ICAN: Infant, Child, & Adolescent Nutrition http://can.sagepub.com/ Drugs and Appetite : An Overview of Appetite Stimulants in the Pediatric Patient Kathleen Gura and Roselle Ciccone ICAN: Infant, Child, & Adolescent Nutrition 2010 2: 358 DOI: 10.1177/1941406410387925 The online version of this article can be found at: http://can.sagepub.com/content/2/6/358 Published by: http://www.sagepublications.com Additional services and information for ICAN: Infant, Child, & Adolescent Nutrition can be found at: Email Alerts: http://can.sagepub.com/cgi/alerts Subscriptions: http://can.sagepub.com/subscriptions Reprints: http://www.sagepub.com/journalsReprints.nav Permissions: http://www.sagepub.com/journalsPermissions.nav Citations: http://can.sagepub.com/content/2/6/358.refs.html Downloaded from can.sagepub.com by Kathleen Gura on June 25, 2011 December 2010 ICAN: Infant, Child, & Adolescent Nutrition Evidence-Based Practice Reports Drugs and Appetite An Overview of Appetite Stimulants in the Pediatric Patient Kathleen Gura, PharmD, and Roselle Ciccone, PharmD candidate Abstract: A poor appetite can negatively impact growth and neurodevelopment. In some cases, it may be necessary to use pharmacologic agents to stimulate the child’s appetite. Unfortunately, experience using these drugs in the pediatric patient is limited at best. Most agents have side effects that limit their usefulness solely as an appetite stimulant. The purpose of this article is to review the current agents used for this indication in adults and consider the advantages and disadvantages of each when used in a pediatric patient. Other factors such as taste perversion secondary to medication use will also be briefly discussed. Keywords: anorexia; appetite stimulation; cyproheptadine; dronabinol; megesterol L oss of appetite is described as a loss of desire to eat. Significant weight loss can occur and long-term nutrition may be affected, leading to weakness and fatigue that can not only inhibit daily activities but can also lead to malnutrition, consequently increasing the risk of morbidity and mortality. Children with intestinal failure, those who have undergone a transplant, and those who have cancer or cystic fibrosis are often at risk. Pharmacological treatments (Table 1) have been studied extensively in adults for their use as appetite stimulants; however, studies in the pediatric patient are lacking. To date, the most commonly studied syndrome focuses on anorexia/ cachexia in the oncology population. Most of these results have been extrapolated to other groups; however, this disease state is directly associated with several specific chronic physiological processes related to the cancer growth and also sustain weight gain or prevent nausea and emesis, leading to a higher tolerability for food. The primary types of treatment modalities that have been used include agents with orexigenic (appetite stimulating), anticatabolic (antimetabolic and anticytokine), or anabolic (hormonal) properties.1 Unfortunately, most of the evidence to date is limited to adult patients; so use of these agents in the pediatric patient must be done with extreme caution as many have significant “Pharmacological treatments have been studied extensively in adults for their use as appetite stimulants; however, studies in the pediatric patient are lacking.” introduction of chemotherapeutic agents. Thus, it is often difficult to ascertain whether the same results would be seen in other populations. What follows is a review of the evidence surrounding appetite stimulation and the role pharmacological agents may have. It is important to note that some of the agents discussed may not only stimulate appetite but may side effect profiles that can outweigh any potential benefits. Corticosteroids For years, corticosteroids have remained the mainstay of therapy for appetite stimulation. It has been demonstrated that steroid use can cause DOI: 10.1177/1941406410387925. From Children’s Hospital Boston (KG); Northeastern University (RC), Boston, Massachusetts. Address correspondence to Kathleen Gura, Children’s Hospital Boston, 300 Longwood Avenue, Boston, MA 02115; e-mail: [email protected]. For reprints and permissions queries, please visit SAGE’s Web site at http://www.sagepub.com/journalsPermissions.nav. Copyright © 2010 The Author(s) 358 Downloaded from can.sagepub.com by Kathleen Gura on June 25, 2011 How Supplied Tablets: 10, 25, 50, 75, 100, 150 mg Tablets: 4 mg; syrup: 2 mg/5 mL (5% alcohol) Drug (Trade Name) Amitriptyline (Elavil, others) Cyproheptadine (Periactin) Give at bedtime to minimize sedation or drowsiness after dose May give with food to decrease GI upset, may be better choice for those with difficulty sleeping or diarrhea Do not discontinue abruptly; may cause withdrawal symptoms (headache, nausea, malaise) Anticholinergic (urinary retention, worsening of GE reflux, decreased lower esophageal sphincter tone constipation, dry mouth, dizziness, blurred vision) Sedation Arrhythmia, tachycardia, increased QT interval, postural