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Geriatric Malnutrition Richard Allan Bettis, Fourth-Year Pharm.D. Candidate Preceptor: Dr. Ali Rahimi University of Georgia College of Pharmacy Background A frequent and common condition in the elderly associated with: Increased morbidity Increased mortality Increased hospitalizations Reduced quality of life Frequency Occurs in 5-10% of older patients residing in nursing homes or long-term care facilities Occurs in up to 50% of older patients when discharged from the hospital Most reversible or treatable causes of undernutrition are frequently overlooked by physicians Background Undernutrition or malnutrition can be a result of two likely scenarios: Protein energy wasting characterized primarily by weight loss Individual nutrient deficiencies characterized by a lack of single nutrients and seen more commonly in older persons The Body & Energy Total energy expenditure based upon an individual’s basal metabolic rate (or BMR) Energy required for physical activity and creating fuel reserves after feeding Dependent upon age, weight, gender, and activity level Energy & Aging BMR decreases with age regardless of constant body weight Result of muscle tissue replacement by less metabolically active adipose tissue Energy & Nutrients Protein, carbohydrates, and fat account for a percentage of total calories to meet nutritional needs Energy & Nutrients Energy yield varies between different types of foods Energy & Proteins More energy from protein is highly encouraged and supported The Body & Energy Metabolic fuels in excess of energy expenditure results in obesity A lack of metabolic fuel to supply energy expenditure results in emaciation, wasting, marasmus, kwashiorkor Both situations are associated with increased mortality Nutrient Deficiency A lack of single nutrients resulting in less common disease states Very rarely seen in developed countries except occasionally in older persons Weight Loss & Mortality When older patients lose weight they have a doubling in their risks for death Even if the patient is overweight! Weight loss increases likelihood of: Hip fractures Institutionalization Downward spiral of negative events Weight loss is the best sign of treatable undernutrition Caregiver Perceptions Weight loss is the best sign of treatable undernutrition or malnutrition Nutritional Status There is no gold standard for diagnosis of malnutrition There are several quick assessment tools Nutritional Assessment Tools Mini-Nutritional Assessment (MNA) Most established screening tool for older adults Difficult to distinguish between patients at risk for malnutrition and frailty Not applicable if patients are noncommunicable Nutritional Assessment Tools Simplified Nutritional Assessment Questionnaire (SNAQ) High sensitivity and specificty to detect weight loss over next 6 months Malnutrition Universal Screening Tool (MUST) Uses BMI, weight loss, and an acute disease effect score Predictor of mortality and length of stay in hospital Simplified Nutritional Assessment Questionnaire (SNAQ) Nutritional Assessment Tools Nutritional Risk Screening (NRS) Proposed universal screening tool for malnutrition in hospitalized patients Assesses BMI, weight loss, appetite, and severity of disease Applicable to more types of patients Nutritional Markers Serum protein assays Albumin, prealbumins, retinol binding proteins Not specific to detect malnutrition or changes in nutritional status Reductions in these proteins are better indicators of illness Nitrogen Balance Normally at equilibrium Intake = output No change in total body content of protein Positive nitrogen balance Growing children, pregnancy, recovery from protein loss Excretion of nitrogenous compounds is less than intake Net retention of nitrogen is in the body as protein Nitrogen Balance Nitrogen balance studies show consuming more than 14% of energy source from protein is more than enough to increase muscle protein synthesis Amino Acids Essential Cannot be synthesized in the body If any of these are lacking, then nitrogen balance will not be possible Histidine, isoleucine, leucine, lysine, methionine, phenylalanine, threonine, tryptophan, and valine Non-essential Can be synthesized from the body or from essential amino acids Not necessary for nitrogen balance Weight Loss Complications Severe weight loss leads to protein malnutrition and a downward spiral of adverse effects Loss of weight also leads to loss of: Fat Muscle Bone Albumin Weight Loss Cause A lack of metabolic fuel to supply energy expenditure results in weight loss, emaciation, and wasting Weight Loss Causes Six major causes of weight loss in older patients: Anorexia Cachexia The Sarcopenia “Triple Threat” Malabsorption Hypermetabolism Dehydration “Anorexia of Aging” Anorexia is an independent predictor of mortality Reduction in food intake as individual’s age Males – 30% Females – 20% Causes of anorexia in older patients are multifactorial Physiological Psychological Drug or disease induced “Anorexia of Aging” Causes of anorexia in older patients are multifactorial Physiological Psychological Depressed or cognitively impaired patients Disease or drug induced Decreased appetite due to acute disease or medication effects “Anorexia of Aging” Physiological changes Decrease in taste and