Primary care physicians encounter two general kinds of malnutrition, protein-energy malnutrition (PEM) and micronutrient (vitamin and mineral) deficiency.

Also known also as ‘hunger disease’, PEM typically develops after a period of prolonged inadequate protein and energy consumption. The cardinal signs of PEM are generalized muscle atrophy and subcutaneous adipose tissue depletion. The pathologic features of PEM emerge when the body's protein reserve, skeletal muscle, has become depleted seriously enough to impair specific physiological functions (table 1). Metabolic adaptation strongly influences the clinical course and prognosis of PEM. Survival is common even in prolonged uncomplicated semi-starvation, thanks to an adaptive reduction in resting and total energy expenditure, which, together with the reduction in the body's metabolically active tissue mass, lowers energy expenditure enough to match the low rate of energy provision. Metabolic adaptation also increases the efficiency of dietary protein assimilation, and modifies endogenous protein turnover to reestablish whole body protein homeostasis despite the subnormal level of protein consumption. Successfully adapted PEM is sometimes referred to as adult ‘marasmus,’ a term borrowed from pediatric medicine, and more recently, as ‘starvation-related malnutrition’. The metabolic response to systemic inflammatory disease, severe injury or severe infection amplifies body protein catabolism and prevents the adaptation to PEM, creating a potentially lethal condition. The terms ‘adult kwashiorkor’ and ‘acute disease or injury-related malnutrition’ are used to describe PEM that is induced or complicated by intense systemic inflammation. The terms ‘cachexia’ or ‘chronic disease-related malnutrition’ refer to partially adapted PEM in the context of chronic mild systemic inflammation, as occurs in inflammatory polyarthritis, advanced renal, liver, heart or pulmonary disease, and some cancers. PEM has a worse prognosis in the elderly, largely because their primary medical or surgical diseases tend to be more serious, and because sarco-penia has already reduced their body protein reserve [1-5].

Several screening tools are available for identifying people who have PEM or are at high risk of developing it [4]. The simple and well-studied Malnutrition Universal Screening Tool (MUST) categorizes a patient's risk of ‘malnutrition’ (and directs the management response) as low, medium, or high, based on a MUST score of 0, 1 or 2. The MUST score is calculated as the sum of points awarded by considering body mass index (BMI, weight/height²): >20, 18.5-20, or <18 (0, 1, or 2 points, respectively), history of involuntary weight loss: <5%, 5-10%, or >10% (0, 1, or 2 points, respectively), and acute illness or no food intake for >5 days (2 points; http://www.scottishintensive-care.org.uk/nutrition/docs/must.pdf).