Aspiration pneumonia medical therapy

Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1]; Associate Editor(s)-in-Chief:

Overview

Medical Therapy

Management of patients with swallowing dysfunction is highly individualized based on the cause of the dysfunction and other patient characteristics identified by the multidisciplinary evaluation outlined above.

If there are primary anatomical abnormalities that predispose to aspiration, these should be surgically corrected, if possible. Total parenteral nutrition or nasogastric tube feeding may be necessary to safely meet caloric requirements during the recovery period after corrective surgery. The same methods for nutritional support should be considered when the patient's swallowing dysfunction is secondary to a transient disease, such as a critical illness.

Feeding decisions

The goals of therapy are safe and efficient nutrition that preserves stable respiratory function and appropriate growth. Oral feeding, while always desirable, is not always the most reasonable goal for patients with severe swallowing dysfunction because the risks of oral feeding may outweigh the psychosocial benefits to the patient and family [6,37,38]. On the other hand, for some patients with severe static encephalopathy or global delays, the family may choose to maintain oral feeds for pleasure despite the known risks of aspiration and pulmonary injury. These considerations require a clear and detailed discussion of goals and risks between the family and clinicians [39].

Techniques to enhance oral feeding

In children with functional abnormalities, treatment is often led by speech and occupational therapists that specialize in swallowing. The specialist selects specific techniques to improve swallowing function based on individual patient characteristics:

●In infants, change in the flow of liquids may significantly improve swallowing. These changes can be made by changing to a slow flow nipple.

●Other feeding techniques include changes in the infant or child's position and posture during feeding, modification of bolus size, and alterations of consistency, shape, texture, and temperature of food. These techniques should be selected based on the result of the videofluoroscopic swallowing study (VFSS) or fiberoptic endoscopic evaluation of swallowing (FEES) (image 1) [3,40].

●In children with delayed maturation, swallowing function may improve over time. In the interim, the techniques outlined above are used to support adequate nutrition and avoid aspiration. The type of feeding is then gradually advanced as the infant or child matures. Advances in feeding may be directed by repeat swallowing evaluation, including clinical assessment of feeding, with or without VFSS or FEES.

Gastrostomy feeds

Percutaneous gastrostomy tube placement should be considered for patients who are unable to safely consume enough calories by mouth. Some patients will require gastrostomy tubes to meet part or all of their nutritional needs. Oral-motor and swallowing therapy should be continued in patients in whom swallowing function is expected to improve, and gastrostomy tubes may be removed when no longer necessary.

Parents may initially be reluctant to have a gastrostomy tube placed because of concerns about losing pleasure of eating, discomfort, or cosmesis. The importance of preventing pulmonary aspiration, long-term benefits of improved nutrition, and reversibility of this procedure should be emphasized. In addition, gastrostomy tubes can be useful for administering medication and fluid, when needed.

General considerations about gastrostomy placement and enteral feeding are discussed in a separate topic review.

Management of salivary aspiration

Management techniques for patients with suspected salivary aspiration include:

●Providing small quantities ("tastes") of liquid or food, to assist purposeful swallowing and reduce the risk of aspiration from pooled saliva.

●Administration of anticholinergic agents, such as glycopyrrolate or scopolamine patches to inhibit salivation. (See "Management and prognosis of cerebral palsy", section on 'Drooling'.)

●Botulinum toxin injections to decrease salivation. (See "Management and prognosis of cerebral palsy", section on 'Drooling'.)

●Surgical removal of salivary glands or salivary duct ligation has had a beneficial effect in some individuals, although these surgeries are not without risk. (See "Management and prognosis of cerebral palsy", section on 'Drooling'.)

●In very rare instances, laryngotracheal separation with a permanent tracheostomy may be indicated.

Surgical approaches should be approached with caution because it is often difficult to predict whether or not these procedures will improve pulmonary symptoms.

Management of gastroesophageal reflux

Patients with swallowing dysfunction, especially those with neurologic impairment, may have increased frequency and volume of gastroesophageal reflux (GER).

Most patients with mild GER can be effectively managed without fundoplication, using dietary modification and positioning to reduce the frequency of GER, pharmacotherapy for acid suppression, and occasionally prokinetic agents.

