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Acute gastroenteritis in children. 浙江大学医学院附属儿童医院 江米足. What is Gastroenteritis?. Gastroenteritis: nausea, vomiting, diarrhea , abdominal cramping, and fever occur 6-48h after exposure. Gastroenteritis is second only to respiratory illness as a cause of childhood morbidity worldwide.
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Acute gastroenteritis in children 浙江大学医学院附属儿童医院 江米足
What is Gastroenteritis? • Gastroenteritis: nausea, vomiting, diarrhea, abdominal cramping, and fever occur 6-48h after exposure. • Gastroenteritis is second only to respiratory illness as a cause of childhood morbidity worldwide. • Most gastroenteritis is caused by viral infection; bacterial, parasitic (protozoal illnesses are less frequent but not uncommon) and Fungi.
Acute gastroenteritis • Description: • viral gastroenteritis • self-limited illness with nausea, vomiting, diarrhea • Organs involved: • limited to gastrointestinal tract (small intestine) • Who is most affected: • children aged 6 months to 2 years • rotavirus can cause acute diarrhea
What is diarrhea? • Definition: the passage of excessively liquid or frequent stools with increased water content . • Loose consistency(性状改变): watery diarrhea, mucous diarrhea, bloody diarrhea • Increased stool frequency(次数增多) • Duration • Acute (< 14 d) • Persistent (14 d to 2 m) • Chronic (> 2 m)
Etiology of Diarrhea Non infective Infective Food Allergy Symptomatic Overfeeding IntoleranceClimate Viruses Bacteria Parasites Fungi
Common Infectious Causes of Diarrhea • Viruses • Rotavirus • Astrovirus • Calicivirus (including norovirus) • Enteric adenovirus
Common Infectious Causes of Diarrhea • Bacteria • Campylobacter jejuni • Escherichia coli • EPEC; ETEC; EITC; STEC; EAEC • Shigella • Salmonella • Yersinia enterocolitica • Staphylococcus aureus • Clostridium difficile • Vibrio cholerae • Vibrio parahemolyticus
Common Infectious Causes of Diarrhea • Parasites • Entamoeba histolytica (ambiasis) • Giardia lamblia • Cruptosporidium parvum (隐孢子虫) • Strongyloides stercoralis(粪类园线虫) • Blastocystishominis (人牙囊原虫) • Fungi • Candida albicans
Causes of acute gastroenteritis in children • Bacteria (10-20%) • Campylobacter jejuni • Non-typhoid Salmonella spp • Enteropathogenic Escherichia coli • Shigella spp • Yersinia enterocolitica • Shiga toxin producing E coli • Salmonella typhi and S paratyphi • Vibrio cholerae • Helminths • Strongyloides stercoralis • Viruses (about 70%) • Rotaviruses • Noroviruses • Enteric adenoviruses • Caliciviruses • Astroviruses • Enteroviruses • Protozoa (<10%) • Cryptosporidium • Giardia lamblia • Entamoeba histolytica
Rotavirus and diarrhea • As with most viral pathogens, rotavirus affects the small intestine, causing voluminous watery diarrhea without leukocytes or blood. • Rotavirus, a 67-nm double-stranded RNA virus with at least eight serotypic variants, is the most common.
Rotavirus • a REOvirus (Respiratory Enteric Orphan virus) • 4 serotypes based on viral hemagglutinin (Group A rotavirus is most common, but group B and C infections have been documented) • transmission - fecal-oral, respiratory droplet • virus resistant to stomach acid, attaches to beta receptor • shedding of rotavirus can last up to 2 months after severe rotavirus diarrhea • rotavirus can survive on dry inanimate surfaces for 6-60 days
Mechanisms of diarrhea • Osmotic • Secretory • Mucosal inflammation (invasion) • Motality
Mechanisms of Diarrhea • Osmotic Defect Digestive enzyme deficiencies Ingestion of unabsorbable solute Example Viral infection Lactase deficiency Sorbitol /magnesium sulfate Comment Stop with fasting No stool WBCs
Mechanisms of Diarrhea • Secretory Defect Increased secretion Decreased absorption Example Cholera Toxinogenic E.coli Comment Persists during fasting No stool leukocytes
Mechanisms of Diarrhea • Invasion Defect Inflammation Decreased colonic reabsorption Increased motility Example Bacterial enteritis Comment Blood, mucus and WBCs in stool
Mechanisms of Diarrhea • Increased motility Defect Decreased transit time Example: Irritable bowel syndrome
Common infectious causes of diarrhea and their virulent mechanism • Viral diarrhea (osmotic) • Rotavirus • Bacterial diarrhea • Enterotoxinogenic enteritis (secretory) • ETEC • Vibrio cholerae • Entero-invasive enteritis (invasion) • Campylobacter jejuni • EIEC • Shigella species • Salmonella tymphimurium • Yersinia enterocolitica
Pathogenesis of enterotoxinogenic enteritis • The mucosa is not destroyed during this process • An imbalance in the ratio of intestinal fluid absorption to secretion, so watery stool may occur in clinical observation
Complications of acute gastroenteritis • Dehydration • Metabolic acidosis • Electrolyte disturbance (hypernatraemia, hyponatraemia, hypokalaemia, neonatal hypocalcemia ) • Carbohydrate (lactose, glucose) intolerance • Susceptibility to reinfection • Development of food (cow’s milk, soy protein) intolerance • Haemolytic uraemic syndrome • Iatrogenic complications (due to inappropriate composition or amount of intravenous fluids) • Death
What are the clinical characteristics? • Viral infection, with rotaviruses and noroviruses being most common. • Viral infections damage small bowel enterocytes and cause low grade fever and watery diarrhoea without blood. • Rotavirus infection is seasonal in temperate climates, peaking in late winter, but occurs throughout the year in the tropics. • Rotavirus strains vary by season and geographically within countries. • The peak age for infection is between 6 months and 2 years, the mode of spread is by the faecal-oral or respiratory route
How is it diagnosed? • Diagnosis can be made clinically. Information include • recent contact with people with gastroenteritis, • nature and frequency of stool and vomitus, • fluid intake and urine output, • Travel • use of antibiotics and other drugs • Diarrhoea and vomiting are non-specific symptoms in young children, • high fever • prolonged symptoms • signs suggesting a surgical cause (such as severe abdominal pain, bilious vomiting, abdominal mass). • Children with diabetes mellitus and inborn errors of metabolism may present with vomiting.
