<ruby id="bdzv7"><p id="bdzv7"></p></ruby>
          <output id="bdzv7"><strike id="bdzv7"></strike></output><menuitem id="bdzv7"><strike id="bdzv7"><th id="bdzv7"></th></strike></menuitem>

          <mark id="bdzv7"><ruby id="bdzv7"></ruby></mark>

          <mark id="bdzv7"><ruby id="bdzv7"></ruby></mark>

            <listing id="bdzv7"></listing>

                <listing id="bdzv7"><span id="bdzv7"></span></listing>
                <dfn id="bdzv7"></dfn>

                  [1]劉燦,蔣紫園,徐方,等.高度近視合并白內障患者后鞏膜葡萄腫類型對白內障術后屈光誤差的影響[J].眼科新進展,2023,43(7):542-546.[doi:10.13389/j.cnki.rao.2023.0109]
                   LIU Can,JIANG Ziyuan,XU Fang,et al.Effect of posterior staphyloma types on the postoperative refractive error in patients with high myopia and cataract[J].Recent Advances in Ophthalmology,2023,43(7):542-546.[doi:10.13389/j.cnki.rao.2023.0109]
                  點擊復制

                  高度近視合并白內障患者后鞏膜葡萄腫類型對白內障術后屈光誤差的影響/HTML
                  分享到:

                  《眼科新進展》[ISSN:1003-5141/CN:41-1105/R]

                  卷:
                  43卷
                  期數:
                  2023年7期
                  頁碼:
                  542-546
                  欄目:
                  應用研究
                  出版日期:
                  2023-07-05

                  文章信息/Info

                  Title:
                  Effect of posterior staphyloma types on the postoperative refractive error in patients with high myopia and cataract
                  作者:
                  劉燦蔣紫園徐方向菁劉芳
                  202150 上海市,同濟大學附屬第十人民醫院崇明分院(劉燦,蔣紫園,徐方,向菁,劉芳);200040 上海市,同濟大學附屬第十人民醫院(劉燦,蔣紫園,徐方,向菁,劉芳)
                  Author(s):
                  LIU Can12JIANG Ziyuan12XU Fang12XIANG Jing12LIU Fang12
                  1.Chongming Branch of the Tenth People’s Hospital Affiliated to Tongji University,Shanghai 202150,China
                  2.The Tenth People’s Hospital Affiliated to Tongji University,Shanghai 200040,China
                  關鍵詞:
                  后鞏膜葡萄腫屈光誤差人工晶狀體高度近視Barrett Universal Ⅱ公式
                  Keywords:
                  posterior staphyloma refractive error intraocular lens high myopia Barrett Universal Ⅱ formula
                  分類號:
                  R778
                  DOI:
                  10.13389/j.cnki.rao.2023.0109
                  文獻標志碼:
                  A
                  摘要:
                  目的 研究不同類型后鞏膜葡萄腫(PS)對高度近視合并白內障患者術后屈光誤差的影響,從而選擇合適的計算方法減少因PS帶來的術后屈光誤差。
                  方法 回顧性分析自2019年12月至2021年12月于同濟大學附屬第十人民醫院行白內障摘除聯合人工晶狀體(IOL)植入術的高度近視合并白內障患者 97例 97眼,依據PS類型不同分為寬黃斑型PS組(A組)、窄黃斑型PS組(B組)和其他類型PS組(C組)。采用IOLMaster700系統中的5種IOL屈光度計算公式(Haigis、Holladay1、SRK/T、Holladay2和Barrett Universal Ⅱ)預測各組患者的術后理論屈光度,并與術后3個月得到的實際屈光度進行比較,計算平均絕對屈光誤差(MAE)。采用Bland-Altman法分析5種IOL屈光度計算公式對應的術后理論屈光度與術后3個月實際屈光度的一致性。
                  結果 依據Haigis、Holladay1、SRK/T、Holladay2等4種 IOL 屈光度計算公式對術后3個月MAE進行預測,A組MAE最大,與B組和C組相比差異均有統計學意義(均為P<0.05),而依據Barrett Universal Ⅱ公式在三組患者IOL屈光度計算中MAE差異無統計學意義(P>0.05);在A組患者中,依據Haigis、Holladay1、SRK/T、Holladay2和Barrett Universal Ⅱ 公式計算的術后3個月MAE分別為(0.61±0.38)D、(1.00±0.52)D、(0.62±0.53)D、(0.83±0.55)D、(0.32±0.30)D,其中Barrett Universal Ⅱ公式偏差最小,Holladay1公式偏差最大,差異均有統計學意義(均為P<0.05);在B組和C組患者中,依據Holladay1公式計算的術后3個月MAE出現較大偏差,B組、C組患者MAE分別為(0.67±0.46)D、(0.58±0.40)D,并與依據Haigis、SRK/T、Holladay2、Barrett Universal Ⅱ公式計算的術后3個月MAE相比差異均有統計學意義(均為P<0.05)。Bland-Altman分析結果表明,術后3個月實際屈光度與Barrett Universal Ⅱ公式對應的術后理論屈光度一致性最好。
                  結論 在窄黃斑型PS以及其他型PS患者中,術后MAE相對較小,但使用Holladay1公式會產生相對較大的MAE;而在寬黃斑型PS患者中,術后MAE相對較大,Barrett Universal Ⅱ公式術后預測準確性最佳。
                  Abstract:
                  Objective To study the influence of different types of posterior staphyloma (PS) on the refractive error after high myopia and cataract surgery,so as to choose an appropriate calculation method to reduce the postoperative refractive error caused by PS.
                  Methods In this study,clinical data of 97 patients (97 eyes) with high myopia and cataract who underwent phacoemulsification combined with intraocular lens (IOL) implantation from December 2019 to December 2021 in the Tenth People’s Hospital of Tongji University were retrospectively analyzed.According to the PS type,these patients were divided into group A (wide macular type),group B (narrow macular type),and group C (other types).Five IOL diopter calculation formulas (Haigis,Holladay1,SRK/T,Holladay2,and Barrett Universal Ⅱ) in the IOLMaster 700 system were used to predict the postoperative diopters of patients in each group and compare them with the actual diopters obtained 3 months after surgery.The mean absolute error (MAE) of the diopters was calculated.The Bland-Altman method was adopted to evaluate the consistency between the theoretical diopters predicted by the five IOL diopter formulas and the actual diopters obtained 3 months after surgery.
                  Results The MAE was predicted with the Haigis,Holladay1,SRK/T,and Holladay2 formulas at 3 months after surgery,and it was the largest in group A,significantly higher than that in groups B and C (both P<0.05).However,the MAE predicted with the Barrett Universal Ⅱ formula showed no significant difference among the three groups (P>0.05).In group A,the MAE obtained by the Haigis,Holladay1,SRK/T,Holladay2,and Barrett Universal II formulas was (0.61±0.38) D,(1.00±0.52) D,(0.62±0.53) D,(0.83±0.55) D,and (0.32±0.30) D,respectively,among which the MAE obtained by the Barrett Universal Ⅱ formula showed the smallest deviation,and that obtained by the Holladay1 formula showed the largest deviation,and the difference was statistically significant (P<0.05).In groups B and C,the MAE obtained by the Holladay1 formula at 3 months after surgery showed a large deviation,and it was (0.67±0.46) D and (0.58±0.40) D,respectively,which had a statistically significant difference compared with that obtained by the Haigis,SRK/T,Holladay2,and Barrett Universal Ⅱ formulas (all P<0.05).The Bland-Altman results showed that the actual diopter at 3 months after surgery was in best agreement with the theoretical diopter calculated by the Barrett Universal Ⅱ formula.
                  Conclusion For patients with the narrow macular type or other types of PS,the postoperative MAE is small,and that obtained by the Holladay1 formula is the largest.For patients with the wide macular type of PS,the postoperative MAE is large,and that predicted by the Barrett Universal Ⅱ formula has the best accuracy.

