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Failure to thrive

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Failure to thrive
Other namesFaltering weight, weight faltering[1]
Standard growth chart for boys age 0-36 months
SpecialtyPediatrics

Failure to thrive (FTT), also known as weight faltering or faltering growth, indicates insufficient weight gain or absence of appropriate physical growth in children.[2][3] FTT is usually defined in terms of weight, and can be evaluated either by a low weight for the child's age, or by a low rate of increase in the weight.[4]

The term failure to thrive has been used in different ways,[5] as there is no single objective standard or universally accepted definition for when to diagnose FTT.[6][7] One definition describes FTT as a fall in one or more weight centile spaces on a World Health Organization (WHO) growth chart depending on birth weight or when weight is below the 2nd percentile of weight for age irrespective of birth weight.[8][9] Another definition of FTT is a weight for age that is consistently below the 5th percentile or weight for age that falls by at least two major percentile lines on a growth chart.[10] While weight loss after birth is normal and most babies return to their birth weight by three weeks of age, clinical assessment for FTT is recommended for babies who lose more than 10% of their birth weight or do not return to their birth weight after three weeks.[8] Failure to thrive is not a specific disease, but a sign of inadequate weight gain.[11]

In veterinary medicine, FTT is also referred to as ill-thrift.

Signs and symptoms

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Failure to thrive is most commonly diagnosed before two years of age, when growth rates are highest, though FTT can present among children and adolescents of any age.[12] Caretakers may express concern about poor weight gain or smaller size compared to peers of a similar age.[13] Physicians often identify failure to thrive during routine office visits, when a child's growth parameters such as height and weight are not increasing appropriately on growth curves.[13] Other signs and symptoms may vary widely depending on the etiology of FTT. It is also important to differentiate stunting from wasting, as they can indicate different causes of FTT. "Wasting" refers to a deceleration in stature more than 2 standard deviations from median weight-for-height, whereas "stunting" is a drop of more than 2 standard deviations from the median height-for-age.[14]

The characteristic pattern seen with children with inadequate nutritional intake is an initial deceleration in weight gain, followed several weeks to months later by a deceleration in stature, and finally a deceleration in head circumference.[15] Inadequate caloric intake could be caused by lack of access to food, or caretakers may notice picky eating habits, low appetite, or food refusal.[13][16] FTT caused by malnutrition could also yield physical findings that indicate potential vitamin and mineral deficiencies, such as scaling skin, spoon-shaped nails, cheilosis, or neuropathy.[15] Lack of food intake by a child could also be due to psychosocial factors related to the child or family. It is vital to screen patients and their caretakers for psychiatric conditions such as depression or anxiety, as well as screen children for signs and symptoms of child abuse, neglect, or emotional deprivation.[16][17][18]

Children who have FTT caused by a genetic or medical problem may have differences in growth patterns compared to children with FTT due to inadequate food intake. A decrease in length with a proportional drop in weight can be related to long-standing nutritional factors as well as genetic or endocrine causes.[15] Head circumference, as well, can be an indicator for the etiology of FTT. If head circumference is affected initially in addition to weight or length, other factors are more likely causes than inadequate intake. Some of these include intrauterine infection, teratogens, and some congenital syndromes.[15]

Children who have a medical condition causing FTT may have additional signs and symptoms specific to their condition. Fetal alcohol syndrome (FAS) has been associated with FTT, and can present with characteristic findings including microcephaly, short palpebral fissures, a smooth philtrum and a thin vermillion border.[19] Disorders that cause difficulties absorbing or digesting nutrients, such as Crohn's disease, cystic fibrosis, or celiac disease, can present with abdominal symptoms. Symptoms can include abdominal pain, abdominal distention, hyperactive bowel sounds, bloody stools, or diarrhea.[15][16]

Cause

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Traditionally, causes of FTT have been divided into endogenous and exogenous causes. These causes can also be largely grouped into three categories: inadequate caloric intake, malabsorption/caloric retention defect, and increased metabolic demands.[3]

Endogenous (or "organic")
Endogenous causes are due to physical or mental issues affecting the child. These causes include various inborn errors of metabolism. Problems with the gastrointestinal system such as excessive gas and acid reflux are painful conditions which may make the child unwilling to take in sufficient nutrition.[3] Cystic fibrosis,[8] diarrhea, liver disease, anemia or iron deficiency, Crohn's disease, and coeliac disease make it more difficult for the body to absorb nutrition.[3][8] Other causes include physical deformities such as cleft palate and tongue tie that impede food intake. Additionally, allergies such as milk allergies can cause endogenous FTT.[20] FAS has also been associated with failure to thrive.[21] Additional, medical conditions including parasite infections, urinary tract infections, other fever-inducing infections, asthma, hyperthyroidism and congenital heart disease may raise energy needs of the body and cause greater difficulty taking in sufficient calories to meet the higher caloric demands, leading to FTT.[3]
Exogenous (or "nonorganic")
Exogenous causes are due to caregiver actions, whether unintentional or intentional. Examples include physical inability to produce enough breastmilk, inappropriate feeding schedules or feeding technique, and mistakes made in formula preparation.[3] In developing countries, conflict settings, and protracted emergencies, exogenous FTT may more commonly be caused by chronic food insecurity, lack of nutritional awareness, and other factors beyond the caregiver's control.[22] As many as 90% of failure to thrive cases are non-organic.[23]
Mixed
Both endogenous and exogenous factors may co-exist.[12] For instance, a child who is not getting sufficient nutrition for endogenous reasons may act content so that caregivers do not offer feedings of sufficient frequency or volume. Yet, a child with severe acid reflux who appears to be in pain while eating may also make a caregiver hesitant to offer sufficient feedings.[12]

Inadequate caloric intake

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Inadequate caloric intake indicates that an insufficient amount of food and nutrition is entering the body, whether due to lack of food, anatomical differences causing difficulty eating, or psychosocial reasons for decreased food intake.