Fundoplication

Fundoplication is a surgical procedure to reduce the risk of GER. It should be considered only in patients with GER that is strongly suspected to be contributing to pulmonary disease. When evaluating the severity of GER, a gastroenterologist classically focuses on the percent of time that gastric contents spend in the esophagus, which correlate with the risk for peptic esophagitis. From a pulmonary point of view, the number and duration of episodes may be less important than whether the reflux occurs during sleep, when the patient is horizontal and less likely to protect the larynx. Clinical judgment must be applied to individual patients when judging whether they are likely to benefit from fundoplication. Complications after fundoplication include retching, esophageal obstruction, intrathoracic herniation, and recurrence of GER due to breakdown of the wrap. Complications of fundoplication are most common in patients with neurologic impairment [42,43]. Failure rates (variously defined) of antireflux surgery range from 2 to 50 percent and are generally higher in children with neurological impairment [44].

Jejunal feeds

For patients with GER who are dependent on enteral feeds, an alternate strategy to reduce GER and the associated risks of aspiration is to place the feeding tube in the jejunum rather than in the stomach; this tends to reduce but not eliminate GER. Disadvantages of jejunal feeds include intolerance of rapid feeding infusions (such that continuous rather than bolus feeds must be used), and a tendency for accidental displacement (except with permanent, surgically placed jejunal tubes). A retrospective study in a group of children with neurological impairment found that the rates of aspiration pneumonia and mortality were similar among those treated with jejunal feeding as compared with those treated with fundoplication [45]

Aspiration Pneumonia

Antibiotic therapy is unequivocally indicated in patients

with aspiration pneumonia. The choice of antibiotics

should depend on the setting in which the

aspiration occurs as well as the patient’s general health

(Table 2). However, antibiotic agents with activity

against gram-negative organisms, such as third-generation

cephalosporins, fluoroquinolones, and piperacillin,

are usually required. Penicillin and clindamycin,

which are often called the standard antibiotic agents

for aspiration pneumonia, are inadequate for most patients

with aspiration pneumonia.78 Antibiotic agents

with specific anaerobic activity are not routinely warranted

and may be indicated only in patients with severe

periodontal disease, putrid sputum, or evidence

of necrotizing pneumonia or lung abscess on radiographs

of the chest.78,79

Aspiration Pneumonitis

The upper airway should be suctioned after a witnessed

aspiration of gastric contents. Endotracheal intubation

should be considered for patients who are

unable to protect their airway (for example, those with

a decreased level of consciousness). Although it is

common practice, the prophylactic use of antibiotics

in patients in whom aspiration is suspected or witnessed

is not recommended. Similarly, the use of antibiotics

shortly after aspiration in patients in whom

a fever, leukocytosis, or a pulmonary infiltrate develops

is discouraged, since the antibiotic may select

for more resistant organisms in patients with an uncomplicated

chemical pneumonitis. However, empirical

antibiotic therapy is appropriate for patients who

aspirate gastric contents and who have small-bowel

obstruction or other conditions associated with colonization

of the gastric contents. Antibiotic therapy

should be considered for patients with aspiration

pneumonitis that fails to resolve within 48 hours after

aspiration. Empirical therapy with broad-spectrum

agents is recommended (Table 2); antibiotics with

anaerobic activity are not routinely required. Sampling

of the lower respiratory tract (with a protected

specimen brush or by bronchoalveolar lavage) and

quantitative culture in intubated patients may allow

targeted antibiotic therapy and, in patients with negative

cultures, the discontinuation of antibiotics.

81,82

Corticosteroids have been used for decades in the

management of aspiration pneumonitis.

83

However,

there are limited data on the role of these agents. In

a prospective, placebo-controlled study, Sukumaran

and colleagues found that radiographically evident

lung injury improved more quickly in the patients given

corticosteroids than in those given placebo; however,

the patients given corticosteroids had a longer

stay in the intensive care unit, and there were no significant

differences between the two groups in the

incidence of complications or the outcome.

84,85

In a

case–control study, Wolfe and colleagues found that

pneumonia due to gram-negative bacteria was more

frequent after aspiration among patients treated with

corticosteroids than among those who were not.

86

Similarly, studies in animals have failed to demonstrate

a beneficial effect of corticosteroids on pulmonary

function, lung injury, alveolar–capillary permeability,

or outcome after acid aspiration.

87,88 Furthermore,

given the failure of two multicenter, randomized,

controlled trials to demonstrate a benefit of high-dose

corticosteroids in patients with the acute respiratory

distress syndrome, the administration of corticosteroids

cannot be recommended.89,90

References

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