hypotension Downloaded from can.sagepub.com by Kathleen Gura on June 25, 2011 Administer with food (continued) Typical dosing: Children >13 years and adults: 2 mg 4 times/d; may be increased gradually over a 3-week period to 8 mg 4 times/d Others: dry mouth, urinary retention, blurred vision Contraindicated in children with asthma, GI/GU obstruction, glaucoma Antihistamine, may be used to stimulate appetite in anorexia, may also be used for migraine prophylaxis Sedation, headache, seizures; photosensitivity; tachycardia; appetite stimulation, nausea, diarrhea Do not use MAO inhibitors within 14 days of stopping amitryptyline Do not combine with MAO inhibitors or St John’s Wort, additive effect with other CNS depressants CYP 450 substrate—involved in many drug interactions Consider baseline ECG, may choose to follow BP, CBC, ECG with dose changes Caution for use in children with cardiovascular disease, seizures, urinary retention, anorexia, renal or hepatic dysfunction, hyperthyroidism May discolor urine to blue/green Clinical Implications Worsening of depression or suicidal ideation and behavior—should not be used for children with underlying depression unless under supervision of appropriate psychiatric specialist Adverse/Side Effects Examples of Medications That Have Been Used as Appetite Stimulants Table 1. vol. 2 • no. 6 ICAN: Infant, Child, & Adolescent Nutrition 359 360 Downloaded from can.sagepub.com by Kathleen Gura on June 25, 2011 Tablet: 10 mg Capsules (strength varies) Ginger powder Soft gelatin capsule: 2.5, 5, 10 mg; contains sesame oil How Supplied Fluoxymesterone (Androxy) Dronabinol (Marinol) Drug (Trade Name) Table 1. (continued) Typical dose used for appetite stimulation in adult AIDS patients: 2.5 mg twice daily (before lunch and dinner), with dosage adjustments based on efficacy or side effects, up to 20 mg maximum daily Central nervous system: drowsiness, dizziness, vertigo, difficulty concentrating, mood changes, euphoria, detachment, depression, anxiety, paranoia, hallucinations, nervousness, ataxia, headache, memory lapse, seizures, fatigue, nightmares (continued) Use with caution in individuals with a history of bleeding or hemostatic disorders In prepubertal children, perform radiographic examination of the hand and wrist every 6 months May cause amenorrhea in females, hirsutism, acne, testicular atrophy in males Abdominal discomfort, “bad taste,” belching, bloating, flatulence, heartburn, nausea, “pepper-like” esophageal irritation, and transient burning sensation of the tongue have been reported (primarily with powdered forms of ginger) Pregnancy risk factor X: Determine that patient is not pregnant before beginning treatment. Instruct patients of child-bearing age on appropriate contraceptive measures during therapy and for 1 month following therapy. Breast-feeding is contraindicated May accelerate bone maturation without producing compensatory gain in linear growth in children Use with caution in patients with mania or depression as dronabinol may exacerbate these conditions Tolerance to CNS side effects usually occurs in 1 to 3 days of continued use; tachyphylaxis and tolerance does not appear to develop Reduce dosage in patients with severe hepatic impairment Use with caution in patients with seizure disorders (may lower seizure threshold) Pediatric dosing not established for this indication but doses of 5 mg 3 or 4 times daily has been used as an antiemetic Take before meals to stimulate appetite Reduce dosage in patients with significant hepatic dysfunction Drug interaction/additive sedative effects with MAO inhibitors, other CNS depressants and anticholinergics Clinical Implications Cardiovascular effects: orthostatic hypotension, tachycardia, palpitations, hypotension, flushing Adverse/Side Effects ICAN: Infant, Child, & Adolescent Nutrition December 2010 Tablets: 20 mg, 40 mg; Suspension: 40 mg/mL; Megace ES: suspension: 125 mg/mL Tablets: available in variety of strengths Melatonin How Supplied Megesterol (Megace) Drug (Trade Name) Table 1. (continued) A synthetic progestin: may be recommended for appetite stimulation in patients with significant anorexia, failure to thrive, or cachexia Typical dosing as an appetite stimulant in cachexia: titrate dosage to response; decrease dose if weight gain is excessive Flatulence, dyspepsia rash, fever, hypertension, insomnia, hyperglycemia Photosensitivity reaction possible Downloaded from can.sagepub.com by Kathleen Gura on June 25, 2011 Adults experience about a 37% decline in daily melatonin output between 20 and 70 years of age Excessive dosages may cause morning sedation or drowsiness (continued) Melatonin is the primary sleep-regulating hormone of the body; it is secreted in concert with normal day/night cycles No known toxicity or serious side effects reported Megace ES is not equivalent mg per mg with other megestrol formulations (625 mg Megace ES is equivalent to 800 mg megestrol tablets or suspension); suspensions contain alcohol Clinical cases of new onset diabetes mellitus, exacerbation