Study Population
A total of 94 MPP patients (age range: 3 years 4 months–13 years 7 months) were enrolled in this study. The cohort was 50% male (n=47). All patients in Group LT and 40 patients in Group NLT were finally diagnosed with RMPP. There was no significant difference in gender and age between Groups LT and NLT (P>0.05) (Table1).
Clinical characteristics
The average duration of disease before hospitalization was 17.40±13.33 days and 9.27±3.79 days in Groups LT and NLT, respectively (P<0.001).
In Group LT, most patients resided from all over the country and 12 patients had type I respiratory failure, which suggested patients in this group were severe and difficult to treat. Mean WBC count, CRP level, and LDH concentration were 11.85±4.61×109/L, 104.96±54.20 mg/L, and 681.00±298.24 IU/L, respectively.
In Group NLT, mean WBC count, CRP level, and LDH concentration were 8.47±2.48×109/L, 30.32±20.64 mg/L, and 330.11±81.37 IU/L, respectively.
A clear statistical difference was observed in inflammatory markers (WBC, CRP, LDH) between the two groups (P<0.001) (Table 1).
Bronchoscopy Findings
In Group LT, bronchoscopy carried out at the early stage of disease revealed mucus plug (Fig. 1B) and airway mucous necrosis (Fig.2) in 41 (including plastic bronchitis in 6 patients) and 29 patients, respectively. In the late stage of disease, 13 patients had stenosis and 13 patients had AO.
In Group NLT, three patients had a mucus plug and three patients had mucous necrosis in the early stage of disease. In the late stage of disease, bronchoscopy revealed stenosis and AO in three and two patients, respectively.
A clear statistical difference was observed in airway damage between the two groups (P<0.05) (table 1).
Chest Imaging Findings
In Group LT, chest imaging at the early stage of disease revealed consolidation with high density (2/3-1 pulmonary lobe in 4 patients; ≥1 lobe in 46 patients) in 50 patients and pleural effusion in 34 patients. Additionally, chest imaging revealed pulmonary embolism in 8 patients between 11 and 29 days of disease and necrotizing pneumonia (NP) in 28 patients between 14 and 60 days of disease (Fig. 3).
In Group NLT, chest imaging revealed consolidation with high density (<1/2 pulmonary lobe in 4 patients, 1/2–2/3 lobe in 24 patients, and 2/3–1 lobe in 11 patients) in 39 patients and bronchiolitis in 5 patients. Only two patients also had a small amount of pleural effusion.
A clear statistical difference was observed in lung damage between the two groups (P<0.05) (Table 1).
MP Loads by PCR
MP Loads in Paired Throat Swab and BALF Collected at the Same Time Point
In Group LT, throat swabs were performed in 20 patients 22–45 days after disease; 15 patients were MP-positive (including one patient with 105 copies/mL in 45 days) and 5 patients were MP-negative. Additionally, MP loads in throat swabs were lower than those in BALF. All BALF samples were MP-positive.
In Group NLT, throat swabs were performed in 10 RMPP patients 18–22 days after disease; 3 patients were MP-positive and 7 patients were MP-negative. Five BALF samples were MP-positive.
These results suggest that patients in Group LT had long-term persistent upper airway infection and MP was cleared from the upper airway before the lower airway (Table 2).
Maximum MP Loads in BALF
MP loads in BALF were classified into three groups as follows: high bacterial loads (≥107 copies/mL), moderate bacterial loads (106 copies/mL), and low bacterial loads (<106 copies/mL).
In Group LT, high, moderate, and low MP loads were found in 44 (88%, 44/50), 4 (8%, 4/50), and 2 (4%, 2/50) patients, respectively. In Group NLT, high, moderate, and low MP loads were found in 2 (5%, 2/44), 5 (11%, 5/44), and 37 (84%, 37/44) patients, respectively. Mean MP loads in BALF were 107.46±0.93 and 104.86±0.93 in Groups LT and NLT, respectively (P<0.001), which suggest MP loads in BALF are associated with the duration of MP infection.
Duration of MP Infection in BALF
In Group LT, MP DNA gradually declined over time in most patients. However, in some patients, MP copy numbers initially increased and then declined. MP was detected by PCR within 31–40 days, 41–50 days, 51–60 days, and 61–90 days after disease onset in 17, 19, 9, and 4 patients, respectively. Cases 1–4 (2 NP patients and 2 AO patients) had detectable MP loads 61–90 days after disease onset. Moreover, 120 days after disease onset, MP was detected by PCR in an NP patient (Case 5, 5.98×103 copies/mL).
In Group NLT, 17 patients received more than two treatments of BLT and became MP-negative by PCR within 30 days of the disease. The remaining 27 patients received BLT once and were MP-positive by PCR.
These results demonstrate persistent long-term infection in the lower airway of patients in Group LT.
MP Loads in Peripheral Blood
MP PCR was performed in 20 RMPP patients in Group LT within 7 days of disease. MP was detected in only one patient with severe RMPP (Case 6, 3.34×103 copies/mL), which suggested a rare MP-associated bloodstream infection. This patient had type I respiratory failure and a pulmonary embolism.
Detection of MP Genotyping, Antimicrobial Susceptibility Testing and MP Culture in BALF
MP genotyping, antimicrobial susceptibility testing, and MP culture was performed in 30 patients of Group LT and 11 patients of Group NLT. Genotype 2 was detected in 3 patients of Group LT and 1 patient of Group NLT. Genotype 1 was detected in the other 37 patients. Only one strain (Group NLT) was susceptible to the macrolide (genotype 2). The other 40 strains were macrolide-resistant and carried the A2063G mutation. No strains with resistance to the levofloxacin and tetracycline were identified. Moreover, MP culture was performed in 15 patients of Group LT whose MP loads were >105 copies/mL within 31-60 days after disease onset. Twelve of 15 patients were found to be MP-positive.
Treatment and Clinical Outcomes
All patients were treated with macrolides and BLT and followed up for at least 3 months. Four non-RMPP patients in Group NLT were not treated by glucocorticoid.
In Group LT, moxifloxacin and doxycycline were also added to the treatment course in 14 patients and 2 patients, respectively. Azithromycin, which has anti-inflammatory effects, was administered for 3–6 months in 23 patients. Twenty-one patients whose CRP levels were >100 mg/L received high-dose methylprednisolone therapy (10–30 mg/kg/d for 3 days); after 3 months, chest imaging findings were normal in only 7 patients. These seven patients had started corticosteroid treatment 7–9 days into the disease course. In Group LT, chest imaging after 3 months of treatment revealed incomplete absorption of pulmonary lesions in 33 patients, including 13 AO patients.
In Group NLT, chest imaging after 3 months of treatment revealed incomplete absorption of pulmonary consolidation in seven patients, including two AO patients.
No obvious side effects were observed in any patients. Furthermore, there were no deaths in our study.
Taken together, these results indicate MP infection was difficult to clear, and absorption of lung lesions was very slow, especially in Group LT.