Cause Description/presentation Mechanism Epidemiology
Poverty/inadequate food supply[12][20] Inadequate food available for child Decreased food intake Most common cause of failure to thrive globally[12][20][3]
Inadequate breast milk supply/ineffective latching[3] Mother is unable to produce enough breast milk or infant is unable to latch properly during breastfeeding Insufficient breastfeeding
Improper preparation of formula[12] Formula is not prepared or mixed properly Insufficient nutrition from formula feeding
Postpartum depression/maternal depression Mother experiences low mood, persistent sadness, and/or loss of interest or pleasure in activities[24] Mothers with depression are more likely to have breastfeeding difficulties and may have decreased desire to interact with their children, which may lead to decreased feeding[24][25] 1 in 10 women in the US experience symptoms of depression[26]

1 in 8 women experience symptoms of postpartum depression, or depression after childbirth[26]

Child neglect Caretakers fail to provide adequate care to the child Caretakers do not adequately feed the child Prevalence of neglect in non-organic FTT may be as high as 5-10%[20]
Cerebral palsy Disturbance in the developing fetal or infant brain leads to difficulties and delays in cognition, motor movement and coordination, and other aspects of development[27] Decreased motor function and coordination leads to difficulty feeding[27] Affects about 3.6/1000 children[27]
Cleft lip/cleft palate During fetal development, parts of the mouth/lips do not fuse properly, causing an anatomical defect[28] Impaired oral motor coordination and poor suck causes difficulty feeding[28] Occurs in about 1 in 600 to 800 live births[28]
Gastroesophageal reflux disease Regurgitation of food causes discomfort and irritability[29] Discomfort and pain after eating may cause poor appetite or refusal to feed[29] Occurrence peaks at about 4 months of age[29]
Pyloric stenosis Abnormal thickening of the opening between the stomach and small intestine blocks food from flowing through the gastrointestinal tract, causing projectile vomiting[30] Projectile vomiting after eating and inability of food to enter small intestine leads to dehydration and weight loss[30] Infant is usually well at birth, and pyloric stenosis usually presents at 3–6 weeks of age[30]
Toxins causing gastrointestinal problems Toxins such as lead can cause decreased appetite, constipation, or abdominal pain[3] Gastrointestinal problems and discomfort can lead to decreased appetite or refusal to eat[3]
Avoidant/restrictive food intake disorder (ARFID) Psychiatric condition in which individuals avoid eating certain foods or restrict the amount of food they eat; may be due to sensory sensitivity, a traumatic experience with eating, or another cause[31] Food avoidance or restriction leads to inadequate nutritional intake[31]

Malabsorption/caloric retention defect

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Malabsorption and caloric retention defects cause the body to the unable to absorb and use nutrients from food, despite an adequate amount of food physically entering the body.

Cause Description/presentation Mechanism Epidemiology
Inborn errors of metabolism Genetic conditions that interfere with the utilization of nutrients for energy; include conditions such as galactosemia, glycogen storage disease[32] Disruption in the breakdown of nutrients and to utilization of nutrients to produce energy[32]
Cow's milk protein allergy Allergy to a protein in cow's milk, causing symptoms such as skin reactions, wheezing, difficulty breathing, diarrhea, or vomiting after ingestion of cow's milk[33] Inability to drink milk leads to poor growth; discomfort after drinking milk may also lead to food refusal[33] Affects 2-6% of children, primarily during the first year of life, though many children outgrow the condition[33]
Celiac disease Autoimmune disease in which ingestion of foods containing gluten leads to symptoms including diarrhea, abdominal pain, and bloating[34] Damage to intestinal lining leads to problems with nutrient uptake[34] Prevalence of 0.5-1% among the general population[34]
Short bowel syndrome Loss of functioning intestines due to surgery, congenital anatomical differences, or other disease[35] Shortage of functioning intestines leads to malabsorption of nutrients[36] Necrotizing enterocolitis is the most common cause in infancy[37]
Cystic fibrosis Disorder in production and clearance of mucus leads to problems with lung and gastrointestinal function[38] Problems with mucus clearance leads to issues with the pancreas and other gastrointestinal organs, leading to malabsorption of nutrients[38] Affects 1 in 2500 Caucasian newborns[38]
Biliary atresia Failure of development of the bile ducts that help carry enzymes necessary for digestion of fats in food

Causes yellowing of the skin (jaundice), pale stools, and dark urine in the infant[39]

Underdevelopment of bile ducts leads to malabsorption of fats, difficulties with absorbing vitamins and other nutrients, and poor oral intake of food[40]
Pancreatic insufficiency Inability of pancreas to produce sufficient enzymes necessary for digestion and absorption of nutrients, leading to symptoms such as chronic diarrhea and greasy stools[41] Malabsorption of fats and inability to digest nutrients such as fat-soluble vitamins leads to poor weight gain[41]

Increased metabolic demand

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Increased metabolic demand suggests a state of increased energy needs and caloric expenditure. This state causes greater difficulty taking in enough nutrition to meet the body's energy needs and allow for normal growth.