of preexisting diabetes mellitus, and overt Cushing syndrome have been reported in association with the chronic use of megestrol acetate Evidence of adrenal suppression has been observed in patients receiving megestrol acetate oral suspension May lead to adrenocortical insufficiency if withdrawn abruptly Contraindicated in pregnancy, may cause fetal harm Caution in patients with diabetes or thromboembolic disease Adolescents and adults: megestrol (tablets or 40 mg/mL suspension): 800 mg/d in 1 to 4 divided doses; titrate dose to response; doses between 400 and 800 mg/d have shown efficacy; Megace ES: 625 mg once daily Children: limited data have been reported in cachectic children with cystic fibrosis, HIV, and solid tumors: 7.5 to 10 mg/kg/d in 1 to 4 divided doses; not to exceed 800 mg/d or 15 mg/kg/d Discontinue use prior to dental or surgical procedures (at least 14 days prior) Clinical Implications Very high doses may inhibit platelet aggregation Adverse/Side Effects vol. 2 • no. 6 ICAN: Infant, Child, & Adolescent Nutrition 361 362 Downloaded from can.sagepub.com by Kathleen Gura on June 25, 2011 Tablet: 4 mg, 8 mg, 24 mg; solution: 4 mg/5 mL; injection: 2 mg/mL; infusion: 32 mg/50 mL Ondansetron (Zofran) At least 14 days should elapse between discontinuation of an MAO inhibitor and initiation of therapy with mirtazapine; at least 14 days should be allowed after discontinuing mirtazapine before starting an MAO inhibitor Hypertriglyceridemia Dry mouth, bradycardia, abdominal pain, lightheadedness Some products may contain phenylalanine Somnolence Some products may contain phenylalanine Take without regard to meals May cause significant xerostomia (normal salivary flow resumes on discontinuation) In adults, the average dose ranged from 15 to 45 mg/d Therapy durations >12 weeks should be avoided May cause tardive dyskinesia, which is often irreversible; duration of treatment and total cumulative dose are associated with an increased risk Administer 30 minutes before meals and at bedtime Doses of 1 to 3 mg/kg may be used to prevent nausea (significantly higher than reflux dosing), but close monitoring necessary to avoid side effects Should be taken at bedtime; in adults, doses of 20 mg/d have been used Clinical Implications Has potential for psychological or physiological dependence, abuse, or tolerance Drowsiness, restlessness, anxiety, agitation, tardive dyskinesia, dystonia, constipation, diarrhea Use with caution in individuals using CNS depressants as concurrent use may cause additive sedation Adverse/Side Effects Abbreviations: GE, gastroesophageal; GI, gastrointestinal; ECG, electrocardiogram; BP, blood pressure; CBC, complete blood count; MAO, monoamine oxidase; CNS, central nervous system. Tablet, oral: 7.5 mg, 15 mg, 30 mg, 45 mg; Tablet, orally disintegrating: 15 mg, 30 mg, 45 mg Syrup: 1 mg/mL; tablet: 5 mg, 10 mg; injection: 5 mg/mL How Supplied Mirtazapine (Remeron) Metoclopramide (Reglan) Drug (Trade Name) Table 1. (continued) ICAN: Infant, Child, & Adolescent Nutrition December 2010 vol. 2 • no. 6 significant weight gain; thus, these agents have been studied extensively for this purpose. The exact mechanism has not been established but may be related to the euphorgenic and anti-inflammatory effects. It has been postulated that stimulation of the orexigenic hormones within the hypothalamus may also be responsible for this increase in appetite.1 For example, several studies have been done evaluating prednisolone as an appetite stimulant in oncology patients and its effects on energy metabolism.2,3 Overall, prednisolone seems to be an effective agent in stimulating appetite on a short-term basis; however, it was not shown to be beneficial for long-term weight gain. Because of the long-term side effects associated with steroids, practitioners often struggle whether the benefits of an improved nutritional state outweigh the long-term risks seen with their use. In one such study, Lai et al3 compared prednisolone to megestrol acetate (to be discussed later). They showed that although both agents seemed to stimulate appetite in this small population, megestrol proved to be statistically significant when compared with placebo, whereas prednisolone was not. Another study by Tataranni et al4 discussed the effects of glucocorticoids on energy metabolism based on norepinephrine levels (to estimate sympathetic nervous system activity) and indirect calorimetry in healthy individuals. This study showed an increase in energy intake and suggested that this could be the reason behind the weight gain that is typically seen. The first randomized controlled trial with glucocorticoids was done by Ho et al5 using dexamethasone. Similar to the aforementioned studies, it was conducted in the oncology population and focused mainly on its use to prevent chemotherapyinduced nausea and vomiting. The authors suggest that the clinical improvements seen with dexamethasone were a reflection of its antiemetic properties as well as its tendency to promote weight gain. In animal