Objective To observe the systemic inhalation anesthetic effects of preterm children with different gestational ages under ocular fundus examination, and to assess its safety. Methods Fifty-one preterm children with retinopathy of prematurity (ROP) were included in the study. These kids were divided into 2 groups, group Ⅰ included 24 kids with a corrected gestational age of 33 to <44 weeks, and group Ⅱ included 27 kids with a corrected gestational age of 44 to 64 weeks. The preterm months were same (t=-1.3.P>0.05), but the body weights were different (t=-10.5.P<0.05) between these two groups. Anesthesia was induced by inhalation of 6% sevoflurane, and the period from the beginning of inhalation to disappearance of body movement was the induction time. 6% sevoflurane was inhaled continuously for another period of the induction time, and then the concentration of sevoflurane was adjusted to a maintenance concentration. The initial maintenance concentration was 3%, and was adjusted by 0.5% each time. Sequential method was used to determine the subsequent maintenance concentration. If the preceding patient had not moved during the maintenance period, the sevoflurane concentration was decreased by 0.5% for the next patient. If the preceding patient had moved during the maintenance period, the sevoflurane concentration was increased by 0.5% for the next patient. Respiratory depression and cough during the induction and maintenance period, duration of anesthesia and recovery time were recorded. Choking and vomiting during drinking or milk-feeding in one hour after the ocular fundus examination were also recorded. Results The effective inhale concentration in 50% patient of sevoflurane was 2.5% in group Ⅰ, 2.9% in group Ⅱ. The average maintenance concentration was (2.5plusmn;0.5)% in group Ⅰ, (3.0plusmn;0.5)% in group Ⅱ. The difference was statistically significant (t=-3.3.P<0.05). The average duration of anesthesia and the average awake time were the same (t=0.04 and -1.0 respectively.P>0.05) between these two groups. The average induction time was significantly shorter in group Ⅰ than in group Ⅱ, the difference was statistically significant (t=-4.9.P<0.05). All patients were successfully completed the ocular examination. No respiratory depression or cough occurred during and after the examination. No choking and vomiting during drinking or milkfeeding in one hour after the ocular fundus examination. Conclusion Anesthesia with inhaled sevoflurane by a face mask is safe for preterm outpatients undergoing fundus examination.
【摘要】 目的 探讨早产儿视网膜病变(retinopathy of prematurity,ROP)的发生率及危险因素。 方法 收集2007年12月-2008年12月在四川省人民医院、成都市妇幼保健院、成都市妇产科医院住院的85例体重≤2 000 g或有严重疾病的早产儿,自出生后4~6周或矫正胎龄32周开始筛查,至周边视网膜血管化。 结果 85例早产儿中,有9例发生ROP,发病率10.58%。其中出生体重lt;1 500 g的早产儿ROP发病率为17.07%,孕周lt;30周的早产儿ROP发病率为40%。 结论 低体重、胎龄小、吸氧为早产儿发生ROP的重要危险因素;尽早进行眼底筛查是早期发现、诊断及治疗ROP的关键。【Abstract】 Objective To investigate the occurrence and risk factors of retinopathy of prematurity (ROP). Methods A total of 85 premature infants were enrolled from Sichuan provincial people′s hospital, Chengdu maternal and child health hospital, and Chengdu obstetric and gynecology hospital. The infants were born between December 2007 and December 2008, with a birth weight less than 2 000 g. The ocular funds examination was carried out four to six weeks after the birth or at the 32nd week of the corrected gestational age;the infants were followed up until the retina was entirely vascularized. Results ROP was found in 9 of the 85 premature infants, with a percentage of 10.58%. About 17.07% premature infants with a birth weight less than 1500 g and 40% infants with a gestational age shorter than 30 weeks had ROP. Conclusions A lower birth weight, a shorter gestational age and oxygen usage are the risk factors of ROP. It′s important to examine the ocular fundus in premature infants as early as possible so as to identify, diagnose and treat ROP at an early stage.
