The presentation of foreign body aspiration in the emergency department varies greatly and can suffer from incorrect diagnosis. Factors affecting the acuity of the problem include the object that is aspirated, the location of the aspirate, as well as timeframe in which aspiration occurred. Acute upper airway compromise may present with classic symptoms of choking including significant respiratory distress, while a more distal obstruction may present with mild wheezing, cough, a complaint of discomfort, or general shortness of breath.
Foreign body aspiration is the fourth leading cause of death in preschool and younger age children. It accounts for a significant number of emergency department visits in the United States. As such, it is a leading concern for both prevention and public health as well as critical recognition and treatment. The Consumer Product Safety Commission placed restrictions on items that may confer a choking hazard, and in 1973, federal regulation 15 CFR 1501 introduced the Small Parts Test Fixture which provides measurements for toys designed for children three years and younger.
Although several federal guidelines have been implemented to reduce choking in young children, which include, package labeling with warnings for small parts, warnings on television and internet advertisements regularly make the public aware of the choking hazards of toys. In the United States, no regulations exist on food items with a potential risk for choking, which is unfortunate because many aspirations are organic food material. Peanuts, seeds, and fruits with round shapes are the most often aspirated food in children. With hotdogs and candy accounting for a majority of deaths from choking. Public education of parents, babysitters, teachers, and caregivers remains an essential factor in preventing airway foreign body aspiration.
Upon aspiration of a foreign body into the larynx or proximal trachea, there is always the potential for respiratory compromise or aspiration into the distal airways causing subacute symptoms including shortness of breath or coughing. Causes of a foreign body aspiration include many items like food and non-organic items. Peanuts are the most frequently ingested object in the West, with hotdogs causing the most morbidity. Male children are more likely to aspirate than female children. A common feature of most aspirated objects is their round/oval shape.
Children, males, more often than females, and developmentally delayed individuals are more likely to aspirate foreign bodies. In the West, food objects are most commonly aspirated, with peanuts being the most commonly aspirated food, followed by hotdogs and hard candy. Outside of food, other smooth and round objects like marbles and rubber balls are often aspirated. The lack of molars to chew food is also a contributing factor in children.
Statistical data predominantly derives from single-center studies. Larger cohorts and nationwide analysis have just started to analyze the data. These studies estimate the incidence of foreign body airway obstruction (FBAO) to be 0.66 per one hundred thousand. In the USA, seventeen thousand emergency visits in children under 14 years were linked to foreign bodies inhalation in 2000. Foreign body aspiration is the primary cause of accidental infantile deaths and the fourth cause of death among preschool children less than five years old.
Airway foreign bodies have unique demography; 80% of cases are below three years of age, with a peak frequency occurring in the one to two years old age group. In a case review of 81 cases, Asif et al. found that children under five years aspirate 77.8% of foreign bodies, 16% by children between five to fifteen years, and 6.2% by those above fifteen years. Similarly, Reilly et al. highlighted that children four years or younger are more vulnerable to inhaling foreign bodies as they are driven by oral exploration using their molar-free mouths and their lack of well-coordinated swallowing reflex.
Complete obstruction can lead to distal infection; partial obstruction may lead to inflammation of local tissue. Food may lead to more inflammatory effects than a metal or plastic object, and also may swell leading to incomplete to complete obstruction. Medications like iron tablets have led to distal airway stenosis and severe airway inflammation.
History of aspiration or suspected aspiration is sometimes enough to warrant a full workup including a rigid bronchoscopy.
Presentation of aspiration may present different ways. Acute large airway obstruction presents with severe obvious clinical distress, stridor, choking sign, drooling. Chronic shortness of breath related to the foreign body, especially in children and developmentally delayed individuals who are unable to articulate the event reliably, is more likely to be in the smaller airways. The patient may have several weeks of coughing, shortness of breath or even a complaint of chest discomfort.
Airway anatomy in children differs from anatomy in adults. The smallest diameter area is the cricoid area of trachea inferior to the vocal cords due to the funnel shape of the trachea. In adults, the narrowest portion is the glottic opening, and the trachea is cylindrical shaped.
The most likely place for a proximal obstruction is the trachea; this will likely cause apparent respiratory distress, stridor, and possibly airway trauma if the object is sharp. Children have a slight right side predominance for right main-stem obstruction, but not as high as adults. Patients with a distal obstruction may present with subacute symptoms.