studies, it was shown that dexamethasone’s antiemetic actions may be partially due to its activity in the central nervous system (CNS) and may be related to its activation of glucocorticoid receptors ICAN: Infant, Child, & Adolescent Nutrition in the nucleus of the medulla.5 Two studies suggest that although dexamethasone may stimulate appetite in the short term and increase nonfluid weight changes transiently, its use is associated with steroid toxicity, which often results in patients discontinuing therapy with no apparent significant difference in mortality.6,7 In a head-to-head trial with megestrol, the results again favored the latter.6 Although dexamethasone has not been proven to enhance weight gain and appetite in the long term, it is still an effective antiemetic agent that can be helpful for patients undergoing chemotherapy and ultimately enable them to tolerate food better, thus indirectly leading to appetite stimulation. Some side effects associated with corticosteroids include hyperglycemia, hyperlipidemia, immunosuppression, Cushingoid syndrome, hypothalamic– pituitary–adrenal axis suppression, peptic ulcers, and neurological effects. Longterm use of glucocorticoids can lead to loss of bone and deterioration in short-term growth.7-9 Glucocorticoids have a suppressive effect on osteoblastogenesis in the bone marrow and promote the apoptosis of osteoblasts and osteocytes, thus leading to decreased bone formation.10 Furthermore, highdose glucocorticoid therapy can attenuate physiological growth hormone secretion via an increase in somatostatin tone.11,12 Glucocorticoid-induced growth failure may also be due to direct effects on the growth plate.13-16 Based on these findings, it is suggested to limit steroid use in children to as short a course as possible to avoid these complications. Central Nervous System Drugs Dronabinol (delta-9-tetrahydrocannabinol) works by acting as an agonist for the bodies’ endocannabinoid systems, on receptors CB1 and CB2.17 The CB1 receptors are located in the feedingrelated hindbrain area, as well as gastrointestinal, adipose, and hepatic tissues, and may have an influence on appetite. Dronabinol is currently approved by the Food and Drug Administration (FDA) for use as an appetite stimulate in adult AIDS patients.18 Dronabinol is also FDA approved for the prevention of cancer-related nausea and vomiting in both adults and children. Side effects associated with dronabinol use include short-term memory loss, dizziness, euphoria, paranoid reaction, tachycardia, and vasodilation.18 It should not be used in patients allergic to sesame. There has yet to be extensive studies of dronabinol for appetite stimulation in the pediatric population. Abrahamov et al19 used a different cannabinoid (delta-8-THC instead of delta-9-THC) with good results. Over a 2-year period, 8 children with various types of leukemia were administered delta-8-THC 18 mg/m2 by mouth 2 hours before chemotherapy treatment and continued every 6 hours for 24 hours, and all vomiting was prevented. Antidepressant agents may be considered in patients with an underlying psychological issue present. Overall, these drugs are not recommended for use as appetite stimulants because of their broad range of side effects and lack of efficacy and safety data in the pediatric population. For example, tricyclic antidepressants (TCAs) are a class of CNS agents known to cause weight gain in patients receiving them chronically. They work by increasing the synaptic concentration of serotonin and/or norepinephrine in the CNS by inhibiting their reuptake. One of the major complications seen with this class of drugs is their anticholinergic effects, which have been implicated as a mechanism for TCA-associated weight gain. The theory is that because of xerostomia associated with TCA use, excessive intake of high-calorie beverages occurs, along with an increased craving for other carbohydrates. The most widely studied TCA is amitriptyline. It has been studied for its effects on body mass and in patients with anorexia nervosa. In one study by Paykel et al,20 involving 51 females, the average weight gain was 4 kg; other studies have shown up to a 7 kg weight gain.21 In the Paykel et al20 study, many subjects reported cravings for carbohydrates at the beginning of the second month of therapy. In both studies, patients were on long-term 363 Downloaded from can.sagepub.com by Kathleen Gura on June 25, 2011 December 2010 ICAN: Infant, Child, & Adolescent Nutrition therapy; weight gain was not observed in the initial phase of treatment. In another double-blind, placebo-controlled study using amitriptyline in patients with anorexia nervosa, Biederman et al22 found no association between plasma levels of the drug and improvement in weight and/ or psychological symptoms. Because of the significant side effect burden associated with these agents, patients would often discontinue treatment early, thus leading to a drastic decrease in their use, even in the psychiatric community. Some of these adverse