ObjectiveTo observe clinical outcomes of laser photocoagulation on retinopathy of prematurity (ROP). MethodsClinical data of 64 cases of ROP infants (127 eyes) were studied retrospectively. Fifteen infants (30 eyes) were diagnosed of pre-threshold ROP (type Ⅰ, 23.6%) and 49 cases (97 eyes) of threshold ROP (76.4%). All the eyes underwent photocoagulation through binocular indirect ophthalmoscope (532 nm or 810 nm) within 72 hours after the confirmation ROP. In all the 15 cases (30 eyes) of pre-threshold ROP (type Ⅰ), 6 of them (12 eyes) were photocoagulated by laser of 532 nm, and the other 9 ones (18 eyes) were treated with 810 nm. In 49 threshold ROP infants (97 eyes), 37 cases (73 eyes) and 12 ones (24 eyes) were treated with laser of 532 nm or 810 nm respectively. All the infants were followed up 12-36 months (18.4 months) since photocoagulation to investigate regression of ROP. All the data of ROP infants photocoagulated, such as recovery rate of one-time photocoagulation, repeat rate, unfavorable outcomes, and complications, were analyzed statistically according to the severity of ROP and wave length of laser employed. ResultsIn all the 127 photocoagulation treated eyes, ROP regressed completely in 125 eyes (98.4%), temporal retinal traction remained in 2 eyes (1.6%), and no retinal detachment was found. ROP regressed completely in 118 eyes (92.9%) after one-time photocoagulation, recovered totally in 6 eyes (4.7%) after repeating photocoagulation 2-3 times, and resorted to cryotherapy in 3 eyes (2.4%). Subconjunctiva hemorrhage, found in 12 eyes (9.4%), was the most common complication. During photocoagulation, anesthetic accident occurred in 1 infant (1.6%), and 1 eye developed cataract (0.8%). It was suggested from statistical analysis that there was no significant difference on efficiency or safety between pre-threshold (type Ⅰ) and threshold ROP photocoagulated by laser of 532 nm or 810 nm. However, almost all of the ROP infants need repeat photocoagulation or additional cryotherapy, and patients with unfavorable outcomes or severe complications, occurred in threshold ROP treated with 532 nm laser. ConclusionPhotocoagulation with 532 nm or 810 nm laser is effective for type Ⅰ pre-threshold or threshold ROP.
ObjectiveTo investigate the establishment of a risk nomogram model for predicting vagus excitatory response in patients with functional epilepsy after radiofrequency thermocoagulation.MethodsA total of 106 patients with epilepsy admitted to the neurosurgery department of our hospital from January 2016 to June 2020 were selected and divided into the Vagus excitatory response (VER) group and the non-VER group according to their occurrence or absence. Logistic regression analysis was used to screen out the risk factors of VER during SEEG-guided Percutaneous radiofrequency thermocoagulation (PRFT) in patients with functional epilepsy, and R software was used to establish a histogram model affecting VER in SEEG-guided PRFT. Bootstrap method was used for internal verification. C-index, correction curve and ROC curve were used to evaluate the prediction ability of the model.ResultsLogistic regression analysis showed that age [OR=0.235, 95%CI (0.564, 3.076)], preoperative fugl-meyer score [OR=4.356, 95%CI (1.537, 6.621)], depression [OR=0.995, 95%CI (1.068, 7.404)], and lesion range [OR=1.512, 95%CI (0.073, 3.453)] were independent risk factors for the occurrence of VER in PRFT under the guidance of SEEG (P<0.05), and were highly correlated with the occurrence of VER in PRFT. Based on the above six indicators, a SEEG-guided colograph model of VER risk in PRFT was established, and the model was validated internally. The results showed that the C-index of the modeling set and validation set were 0.779 [95%CI (0.689, 0.869)] and 0.782 [95%CI (0.692, 0.872)], respectively. The calibration curves of the two groups fit well with the standard curves. The areas under the ROC curve (AUC) of the two groups were 0.779 and 0.782 respectively, which proved that the model had good prediction accuracy.ConclusionFor patients with functional epilepsy requiring seeg-guided PRFT therapy, age, preoperative Fugl-meyer score, depression and lesion range should be taken into full consideration to comprehensively assess the incidence of VER, and early intervention measures should be taken to reduce and reduce the incidence, which has good clinical application value.
Objective To observe the development of cone/rod functions in children with retinopathy of prematurity (ROP) after laser photocoagulation. Methods 30 ROP patients (60 eyes) treated with laser photocoagulation (case group) and 30 preterm infants (60 eyes) without ROP (control group) were enrolled in this study. Flash Electroretinogram (F-ERG) was performed on all the children, and the response of rod cells and cone cells, maximal mixed responses and oscillatory potentials were recorded. Results Compared with the control group, the amplitude of response of rod cells was obviously decreased (t=-2.385, P<0.05), while the latency phase of rod cells was obviously prolonged (t=-2.799,P<0.05); the amplitudes of a-and b-wave of maximal response were significantly decreased in the case group (t=-2.967, -4.037; P<0.05). But there was no significant difference of amplitudes(t=-1.402) and latency phase (t=-1.637,0.465)of b-/a-wave of the maximal mixed response between two groups(P>0.05). In the response of cone cells, there was no significant difference of the latency phase (t=1.222) and amplitude (t=-0.636)of a-wave as well as amplitude (t=-1.927) of b-wave between two groups (P>0.05). The latency phase of b-wave of cone cells in the case group was longer than that in the control group (t=-2.466,P<0.05). Conclusions Compared to no-ROP preterm infant retina, laser-treated ROP retina has normal cone function development and delayed rod function development.
