CLINICAL APPROACH TO SEVERE CAP BY CXR PATTERN
AND DEGREE OF HYPOXEMIA
Normal hosts with CAP and without significant preexisting cardiopulmonary disease usually
are due to typical pulmonary pathogens and present with segmental/lobar defects with/
without pleural effusion. Pleural effusion is pathogen dependent and is most common with
CAP due to group A streptococci, less commonly withH. influenzae, and very uncommon with
S. pneumoniae.CAP with ill-defined non-segmental/lobar infiltrates usually due to atypical
CAP organisms, i.e., Mycoplasma pneumoniae, which may present as severe CAP in
compromised hosts. Characteristically, Legionella presents radiographically with rapidly
progressive bilateral asymmetric infiltrates. Importantly, it is the behavior of the CXR
infiltrates rather than the location/description of the infiltrates per se, which suggests the
possibility of Legionnaire’s disease (1,8,10).
Excluding Legionnaire’s disease, CAP patients’ bilateral infiltrates, which are primarily
perihilar/interstitial, are not a radiographic feature of the usual typical/atypical CAP
pulmonary pathogens. Bilateral symmetrical/interstitial infiltrates suggest an intracellular
pathogen, e.g., PCP, CMV, influenza A, avian influenza (H5N1), or swine influenza (H1N1)
(Tables 8,9). Excluding CAP mimics, bilateral interstitial infiltrates CAP presenting as severe
CAP are usually due to intracellular pathogens, i.e., viruses or PCP that are associated with
various degrees of hypoxemia. A combination of bilateral perihilar/interstitial infiltrates,
hypoxemia, a;DLCO (carbon monoxide diffusing capacity)/:A–a gradient indicates an
interstitial process, i.e., PCP or viral CAP. There are many noninfectious mimics of CAP that
may present with bilateral infiltrates that are not infectious. In critical care, the common
mimics of CAP in critical care include acute pulmonary edema (due to fluid overload/acute
MI), pulmonary emboli/infarcts, SLE pneumonitis, pulmonary vasculitis, pulmonary drug
reactions, bronchiolitis obliterans organizing pneumonia (BOOP), pulmonary leukostasis,
pulmonary hemorrhage, and acute respiratory distress syndrome (ARDS). With the exception
of viral pneumonias or PCP presenting as severe CAP, bacterial, fungal, or Rickettsial
pneumonias may be accompanied by impressive pulmonary infiltrates but arenotaccompanied
by severe hypoxemia, i.e.,;DLCO/:A–a gradient (>30) (1,8,10) (Tables 10–14).Severe CAP with Cavitation
Cavitation on the CXR/chest CT scan is an important diagnostic finding in determining the
etiology of severe CAP. Acute cavitary CAPs are severe CAPs because cavitation indicates a
necrotic/hemorrhagic pneumonia. The different diagnosis of severe CAP with cavitation may
be approached clinically by the rapidity of the cavitary process. Cavitation is not a feature of
S. pneumoniaeorH. influenzaeCAP.S. pneumoniaemay be severe with cavitation, which mayTable 8 Swine Influenza (H1N1) Pneumonia: Clinical Case Definitions in Adults{
Definite Swine Influenza (H1N1) Pneumonia (Laboratory Diagnosis)
ILI with temperature of> 1028 F and a CXR with no focal/segmental labor infiltratesplus one or more of these
positive tests:
l Rapid influenza A test
l Respiratory fluorescent antibody (FA) viral panel
l RT-PCR for swine influenza (H1N1)
Probable Swine Influenza (H1N1) Pneumonia (Clinical Diagnosis)
ILI with temperature> 1028 F and a CXR with no focal/segmental labor infiltrateswith negative rapid influenza
diagnostic tests(RIDTs) (see above)*plus this diagnostic triad:
l Severe myalgias
l Otherwise unexplained relative lymphopenia
l Elevated CPK
{During swine influenza (H1N1) pandemic and requiring hospitalization.
*Diagnostic tests negative for other viral CAP pathogens (CMV, SARS, HPS, RSV, metapneumoviruses
parainfluenza viruses, adenoviruses)
Source: Adapted from Ref. 10.
170 Cunha