effects include hypotension, arrhythmias, tachycardia, fatigue, confusion, constipation, hyperglycemia, increased liver enzymes, blurred vision, and anticholinergic effects.22 Mirtazapine (a tetracyclic antipsychotic) and olanzapine (an atypical antipsychotic) have also been used as appetite stimulants. Mirtazapine works via its central presynaptic alpha2-adrenergic antagonist effects, resulting in an increased release of norepinephrine and serotonin. It is also a potent antagonist of 5-HT2 and 5-HT3 serotonin receptors. Olanzapine displays significant antagonism of serotonin 5-HT2A and 5-HT2C, dopamine, histamine H1, and alpha1-adrenergic receptors, but shows moderate antagonism of 5-HT3 receptors. Although mirtazapine and olanzapine are not selective in their antagonism, it has been postulated that they may still be efficacious. The binding affinity for the 5-HT3 receptor in both these drugs seems to be similar to that of the more selective agents.23 Both medications have some clinical evidence to support their use as adjunctive agents in oncology and cachexia treatment regimens. Several case studies have supported the use of olanzapine in patients with anorexia nervosa to stimulate weight gain.24,25 Critics may suggest that the psychiatric effects of these agents is what is responsible for these changes, given that a patient who “feels” better will be more inclined to eat.25 Studies have reported weight gain of up to 10 kg over 1 year in patients receiving olanzapine treatment.26 Additional side effects seen with these agents include somnolence, hyperlipidemia, xerostomia, dizziness, dyspepsia, and weakness. Cyproheptadine is a histamine and serotonin antagonist that competes with histamine for the H1-receptor site on effector cells in the gastrointestinal tract, blood vessels, and respiratory tract. This drug has been extensively used for appetite stimulation in patients aged 13 years and older with anorexia nervosa. Because of its favorable effects in this area, it has also been studied in the cachexia population. In a large, placebo-controlled study in patients with advanced cancer, a dose of 8 mg 3 times daily did prove to have a mild stimulatory effect on appetite but failed to prevent weight loss.27 It has, however, been proven to be effective in patients with carcinoid syndrome and associated anorexia/cachexia. It is thought that in these patients the counteractive effects of increased serotonin activity may be the mechanism of action.28 Although no major side effects have been seen, this medication has fallen out of favor as an antihistamine with the development of other less sedating agents. Side effects include tachycardia, sedation, seizures, fatigue, headache, rash, anemia, and photosensitivity. It is unclear whether it is safe to use this drug in infants and young children, so caution is advised. Hydrazine sulfate is an inhibitor of phosphoenolpyruvate kinase, an enzyme involved in reconstruction of glucose from anaerobically metabolized lactic acid. It was thought that by interrupting gluconeogenesis, the mechanism behind cancer cachexia would be affected beneficially. It is difficult to determine whether this agent would be beneficial in other populations as it appears to have been exclusively studied in the oncology population and may work on a specific physiological mechanism induced by the illness. However, after 3 different placebocontrolled trials, it does not appear that this agent benefits even cancer patients with regard to progression of cachexia or weight gain.29-31 In addition to failing to show benefit, hydrazine sulfate has been associated with several cases of central and peripheral neurotoxicity and fatal cases of hepatorenal failure. For these reasons, this agent is not recommended 364 Downloaded from can.sagepub.com by Kathleen Gura on June 25, 2011 for use for appetite stimulation, especially in the pediatric population. Extensive amounts of literature support the role of serotonin antagonism in normal feeding behaviors.32 Krause et al33 demonstrated elevated levels of plasmafree tryptophan, along with increased CNS levels of 5HIAA (a serotonin metabolite), in several tumor-bearing rats exhibiting signs of cachexia.33 Based on this finding, serotonin antagonists have been investigated for their use as adjunctive appetite stimulants. It is unclear as to which subtype of 5HT receptors are involved in appetite; however, some studies have shown that the 5HT3 receptors are the most critical.34 Ondansetron is a 5HT3 receptor antagonist that is commonly used as an antiemetic agent in patients undergoing chemotherapy. In one study in cancer cachexia patients using ondansetron, a dose of 8 mg twice daily was shown to improve the ability of patients to enjoy food but did not prevent weight loss in this population.35 Although this agent may not have demonstrated efficacy in preventing weight loss, it has been proven useful to ameliorate nausea and vomiting in patients undergoing extensive treatment and may therefore help patients tolerate food