History • Chief concern (CC): • acute self-limited diarrhea • nausea • vomiting • most infections in newborns are asymptomatic or mild
Clinical manifestation • Gastrointestinal symptom • Acute gastroenteritis—diarrhoea or vomiting (or both) of more than seven days duration • Systemic symptom • May be accompanied by fever, abdominal pain, and anorexia. • Dehydration and electrolyte disturbances • Dehydration • Hypokalemia • Metabolic Acidosis • Hypocalcemia /Hypomagnesemia
Physical • General physical • up to one-third have fever > 102 degrees F (39 ℃) • evaluation of dehydration in children
How is dehydration assessed? • It is important to assess hydration in gastroenteritis as hydration status determines the immediate management of this condition. • The infant or child with profuse watery diarrhoea and frequent vomiting is most at risk. • Clinicians often overestimate the extent of dehydration. • Documented recent weight lost is a good indicator of the degree of dehydration, but this information is rarely available. • The best clinical indicators of more than 5% dehydration are prolonged capillary refill, abnormal skin turgor, and absent tears
Degree of dehydration Clinical signs mild moderate severe Decrease in body weight 3-5% 5-10% 10-15% Skin Turgor normal decreased Markedly decreased Color normal pale markedly decreased Mucous membranes Dry Mottled or gray; parched Hemodynamic signs Pulse normal slight increase tachycardia Capillary refill 2-3 s 3-4 s >4 s blood pressure normal low perfusion normal circulatory collapse Fluid loss urinary output mild oliguria oliguria anuria Tears Decreased absent Urinary indices specific gravity >1.020 anuria Urine [Na+] <20mEq/L anuria
Clinical dehydration scale (CDS) • clinical dehydration scale (CDS) using 4 exam features predicts length of stay and likelihood of receiving IV rehydration in young children having acute gastroenteritis
CDS points assigned • General appearance • 0 normal • 1 thirsty, restless, lethargic but irritable when touched • 2 drowsy, limp, cold, sweaty, comatose • Eyes • 0 normal • 1 slightly sunken • 2 very sunken • Mucous membranes (tongue) • 0 moist • 1 sticky • 2 dry • Tears • 0 present • 1 decreased • 2 absent
CDS classify • CDS (ranges from 0-8 points) classifies children into 3 degrees of dehydration • 0 points - no dehydration • 1-4 points - some dehydration • 5-8 points - moderate/severe dehydration
Laboratory test • Initial laboratory evaluation • CBC • Stool examination: mucus, blood, and leukocytes • Gas and electrolytes analysis • BUN, Cr, and urinalysis for specific gravity • Rapid test for Rotavirus • Stool culture • for patients with fever, profuse diarrhea, and dehydration or if HUS is suspected • Stool evaluation for parasitic agents • identification of the organism in the stool • Blood culture • uncommom
What to exclude (differential diagnosis) • Other infections, such as urinary tract infection, otitis media, pneumonia, septicemia • Surgical causes, such as intussusception, appendicitis, small intestinal obstruction (including malrotation) • Taking antibiotics or other drugs • Spurious diarrhoea; for example, in chronic constipation with overflow incontinence • Non-infectious diseases such as diabetic ketoacidosis, inborn errors of metabolism • Occasionally acute infectious gastroenteritis unmasks gastrointestinal disease (such as coeliac disease, chronic inflammatory bowel disease)
How is gastroenteritis treated? • Management aims to prevent and treat dehydration, maintain nutrition, and minimise harm. • Optimal management with oral or intravenous fluids minimises the risk of dehydration and its adverse outcomes. • Routine use of drugs such as antibiotics, antidiarrhoeal agents, and antiemetics is not recommended and may cause harm.
