BACKGROUND: Ventilation dysfunction caused by bronchomalacia induced bronchostenosis following high-risk heart transplantation is an acute clinical disease, which seriously impairs the function of transplant heart. The case of emergency bronchial stent placement following heart transplantation with high-risk multi-complication has not been reported yet.OBJECTIVE: To investigate the curative effect of emergency stent placement for worse left main bronchial malacia, stenosis and collapse following orthotopic heart allotransplantation.DESIGN: A case analysis.SETTINGS: National Ministry of Health Transplantation Engineering and Technical Research Center, the Third Xiangya Hospital, Central South University; Department of Cardiosurgery, Zhongshan Hospital affiliated to Xiamen University.PARTICIPANTS: An 18-year-old female patient with dilated cardiomyopathy accompanied by moderate to severe pulmonary artery hypertension, who sequentially carried out orthotopic heart allotransplantation, was selected from the Department of Cardiosurgery, Zhongshan Hospital affiliated to Xiamen University in April, 2004. She had suffered from dilated cardiomyopathy for 15 years, and the mean pulmonary artery pressure (MPAP) was 50-51 mm Hg, she was also accompanied by left main bronchial malacia, stenosis and collapse, mixed (mainly central-) sleep apnea syndrome, left inferior pulmonary sequestration, right emphysema, and rheumatoid arthritis for half a year.METHODS: After heart transplantation, bronchus inflammation, congested edema aggravated the severity of bronchial malacia, stenosis and collapse, tenosis reduced to 4/5, and led to obstructive type of ventilation, and the patient was also accompanied by supraventricular tachycardia, ventricular extrasystole, and hypofunction of transplant cardiac systolic function (peak E＜peak A, ejection fraction reduced to 40%, inharmonious motion of ventricular wall). Attempted with inotropic agents and ventilator/support were not relieved, which resulted in the aggravation of illness. In order to improve the post-transplant cardiac function, to relieve bronchial collapse and stenosis, and correct the obstructive type of ventilation, an emergency bronchial stent placement surgery was carried out on the sixth day after heart transplantation. Under monitoring of electrocardiogram (EGG) and percutaneaous oxygen saturation (SpO2), patient was awake and in supine to relieve left main bronchial stenosis with a nickel-titanium shape memory alloy stent (Diameter: 12 mm; length: 20 mm) by D20 fiberoptic bronchoscope. Fibrobronchoscopy was used to observe the proximal end of bronchostenosis and set the proximate location mark by using video fluoroscopy; the patency of distal end was explored by stricture, and set the distal location mark; guidewire was inserted into working path of bronchofibroscope and led through the stricture; then loaded the Ni-Ti stent on a special placement apparatus, and led in bronchial stent implantation apparatus along guidewire. When targeting well, the stent was slowly released and adjusted properly. When it was completely released, the stent implantation apparatus was drawn out. Bronchofibroscope was performed postoperatively to observe the adherence of stent; immediately photographed to observe its unfolding. Synchronized intermittent mandatory ventilation (SIMV) was given postoperatively as supportive treatment.MAIN OUTCOME MEASURES: Ameliorations of the cardiac and pulmonary functions of the patient.RESULTS: ①Carbon dioxide retention and hypercapnia were remarkably improved as compared with those preoperatively; hypertensive pulmonary vascular disease was alleviated gradually, and MPAP reduced to 30 mm Hg. One week later, re-examination of bronchofibroscopy was carried out, and the results showed that bronchi of left upper lobe, lingual lobe as well as left lower lobe could be seen distinctly, mucous membrane had slightly congested edema, and lumens were unobstructed.②Supraventricular tachycardia and premature ventricualr contraction disappeared, and the transplant cardiac function recovered well (peak E ＞ peak A, ejection fraction 70%, FS41%), and the heart rate fluctuated at 100-110 beats per minute. ③The chest-radiography and CT postoperatively indicated the relief of left main bronchial stenosis. When the ventilation function of the patient was improved, the parameters of breathing machine were reduced gradually, and replaced by low-flow oxygen. There was no recurrence of obstructive ventilatory disorder. The sleep apnea syndrome of the patient was moderated.CONCLUSION: Emergency treatment with stent placement for bronchial malacia, stenosis and collapse occurring after orthotopic heart allotransplantation cAN improve ventilation dysfunction caused by bronchial malacia and stenosis,and increase the survival rate of heart transplantation.

Objective:To establish an analysis method for determining the contents of 7 components including ganoderic acid C2, ganoderic acid B,ganoderic acid G,ganoderic acid A,lucidenic acid A,ganoderma D and ganoderic acid F in ganoderma by QAMS. Methods:An HPLC method was used. The column was WatersX-bridge C18(250 mm × 4.6 mm, 5 μm), the mobile phase was acetonitrile(A)-1% acetic acid(B) (28:72) with gradient elution(0-30 min:A-28% to 38%;30-45 min:A-38% to 55%) at a flow rate of 1.0 ml·min-1,the column temperature was 30℃, and the detection wavelength was 254 nm. Ganoderic acid A was used as the internal reference, the correction factors of ganoderic acid C2, ganoderic acid B, ganoderic acid G, lucidenic acid A,ganoderma D and ganoderic acid F were calculated,and the contents of the 7 components were calculated by an external standard method to verify the feasibility and applicability of QAMS. Results:The relative correction factors of multiple assessments were reproducible,and the relative deviation of the contents of 6 components in 16 batches of Ganoderma lucidum was less than 2% when compared with that of the external standard method. Conclusion:QAMS is accurate and reliable in the quality evaluation of Ganoderma lucidum.