better. Ondansetron may be useful as an adjunctive agent in trying to promote weight gain. Side effects are fairly benign and may include tachycardia, hypotension, flushing, lightheadedness, headache, fatigue, constipation, or blurred vision. Metoclopramide is a potent dopamine receptor antagonist. It blocks dopamine receptors in the chemoreceptor trigger zone within the CNS, thereby preventing emesis, and also increases gastric motility to potentially decrease nausea and increase appetite. Metoclopramide has been shown to be effective in preventing chemotherapy-induced nausea and vomiting.36 Studies have shown no correlation between serum levels of the drug and its effects, so typical antimotility doses can be used. In a placebocontrolled crossover trial, metoclopramide resulted in a significant decrease in nausea but did not improve caloric intake or weight gain. There have been no specific studies done in the pediatric vol. 2 • no. 6 population because of the risk of extrapyramidal side effects, some of which may be irreversible.37 The drug comes with an FDA-issued black box warning for tardive dyskinesia, and thus many practitioners tend to avoid its use in children. Other side effects include fatigue, anxiety, hallucinations, dystonia, gynecomastia, diarrhea, and jaundice. Hormonal Therapy Megestrol acetate is commonly used in female patients for treatment of metastatic breast cancer or endometrial cancer. An unfavorable side effect is the weight gain associated with this agent, which led to the investigation of its use as an appetite stimulant. Loprinzi et al38 completed a phase III evaluation using 4 different doses for cancer anorexia and cachexia, ranging from 160 to 1280 mg daily. From this evaluation it was found that there is a positive correlation between the dose and its effect, where higher doses were associated with more nonfluid weight gain. In another study by Loprinzi et al,6 the efficacy of megestrol acetate was compared with dexamethasone and fluoxymesterone (an anabolic steroid with strong androgenic properties) in treating cachexia. It was found that megestrol acetate and dexamethasone both have a better appetite stimulation profile than fluoxymesterone and that dexamethasone had a higher rate of discontinuation because of its corticosteroid side effects. Side effects reported with megestrol acetate use include mild edema and an increased risk of venous thromboembolism (especially with concomitant chemotherapy). These studies used the tablet form of the drug, but oral suspension has been shown to correlate with better compliance, lower expense, and possibly better bioavailability. Growth Factors/ Hormone-Like Factors Ghrelin is a peptide hormone that is produced by the stomach. It signals the hypothalamus to stimulate the release of growth hormone from the anterior ICAN: Infant, Child, & Adolescent Nutrition pituitary. By administering supplemental ghrelin, it replicates postprandial blood concentrations and therefore should increase the sensation of hunger and overall food intake. Gullett et al39 reviewed several trials involving the use of synthetic ghrelin or ghrelin receptor agonists for weight gain. All these trials showed a positive result, which was a marked increase in food intake resulting in an increase in weight. No adverse events were reported. As this is a hormone that is normally produced by the body in association with the regulation of fasting, its mechanism is well known in its role as an appetite stimulant. However, also related to this particular mechanism, it could be used by the cancerous tumors in cancer patients and cause further tumor growth. More trials should be done before this therapy can be recommended. One of the metabolic changes seen in the body, when experiencing anorexia and cachexia, is insulin resistance. Insulin is an important hormone as it relates to appetite regulation and growth. In one Swedish study, Lundholm et al40 found that insulin dosed at 0.11 units/kg/d with either breakfast or lunch can stimulate significant carbohydrate intake and increase whole body fat. This study also showed that insulin provided the best palliative care for weight gain across the board regardless of the patients’ various different diagnoses. Side effects for treating with insulin include risk for hypoglycemia, especially when given without food. Tumor Necrosis Factor (TNF) Inhibition Anorexia and loss of body weight are associated with reduced muscle mass and adipose tissue, accompanied by increases in muscle protein breakdown and lipolysis. These changes have been shown to be due in part to an inflammatory response with the help of specific cytokines, including TNF. Therefore, therapeutic strategies that target TNF have been explored in appetite stimulation. Pentoxifylline, a methylxanthine derivative approved for use in intermittent claudication, inhibits TNF production by monocytes and T lymphocytes in vitro. One study showed that pentoxifylline downregulated TNF expression in cancer patients at a dose of 400 mg 3 times