workplace POWER (Preventing Obesity Without Eating like a Rabbit) randomized controlled trial. Preventive Medicine , 52/5 (2011), 317–325.

Halsey LG et al., ‘Does consuming breakfast influence activity levels? An experiment into the effect of breakfast consumption on eating habits and energy expenditure’, Public Health Nutrition , 15/2 (2012), 238–245.

Ratliff J et al., ‘Consuming eggs for breakfast influences plasma glucose and ghrelin, while reducing energy intake during the next 24 hours in adult men’, Nutrition Research , 30/2 (2010)/ 96–1003.

Mason C et al., ‘History of weight cycling does not impede future weight loss or metabolic improvements in postmenopausal women’, Metabolism , 62/1 (2013), 127–136.

Smeets AJ et al., ‘Acute effects on metabolism and appetite profile of one meal difference in the lower range of meal frequency’, British Journal of Nutrition , 99/6 (2008), 1316–1321.

Wing RR et al., ‘Prescribed “breaks” as a means to disrupt weight control effects’, Obesity Research , 11/2 (2003), 287–291.

May et al., ‘Elaborated Intrusion Theory: A Cognitive-Emotional Theory of Food Craving’, Current Obesity Reports , 1 (2012), 114–121.

Campagne DM, ‘The premenstrual syndrome revisited’, European Journal of Obstetrics and Gynecology and Reproductive Biology , 130/1 (2007), 4–17.

Redman LM et al., ‘Metabolic and behavioral compensations in response to caloric restriction: implications for the maintenance of weight loss’, PLoS One 4, e4377 (2009).

Garrow JS et al., ‘Meta-analysis: effect of exercise, with or without dieting, on the body composition of overweight subjects’, European Journal of Clinical Nutrition , 49 (1995), 1–10.

Gill JM et al., ‘Exercise and postprandial lipid metabolism: an update on potential mechanisms and interactions with high-carbohydrate diets (review)’. The Journal of Nutritional Biochemistry, 14/3 (2003), 122–132.

Byberg L et al., ‘Total mortality after changes in leisure time physical activity in 50 year old men: 35 year follow-up of population based cohort’, BMJ338 (2209), b688.

© Canadian Society for exercise Physiology PAR-Q, www.csep.ca

Wilmot EG et al., ‘Sedentary time in adults and the association with diabetes, cardiovascular disease and death: systematic review and meta-analysis’, Diabetologia 55 (2012), 2895–2905.

Dunstan DW et al., ‘Breaking up prolonged sitting reduces postprandial glucose and insulin responses’, Diabetes Care , 35/5 (2012), 976–983.

O’Donovan et al., ‘The ABC of Physical Activity for Health: a consensus statement from the British Association of Sport and Exercise Sciences’, Journal of Sports Sciences , 28/6 (2010), 573–591.

King NA et al., ‘Individual variability following 12 weeks of supervised exercise: identification and characterization of compensation for exercise-induced weight loss’. International Journal of Obesity , 32 (2008), 177–184.

Ainsworth BE et al., ‘2011 Compendium of Physical Activities: a second update of codes and MET values’, Medicine and Science in Sports and Exercise , 43/8 (2011), 1575–1581.

Ismail I et al., ‘A systematic review and meta-analysis of the effect of aerobic vs. resistance exercise training on visceral fat’, Obesity Reviews , 13/1 (2012), 68–91.

Brinkworth GD et al., ‘Effects of a low carbohydrate weight loss diet on exercise capacity and tolerance in obese subjects’. Obesity (Silver Spring), 17/10 (2009), 1916–1923.

Farah NM et al., ‘Effects of exercise before or after meal ingestion on fat balance and postprandial metabolism in overweight men’, British Journal of Nutrition (26 Oct 2012) 1–11.

Sumithran P et al., ‘Long-term persistence of hormonal adaptations to weight loss’, The New England Journal of Medicine , 365/17 (2011), 1597–1604.

Baldwin KM et al., ‘Effects of weight loss and leptin on skeletal muscle in human subjects’, The American Journal of Physiology – Regulatory,Integrative and Comparative Physiology , 301/5 (2011), R1259-R1266.

Hall KD et al., ‘Quantification of the effect of energy imbalance on bodyweight’, The Lancet , 378/9793 (2011), 826–837.

Gomez-Ambrosi J, Silva C, Catalan V, Rodriguez A, Galofre JC, Escalada J et al., ‘Clinical usefulness of a new equitation for estimating body fat’, DiabetesCare , 35/2 (2012), 383–388.

Shea JL, King MT, Yi Y, Gulliver W, Sun G., ‘Body fat percentage is associated with cardiometabolic dysregulation in BMI-defined normal weight subjects’, Nutrition, Metabolism and Cardiovascular Diseases , 229 (2012), 741–747.

Henry Basal, CJK, ‘Metabolic rate studies in humans: measurement and development of new equations’, Public Health Nutrition , 8/7a (2005), 1133–1152.

Krieger JW et al., ‘Effects of variation in protein and carbohydrate intake on body mass and composition during energy restriction: a meta-regression’ The American Journal of Clinical Nutrition 83/2 (2006), 260–274.

http://huhs.harvard.edu/assets/file/ourservices/service_nutrition_fiber.pdf

Plant Fiber in Foods (2nd ed./1990) (HCF Nutrition Research Foundation Inc., PO Box 22124, Lexington, KY 40522).