The content of ATP, ADP, AMP, sodium phosphate and sodium pyrophosphate were determined by 31P NMR, the linear range of ATP, ADP and AMP were found to be 0.004-0.080 mol x L(-1), sodium phosphate and sodium pyrophosphate were 0.005-0.100 mol x L(-1). The RSD were 0.40%-1.30%, the recovery were 96.9% - 105.2%. The method has been applied to the determination of ATP injection. The impurities of ATP injection were ADP and sodium phosphate. The content of ATP is in line with the requirement of the pharmacopoeia. The results indicated that the method is of good reproducibility, high accuracy, rapid and simple operation, without pretreatment and interference of other elements, 31P NMR is a new and reliable method of analyzing ATP, ADP, AMP and phosphate.
Adenosine Diphosphate ; analysis ; Adenosine Monophosphate ; analysis ; Adenosine Triphosphate ; analysis ; Chemistry, Pharmaceutical ; methods ; Diphosphates ; analysis ; Magnetic Resonance Spectroscopy ; Perfusion ; Pharmaceutical Preparations ; analysis ; Phosphates ; analysis ; Quality Control ; Reproducibility of Results

OBJECTIVE: To determine the lung protection of continuous pulmonary artery perfusion with oxygenated blood during cardiopulmonary bypass (CPB). METHODS: Thirty patients undergoing mitral valve replacement were randomly divided into the control group (n=15) and the lung perfusion group (n=15). The patients in the lung perfusion group were perfused oxygenated blood continuously to the pulmonary artery during CPB. The patients in the control group were performed the routine procedure of mitral valve replacement. Record the CPB time, aortic cross-clamp time, mechanical ventilation time and ICU monitoring time. The patients' oxygen index (OI) and lung static compliance (Cstat) were measured before the surgery, at 0 h after the CPB and at 0, 6 h after the surgery. Right lung biopsy specimens were obtained at 30 min after the CPB to observe the histological changes. Results The mechanical ventilation time and ICU monitoring time were shorter in the lung perfusion group than those in the control group (P < 0.05). The patients' OI and Cstat were higher after surgery in the lung perfusion group than those in the control group (P < 0.05). Tissue examination showed lung parenchyma edema and inflammatory cells accumulated in the control group, while no remarkable pathological changes occurred in the lung perfusion group. CONCLUSION Lung injury exists after the surgery by CPB. Continuous pulmonary artery perfusion with oxygenated blood during CPB can decrease the lung injury.
Adult ; Cardiopulmonary Bypass ; adverse effects ; methods ; Female ; Heart Valve Prosthesis Implantation ; Humans ; Male ; Oxygen ; blood ; Perfusion ; methods ; Postoperative Complications ; prevention & control ; Pulmonary Artery ; Pulmonary Circulation ; Reperfusion Injury ; prevention & control