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Transcript
Acute Bronchiolitis Acute Bronchiolitis By: Dr. Manzoor Ahmed 1 By: Dr. Manzoor Ahmed 1 A CASE PRESENTATION BY DEPT: OF PAEDIATRICS; Acute Bronchiolitis: By: Dr. Manzoor Ahmed Registrar , paediatrics ,AKMICH 2 BRONCHIOLITIS: A common resp. illness chracterized by inflammation of bronchioles. Consists: acute inflammation edema and necrosis of epithelial cells lining small airways increased mucus production bronchospasm 3 Anatomy of the Respiratory system: 4 Lower Respiratory Tract Infections in Children: Normal lungs & alveoli 5 Histological changes in acute bronchiolitis,showing inflamatory changes, edema and mucus . 6 Epidemiology Statistics: typically occurs in 1st 2 years of life Peak occurrence = 3 to 6 months 90% of children 0-2 yrs, are infected with RSV(respiratory synctial virus) 20% have lower respiratory infection 3% hospitalized 0.002% mortality. 7 MICROBIOLOGY: Typically caused by viruses: RSV-most common(80-90%) Parainfluenza Human Metapneumovirus Influenza Rhinovirus Coronavirus Human bocavirus Occasionally associated with Mycoplasma pneumonia infection 8 It is a RNA virus. RSV is distributed globally and an epidemic personality. RSV belongs to the family of paramyxoviruses and is classified in the genus pneumoviruses. ssRNA enveloped virus, 120 - 300 nm in size 9 Pathophysiology: Inflamation swelling fill with mucus make it difficult to breath. 10 RISK FACTORS: Prematurity Chronic heart/lung disease Weakened immune system due to illness and medications More common in males Children who have not been breast fed Who live in crowded conditions Day care attendence Exposure to ciggerate smoke 11 RISK FACTORS FOR SEVERE DISEASE: Prematurity Low birth weight Age less than 6-12 weeks Chronic pulmonary disease Hemodynamically significant cardiac disease Immunodeficiency Neurologic disease Anatomical defects of the airways 12 History: Flu , cough,low grade fever, Breathing difficulty, poor feeding, cyanosis, Elder family member with flu and cough. Underlying cardiac and lung disease. 13 PHYSICAL EXAMINATION 14 Clinical features SIGN & SYMPTOMS: Symptoms of common cold Stuffiness Runny nose Mild cough After 1 day or two; worsening of the cough & apperence of wheezes Rapid shallow breathing Rapid heart beat Drawing in of chest & neck flaring of the nostrils Irratibility, difficult sleep & fatigue Fever poor appetite May vomit after cough In severe cases cyanosis&signs of dehydration 15 contagiousness Air borne droplets thru infected person nose & mouth while coughing sneezing & laughing. and also from things the person has touched, such as used tissues or toys, door handle, . 16 DURATION & COURSE: Incubation period days to one week. Typically last about 7 days In severe cases can cough for weeks Peak about the 2nd and 3rd day 17 Severity Clinical course: 0 0 5 5 10 15 20 25 10 15 20 25 30 35 Typically lasts about 7 days In severe cases can cough for weeks Peak about the 2nd and 3rd day Days 18 DIFFERENTIAL DIAGNOSIS: Viral-triggered asthma Bronchitis pneumonia Foreign body aspiration Gastroesophageal reflux or dysphagia leading to aspiration Congenital heart disease or heart failure Vascular rings, bronchomalacia, complete tracheal rings or other anatomical abnormalities 19 Complications: After having bronchiolitis, some babies may be more likely to have a wheezy chest or cough, particularly while they have a cold. Neonates can develop APNEA, Asthma and other breathing problems later in life have also been linked with bronchiolitis Babies with bronchiolitis can develop pneumonia,otiti media and sinusitis, . Also, babies with a lung or heart diseae, may find bronchiolitis makes their condition much worse,can lead to resp: failure and DEATH. 20 Otitis media Otitis media a common complication Cohort study of 42 infants with bronchiolitis 62% acute OM (tympanocentesis confirmed) 24% otitis media with effusion 14% normal throughout course 21 Bronchiolitis Obliterans: Inflammation of the BRONCHIOLES leading to an obstructive lung disease. Bronchioles are characterized by fibrous granulation tissue with bronchial exudates in the lumens. Clinical features include a non productive cough and DYSPNEA. Mainly associated with adeno virus and mycoplasma. 