daily41; however, a placebo-controlled study showed no benefit in improving appetite or weight gain in patients exhibiting cachetic/anorexic symptoms.42 Side effects with this agent are usually mild and may include hypotension, angina, headache, dizziness, dyspepsia, nausea, or blurred vision. Etanercept is a monoclonal antibody that binds to TNF and blocks its interaction with cell surface TNF receptors making TNF biologically inactive. It can modulate physiological responses that are generally induced or regulated by TNF. One small trial demonstrated the reduction of fatigue and increased tolerability of chemotherapy with etanercept; however, no evidence on appetite stimulation or weight gain was noted.43 Etanercept should be avoided in all children and adolescents unless absolutely necessary because of the increased risk of lymphomas and leukemia. It is typically used at a dose of 25 mg subcutaneously twice weekly and has several notable side effects. These include flushing, peripheral edema, pancytopenia, dizziness, fever, rash, and increased risk for infections. Infliximab is a chimeric IgG1-kappa monoclonal antibody that is typically used in rheumatoid arthritis and Crohn disease and has been incorporated into several chemotherapy regimens. Its role as a TNF inhibitor may contribute to reversing the muscle wasting of cachexia and anorexia. Jatoi et al44 looked at the effect of infliximab in the elderly population as well as in patients with non-small-cell lung cancer. Some side effects noted were dyspnea, fatigue, hypotension, hypoxia, cardiac ischemia and infarction, thrombosis, melena, and muscle weakness. The trial was stopped early because of the increase of fatigue in the infliximab and docetaxel study arm. None of the patients in the trial reached the study endpoint of positive 10% weight gain. Moreover, there was no significant difference between the 365 Downloaded from can.sagepub.com by Kathleen Gura on June 25, 2011 December 2010 ICAN: Infant, Child, & Adolescent Nutrition results of the 2 arms, and its use was associated with a worsening in quality of life for the majority of patients. It is possible that the negative findings can be attributed to the low infliximab dose used in this study, which may not have allowed for maximum potential efficacy in this population.44 Without additional studies with demonstrated positive outcomes, its use as an appetite stimulant cannot be recommended at this time. Another potent TNF inhibitor is thalidomide, which is an inhibitor of TNF synthesis. Gordon et al45 studied the effect of thalidomide in pancreatic cancer patients. The results were significant in that weight gain occurred in patients taking thalidomide when compared with the weight loss in the placebo group. There was also another open label pilot study of thalidomide use as treatment for cachexia in inoperable esophageal cancer patients, which was found to reverse weight loss as well as increase lean body mass.46 There were several patients who were withdrawn from the study because of significant side effects including peripheral neuropathy, rash, and severe daytime somnolence. Thalidomide is also known to cause fetal malformation, and in order for premenopausal female patients to take this medication they are required to use at least 2 methods of birth control and undergo routine pregnancy testing before and during treatment. Complementary and Alternative Medicine It is important to consider the several nutritional and alternative therapies that have been investigated as appetite stimulants. Eicosapentaenoic acid (EPA) is a long-chained polyunsaturated fatty acid found in the omega-3 fish oil supplement along with docosahexaenoic acid and vitamin E. In mice, it was found that the combination inhibited tumorinduced lipolysis and muscle degradation, probably by suppressing cytokine interleukin-6 and by decreasing the presence of a tumor-specific factor.47 There have been an array of smaller studies using a variety of dosages and inconsistent study designs that showed positive results with the use of EPA. A review by Dewey et al47 analyzed and assessed the randomized controlled trials involving EPA in the treatment arm in comparison with placebo or with another control. There was an overall lack of efficacy seen when analyzing all the trials, although because of the various study designs and doses used it was difficult to compare them all with one another. The most commonly noted side effect was gastrointestinal symptoms (eg, abdominal discomfort, diarrhea, nausea, and vomiting). The authors concluded there was insufficient data to define an optimal dose of EPA. Ideally, better designed, large-scale, randomized controlled trials comparing EPA to placebo in different populations are needed to derive a definite conclusion. Melatonin is a pineal hormone that regulates the circadian rhythm within the body thereby affecting sleep cycles and may help regulate the neuroendocrine system. Lissoni et al48 investigated the use of melatonin on serum TNF levels and suggested