Which fluid therapy? • Most children are not dehydrated and can be managed at home • Dehydration, metabolic acidosis, and electrolyte disturbance can be prevented and treated by fluid therapy • Mild-moderate dehydration can be treated with oral or enteral rehydration using low osmolality oral rehydration solutions (ORS) • Severely dehydrated or shocked children usually need intravenous fluids and hospital admission
Oral rehydration • ORS are preferable to other clear fluids for preventing and treating dehydration • Fluids high in sugar (such as cola, apple juice, and sports drinks, which contain ≤20 mmol/l sodium and have a high osmolality of 350-750 mOsm/l) may exacerbate diarrhoea and should be avoided. • Breast feeding should be continued during acute gastroenteritis and supplemented with an oral rehydration solution if needed.
Which oral rehydration solution? • Solutions with low osmolality (200-250 mOsm/l) and sodium (60-70 mmol/l) that contain glucose, potassium, and a base (such as citrate) are recommended for developed and developing communities.
低渗ORS的常用配方 ZJCH
If oral intake is inadequate because they dislike the taste, feel nauseated, or have profuse vomiting, a fine bore nasogastric tube is usually well tolerated. Alternatively, fluids may be given intravenously. • Enteral (oral or nasogastric) and intravenous fluids are equally safe and effective for mild-moderate dehydration, rehydration can usually be achieved in 4 to 6 hours. • Children with shock require intravenous resuscitation before rehydration.
Iatrogenic complications • The most common adverse effect of intravenous cannulation is infiltration at the cannula site, but infection, pain, bleeding, and physical and emotional trauma may also occur • especially electrolyte disturbance due to inappropriate composition, rate of administration, or volume of intravenous fluids—may lead to complications, including hyponatraemia with brain injury or death. • If rapid intravenous rehydration is used, careful supervision is needed to avoid fluid overload (dehydration is often overestimated) and electrolyte imbalance.
What about diet? • Children should resume their normal diet once their appetite returns. • Recommend early reintroduction of milk and solids including complex carbohydrates, lean meats, yogurt, and vegetables, but foods high in fat and sugars should be avoided. • Early refeeding reduces the duration of diarrhoea. • In formula fed infants feeds do not need to be diluted when reintroduced.
Is a lactose-free diet necessary? • Carbohydrate (particularly lactose) intolerance is a common complication of viral gastroenteritis as a result of damage to and loss of mature enterocytes containing lactase. • Lactose intolerance is usually mild and self limiting and does not require treatment. • If lactose intolerance persists, a lactose-free formula is recommended for four to six weeks.
Intolerance to food proteins • The damaged gut is more permeable to foreign antigens. • Intolerance to food proteins (β lactoglobulin in cow’s milk and other proteins) is occasionally seen after gastroenteritis; • Can be managed by a period of dietary exclusion.
What is the role of drugs? • Drugs are rarely needed. • Antibiotics are not indicated in viral or uncomplicated bacterial gastroenteritis and may cause harm. • Antidiarrhoeal, antiemetic agents, and antimotility agents are not recommended for routine use because of the risk of adverse effects.
Antibiotics • In non-typhoid Salmonella infections antibiotics increase the risk of prolonged carriage and disease relapse. • Treating gastroenteritis due to Shiga toxin producing E coli with antibiotics may increase the risk of haemolytic uraemic syndrome. • Antibiotics are required, however, for bacterial gastroenteritis complicated by septicemia and in cholera, shigellosis, amoebiasis, giardiasis, and enteric fever.
Zinc supplement • In developing countries, oral zinc given at the onset of symptoms decreases the duration and severity of acute diarrhea and is recommended by the WHO and UNICEF. • The dosage and course of treatment • <6m:zinc element 10mg; • >6m:zinc element 20mg, • Course: 10-14d • Vitamin A does not influence the course of acute gastroenteritis.
Can gastroenteritis be prevented? • Environmental sources, such as children’s animal farms, swimming pools, and beaches. • Good hygiene including careful hand washing, nappy disposal, and preparation and storage of food and drinking water. • Hygiene in institutions, including hospitals where nosocomial infection is common. • Oral rotavirus vaccines.
When to refer to paediatric service • If diagnosis in doubt • Parent or carer unable to manage the child at home • Gastroenteritis in a young infant (<6 months) • High risk of dehydration—worsening diarrhea and vomiting with significant fluid loss • Severe dehydration or shock • Severe abdominal pain, localised tenderness, or mass
When to refer to paediatric service • Evidence of anaemia, thrombocytopenia, poor urine output, or hypertension (think haemolytic uraemic syndrome) • Increased risk of complications—underlying disease (such as diabetes), malnutrition, renal failure, high fever • Persistent diarrhea beyond two weeks may indicate complications such as reinfection, lactose intolerance, or underlying bowel disease
Summary • Acute gastroenteritis accounts for millions of deaths each year in young children, mostly in developing communities. • Rotavirus is the most common cause of acute gastroenteritis worldwide.
Dehydration, which may be associated with electrolyte disturbance and metabolic acidosis, is the most frequent and dangerous complication. • Optimal management with oral or intravenous fluids minimises the risk of dehydration and its adverse outcomes. • Most children are not dehydrated and can be managed at home