22 RSV and asthma link: 40-50% of hospitalized bronchiolitis will wheeze again Increased risk if > 12 months, atopy, eosinophilia 23 HOSPITALIZATION: Children with severe disease Toxic with poor feeding, lethargy, dehydration Moderate to severe respiratory distress (RR > 70, dyspnea, cyanosis) Apnea Hypoxemia(O2 sat: <90%) Parents unable to care for child at home. 24 INVESTIGATIONS: Diagnosis should be made clinically, without routine use of laboratory or radiologic tests But useful in children with complicating signs and symptoms. CBC--to help determine bacterial illness Blood gas--evaluate respiratory failure Nasopharyngeal secretions 4 immunoflourescence + VE for RSV or other viruses (adeno , influenza and para -influenza viruses) Chest X-ray: not routinely recommended; should b done if atypical presentation or Suspecting complications . 25 Hyper inflation+peri hilar infiltrates hyperinflation, flattened diaphragms, peribronchial cuffing, patchy infiltrates, atelectasis 26 A chest radiography revealing lung hyperinflation with a flattene diaphragm and bilateral atelectasis in the right apical and left basal areas.Other findings may include bronchial wall thickening, air trapping, flattened diaphragm, increased AP diameter, peribronchial cuffing, tiny nodules, linear opacities, and patchy alveolar opacities. Opacities on radiographs do not suggest bacterial pneumonia and incorrectly lead to inappropriate treatment with antibiotics. 27 Treatment: HOME TREATENT: Plenty of fluids; in small amounts,frequently. Cool-mist vapuorizer duirng winter Avoid hot water & steam humidifiers Tilt the child matress up Keep baby nose clear using bulb syringe and saline Acetaminophen for fever 28 TREATMENT: HOSPITAL TREATMENT: SUPPORTIVE: Most cases are mild and reqiure no specific treatment Monitor heart & resp. rate & o2 saturation Look 4 apnea & bradycardia Give O2 if tachypaenic, or O2 sat: < 90% N.G or I.V fluids 29 TREATMENT DRUGS: Bronchodilators are NOT recommended ; but have some benefits on clinical grounds. Nebulized & inhaled Epinephrine ( racemic and levo(1)epinephrine) has been shown to decrease hospitalization rates. Inhaled hypertonic saline: Inhaled hypertonic saline (3%) appears to be effective in improving clinical outcomes and shortening the duration of hospital stay. steroids are ineffective. Ribavirin is an antiviral drug which does not appear to be effective Antibiotics; are not indicated unless evidence of bacterial pneumonia Ventilation therapy; on clinical grounds. 30 Discharge criteria: Tolerating feeds. Parents can handle well to baby at home and can identify ,if baby,s condition deteriorates. family education complete Respiratory Status : respirations less than 70 per minute and/or no clinical evidence of increased work of breathing or distress parent can clear the infant’s airway using bulb suctioning patient’s oxygen saturation remains >92 % on room air 31 Follow Up : follow-up appointments to check for, Any complications like, otitis media, effusion or asthma. 32 PREVENTION: Hand washing is strongly recommended : preferably with alcoholbased rubs , antimicrobial soaps before and after contact with patient or with objects in patient’s vicinity after removing gloves void contact with viral infections. Educate personnel and family members on hand hygiene 33 RSV immunoprophylaxis(passive immunization) RSV IVIG /monoclonal antibody : Palivizumab (Synagis®) Attempts to provide immunity to RSV: Passive immunity via hyper immune globulin. Monoclonal antibody to F protein (palivizumab) 55% hospitalizations for preterm/chronic lung disease 45% hospitalizations for congenital heart disease Palvizumab injection, is given on monthly basis during rsv season. 