The physical exam may show tripoding, drooling, stridor, focal wheezing. History may be suggestive of aspiration, even from several weeks prior.
Evaluate with chest X-rays, PA, and lateral inspiratory-expiratory films, if possible. Unilateral expansion with diaphragm flattening of the affected side with mediastinal pushing away will indicate obstruction on that side. Obtain IV access with bloodwork including CBC, type, and screen if the patient will go the OR, develop a treatment for pain management, and administer empiric antibiotics in a patient who is febrile or toxic appearing.
For an active upper airway obstruction, airway control is paramount. Do NOT blindly sweep the airway, perform direct visualization of the airway with whatever blade you are most comfortable using, and possible extraction with Magill forceps. Sedation will likely be necessary unless the patient is unresponsive. Intubating past the obstruction or forcing the blockage into one of the mainstems may be required. Emergent ED cricothyroidotomy may be indicated if there is no other avenue to ventilate the patient.
For a possible lower airway obstruction, a good history and physical exam are always important. If the patient has been treated and symptoms have not resolved is an indication to evaluate more aggressively. There may be focal findings on auscultation, there may be a potential choking episode weeks ago, and the patient may have infectious symptoms if the object is causing bronchiectasis or abscess. The definitive treatment is rigid bronchoscopy, and at some centers, a rigid bronchoscopy will be performed based on history or suspicion alone as up to 15% of aspirations have a normal physical exam and imaging.
Definitive management of known radiopaque or suspected radiolucent foreign body is rigid bronchoscopy under anesthesia. If the object has acutely been aspirated then retrieval and normal post-op recommendations are sufficient. If there have been clinical signs of infection, then antibiotic treatment for post-obstructive infection can be initiated.
Diseases that may present with clinical findings similar to foreign body aspiration are asthma, pneumonia, tuberculosis, epiglottitis, retropharyngeal abscess, peritonsillar abscess, postviral pericarditis or pleuritis, and bronchiolitis. Traumatic injuries with localized pulmonary, airway or even diaphragmatic injury may present similarly to foreign body aspiration.
In children with foreign body aspiration, the prognosis is good if removed early and without complications. Aspiration of iron and potassium can cause airway stenosis. These will need to be retrieved emergently. In a study of 94 children who all presented three days after aspiration, all recovered fully from any complications aside from one who died of respiratory failure.
During management, there is about a 25% complication rate with the majority of these being mild with early intervention. Late intervention brings more severe complications such as hypoxia or anoxic brain injury, bronchial injury, airway stenosis, abscess formation, pneumothorax. Aside from death from respiratory compromise, children will likely recover with treatment for the mentioned complications.
Foreign body aspiration frequently creates a diagnostic dilemma. Such patients may exhibit non-specific signs and symptoms such as a cough, shortness of breath without a medical history or diagnosed medical problems, unclear-onset, and vague discomfort. The cause of these complaints may be due to an infectious, allergic, traumatic, reactive, or foreign body etiology. While physical examination may reveal that the patient has a focal lung finding, the cause will likely correlate with a history of possible aspiration.
While the pulmonologist is almost always involved in the care of patients with a foreign body aspiration, it is essential to consult with an interprofessional team of specialists that include an ENT, otolaryngologist, and possibly a cardiothoracic surgeon. The nurses are also vital members of the interprofessional group as they will monitor the patient's vital signs, help with family members, and keep patients and family calm. In the postoperative period for pain, possible infection, and possible airway lesions; the pharmacist can ensure that the patient is taking the right analgesics, bronchodilators, and appropriate antibiotics. The radiologist also plays a crucial role in delineating the cause. Without a proper history, the radiologist may not be sure what to look for or what additional radiologic exams may be necessary. This problem gets even more involved with radiolucent objects. CT is recommended in the ACR–ASER–SCBT-MR–SPR PRACTICE PARAMETER FOR THE PERFORMANCE OF PEDIATRIC COMPUTED TOMOGRAPHY (CT), Indications section 4 Tracheobronchial abnormalities. The American College of Radiology Appropriateness Criteria represents evidence-based guidelines for specific clinical disorders that undergo review by an interprofessional expert committee every 3 years. The current guidelines were developed following an exhaustive review of the current medical literature from peer-reviewed journals to determine the appropriateness of radiographic imaging and therapy procedures by the committee. In instances where evidence is not definitive or is minimal, expert opinion from specialists may be utilized for recommendations of the type of imaging or treatment.
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