A Pilot Controlled Feeding Trial Modifying Protein Intake in Healthy Subjects to Assess Adherence and the Metabolome.

Dietary protein has been shown to impact physiology and pathophysiology, including inflammation and cancer, effects believed to occur through host and microbe-mediated mechanisms. However, the majority of studies investigating this concept have been conducted in animal models, with less information on the optimal approach, tolerability and biologic effects of modifying protein intake in humans. The current study presents a longitudinal controlled feeding trial carried out in healthy humans to acutely modulate protein intake using individualized diets.

Modifying dietary amino acids in cancer patients.

Limiting nutrient utilization by cancer cells in order to disrupt their metabolism and suppress their growth represents a promising approach for anti-cancer therapy. Recently, studies demonstrating the anti-neoplastic effects of lowering amino acid (AA) availability have opened up an exciting and quickly growing field of study. Although intracellular synthesis can often provide the AAs necessary to support cancer cells, diet and the tumor microenvironment can also be important sources.

Addressing weight loss recidivism: a clinical focus on metabolic rate and the psychological aspects of obesity.

Obesity in the United States has reached epidemic proportions and has become an unprecedented public health burden. This paper returns to the evidence for metabolic rate set points and emphasizes the clinical importance of addressing changes in metabolic rate throughout the weight loss process. In addition to the importance of clinically attending to the modulation of metabolic rate, the psychological aspects of obesity are addressed as part of the need to holistically treat obesity.