olfaction resulting in decreased enjoyment of food Decrease in gastric emptying resulting in early satiation signals Changes in gut hormones involved in (satiety or feelings of fullness) Gut Hormones “Anorexia of Aging” Gut hormone changes and contribution to anorexia Increase in cholecystokinin (CKK) release and sensitivity resulting in greater satiating effects Increase in leptin levels resulting in increased satiety after meals Reduced sensitivity to ghrelin associated with reductions in hunger sensation “Anorexia of Aging” Anorexia is multifactoral Causes of Weight Loss Six major causes of weight loss in elderly: Anorexia Cachexia The Sarcopenia “Triple Threat” Malabsorption Hypermetabolism Dehydration Cachexia Severe wasting disorder characterized by loss of both fat and muscle Caused by effects from the overproduction of pro-inflammatory cytokines resulting from a variety of illnesses Marked by changes in other markers: Increases C-reactive protein Decreases serum albumin Causes anemia Cytokine Overproduction Usually overlapped with anorexia and sarcopenia in older individuals Increases resting metabolic rate resulting in higher metabolic demands Decreases both gastric emptying and intestinal motility Causes of Weight Loss Six major causes of weight loss in older patients: Anorexia Cachexia The Sarcopenia “Triple Threat” Malabsorption Hypermetabolism Dehydration In Greek, translates literally to “poverty of flesh” Characterized by muscle atrophy and a loss of muscle functionality Associated with aging and prevented by exercise Sarcopenia The “Triple Threat” Causes of Weight Loss Six major causes of weight loss in older patients: Anorexia Cachexia Sarcopenia Malabsorption Hypermetabolism Dehydration Malabsorption Most commonly caused by celiac disease and pancreatic insufficiency in older patients Serum levels of vitamin A and beta-carotene used to diagnose fat malabsorption Screenings for various immunoglobins and antibodies used to diagnose celiac disease Causes of Weight Loss Six major causes of weight loss in older patients: Anorexia Cachexia Sarcopenia Malabsorption Hypermetabolism Dehydration Hypermetabolism When energy demand exceeds nutrient intake Most commonly caused by hyperthyroidism and pheochromocytoma in older patients Hypermetabolism Apathetic hyperthyroidism Weight loss Atrial fibrillation Proximal muscle weakness Blepharoptosis (not exophthalmos) Pheochromocytoma Adrenal gland tumor Consider if hypertensive and losing weight Causes of Weight Loss Six major causes of weight loss in older patients: Anorexia Cachexia Sarcopenia Malabsorption Hypermetabolism Dehydration Dehydration Reduced total body water Normal daily fluid requirement is 30ml/kg body mass “Anorexia of Aging” Causes of anorexia in older patients are multifactorial Physiological Psychological Drug or disease induced “Anorexia of Aging” Psychological manifestations Reactive depression Change in living conditions Food refusal behaviors All are not uncommon and can lead to weight loss and malnutrition Depression Most common cause of treatable anorexia in community and institutional settings Late-life depression is significantly underdiagnosed in older persons Corticotropin-releasing hormone (an anorexogenic) is elevated in patients with depression Relocation Change in living conditions evokes psychological anorexic responses Late-onset paranoia Fear of poisoning Indirect self-destructive behavior (ISDB) An unconscious method of suicide May be due to trauma of relocation Food Refusal Behaviors Most prevalent in cognitively impaired Common in demented elderly patients due to agnosia or dyspraxia Difficulty interpreting sensory data and not recognizing an object as food Difficulty with motor movements and unable to open mouth despite intentions to Common refusal behaviors in intermediatestage Alzheimer’s patients would be: Distraction from eating Verbal refusal to eat Food Refusal Behaviors Deliberate refusal Indirect self-destructive behavior (ISDB) Reflexive withdrawal behavior Dislike of a certain food Protest against certain caregiver It is crucial to distinguish between refusal to eat and lack of ability to eat Patients with dysphagia may refuse food Indirect self-destructive behavior (ISDB) ‘‘The grandfather, 81, one day removed his false teeth and announced that he was no longer going to eat or drink. Three weeks later, to the day, he died.” Management Nutrition Refusals Energy Wasting & Weight Loss The basics: Provide adequate food supplementation Early on: Food variety High calorie food Calorie supplements Focus on: Diagnosing causes Treating treatable causes “Anorexia of Aging” Common causes of pathological and treatable anorexia in the elderly: Depression Medications Therapeutic diets Cancer Uncontrolled pain Treatable Causes Management Calorie supplementation decreases mortality and hospital lengths of stay Cachexia shown to be responsive to protein calorie supplementation Increase in 6-minute walks Decreased hospitalizations When? Oral calorie supplements between meals Avoid supplementing calories during meals Reduction in food intake No net increase in total caloric ingestion How? Environmental considerations Improve food taste Avoid therapeutic diets with limited justification Allow extra time to eat during mealtimes Spend time feeding