Cause Description/presentation Mechanism Epidemiology
Hyperthyroidism Increased levels or activity of thyroid hormone leads to elevated metabolic rate[42] Elevated metabolic rate causes increased energy usage[42] Most common cause among children is Graves' disease, causing about 96% of cases of hyperthyroidism[43]
Chronic infections Chronic infections such as HIV, tuberculosis, urinary tract infections[3][20] Infections result in increased energy expenditure[44]
TORCH infections Toxoplasmosis, other (syphilis, varicella zoster, parvovirus B19), rubella, cytomegalovirus, herpes simplex virus[20][45] Infections result in increased energy expenditure[44]
Inflammatory conditions Conditions such as asthma, inflammatory bowel disease[3][10] Inflammation increases energy utilization[3][10]
Diabetes mellitus Group of disorders in which sugars are unable to be properly taken up into cells and used for energy, leading to high blood sugar levels[46]

Failure to thrive may be caused by a type of diabetes mellitus called neonatal diabetes mellitus[47]

Inability to utilize sugars for energy leads to growth difficulties[47]
Congenital heart defects Abnormalities in heart anatomy and function leads to problems pumping oxygen to the body, difficulties with breathing and feeding, and possible downstream issues with organs that do not receive enough oxygen[48] Breathing problems may make feeding more difficult

Lack of oxygen to the intestines may cause malabsorption

Overall decreased oxygen delivery to the body and increased energy needs may stunt growth[48]

Chronic lung disease Conditions such as bronchopulmonary dysplasia, bronchiectasis, chronic lung disease of prematurity[3][20] Breathing difficulties may interfere with feeding

Chronic disease and low oxygen state causes increased energy expenditure[49]

Cancer Presentation varies depending on type of cancer, but include pain, swelling, fatigue, fever, headache, night sweats, loss of appetite[50] Rapid growth of cancer cells requires high energy usage[51][52] Pediatric cancers are less than 1% of all new cancer diagnoses[53]

Most common pediatric cancers are leukemia, brain and spinal cord tumors, and neuroblastoma[54]

Chronic kidney disease Dysfunction of the kidneys, the organs that filter blood and produce urine

May be caused by anatomical differences in the kidneys and urinary tract, or by diseases (e.g., infections, diabetes) that cause damage to the kidneys[55]

Damage to the kidneys leads to dysfunctional activity of growth hormone and other necessary hormones, disruptions to metabolism, inflammation causing increased expenditure, and disturbances in retention and utilization of nutrients[55]

Epidemiology

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Failure to thrive is a common presenting problem in the pediatric population in both resource-abundant and resource-poor countries. While epidemiology may vary by region, inadequate caloric intake remains the most common cause of FTT in both developed and developing countries, and poverty is the greatest risk factor for FTT worldwide.[10]

Resource-abundant regions

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Failure to thrive is prevalent in developed countries, with literature from Western studies demonstrating a prevalence of about 8% among pediatric patients.[17] Presentations of FTT comprise about 5-10% of children seen as outpatients by primary care physicians and 3-5% of hospital admissions for children.[56][57][58] Failure to thrive is more prevalent in children of lower socioeconomic status in both rural and urban areas.[10] FTT is also associated with lower parental education levels.[56] Additionally, retrospective studies done in the United States suggest that males are slightly more likely than females to be admitted to the hospital for failure to thrive.[58]

Low-resourced regions

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Failure to thrive is more common in developing countries and is mostly driven by malnutrition due to poverty. In an example of the high prevalence of FTT due to malnutrition, in India, about 40% of the population suffers from mild to moderate malnutrition and about 25% of pediatric hospitalizations are due to malnutrition.[17]

Malnutrition is a global problem of great scale. Worldwide, problems with receiving adequate nutrition contributes to about 45% of all deaths in children younger than 5 years old.[59] In 2020, global estimates of malnutrition indicated that 149 million children under 5 were stunted and 45 million were estimated to be wasted.[60] In 2014, approximately 462 millions adults were estimated to be underweight.[60] It is important to note that these reports are likely underestimating the true scope of the global burden.[by whom?]

Malnutrition can also be classified to acute malnutrition and chronic malnutrition. Acute malnutrition indicates inadequate or insufficient nutrient intake resulting in severe systemic degeneration. Globally, approximately 32.7 million children under 5 years are found to have visible and clinical signs of acute malnutrition. Severe wasting is seen in 14.3 million children within this age group. These disorders are primarily localized to resource-limited regions.[61] In comparison, chronic malnutrition is a condition that develops over time and results in growth inadequacy with subsequent developmental, physical and cognitive delays. Around 144 million children worldwide are chronically malnourished.[60]

Diagnosis

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The diagnosis of FTT relies on plotting the child's height and weight on a validated growth chart, such as the World Health Organization (WHO) growth charts[62] for children younger than two years old or the U.S. Centers for Disease Control and Prevention (CDC) growth charts[63] for patients between the ages of two and twenty years old.[3] While there is no universally accepted definition for failure to thrive, the following are examples of diagnostic criteria for FTT:

  • Weight under the 5th percentile among children of the same sex and corrected age;[3]
  • Weight for length below the 5th percentile among children of the same sex and age;[3]
  • Length for age below the 5th percentile;[10]
  • Body mass index for age under the 5th percentile;[3]
  • Weight for age or weight for length dropping by at least two major percentiles (95th, 90th, 75th, 50th, 25th, 10th, and 5th) on a growth chart;[3]
  • Weight below 75% of the median weight for age;[10]
  • Weight below 75% of median weight for length;[10] or
  • Weight velocity less than the 5th percentile.[10]

