COVID-19 pneumonia causes diffuse alveolar damage. This passes through three stages,
an initial exudative phase where there is minimal exudation of fluid into the alveoli.
As a result, imaging appearances will be negative or subtle abnormalities off ground
glass will be seen. Subsequently, with increased exudation into the alveoli it passes
into the next stage, an inflammatory stage. Depending on the extent of alveolar exudation
the appearances on imaging are ground glass densities, consolidation or a combination
of these. Finally, the diffuse alveolar damage passes into a reparative phase where
there is proliferation of epithelial cells and fibroblasts with collagen deposition.
On imaging the appearances in this stage are off an organising pneumonia. The brunt
of the disease process of COVID-19 is in the interstium, thus in the peripheral subpleural
and peribronchovascular regions. As the organising pneumonia clears, there are reticular
opacities in the subpleural and peribronchial regions. Often there is a subpleural
curvilinear line and residual peribronchovascular and subpleural reticular abnormalities
which resemble fibrosis seen in ILD. This is the main consideration, are these to
be reported as fibrosis? this is important as fibrosis is irreversible. However, with
time sometimes even 4-6 months later most of these abnormalities clear up, even the
subpleural curvilinear lines. Only very few cases of persistent reticular abnormalities
have been seen. Time will tell whether these are also really fibrosis or slow resolving
organising pneumonia since these may clear with time.
To call these fibrosis may be a bit premature.
Appended are a sampling of cases demonstrating progression and regression patterns
in COVID-19 pneumonia.
Figure 1 (A-D): HRCT (A and B) Demonstrates typical ground-glass densities in a subpleural location
with a prominent vessel in the ground-glass densities. Follow up HRCT after 10 days
(C and D) reveals total clearing of COVID-19 pneumoniaFigure 2 (A and B): HRCT (A) demonstrates ground-glass densities/consolidations in subpleural region.
Follow up CT (B) after 15 days reveals total clearing of abnormalitiesFigure 3 (A-C): (A) HRCT early in disease reveals no abnormality (stage I). (B) HRCT later 5 days
liver reveals typical subpleural ground-glass densities with reticular bands. Follow
up HRCT (C) on day 50 from first scan reveals clearing of opacities with few residual
ground-glass densitiesFigure 4 (A-C): HRCT (A) reveals typical subpleural ground-glass densities. HRCT (B) after 7 days
of first scan reveals transition of ground-glass densities to dense consolidation
with reticular opacities. HRCT (C) 45 days after first scan reveals nearly total resolution
with minimal ground-glass densitiesFigure 5 (A-C): HRCT (A) reveals typical peripheral subpleural ground-glass densities as well as
peribronchovascular densities. HRCT (B) after 5 days reveals evolution of ground-glass
densities to consolidation and reticular abnormalities. HRCT (C) 200 days after first
scan reveals clearing of all abnormalitiesFigure 6 (A-D): HRCT (A) typical peripheral ground-glass and consolidations in subpleural regions.
HRCT (B) 9 days after first scan evolve into consolidations, reticular abnormalities
resembling organising pneumonia. HRCT (C) 25 days after first scan consolidations
resolved with minimal ground-glass densities and subpleural curvilinear lines. HRCT
(D) CT study at day 98 from first scan reveals total clearing of all abnormalities
also subpleural curvilinear lines which is often reported as fibrosisFigure 7 (A-D): Series of HRCT images in coronal plane demonstrating the evolution of COVID-19 pneumonia.
HRCT (A) normal, HRCT (B) ground-glass densities, HRCT (C) consolidations with septal
thickenings, HRCT (D) residual reticular opacities of organising pneumonia which with
time should resolveFigure 8 (A-D): HRCT (A) early in disease reveals no abnormality. HRCT (B) 7 days after first scan
reveals peribronchovascular ill-defined consolidations. HRCT (C) 27 days after first
scan demonstrate resolution of the consolidations. HRCT (D) 62 days after first scan
shows near total resolutionFigure 9 (A-C): HRCT (A) demonstrates subtle ground-glass densities in right posterior subpleural
region of lower lobe. HRCT (B) 8 days later, COVID-19 pneumonia evolves with subpleural
and peribronchovascular ground-glass densities and consolidations. HRCT (C) 40 days
after first scan reveals total resolution of abnormalitiesFigure 10 (A and B): HRCT (A) demonstrates subpleural and peribronchovascular ground-glass, consolidations
and reticular abnormalities which totally resolved in HRCT (B) done after 60 daysFigure 11: HRCT (A) COVID-19 pneumonia in resolving phase with subpleural curvilinear lines
often termed fibrosis this on follow up scan shows total resolutionFigure 12 (A-D): HRCT (A) demonstrates typical COVID-19 pneumonia in inflammatory stage with ground-glass
densities/consolidations in subpleural location. HRCT (B) after 11 days progressed
to fibro proliferative phase with ground-glass densities transiting to organising
pneumonia HRCT (C) after 45 days organising pneumonia clears with residual ground-glass
densities. HRCT (D) after 112 days shows resolution of all abnormalitiesFigure 13 (A-C): HRCT (A) shows typical COVID19 pneumonia with subpleural distribution of ground glass
densities. HRCT (B) after 30 days shows ground glass densities turning into extensive
consolidation and reticular abnormalities HRCT (C) after 155 days shows considerable
resolutionFigure 14 (A-D): HRCT (A) Reveals subpleural ground glass densities typical of COVID 19 pneumonia
Follow up study after 40 days (B) reveals subpleural and peribronchovascular interstial
thickening which shows mild regression on follow up scans done 110 (C) and 170 days
(D) post first scan. Persistence of these findings after 6 months raises the possibility
of true fibrosis though further follow up will be useful as there appears to be a
mild persistent regressionFigure 15: HRCT (A) revels subpleural ground glass of covid pnuemonia Follow up after 10 days
reveals ground glass has evolved to consolidation in subpleural regions which further
resolves to subpleural curvilinear line on HRCT (C) done after 62 days of first scan.
Final scan (D) after 135 days reveals persistence of subpleural curvilinear line
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