it may play a role in treating cachexia. One hundred nontreatable metastatic solid tumor patients were enrolled in this study and were randomized to receive either supportive care alone or supportive care with a bedtime dose of melatonin. The authors found significant evidence that melatonin was able to attenuate weight loss when compared with supportive care alone and demonstrated that the mean TNF concentration in the melatonin group decreased significantly. This positive result showed that by lowering levels of TNF-α along with good weight attenuation, melatonin may be an efficacious appetite stimulant in both anorexic and cachectic patients. Given that melatonin is used as a sleep aid in the pediatric population, and despite the lack of evidence-based data as an appetite stimulant in this age-group, these findings suggest that melatonin may be a viable option for children and adolescents although additional research is still needed to determine optimal dosing. Practitioners should also remember that 366 Downloaded from can.sagepub.com by Kathleen Gura on June 25, 2011 this supplement is not an FDA-approved medication and potency may vary among manufacturers and even between lots from the same manufacturer. Ginger (Zingiber officinalis) is an agent that has been extensively used for gastrointestinal disturbances, such as dyspepsia, flatulence, abdominal discomfort, and diarrhea. Ancient Chinese, Japanese, and Indian medicine have all used ginger as a digestive aid. It is also often used to treat motion sickness and for the prevention and amelioration of morning sickness.49 The mechanism for its therapeutic effect is unknown, but Wu et al50 did report that ginger can lower the time of gastric emptying and increase motility in healthy patients. Similarly, Hveem et al51 showed that with this increased gastric emptying, postprandial hunger would increase and gut fullness would decrease. This suggests that the use of ginger may increase hunger and food intake, thereby combating the wasting issues seen in anorexia and cachexia. The amount of ginger used in this study was 1200 mg ginger root powder, filled into 3 capsules, and administered an hour before food was provided. Pediatric-specific dosing is still lacking although adolescent patients could safely use the 1200-mg dose. Other Factors: Taste Disturbances In patients exhibiting unexplained weight loss and loss of appetite, it is prudent to review their medication profile in order to identify possible medications that may be suppressing appetite or causing known taste disturbances (Table 2). Common culprits for taste disturbances are antimicrobials, such as clindamycin, doxycycline, fluconazole, and metronidazole. The antihypertensive agent captopril is also associated with alterations in taste. Parenteral nutrition use may also cause taste disturbances, in particular intravenous fat emulsions, which may alter taste and satiety.52 By recognizing these potential effects, practitioners can consider therapeutic alternatives and adjust treatments accordingly. vol. 2 • no. 6 ICAN: Infant, Child, & Adolescent Nutrition Summary Table 2. Drugs That Affect Appetite Drugs That Decrease Appetite Drugs That Stimulate Appetite Aluminum hydroxide Benzodiazepines Amphetamines Clemastine Cisplatin Cyproheptadine HCl Cholestyramine Dronabinol Dactinomycin Glucocorticoids Digoxin Insulin Ethambutol Lithium Furosemide Megestrol acetate Griseofulvin Oral contraceptives Hydralazine Phenothiazines Hydroxychloroquine Tricyclic antidepressants Hydroxyurea Itraconazole Lamivudine Methenamine Methotrexate Although many agents have been evaluated for their use as appetite stimulants, the majority of the studies have focused specifically on cancerassociated cachexia/anorexia. Because of the increasing evidence suggesting that specific physiological processes are responsible for this syndrome, some of the aforementioned therapies may not be effective for use in patients outside of the specific cancer population. Results also may not be applicable for use in pediatric and adolescent patients because of the lack of studies in this population. However, practitioners may use the evidence available to gauge the appropriateness of therapy for appetite stimulation and may apply the results from these studies to their own clinical situations. To date only corticosteroids and progestational agents have been extensively proven to be statistically beneficial in promoting appetite and weight gain, although several other agents may be useful as well. As previously noted, larger, more generalized studies would be extremely useful to confirm the effectiveness of specific agents. The lack of pediatric-specific dosing continues to make the use of these agents challenging at best. References Methylcellulose Mineral oil Nitrofurantoin Penicillamine Sibutramine Spironolactone Sulfasalazine Thiazide diuretics Topiramate Source: Adapted from Gura KM. Drug–nutrient interactions. In: Hendricks KM, Duggan C, eds. 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