After detection, the underlying cause of FTT must be diagnosed by a medical provider through a multifaceted process. Without determining what causes the growth problem, FTT is a wastebasket diagnosis.[64] This process begins with evaluating the patient's medical history. The medical provider will ask about complications during pregnancy and birth, health during early infancy, previous or current medical conditions of the child, and developmental milestones that have been reached or not reached by the child.[20] The child's feeding and diet history, including overall caloric intake and eating habits, is also assessed to help identify potential causes of FTT.[65][66] Additionally, medical providers will inquire about any medical conditions that other members of the family may have, as well as assess the psychological and social circumstances of the child and family.[20]

Next, a complete physical examination may be done, with special attention being paid to identifying possible organic sources of FTT.[65] This could include looking for dysmorphic features (differences in physical features, such as an especially large or small head, that may indicate an underlying medical disorder), abnormal breathing sounds, and signs of specific vitamin and mineral deficiencies.[65] The physical exam may also reveal signs of possible child neglect or abuse.[65]

Based on the information gained from the history and physical examination, a workup can then be conducted, in which possible sources of FTT can be further probed through blood work, x-rays, or other tests.[65] Laboratory workup should be done in response to specific history and physical examination findings. Medical providers should take care not to order unnecessary tests, especially given estimates that the usefulness of laboratory investigations for children with failure to thrive is 1.4%.[20] Initial bloodwork may include a complete blood count (CBC) with differential to see if there are abnormalities in the number of blood cells, a complete metabolic panel to look for electrolyte derangements, a thyroid function test to assess thyroid hormone activity, and a urinalysis to test for infections or diseases related to the kidneys or urinary tract.[67] If indicated, anti-TTG IgA antibodies can be used to assess for celiac disease, and a sweat chloride test can be used to screen for cystic fibrosis.[67] If no cause is discovered, a stool examination could be indicated, which would give information about the function of gastrointestinal organs.[67] C-reactive protein and erythrocyte sedimentation rate (ESR) can also be used look for signs of inflammation, which may indicate an infection or inflammatory disorder.[67]

Treatment

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Infants and children who have had unpleasant eating experiences (e.g. acid reflux or food intolerance) may be reluctant to eat their meals.[66] Additionally, force feeding an infant or child can discourage proper self-feeding practices and in-turn cause undue stress on both the child and their parents.[66] Psychosocial interventions can be targeted at encouraging the child to feed themselves during meals.[8][66] Also, making mealtimes a positive, enjoyable experience through the use of positive reinforcement may improve eating habits in children who present with FTT.[8][66] If behavioral issues persist and are affecting nutritional habits in children with FTT it is recommended that the child see a psychologist.[66] If an underlying condition, such as inflammatory bowel disease, is identified as the cause of the child's failure to thrive then treatment is directed towards the underlying condition.[20] Special care should be taken to avoid refeeding syndrome when initiating feeds in a malnourished patient. Refeeding syndrome is caused by a shift in fluid and electrolytes in a malnourished person as they receive artificial refeeding.[68] It is potentially fatal, and can occur whether receiving enteral or parenteral nutrition.[69] The most serious and common electrolyte abnormality is hypophosphatemia, although sodium abnormalities are common as well. It can also cause changes in glucose, protein, and fat metabolism.[70] Incidence of refeeding syndrome is high, with one prospective cohort study showing 34% of ICU experienced hypophosphatemia soon after feeding was restarted.[71]

Low-resourced settings

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Community-based management of malnutrition (CMAM) has been shown to be effective in many low resourced regions in the past two decades. This method includes providing children with ready-to-use therapeutic food (RUTF) and then following up with their health at home or at local health centers. RUTF is readily-consumed, shelf-stable food that provides all the nutrients required for recovery. It comes in different formulations, is generally a soft, semisolid paste, and can be sourced locally, commercially, or from agencies like UNICEF. In terms of efficacy, clinical experience and systemic reviews have shown higher recovery rates using CMAM than previous methods, such as milk-based formulas. While this is an efficient outpatient method to address FTT, children with underlying pathologies would require further inpatient workup.[citation needed]

RUTF should be treated as prescribed medication to the child experience FTT, and thus should not be shared with others in the family. The recommended feeding protocol is 5-6 servings a day for about 6–8 months, at which time many children will fully recover. Children should have a follow-up every week or two looking at weight and upper arm circumference. Follow-ups can be decreased if there is progress without complications, but if the child is not improving, then further evaluation for underlying issues is recommended. After treatment has ended, the child's caretakers should be counseled on how to continue feeding them and looking for signs of relapse.[citation needed]

Prevention is an effective strategy to address failure to thrive in resource limited regions. Recognition of at-risk populations is an important first step in approaching prevention. Infections such as HIV, tuberculosis and conditions causing diarrhea can be causative factors in failure to thrive.[72] As such, addressing these conditions can greatly improve outcomes. Targeted supplementation strategies such as ready-to-eat foods or legume supplementation are valuable tools for preempting failure to thrive.[citation needed]

Prognosis

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Children with failure to thrive are at an increased risk for long-term growth, cognitive, and behavioral complications.[56] Studies have shown that children with failure to thrive during infancy were shorter and lower weight at school-age than their peers. Failure to thrive may also result in children not achieving their growth potential, as estimated by mid-parental height.[56][73] Longitudinal studies have also demonstrated slightly lower IQs (3–5 points) and poorer arithmetic performance in children with a history failure to thrive, compared to peers receiving adequate nutrition as infants and toddlers.[23][74] Early intervention and restoration of adequate nutrition has been shown to reduce the likelihood of long-term sequelae, however, studies have shown that failure to thrive may cause persistent behavioral problems, despite appropriate treatment.[56]

