Prolonged pleural effusions are common post Fontan operation and are associated with morbidity. Fontan pleural effusions have elevated proinflammatory cytokines. Little is known about the chest tube drainage after a superior cavopulmonary connection. We examined the chest tube drainage and the inflammatory profiles in post-operative superior cavopulmonary connection patients.

This prospective cohort study enrolled 25 patients undergoing superior cavopulmonary connection and 10 age-similar controls. Data are also compared to 25 previously published Fontan patients and their 15 age-similar controls. Chest tube samples were analysed with a 17-cytokine BioPlex Assay. Descriptive statistics and univariate comparisons were made between groups.

Duration of chest tube drainage was significantly shorter in superior cavopulmonary connection patients (median 4 days, [interquartile range 3–5 days]) versus Fontan patients (10 days, [7–11 days], p < 0.0001). Cytokine concentrations were higher on post-operative day 1 in superior cavopulmonary connection patients versus Fontan patients (all p ≤ 0.01), however levels were comparable to age-similar controls. While proinflammatory IL 8, MIP-1β, and TNF-α concentrations increased in chest tube drainage of Fontan patients from post-operative day 1 to last chest tube day (all p < 0.0001), there was no change in these biomarkers in superior cavopulmonary connection patients, their controls, or Fontan controls.

Our study demonstrates that after superior cavopulmonary connection, proinflammatory cytokines in the chest tube drainage remain similar to biventricular controls of both age groups, unlike the significant rise over time observed in Fontan patients. Inflammation within the chest tube drainage is likely not innate to single ventricle patients.

Prolonged effusions post-Fontan procedure are associated with morbidity. Fontan patients have higher pro-inflammatory cytokines in chest tube drainage compared to controls. Colchicine, an anti-inflammatory medication, decreases effusions in adults after cardiac surgery. We hypothesised that patients post-Fontan treated with colchicine would have decreased pro-inflammatory cytokine levels and shorter duration of chest tube drainage.

This pilot clinical trial enrolled nine patients (intention to treat); five completed the protocol (per protocol). Post-operative Fontan patients 20 months to 5 years receiving colchicine were compared to a previously published control cohort (n = 25). Per protocol patients received 0.6 mg colchicine daily starting post-operative day 2, ending 1 day after chest tube removal. Chest tube samples were taken on days 1–4, 7 and 10, or until removal and analysed with a 17-cytokine Bio-Plex Assay. Descriptive statistics and basic univariate comparisons were made.

There was no difference in duration of chest tube drainage or length of stay between intention to treat patients and controls. Per protocol patients had shorter duration of chest tube drainage compared to controls (6 days [interquartile range 4.7–7], versus 10 days [7–11], p = 0.007) and shorter length of stay (7 days [5.5–9] versus 9 days [9–13], p = 0.005). Pro-inflammatory cytokines trended lower in per protocol patients.

In this pilot cohort, patients who completed the colchicine protocol post-Fontan procedure had shortened duration of chest tube drainage and length of stay. A decrease of pro-inflammatory cytokines may contribute to the mechanism of this change.

ClinicalTrials.gov: Colchicine in Postoperative Fontan Patients (CPFP); NCT03575572; https://clinicaltrials.gov/ct2/show/NCT03575572.

Chest tube drainage placement, a standard procedure in video-assisted thoracoscopic surgery, was reported to cause perioperative complications like pain and increased risk of infection. The present study was designed to evaluate the necessity of chest tube drainage inpaediatric thoracoscopic surgery.

Thirty children admitted to our hospital from April 2018 to April 2020 were included in the current study and were grouped as the tube group (children receiving video-assisted thoracoscopic surgery with chest tube drainage) and the non-tube group (children receiving video-assisted thoracoscopic surgery without chest tube drainage). Laboratory hemogram index, length of hospitalisation, post-operative performance of involved children, and psychological acceptance of indicated therapy by guardians of the involved children were investigated.

Laboratory examination revealed that the mean corpuscular haemoglobin concentration in the non-tube group was significantly higher than that in the tube group on post-operative day 1 (p < 0.05). Children in the non-tube group had a shorter length of hospitalisation (7–9 days) than that of patients from the tube group. Additionally, the frequency of crying of children was decreased and psychological acceptance by patients’ guardians was improved in the non-tube group when compared with the tube group.

This study showed that chest tube drainage placement may not be necessary in several cases of paediatric video-assisted thoracoscopic surgery. Rapid recovery with decreased perioperative complications in children operated by video-assisted thoracoscopic surgery without tube placement could also reduce the burden of the family and society both economically and psychologically.