impaired patients Other aesthetic considerations Behavioral modifications Improve quality of relationships between patient and feeder Use touch or verbal cueing What Else? Orexigenic medications available to stimulate appetite Megestrol acetate Dronabinol Testosterone Megestrol Acetate Orexigenic agent with mechanisms to increase food intake and cause weight gain Progestational agent Corticosteroid activity Mild testosterone-like activity More effective in women than men Reduces cytokine activity Megestrol Acetate Side effects Deep vein thrombosis Severe constipation in older patients Fluid retention Not recommended for sedentary patients Not recommended for use >3 months at one time Synergistic effects when combined with olanzapine Dronabinol Orexigenic agent and extract of tetrahydrocannabinol (THC) with mechanisms to produce small increases in appetite and weight gain Used in palliative care settings: Reduces nausea Increases enjoyment of both food and life Other Agents Testosterone Produces weight gain Decreases hospitalizations in frail older patients Used in combination with caloric supplementation Agents with roles in cachexia treatment Low dose steriods (5mg prednisone daily) Selective androgen receptor modulators (ostarine) Activin IIR decoy antibodies Myostatin antibodies Medications Medications can cause weight loss by: Affecting food intake Diminishing appetite Causing nausea, vomiting, or GI irritation Altering taste and smell Induce depression Should consider using a minimum effective dose or discontinuing medications opposing weight gain or caloric supplementation Medications Some medications may cause anorexia Theophylline Digoxin Neuroleptics SSRIs Nutritional Rehabilitation Specialized nutrition regarded as a last resort Parenteral feeding Enteral feeding Overused in the U.S. especially in patients with dementia No evidence of a reduction in mortality or improvements of quality of life Specialized Nutrition Only small fraction of malnourished patients will benefit from specialized nutritional support (or SNS) In elderly or chronically ill patients the decision to specialty feed is based upon whether or not quality of life will be extended Multiple considerations before decision to implement SNS Algorithm Will quality of life be extended? Specialized Nutrition Enteral or “tube feeding” Tube placed into the gut to deliver liquid formulations which contain all essential nutrients Parenteral or “intravenous feeding” Infusion of nutrient solutions directly into the bloodstream via peripherally located or centrally located vein Both associated with risk and discomfort Both difficult to stop once started Specialized Nutrition Risk Safest route is to avoid SNS Closely monitor and ensure adequate oral food intake Adding oral liquid supplement Using an appetite stimulant in eligible patients Enteral Feeding Preferred route – “If the gut works, then use it” Maintains gut functionality Less risk for infection Intestinal tolerance limited by gastric retention or diarrhea Often required in patients with: Anorexia Impaired swallowing or dysphagia Bowel disease Parenteral Feeding Less preferred route Greater risk for infection Higher chance of inducing hyperglycemia Often required in patients with: Prolonged ileus or obstruction Severe hemorrhagic pancreatitis Electrolytes & Specific Nutrients Trace Metals Ethics & Controversy Food refusals Distinguishing between competent and demented patients Identifying reversible symptoms such as unmanaged pain or depression Caregiver decision to force feed patients Ethics & Legality Enteral and parenteral feeds Ordinary care or other medical treatment? A patient has the right to refuse? Supportive care while starving? Management Undernutrition or malnutrition can be a result of two likely scenarios: Individual nutrient deficiencies characterized by a lack of single nutrients and seen more commonly in older persons Protein energy wasting characterized primarily by weight loss Nutrient Deficiencies The basics: Replace the target nutrient Prevention is key Important deficiencies in older patients: Vitamin D Iron Folate B-12 Zinc Vitamin D Deficiency Associated with fractures, muscle loss, falls, and increased mortality 25-hydroxy vitamin D levels are gradually reduced as part of the aging process Levels are <30ng/mL in many older patients Replacement of 800-1000 IU daily is appropriate for most older patients Iron Deficiency Most commonly associated with iron deficient anemia Characterized by low iron and ferritin levels Once daily oral replacement for 6 weeks is appropriate for most older patients Reticulocyte count after 1 week of therapy Parenteral products may be necessary if no increase in reticulocytes (likely due to malabsorption) Folate & B12 Deficiencies Most commonly associated with Both deficiencies characterized by elevated homocysteine levels Methymalonic acid specific for B12 deficiency Oral or injectable replacement is appropriate for most older patients Vitamin B12 1000 IU orally every day or 1000IU weekly injections x 4weeks Zinc Deficiency Most commonly associated with: Diabetics Cancer patients Individuals receiving diuretics Role of replacement is uncertain Recommended Intakes Vitamin D Supplementation Thank you ! 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