Etymology of the term FTT

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FTT was first introduced in the early 20th century to describe poor growth in orphan children but became associated with negative implications (such as maternal deprivation) that often incorrectly explained the underlying issues.[75] Throughout the 20th century, FTT was expanded to include many different issues related to poor growth, which made it broadly applicable but non-specific.[75] It was often used to blame the mother.[64] The current conceptualization of FTT acknowledges the complexity of faltering growth in children and has shed many of the negative stereotypes that plagued previous definitions.[75]

In older adults

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The same label is given to older adults, as a synonym for frailty syndrome and functional decline.[76] They may struggle with instrumental activities of daily living (e.g., preparing meals for themselves), be at high risk for hospital admission, and need significant discharge planning to support a safe and healthy return home.[76]

See also

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References

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  1. ^ Shields B, Wacogne I, Wright CM (September 2012). "Weight faltering and failure to thrive in infancy and early childhood" (PDF). BMJ. 345 (sep25 1): e5931. doi:10.1136/bmj.e5931. PMID 23014901. S2CID 1339246.
  2. ^ Goh, Lay Hoon; How, Choon How; Ng, Kar Hui (June 2016). "Failure to thrive in babies and toddlers". Singapore Medical Journal. 57 (6): 287–291. doi:10.11622/smedj.2016102. ISSN 0037-5675. PMC 4971446. PMID 27353148.
  3. ^ a b c d e f g h i j k l m n o p q r s Homan, Gretchen J. (2016-08-15). "Failure to Thrive: A Practical Guide". American Family Physician. 94 (4): 295–299. ISSN 0002-838X. PMID 27548594.
  4. ^ "Failure to Thrive: Miscellaneous Disorders in Infants and Children: Merck Manual Professional". Archived from the original on 2012-11-29. Retrieved 2010-03-23.
  5. ^ Hughes I (February 2007). "Confusing terminology attempts to define the undefinable". Archives of Disease in Childhood. 92 (2): 97–98. doi:10.1136/adc.2006.108423. PMC 2083328. PMID 17264278.
  6. ^ Raynor P, Rudolf MC (May 2000). "Anthropometric indices of failure to thrive". Archives of Disease in Childhood. 82 (5): 364–365. doi:10.1136/adc.82.5.364. PMC 1718329. PMID 10799424.
  7. ^ Olsen EM, Petersen J, Skovgaard AM, Weile B, Jørgensen T, Wright CM (February 2007). "Failure to thrive: the prevalence and concurrence of anthropometric criteria in a general infant population". Archives of Disease in Childhood. 92 (2): 109–114. doi:10.1136/adc.2005.080333. PMC 2083342. PMID 16531456.
  8. ^ a b c d e f National Guideline Alliance (UK) (2017). Faltering Growth – recognition and management. National Institute for Health and Care Excellence: Clinical Guidelines. London: National Institute for Health and Care Excellence (UK). ISBN 978-1-4731-2693-0. PMID 28991420.
  9. ^ "Weight-for-age Child growth standards". World Health Organization. Retrieved 2017-11-15.
  10. ^ a b c d e f g h i Cole, Sarah Z.; Lanham, Jason S. (2011-04-01). "Failure to Thrive: An Update". American Family Physician. 83 (7): 829–834. ISSN 0002-838X. PMID 21524049.
  11. ^ Homan, Gretchen J. (2016-08-15). "Failure to Thrive: A Practical Guide". American Family Physician. 94 (4): 295–299. PMID 27548594.
  12. ^ a b c d e f Kliegman R, Lye PS, Bordini BJ, Toth H, Basel D (2018). Nelson pediatric symptom-based diagnosis. Philadelphia, Pennsylvania. ISBN 978-0-323-39956-2. OCLC 986243536.{{cite book}}: CS1 maint: location missing publisher (link)
  13. ^ a b c Zitelli BJ, McIntire SC, Nowalk AJ (2012). Zitelli and Davis' atlas of pediatric physical diagnosis (Sixth ed.). Philadelphia, Pennsylvania: Saunders/Elsevier. ISBN 978-0-323-07932-7. OCLC 793494374.
  14. ^ "UNICEF - Definitions". www.unicef.org. Archived from the original on 20 April 2020.
  15. ^ a b c d e Needlman, Robert (2007), "Failure to Thrive", Pediatric Clinical Advisor, Elsevier, pp. 201–202, doi:10.1016/b978-032303506-4.10114-2, ISBN 9780323035064
  16. ^ a b c Bergman, Philip; Graham, Justin (September 2005). "An approach to 'failure to thrive'" (PDF). Australian Family Physician. 34 (9): 725–729. PMID 16184203.
