Objective lt;brgt;To study the clinical results and safty of photodynamic therapy (PDT) after single and multi-treatments of patients with subfoveal choroidal neovascularization (CNV) caused by wet agerelated macular degeneration (AMD). lt;brgt; lt;brgt;Methods lt;brgt;From July, 2000 to July, 2001, 20 wet AMD patients (31 eyes) 4788 years old (mean 68.2 years old) with best-corrected visual acuity from FC/10 cm to 0.6 diagnosed through optic coherence tomography (OCT), fluorescein angiography (FFA) and indocyanine green angiography (ICGA) were treated with PDT. All cases were assigned to benzoporphyrin derivative mono acid (BPD) (6 mg per square meter of body surface area), administered via intravenous infusion of 30 ml over 10 minutes. Fifteen minutes after the start of the infusion, a laser light at 689 nm (Zeiss company, German) delivered 50 J/cm2 at an intensity of 600 mW/cm2 over 83 seconds on CNV. Visual acuity, photochrome of ocular fundus, OCT, FFA, ICGA were used to evaluate the effects of photodynamic therapy with BPD. Follow-up of these patients was planned 1-2 week and every 3 month after PDT. Once the lesion area progressed, PDT was applied again. Tweenty cases (31 eyes) were followed up from 3 to 18 months (average 12 month).In 1 affected eye, PDT was applied fow 4 times, 4 eye for 2 times, and the other 26 eyes for 1 time. lt;brgt;Results lt;brgt;The visual acuity in 13 (41.9%) eyes was improved (increase≥2 lines) after PDT. Stabilized (±1 line) in 17 (54.8%) eyes and decreased 2 lines(attributed to the recur of CNV )in 1 (3.2%) eye. After PDT, the fundus haemorrhage and fluid leakage reduced. FFA and ICGA showed. cessation and obvious reduction of fluorescein leakage from CNV in all patients 2 weeks after photodynamic therapy, and retreatment decreased the leakage step by step. Fluorescein leakage from at least a portion of the CNV reappeared by 1-3 month after treatment in some cases. OCT also showed the reduction of the size of CNV, moreover, the edema of surrounding retina and choriodal and serous neural epithelial detachment recovered obviously. No side affect during and after PDT was noticed. lt;brgt;Conclusions lt;brgt;PDT with BPD can achieve short-term effect on part or total cessation of fluorescein leakage from CNV without loss of vision or growth of classic CNV in patients with age-related macular degeneration, retreatment of PDT was also effective. lt;brgt; lt;brgt;(Chin J Ocul Fundus Dis, 2002, 18: 175-179)
目的:评价硫普罗宁钠治疗急慢性肝炎的有效性与安全性。方法:采用随机、双盲模拟、阳性药平行对照试验方法。硫普罗宁钠200mg静滴Qd,对照组用凯西莱(硫普罗宁)200mg静滴Qd。疗程均为4周,停药后随访4周。结果:共治疗急性肝炎患者7例,慢性肝炎患者18例。急性肝炎组:试验组与对照组4周末ALT下降率分别为69.14±39.23%及68.23±45.12%,试验组显效率33.33%,总有效率100%,对照组显效率25%,总有效率100%,两组疗效比较无显著性差异(Pgt;0.05)。慢性肝炎组:试验组与对照组4周末ALT下降率分别为44.34±53.1%及35.01±74.67%,试验组显效率22.2%,总有效率77.8%,对照组显效率11.11%,总有效率66.67%,两组疗效比较无显著性差异(Pgt;0.05)。急性肝炎组未见不良反应,慢性肝炎组中试验组及对照组不良反应发生率均为5.00%。结论: 硫普罗宁钠具有保肝降酶作用,临床上用于治疗急慢性肝炎患者安全有效。
Objective To study the role of hydrogen sulfide (H2S) in prophase of acute peritoneal cavity infection. Methods NaHS was taken as a donor of H2S. Seventy-two Sprague-Dawley rats were divided into 4 groups randomly:control group, cecal ligation and puncture (CLP) and treated with natural saline group,CLP and treated with NAHS group, and CLP and treated with DL-propargylglycine (PAG, an inhibitor of H2S formation) group. Selected 6 rats at 2h, 6h, and 12h after treatment in each group. The contents of TNF-αand H2S in serum and the content of MPO in intestinal tissue were measured, respectively. The histopathological change of ileum tissues were observed at 6 h after treatment in each group. Results The H2S could alleviate CLP-induced inflammation obviously, decrease the content of TNF-α in serum when inflammation,and attenuate the infiltration of neutrophilic granulocyte in small intestine. Conclusion The H2S has anti-inflammation effect in prophase of acute peritoneal cavity infection.