In recent years, Regional citrate anticoagulation (RCA) technology has been widely used not only in adult blood purification, but also in children’s blood purification, and its advantages in patients with high bleeding risk, active bleeding and heparin-induced thrombocytopenia have been repeatedly confirmed. Therefore, this article reviews and analyzes the application of RCA in different blood purification modes at home and abroad in recent years. It is found that its anticoagulation is not only safe and effective, but also can prolong the life of filter and reduce bleeding complications, which is suitable for the practice of blood purification.
Objective To summarize the general situation of perioperative venous thromboembolism (VTE) and summarize the perioperative antithrombotic strategies. Methods Domestic and international literatures and guidelines on antithrombotic therapy were collect and reviewed. Results VTE was common during the perioperative period. Reasonable assessment of each patient’s condition during the perioperative period, as well as reasonable use of anticoagulant, antiplatelet drugs, and hemostatic agents could reduce the incidence of VTE events during the perioperative period. Conclusions Clinicians need to properly assess the timing of the usage and discontinuation of antithrombotic drugs, weigh the risk of thrombosis and bleeding, develop a rational and scientific antithrombotic strategy based on the specific circumstances of each patient. Simultaneously, hemostatic agents need to be prescribed perioperatively to reduce the incidence of thromboembolic complications.
ObjectivesTo evaluate the therapeutic effect of argon laser photocoagulation combined with intravitreous injection of triamcinolone acetonide (TA) on ischemic central retinal vein occlusion (CRVO).MethodsArgon laser photocoagulation combined with intravitreous injection of TA was performed on 17 patients (17 eyes) with CRVO between December 2003 and July 2004.ResultsDuring the follow-up of 4-10 months, the visual acuity improved in 16 patients, including alleviated or even disappeared cystoid macular edema (CME) in 5, and recurred macular edema in 5 with decreased visual acuity after 3 months. Six patients had increased ocular pressure after intra-ocular injection which alleviated after treated suitably. No neovascularization in angle or secondary neovascular glaucoma was found.ConclusionArgon laser photocoagulation combined with intravitreous injection of TA may improve the visual acuity and reduce complications in ischemic CRVO, though macular edema may recur in some cases. (Chin J Ocul Fundus Dis, 2005,21:224-225)
Macular edema is a common cause of visual loss in patients with retinal vascular diseases represented by diabetic retinopathy and retinal vein occlusion. Laser photocoagulation has been the main treatment for this kind of diseases for decades. With the advent of antagonist of vascular endothelial growth factor and dexamethasone implant, diabetic macular edema and macular edema secondary to retinal vein occlusion have been well controlled; the use of laser therapy is decreasing. However, considering possible risks and complications, lack of extended inspection of efficacy and safety of intravitreal pharmacotherapy, laser therapy cannot be replaced by now. Therefore, the efficacy and safety of laser therapy will improve by sober realization of role of photocoagulation and proper selection of treatment indication.
In recent years, the subthreshold micropulse laser is a kind of laser mode which is characterized by long intermittence. It achieves effective therapeutic effect while minimizes the damage to tissues. At present, it has been used to treat diabetic macular edema. Early studies suggested that the laser selectively acts on retinal pigment epithelial cells to reduce macular edema by regulating the expression of inflammatory biomarkers, growth factors, heat shock proteins and other substances. In recent years, with the development of research, more and more emphasis has been placed on the role of retinal glial cells. Müller cells are also considered as one of the target cells affected by micropulse laser, but there is no evidence of direct or indirect effects of micropulse laser on Müller cells. In the near future, it is expected that we will have more clinical evidence to confirm the target cells of the micropulse laser, which may be further confirmed by in vitro experiments through Müller cells or Müller cells co-cultured with retina pigment epithelium cells, so as to make a more detailed statement on the mechanism of it.
Objective To study the results of in situ microwave thermocoagulation therapy for liver neoplasms. Methods Thirty-one patients (male 28, female 3) with liver neoplasms underwent in situ microwave thermocoagulation therapy in recent 4 years were studied. The time of the therapy arranged from 2 to 6 minutes with the core temperature from 110℃ to 125℃. Twenty six of the thirty one (83.9%) were followed up. Results Ninty point three percent of these patients have a good result. The average survival time after the operation was 19.7 months. One-year and three-year survival rate were 77.4% and 38.7%, respectively. Conclusion The in situ microwave thermocoagulation therapy have the advantages of causing slight trauma, promoting repair, good tolerance and curative effectiveness. It’s a simple, safe and effective method with less adverse effect for treating the liver neoplasms, especially for unresectable neoplasms.
Objective To investigate the therapeutic effect of different wavelength krypton lasers on diabetic retinopathy. Methods A total of 55 eyes (35 cases) with diabetic retinopathy underwent different wavelength k rypton lasers photocoagulation treatment, according to the different manifestati on of the affected eyes. The visual acuity, intraocular pressure,visual field,visual evoked potential were examined, and slit-lamp, ophthalmoscopy, Bultraso nography, and fundus fluorescein angiography were performed preoperatively. The patients were followed up for at least 12 months after krypton laser treatment. Results The resulting effect on visual acuity after 12 months of photocoagulation in this series revealed that, 20 eyes (36.4%) i mproved, 34 eyes (61.8%) remained no change, and one eye (1.8%) decreased. Conclusions Different wavelength krypton lasers photoco agulation can be used in treatment of diabetic retinopathy and can improve the visual acuity at certain extent. (Chin J Ocul Fundus Dis, 2001,17:178-180)