  17. ^ a b c Venkateshwar, V; Raghu Raman, TS (July 2000). "Failure to Thrive". Medical Journal, Armed Forces India. 56 (3): 219–224. doi:10.1016/S0377-1237(17)30171-5. ISSN 0377-1237. PMC 5532051. PMID 28790712.
  18. ^ Block, Robert; Krebs, Nancy (November 2005). "Failure to Thrive as a Manifestation of Child Neglect" (PDF). Pediatrics. 116 (5): 1234–1237. doi:10.1542/peds.2005-2032. PMID 16264015. S2CID 26262746.
  19. ^ "Pre- and Post-natal Growth Deficiencies and Fetal Alcohol Syndrome". The Embryo Project Encyclopedia. Archived from the original on 2018-11-24. Retrieved 2018-11-23.
  20. ^ a b c d e f g h i j k Scholler I, Nittur S (2012-10-01). "Understanding failure to thrive". Paediatrics and Child Health. 22 (10): 438–442. doi:10.1016/j.paed.2012.02.007.
  21. ^ "Pre- and Post-natal Growth Deficiencies and Fetal Alcohol Syndrome | The Embryo Project Encyclopedia". embryo.asu.edu. Retrieved 2018-12-12.
  22. ^ Prendergast AJ, Humphrey JH (November 2014). "The stunting syndrome in developing countries". Paediatrics and International Child Health. 34 (4): 250–65. doi:10.1179/2046905514Y.0000000158. PMC 4232245. PMID 25310000.
  23. ^ a b Jaffe AC (March 2011). "Failure to thrive: current clinical concepts". Pediatrics in Review. 32 (3): 100–7, quiz 108. doi:10.1542/pir.32-3-100. PMID 21364013.
  24. ^ a b Stewart, Robert C. (2007-03-07). "Maternal depression and infant growth – a review of recent evidence". Maternal & Child Nutrition. 3 (2): 94–107. doi:10.1111/j.1740-8709.2007.00088.x. ISSN 1740-8695. PMC 6860855. PMID 17355442.
  25. ^ Patel V, DeSouza N, Rodrigues M (January 2003). "Postnatal depression and infant growth and development in low income countries: a cohort study from Goa, India". Archives of Disease in Childhood. 88 (1): 34–37. doi:10.1136/adc.88.1.34. PMC 1719257. PMID 12495957.
  26. ^ a b "Depression Among Women | Depression | Reproductive Health | CDC". www.cdc.gov. 2020-05-14. Retrieved 2021-12-06.
  27. ^ a b c Kuperminc, Michelle N.; Stevenson, Richard D. (2008). "Growth and Nutrition Disorders in Children with Cerebral Palsy". Developmental Disabilities Research Reviews. 14 (2): 137–146. doi:10.1002/ddrr.14. ISSN 1940-5510. PMC 2830751. PMID 18646022.
  28. ^ a b c Vyas, Tarun; Gupta, Prabhakar; Kumar, Sachin; Gupta, Rajat; Gupta, Tanu; Singh, Harkanwal Preet (2020-06-30). "Cleft of lip and palate: A review". Journal of Family Medicine and Primary Care. 9 (6): 2621–2625. doi:10.4103/jfmpc.jfmpc_472_20. ISSN 2249-4863. PMC 7491837. PMID 32984097.
  29. ^ a b c Leung, Alexander KC; Hon, Kam Lun (2019-06-17). "Gastroesophageal reflux in children: an updated review". Drugs in Context. 8: 212591. doi:10.7573/dic.212591. ISSN 1745-1981. PMC 6586172. PMID 31258618.
  30. ^ a b c Garfield, Karen; Sergent, Shane R. (2021), "Pyloric Stenosis", StatPearls, Treasure Island (FL): StatPearls Publishing, PMID 32310391, retrieved 2021-12-06
  31. ^ a b Thomas, Jennifer J.; Lawson, Elizabeth A.; Micali, Nadia; Misra, Madhusmita; Deckersbach, Thilo; Eddy, Kamryn T. (August 2017). "Avoidant/Restrictive Food Intake Disorder: A Three-Dimensional Model of Neurobiology with Implications for Etiology and Treatment". Current Psychiatry Reports. 19 (8): 54. doi:10.1007/s11920-017-0795-5. ISSN 1523-3812. PMC 6281436. PMID 28714048.
  32. ^ a b Kruszka, Paul; Regier, Debra (2019-01-01). "Inborn Errors of Metabolism: From Preconception to Adulthood". American Family Physician. 99 (1): 25–32. ISSN 0002-838X. PMID 30600976.
  33. ^ a b c Caffarelli, Carlo; Baldi, Francesco; Bendandi, Barbara; Calzone, Luigi; Marani, Miris; Pasquinelli, Pamela (2010-01-15). "Cow's milk protein allergy in children: a practical guide". Italian Journal of Pediatrics. 36: 5. doi:10.1186/1824-7288-36-5. ISSN 1824-7288. PMC 2823764. PMID 20205781.
  34. ^ a b c Caio, Giacomo; Volta, Umberto; Sapone, Anna; Leffler, Daniel A.; De Giorgio, Roberto; Catassi, Carlo; Fasano, Alessio (2019-07-23). "Celiac disease: a comprehensive current review". BMC Medicine. 17 (1): 142. doi:10.1186/s12916-019-1380-z. ISSN 1741-7015. PMC 6647104. PMID 31331324.
  35. ^ Engelstad, Holly J.; Danko, Melissa E. (2020-06-01). "Short Bowel Syndrome in an Infant". NeoReviews. 21 (6): e370–e382. doi:10.1542/neo.21-6-e370. ISSN 1526-9906. PMID 32482699. S2CID 219170686.
