1.Study on associated protein markers in urine of patients with chronic renal failure
Yiming HAO ; Mingchao HONG ; Wenjing WANG ; Bin QIAO ; Yaming JIN ; Yiqin WANG
Chinese Journal of Nephrology 2011;27(9):633-636
Objective To investigate the associated protein markers in urine of patients with chronic renal failure (CRF) based on surface enhanced laser desorption and ionization time of flight mass spectrometry (SELDI-TOF MS)technique.Methods Urine samples were taken from 150 CRF patients and 50 healthy people,and investigated by proteomic techniques with H4 gene chip.Results Compared to healthy group,141 different protein peaks were identified within the range of 1000 to 20 000 M/Z in the protein map of CRF group,whose differences were all significant (all P<0.01).The decision tree model for CRF urine was constructed after bioinformation analysis to significantly differentiate between CRF and healthy group.The accuracy rate,sensitivity and specificity of the decision tree model were 96.0%,100.0% and 94.7% respectively.In CRF group and healthy group,the different protein peaks in urine were identified to probably be 17 proteins with reference to SwissProt database.Conclusions Candidate protein markers in urine are screened and prediction model of CRF urine is established.The markers are identified with the database which provides a more accurate prediction and solid evidence for early diagnosis of CRF.
2.Neuronavigation in microsurgery for medically refractory epilepsy
Jiasheng PEI ; Pengfan YANG ; Qiao LIN ; Huijian ZHANG ; Mingchao SHANG ; Zhonghui ZHONG ; Shousen WANG
Chinese Journal of Neuromedicine 2017;16(12):1210-1213
Objective To investigate the value of neuronavigation in microsurgery for medically refractory epilepsy. Methods The clinical data of 137 patients with medically refractory epilepsy who underwent epilepsy surgery with neuronavigation in our hospital from September 2008 to September 2016 were analyzed retrospectively. In these patients, 17 accepted temporal parietal occipital dissection, 23 accepted corpus callosum subtotal dissection, 11 accepted functional cerebral hemispheric dissection, and 86 accepted epilepsy foci resection. The surgical efficacies were analyzed. Results All patients uneventfully underwent the operations as planned. The mean follow-up period was 52 months (12-108 months). Engel grade I was achieved in 71 patients, grade II in 32, grade III in 25, and grade IV in 9 patients. The total satisfaction rate reached to 75.18% (103/137), including 100% patients (11/11) accepted functional cerebral hemispheric dissection. There were no severe operative complications. Conclusion Neuronavigation helps to locate intracranial targets, accurately resect the epileptogenic foci or disconnect the epilepsy conduction pathway, preserve the neurologic function, and avoid the operative complications.
3.Accuracy comparison of different formulas in calculating intraocular lens power in cataract patients after corneal refractive surgery
Kaifang WANG ; Mingchao QIAO ; Songsong QIAO ; Kejiao ZHAO ; Xiaoming WANG
International Eye Science 2024;24(7):1143-1146
AIM: To compare and observe the accuracy of five intraocular lens(IOL)power calculation formulas in patients with cataracts who have previously undergone corneal refractive surgery.METHODS: Prospective case series study. A total of 23 cataract patients(34 eyes)with a history of myopic corneal refractive surgery at Jinan Mingshui Eye Hospital from September 2021 to March 2023 were collected, including 1 eye treated with photorefractive keratectomy(PRK)and 22 patients(33 eyes)treated with laser-assisted in situ keratomileusis(LASIK). Preoperative ocular biometry was performed using the IOL Master 700, while corneal true net refractive power(TNP)was measured via Pentacam analyzer. Anterior segment optical coherence tomography(OCT)was used to assesse net corneal power(NCP), posterior corneal refractive power, and central corneal thickness(CCT). The Shammas, Haigis-L, Potvin-Hill Pentacam, OCT, and Barrett True K formulas were utilized for IOL power calculations, with the optimal power selected accordingly. At 1 mo postoperatively, actual refractive outcomes were determined through subjective refraction, based on objective optometry results. The refractive prediction error(RPE)and refractive absolute error(RAE)of each formula were calculated and compared, and the percentage of eyes with RAE ≤0.5 D and ≤1.0 D was counted.RESULTS: No significant statistical difference was found in the RPE of the five formulas when compared to zero(all P>0.05), nor were there significant differences in RPE and RAE among the formulas(F=0.554, P=0.696; H=4.402, P=0.354). The RAE was within ≤0.5 D for 26 eyes(76%)using the Potvin-Hill Pentacam formula and for 24 eyes(71%)using the Barrett True K formula, with both formulas achieving an RAE within ≤1.0D in 33 eyes(97%).CONCLUSIONS: The Barrett True K and Potvin-Hill Pentacam formulas demonstrated high predictive accuracy for IOL power calculations in post-corneal refractive surgery cataract patients. Given the variability in corneal refractive power among these patients, further research on IOL power calculation is warranted. Clinically, it is advisable to consider a range of formulas for optimal outcomes.