Objective To investigate the clinical features, diagnosis, and surgical methods of left-sided appendicitis (LSA). Methods We retrieved LSA-related literatures through Pubmed, Google Scholar English databases, Wanfang, CNKI, VIP, and SinoMed databases (published from January 1981 to June 2017), as well as 2 cases of LSA who treated in Beibei Traditional Chinese Medical Hospital, to analyze the clinical characteristics of LSA and its diagnosis and treatment methods. Results There were 92 articles in a total of 212 LSA patients were retrieved, and 2 cases treated in Beibei Traditional Chinese Medical Hospital, a total of 214 LSA patients were included in the analysis. Pain fixed position of LSA: 139 cases (65.0%) located in left-lower quadrant, 30 cases (14.0%) located in right-lower quadrant, 8 cases (3.7%) located in peri-umbilical, 15 cases (7.0%) located in mid-lower abdomen, 15 cases (7.0%) located in left-upper quadrant, 3 cases (1.4%) located in right-upper abdomen, 2 cases (0.9%) located in mid-upper abdomen, 2 cases (0.9%) located in pelvic cavity, respectively. LSA had occurred in association with several types of abnormal anomalies: 131 cases (61.2%) suffered from situs inversus totalis (SIT), 53 cases (24.8%) suffered from midgut malrotation (MM), 21 cases (9.8%) suffered from cecal malrotation, 4 cases (1.9%) suffered from long appendix, 2 cases (0.9%) suffered from free ascending colon, and 3 cases (1.4%) were unclear. The diagnosis of 114 LSA cases (53.3%) before operation was correct, in which the correct diagnosis rates of SIT-LSA and MM-LSA were 74.8% (98/131) and 22.6% (12/53), respectively. Three patients (1.4%) underwent conservative treatment, and 211 patients (98.6%) underwent surgical treatment, including 25 cases (11.7%) of laparoscopic surgery, 145 cases (67.8%) of open abdominal surgery, and unknown of 41 cases (19.1%). Laparotomy incision: abdominal incision in 74 cases (51.0%), ventral midline incision in 16 cases (11.0%), the left side of the anti McBurney incision in 43 cases (29.7%), right McBurney incision in 12 cases (8.3%). Conclusions LSA mainly occurs in association with 2 types of congenital anomalies: SIT and MM. There is some difficult to make diagnosis for abnormal anatomy and inaccurate pain location of LSA, so it is easy to cause the delay in diagnosis or misdiagnosis. For LSA, the choices of laparoscopy or laparotomy operation methods are applicable.
Blind source separation technique based on independent component analysis (ICA) can separate blood volume pulse (BVP) from the facial video and then realize the telemetry of heart rate, blood oxygen saturation, respiratory rate and other vital signs parameters. However, the superiority of ICA in BVP extraction has not been demonstrated in the existing researches. Some researchers suggested using traditional G-channel method for BVP extraction (G-BVP) instead of ICA method (ICA-BVP). This study investigated the applicability of ICA-BVP comparatively. To solve the inherent permutation problem of ICA, a spectral kurtosis-based method was proposed for BVP identification. The experimental results based on the facial video datasets from 9 subjects shows that ICA-BVP method has apparent advantages in motion artifacts attenuation and ambient light changes elimination. The kurtosis-based method achieved a good performance in BVP identification and dynamic heart rate (HR) estimation. In practical application, the proposed ICA-BVP method could present a better stability and accuracy in vital signs parameters extraction.
Objective To investigate the causes of visual loss and failure of treatment after intraocular silicone oil removal. Methods Retrospective clinical analysis of the causes of loss of visual acuity of 15 eyes after silicone oil removal in patients with complicated retinal detachment which were successfully treated with vitreous and retinal microsurgery. Results Among the 15 eyes,retina failed to reattach in 11 eyes,secondary glaucoma occurred in 2 eyes and corneal opacity appeared in another two eyes.All of them were resulted in total loss of vision. Conclusion Retinal redetachment was the leading cause of final visual loss in the failing 15 cases(15 eyes) after intraocular silicone oil removal,and secondary glaucoma and corneal decompensation may also be the causes of visual loss. (Chin J Ocul Fundus Dis, 1999, 15: 230-231)