  36. ^ Carroll, Robert E.; Benedetti, Enrico; Schowalter, Joseph P.; Buchman, Alan L. (July 2016). "Management and Complications of Short Bowel Syndrome: an Updated Review". Current Gastroenterology Reports. 18 (7): 40. doi:10.1007/s11894-016-0511-3. ISSN 1534-312X. PMID 27324885. S2CID 207329367.
  37. ^ Wales PW, Christison-Lagay ER (February 2010). "Short bowel syndrome: epidemiology and etiology". Seminars in Pediatric Surgery. 19 (1): 3–9. doi:10.1053/j.sempedsurg.2009.11.001. PMID 20123268.
  38. ^ a b c Davies, Jane C; Alton, Eric W F W; Bush, Andrew (2007-12-15). "Cystic fibrosis". BMJ: British Medical Journal. 335 (7632): 1255–1259. doi:10.1136/bmj.39391.713229.AD. ISSN 0959-8138. PMC 2137053. PMID 18079549.
  39. ^ Govindarajan, Krishna Kumar (2016-12-28). "Biliary atresia: Where do we stand now?". World Journal of Hepatology. 8 (36): 1593–1601. doi:10.4254/wjh.v8.i36.1593. ISSN 1948-5182. PMC 5192550. PMID 28083081.
  40. ^ Boster, Julia M.; Feldman, Amy G.; Mack, Cara L.; Sokol, Ronald J.; Sundaram, Shikha S. (2021). "Malnutrition in Biliary Atresia: Assessment, Management, and Outcomes". Liver Transplantation. 28 (3): 483–492. doi:10.1002/lt.26339. ISSN 1527-6473. PMC 8857023. PMID 34669243.
  41. ^ a b Sankararaman, Senthilkumar; Schindler, Teresa; Sferra, Thomas J. (2019). "Management of Exocrine Pancreatic Insufficiency in Children". Nutrition in Clinical Practice. 34 (S1): S27–S42. doi:10.1002/ncp.10388. ISSN 1941-2452. PMID 31535732. S2CID 202686985.
  42. ^ a b Doubleday, Amanda; Sippel, Rebecca (February 2020). "Hyperthyroidism". Gland Surgery. 9 (1): 124–135. doi:10.21037/gs.2019.11.01. PMC 7082267. PMID 32206604.
  43. ^ Srinivasan, Shylaja; Misra, Madhusmita (2015-06-01). "Hyperthyroidism in Children". Pediatrics in Review. 36 (6): 239–248. doi:10.1542/pir.36.6.239. ISSN 0191-9601. PMID 26034254. S2CID 245120963.
  44. ^ a b Garza, Cutberto (January 2007). "Effect of infection on energy requirements of infants and children". Public Health Nutrition. 8 (7a): 1187–1190. doi:10.1079/PHN2005804. ISSN 1475-2727. PMID 16277828.
  45. ^ MENDELSON, E; ABOUDY, Y; SMETANA, Z; TEPPERBERG, M; GROSSMAN, Z (May 2006). "Laboratory assessment and diagnosis of congenital viral infections: Rubella, cytomegalovirus (CMV), varicella-zoster virus (VZV), herpes simplex virus (HSV), parvovirus B19 and human immunodeficiency virus (HIV)". Reproductive Toxicology. 21 (4): 350–382. doi:10.1016/j.reprotox.2006.02.001. ISSN 0890-6238. PMID 16564672.
  46. ^ Kharroubi, Akram T; Darwish, Hisham M (2015-06-25). "Diabetes mellitus: The epidemic of the century". World Journal of Diabetes. 6 (6): 850–867. doi:10.4239/wjd.v6.i6.850. ISSN 1948-9358. PMC 4478580. PMID 26131326.
  47. ^ a b Mohora, Ramona; Stoicescu, Silvia-Maria (June 2016). "Congenital Diabetes Mellitus". Mædica. 11 (2): 154–157. ISSN 1841-9038. PMC 5394572. PMID 28461836.
  48. ^ a b Menon, G; Poskitt, E M (December 1985). "Why does congenital heart disease cause failure to thrive?". Archives of Disease in Childhood. 60 (12): 1134–1139. doi:10.1136/adc.60.12.1134. ISSN 0003-9888. PMC 1777687. PMID 4091578.
  49. ^ Shaw, Be (N. J. ) (1996-02-01). "Nutritional management of chronic lung disease". Seminars in Neonatology. Enteral Nutrition. 1 (1): 51–57. doi:10.1016/S1084-2756(96)80021-2. ISSN 1084-2756.
  50. ^ Ahrensberg, Jette Møller; Hansen, Rikke Pilegaard; Olesen, Frede; Schrøder, Henrik; Vedsted, Peter (July 2012). "Presenting symptoms of children with cancer: a primary-care population-based study". The British Journal of General Practice. 62 (600): e458–e465. doi:10.3399/bjgp12X652319. ISSN 0960-1643. PMC 3381271. PMID 22781993.
  51. ^ Hyltander, A.; Drott, C.; Körner, U.; Sandström, R.; Lundholm, K. (1991). "Elevated energy expenditure in cancer patients with solid tumours". European Journal of Cancer. 27 (1): 9–15. doi:10.1016/0277-5379(91)90050-n. ISSN 0959-8049. PMID 1826450.
  52. ^ Purcell, S. A.; Elliott, S. A.; Baracos, V. E.; Chu, Q. S. C.; Prado, C. M. (June 2016). "Key determinants of energy expenditure in cancer and implications for clinical practice". European Journal of Clinical Nutrition. 70 (11): 1230–1238. doi:10.1038/ejcn.2016.96. ISSN 1476-5640. PMID 27273068. S2CID 8231339.
  53. ^ Scollon, Sarah; Anglin, Amanda Knoth; Thomas, Martha; Turner, Joyce T.; Schneider, Kami Wolfe (2017). "A Comprehensive Review of Pediatric Tumors and Associated Cancer Predisposition Syndromes". Journal of Genetic Counseling. 26 (3): 387–434. doi:10.1007/s10897-017-0077-8. ISSN 1573-3599. PMID 28357779. S2CID 33873609.
