ABSTRACT
Objective: To optimize the pre-column derivation high performance liquid chromatography (HPLC) content determination method of D-mannose and D-glucose as well as the content determination method of narinhenin in Dendrobium officinale and D. huoshanense, and compare the contents of D-mannose,D-glucose and narinhenin between D. officinale and D. huoshanense. Method: A pre-column derivation HPLC method modified by Chinese Pharmacopoeia(Ch.P) 2015 was used to simultaneously determine the contents of D-mannose and D-glucose,with acetonitrile-0.02 mol·L-1 ammonium acetate solution as mobile phase for gradient elution. Kromasil 100-5 C18 was performed with the wavelength set at 250 nm,and the flow rate was 1 mL·min-1;column temperature was 30℃. HPLC content determination of narinhenin was performed on Kromasil 100-5 C18 with the acetonitrile-methanol-0.4% phosphoric acid solution as mobile phase for gradient elution,and the wavelength was set at 290 nm; the flow rate was 0.8 mL·min-1,and column temperature was 40℃. Result: D-mannose and D-glucose showed a good linear relationship within the range of 0.15-3.0 μg and 0.075-2.25 μg (r=0.999 9); and their average recoveries were 99.01% (RSD 2.1%) and 101.69% (RSD 2.0%) respectively. In addition, the other methodological researches such as repeatability and durability all met the requirements. The contents of D-mannose(Cm),D-glucose(Cg) and sum of them (Cm+Cg) were 12.75%-36.40%,2.93%-18.39% and 19.23%-54.58% in 43 batch of D. officinale. Almost all of the results except very few samples reached the D-mannose standard in Ch.P 2015, and the total content of D-mannose and D-glucose was also up to the total polysccharide standard in Ch.P. The correlation between content and origin was not significant. The contents of D-mannose(Cm),D-glucose(Cg) and sum of them (Cm+Cg) were 14.33%-29.47%,6.64%-15.20%,and 25.73%-44.37% in 12 batch of D. huoshanense. These contents and ratio of peak areas of D-mannose to D-glucose (Am/Ag) were within the scope of D. officinale's; in addition, their average contents were basically the same with those in D. officinale (about 33%).Next,naringenin showed a good linear relationship within the range of 0.020 8-0.832 0 μg (r=0.999 9),and its average recovery was 101.96% (RSD 1.8%). The content of naringenin was 0.053 2-0.122 4 mg·g-1 (average value of 0.081 0 mg·g-1) in 11 batch of D. officinale, slightly higher than 0.040 3-0.090 0 mg ·g-1 (average value of 0.068 3 mg ·g-1) in 7 batch of D. huoshanense. All of these results of narinfenin did not reach the content lower limit in Ch.P. Conclusion: The method used to determinate the content of D-mannose and D-glucose is reproducible, and their sum content is possible to substitute the total polysccaride determination (with higher errors) in D. officinale; monosaccharide content determination can be used for quantitative quality control of D. huoshanense. However, it could not distinguish D. officinale and D. huoshanense by determining the contents of polysccharide,D-glucose,D-mannose and narinhenin, and shall be combined with other specificity methods for further identification.
ABSTRACT
<p><b>OBJECTIVES</b>To investigate the influence of combined thoracoscopic and laparoscopic esophagectomy for early postoperative pulmonary function, and to study the relative factors for postoperative pulmonary complications.</p><p><b>METHODS</b>From September 2009 to December 2010, 61 patients with esophageal cancer had undergone esophagectomy surgery, of which 32 patients had undergone combined thoracoscopic and laparoscopic esophagectomy (CTLE group), and 29 patients had undergone open three-field esophagectomy (open group). Pulmonary function, including forced vital capacity (FVC), forced expiratory volume in 1 second (FEV(1)) were measured on the 1(th) preoperative day, 5(th) and 10(th) postoperative day, and arterial blood gas analyses were performed during the same period. Meanwhile, pain scores and other potentially relevant factors were recorded as well.</p><p><b>RESULTS</b>Preoperative pulmonary function and arterial blood gas analysis, including FEV(1)%, FVC%, PaO2 in two groups had no significant difference (t = -1.608 to 0.709, P = 0.113 to 0.481). On the 10(th) postoperative day, FEV(1)%, FVC%, PaO2, and SaO2 of two groups were significantly different (FEV(1)%: 77% ± 17% vs. 53% ± 13%, t = 6.241, P = 0.000; FVC%: 78% ± 13% vs. 57% ± 16%, t = 5.549, P = 0.000; PaO2: (87 ± 9) mmHg vs. (79 ± 14) mmHg, t = 2.477, P = 0.017; SaO2: 96% ± 3% vs. 94% ± 2%, t = 2.313, P = 0.024; 1 mmHg = 0.133 kPa). Pain score of CTLE group was lower than open group, and the scores of two groups had significant difference before the 5(th) day after surgery (t = -4.398 to -1.815, P = 0.000 to 0.049). Postoperative pulmonary complications of CTLE group was lower than open group (6/32 vs. 12/29, χ(2) = 3.745, P = 0.049).</p><p><b>CONCLUSIONS</b>Combined thoracoscopic and laparoscopic esophagectomy has advantages on early postoperative pulmonary function. It can relatively reduce the incidence of pulmonary complications after surgery.</p>