34 Guidelines for RSV Prophylaxis: Premature, no CLD, no CHD ≤28 wks GA Palivizumab if ≤12 months at start of RSV season 29-32 wks GA Palivizumab if ≤6 months at start of RSV season 32-35 wks GA Palivizumab if ≤6 months at start of RSV season with two risk factors present Hemodynamically Significant CHD Palivizumab if ≤2 years old at start of RSV season Chronic Lung Disease* (CLD) *Receiving medical therapy35 American Academy of Pediatrics (AAP) Guidelines for palvizumab: Infants born at 32 weeks of gestation or earlier may benefit from RSV prophylaxis, even if they do not have CLD. For these infants, major risk factors to consider include their gestational age and chronologic age at the start of the RSV season. Infants born at 28 weeks of gestation or earlier may benefit from prophylaxis during their first RSV season, whenever that occurs during the first 12 months of life. Infants born at 29 to 32 weeks of gestation may benefit most from prophylaxis up to 6 months of age. Prophylaxis should be considered for infants between 32 and 35 weeks of gestation who are younger than 6 months of age at the start of the RSV season if 2 or more of these risk factors are present. Epidemiologic data suggest that RSV infection is more likely to lead to hospitalization for these infants when the following risk factors are present: child care attendance, school-aged siblings, exposure to environmental air pollutants, congenital abnormalities of the airways, or severe neuromuscular disease. 36 Palivizumab or RSV-IGIV prophylaxis should be considered for infants and children younger than 2 years of age with CLD who have required medical therapy (supplemental oxygen, bronchodilator, diuretic or corticosteroid therapy) for CLD within 6 months before the anticipated start of the RSV season. Children who are 24 months of age or younger with hemodynamically significant cyanotic and acyanotic congenital heart disease will benefit from 5 monthly intramuscular injections of palivizumab (15 mg/kg). Once a child qualifies for initiation of prophylaxis at the start of the RSV season, administration should continue throughout the season and not stop at the point an infant reaches either 6 months or 12 months of age. Synagis® (palivizumab) is preferred for most high-risk children because of its ease of administration, safety, and efficacy. It also does not interfere with live vaccines such as MMR and varicella. Children with more severe CLD may benefit from two consecutive years of RSV prophylaxis. This should be individualized for each patient, as should the duration of prophylaxis. RSV prophylaxis should be initiated just before the onset of the RSV season and terminated at the end of the RSV season, based on local hospitalization and virology data. Strict observance of infection control practices, including screening and isolation of RSV-infected children, especially in NICU and PICU settings is critical. 37 Future Investigations development of rapid, cost-effective tests for viruses other than RSV that may also play a role in bronchiolitis studies to determine if there are selected patients who may benefit from bronchodilators or corticosteroids clinical studies of the target SpO2 for the most efficient use of oxygen and oxygen monitoring development of new therapies including new antiviral medications continued research into the development of an RSV vaccine continued development of immunoprophylaxis that would require fewer doses and decreased cost 38 Message to take home. 1. 2. 3. 4. 5. 6. 7. Diagnosis should be made clinically, without routine use of laboratory or radiologic tests, and should include assessment of risk factors for severe disease (e.g., prematurity, underlying lung or heart disease, and immunodeficiency) Bronchodilators should not be used routinely for management. An optional trial of an - or ß-agonist should be continued only if objective evaluation indicates a clinical response. Routine use of corticosteroids is not recommended Routine use of ribavirin is not recommended Antibiotics should be used only when bacterial infection is clearly present Assessment of hydration status and oral intake is strongly recommended. IV fluids should be given as necessary Routine chest physiotherapy is not recommended 39 Message to take home Encourage breast feeding. Avoid contact with smoking. Pay more attention to high risk group. 40 Message to take home 8. Supplemental O2 and continuous monitoring are not routinely recommended unless Spo2 persistently falls below 90%. The infant’s clinical work of breathing may also be used to determined need for supplemental oxygen 9. Prophylactic palivizumab is recommended in selected high-risk children with prematurity or heart or lung disease 10. Hand washing is strongly recommended, preferably with alcohol-based rubs or antimicrobial soaps 41 42 43