ObjectiveTo analysis the fundus characteristics of fundus fluorescein angiography (FFA) of retinopathy of prematurity (ROP). MethodsEighty-four cases (168 eyes) who were diagnosed with ROP by a binocular indirect ophthalmoscope were included in the study. Among the 84 cases, there were 2 cases (4 eyes) of stage 1 ROP, 26 cases (52 eyes) of stage 2 ROP, 40 cases (80 eyes) of stage 3 ROP, 4 cases (8 eyes) of stage 4 ROP, and 4 cases (8 eyes) of stage 5 ROP, 9 cases (18 eyes) of plus disease, 8 cases (16 eyes) of aggressive posterior ROP (APROP). All infants received FFA with RetCam Ⅱ under general anesthesia and mydriasis. The retinal vein morphology, capillary filling state, neovascularization morphology and fluorescein leakage were observed. ResultsFFA revealed increased branching, expansion and tortuous peripheral retinal capillaries, increased capillary permeability with a small amount of fluorescein leakage in stage 1 ROP. There was a clear dividing line between the vascular area and the remote avascular area. In stage 2, the peripheral branches of temporal retinal blood vessels increased, and parallel distributed like a broom. The capillary end anastomosed with each other to form a loop. The fibrous tissues at the lesion edge proliferated as a ridge, with popcorn phenomenon. In stage 3, the ridge continued broadening, and the neovascular fibrous membrane formed breakthrough internal limiting membrane, stretched into the vitreous with a lot of fluorescein leakage. The ridge and remote avascular zone demarcated clearly. In stage 4 and 5, the vessel changes had similar phenomenon with the stage 2 and 3 in undetached retina, but the vessels in the detached retina expanded with fluorescein leakage. As for plus disease, the retinal arterioles in the posterior pole were tortuous, there were a large number of non-perfusion area in the peripheral retina with hemorrhage and obscured fluorescence. The retinal vessels in posterior pole in AP-ROP were also tortuous, and the capillaries were extreme expanded, while there were very few tortuous vessels and no capillary formation in the other part of retina.At the avascular zone boundaries, there were a large group of neovascularization with fluorescein leakage. ConclusionsThe demarcation line separating the avascular from the vascularized retinal regions is formed in stage 1, 2 and 3, and the amount of fluorescein leakage gradually increase from stage 1 to stage 3 ROP. The detached retina of stage 4 and stage 5 has an unclear focal length in the FFA. The plus disease mainly has arteriolar tortuosity in the posterior pole retina. In the AP-ROP cases, both of the arterioles and venules in posterior pole of retina are tortuous and expanding with neovascularization leakage of fluorescein.
ObjectiveTo retrospectively analyze incidence and trends of retinopathy of prematurity (ROP) from 2004 to 2013 in Shenzhen. MethodsA total of 9100 preterm children (5401 males, 3699 females) were screened for ROP in Shenzhen from January 2004 to June 2013 using binocular ophthalmoscope or RetCam Ⅱ. First examination was performed from 4-6 weeks after birth. The birth weight was 520-2990 g with an average of (1710±410) g.The gestational age were 24-36 weeks with an average of (31.57±1.99) weeks. The gestational age of 208 children were <28 weeks, 3608 children were 28-32 weeks, 3553 children was 33-34 weeks, 1731 children was >34 weeks. The ocular findings were recorded according to the International Classification of ROP and The Early Treatment for ROP. Only the more aggressive eye of bilateral asymmetrical cases was counted for statistical purpose, and the cases required surgeries were defined as severe cases. The 10 years period was divided into first phase (2004-2008) and second phase (2009-2013). The incidence of ROP and severe ROP of these two phases was compared and statistics was analyzed. ResultsIn the past 10 years, the overall incidence of ROP and sever ROP in Shenzhen was 12.49% and 4.99% in this screen. The children were divided into 4 groups according to the birth weight, the ROP incidences of birth weight <1000 g, 1000-1499 g, 1500-1999 g and ≥2000 g were 62.62%, 28.40%, 11.34% and 3.63% respectively. The severe ROP incidences were 34.95%, 12.21%, 3.73% and 0.49% respectively in these birth weight groups. The children were divided into 4 groups according to gestational weeks, the ROP incidences of gestational age <28 weeks, 28-32 weeks, 33-34 weeks and >34 weeks were 67.31%, 25.27%, 7.22% and 3.87% respectively. Severe ROP incidences were 37.02%, 10.71%, 1.79% and 0.68% in these gestational age groups respectively. ROP and severe ROP incidences were decreased from 14.64% at first phase to 11.47% at second phase, and from 6.52% at first phase to 4.26% second phase respectively, the differences were statistical significant (χ2=26.96, 26.61; P<0.05). ROP and severe ROP incidence in <1000 g birth weight group at second phase were much less than the first phase (χ2=13.676, 5.271; P<0.05). In <28 weeks gestational age group, the ROP incidence was the same in first phase and second phase (χ2=0.843, P>0.05), but the severe ROP incidence at second phase was much less the first phase (χ2=4.757,P<0.05). ConclusionFrom 2004 to 2013, the incidences of ROP and severe ROP have decreased significantly in Shenzhen.
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 evaluate the characteristics of electroretinagram (EGR) in children with history of pre-threshold or threshold retinopathy of prematurity (ROP). MethodsA total of 24 children (48 eyes) with history of pre-threshold ROP or threshold ROP received F-ERG examination.Ten age and body weight-matched children with a history of premature birth (20 eyes) but without ROP were recruited as control group. The rod response, maximal rod-cone response and cone response of F-ERG were recorded respectively following the International Standard Protocal of ISCEV (2000 version).The latency and amplitude of a-wave and b-wave of various responses were analyzed. The trial was approved by the Ethic Committee of Hunan Children's Hospital and informed consent was obtained from the parents of patients prior to any medical procedure. ResultsThere was significant difference between ROP and control group in rod response,the latency was longer (t=5.643,P<0.05) and the amplitude was lower in ROP group(t=7.068,P<0.05).In maximal rod-cone response both in a and b wave, the latency wave was longer(t=3.099, 2.886;P<0.05) and the amplitude was lower(t=5.614, 2.850;P<0.05) in ROP group. But there is no difference between ROP and control group in cone response latency(t=0.819, 0.948)and amplitude(t=0.904, 0.850). ConclusionERG in ROP children with history of pre-threshold or threshold ROP is abnormal, which mainly in rod response,but the cone response remains normal.