  54. ^ "Types of Cancer that Develop in Children". www.cancer.org. Retrieved 2021-12-06.
  55. ^ a b Massengill, Susan F.; Ferris, Maria (2014-01-01). "Chronic Kidney Disease in Children and Adolescents". Pediatrics in Review. 35 (1): 16–29. doi:10.1542/pir.35.1.16. ISSN 0191-9601. PMID 24385562. S2CID 245103034.
  56. ^ a b c d e Larson-Nath C, Biank VF (February 2016). "Clinical Review of Failure to Thrive in Pediatric Patients". Pediatric Annals. 45 (2): e46-9. doi:10.3928/00904481-20160114-01. PMID 26878182.
  57. ^ Goh LH, How CH, Ng KH (June 2016). "Failure to thrive in babies and toddlers". Singapore Medical Journal. 57 (6): 287–291. doi:10.11622/smedj.2016102. PMC 4971446. PMID 27353148.
  58. ^ a b Thompson RT, Bennett WE, Finnell SM, Downs SM, Carroll AE (March 2013). "Increased length of stay and costs associated with weekend admissions for failure to thrive". Pediatrics. 131 (3): e805-10. doi:10.1542/peds.2012-2015. PMID 23439903. S2CID 955151.
  59. ^ "Children: improving survival and well-being". www.who.int. Retrieved 2021-12-10.
  60. ^ a b c Manary, Mark J. (September 2006). "Local Production and Provision of Ready-To-Use Therapeutic Food (Rutf) Spread for the Treatment of Severe Childhood Malnutrition". Food and Nutrition Bulletin. 27 (3_suppl3): S83–S89. doi:10.1177/15648265060273S305. ISSN 0379-5721. PMID 17076214. S2CID 25350128.
  61. ^ Lai, Nai Ming (2019-11-28). "How does standard ready-to-use therapeutic food (RUTF) compare with alternative RUTF approaches or formulas for children with severe acute malnutrition?". Cochrane Clinical Answers. doi:10.1002/cca.2711. ISSN 2050-4217. S2CID 213358090.
  62. ^ "The WHO Child Growth Standards". www.who.int. Retrieved 2021-12-14.
  63. ^ "Growth Charts - Clinical Growth Charts". www.cdc.gov. 2019-01-11. Retrieved 2021-12-14.
  64. ^ a b Gross, Rachel E. (2024-05-13). "'Failure to Thrive,' or a Failure to Investigate?". The New York Times. ISSN 0362-4331. Retrieved 2024-05-18.
  65. ^ a b c d e Al Nofal A, Schwenk WF (December 2013). "Growth failure in children: a symptom or a disease?". Nutrition in Clinical Practice. 28 (6): 651–658. doi:10.1177/0884533613506015. PMID 24170580.
  66. ^ a b c d e f Marchand V (October 2012). "The toddler who is falling off the growth chart". Paediatrics & Child Health. 17 (8): 447–54. doi:10.1093/pch/17.8.447. PMC 3474389. PMID 24082808.
  67. ^ a b c d Ferri, Fred F. (2010), "MANAGING YOUR HUMAN PAPILLOMAVIRUS INFECTION", Ferri's Netter Patient Advisor 2010-2011, Elsevier, pp. 535–536, doi:10.1016/b978-1-4160-6037-6.50271-2, ISBN 9781416060376
  68. ^ "Minerva". BMJ. 336 (7639): 336.2–336. 2008-02-07. doi:10.1136/bmj.39479.508819.80. ISSN 0959-8138. PMC 2234541.
  69. ^ "Hyperalimentation, Hypophosphatemia and Coma". Anesthesiology. 38 (3): 308. March 1973. doi:10.1097/00000542-197303000-00032. ISSN 0003-3022.
  70. ^ Hearing, Stephen D (2004-04-15). "Refeeding syndrome". BMJ. 328 (7445): 908–909. doi:10.1136/bmj.328.7445.908. ISSN 0959-8138. PMC 390152. PMID 15087326.
  71. ^ Marik, Paul E. (1996-10-01). "Refeeding Hypophosphatemia in Critically Ill Patients in an Intensive Care Unit". Archives of Surgery. 131 (10): 1043–7. doi:10.1001/archsurg.1996.01430220037007. ISSN 0004-0010. PMID 8857900.
  72. ^ "Failure to thrive: MedlinePlus Medical Encyclopedia". medlineplus.gov. Retrieved 2023-10-20.
  73. ^ Boddy J, Skuse D, Andrews B (November 2000). "The developmental sequelae of nonorganic failure to thrive". Journal of Child Psychology and Psychiatry, and Allied Disciplines. 41 (8): 1003–14. doi:10.1111/1469-7610.00688. PMID 11099117.
  74. ^ Black MM, Dubowitz H, Krishnakumar A, Starr RH (July 2007). "Early intervention and recovery among children with failure to thrive: follow-up at age 8". Pediatrics. 120 (1): 59–69. doi:10.1542/peds.2006-1657. PMID 17606562. S2CID 20638166.
  75. ^ a b c Estrem HH, Pados BF, Park J, Knafl KA, Thoyre SM (January 2017). "Feeding problems in infancy and early childhood: evolutionary concept analysis". Journal of Advanced Nursing. 73 (1): 56–70. doi:10.1111/jan.13140. PMID 27601073. S2CID 1353002.
  76. ^ a b Kahn, Joseph H.; Magauran (Jr.), Brendan G.; Olshaker, Jonathan S. (2014-01-16). Geriatric Emergency Medicine. Cambridge University Press. pp. 52–54. ISBN 978-1-107-67764-7.
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