                  參考文獻/References:

                  [1] OHNO-MATSUI K,JONAS J B.Posterior staphyloma in pathologic myopia[J].Prog Ret Eye Res,2019,70:99-109.
                  [2] OHNO-MATSUI K,ALKABES M,SALINAS C,MATEO C,MORIYAMA M,CAO K,et al.Features of posterior staphylomas analyzed in wide-field fundus images in patients with unilateral and bilateral patholologic myopia[J].Retina,2017,37(3):477-486.
                  [3] ZHENG F,WONG C W,SABANAYAGAM C,CHEUNG Y B,MATSUMURA S,CHUA J,et al.Prevalence,risk factors and impact of posterior staphyloma diagnosed from wide-field optical coherence tomography in Singapore adults with high myopia[J].Acta Ophthalmol,2020,99:e144-e153.
                  [4] MIMURA R,MORI K,TORⅡ H,NAGAI N,SUZUKI M,MINAMI S.Ultra-widefield retinal imaging for analyzing the association between types of pathological myopia and posterior staphyloma[J].J Clin Med,2019,8(10):1504-1505.
                  [5] CURTIN B J.The posterior staphyloma of pathologic myopia[J].Trans Am Ophthalmol Soc,1977,75:67-86.
                  [6] OHNO-MATSUI K.Proposed classification of posterior staphylomas based on analyses of eye shape by three-dimensional magnetic resonance imaging and wide-field fundus imaging[J].Ophthalmology,2014,121:1798-1809.
                  [7] WU J,WANG R,LIU C,ZHOU Y,JIANG Z,LIU F.Association between types of posterior staphyloma and refractive error after cataract surgery for high myopia[J].Front Neurol,2021,12(10):3389-3398.
                  [8] BERNARDES J,RAIMUNDO M,LOBO C,MURTA J N.A comparison of intraocular lens power calculation formulas in high myopia[J].J Refract Surg,2021,37(3):207-211.
                  [9] CHENG H,KANE J X,LIU L,LI J,CHENG B,WU M.Refractive predictability using the IOL Master 700 and artificial intelligence-based IOL power formulas compared to standard formulas[J].J Refract Surg,2020,36(7):466-472.
                  [10] AMRO M,CHANBOUR W,AREJ N,JARADE E.Third- and fourth-generation formulas for intraocular lens power calculation before and after phakic intraocular lens insertion in high myopia[J].J Cataract Refract Surg,2018,44(11):1321-1325.
                  [11] YANG J Y,KIM H K,KIM S S.Axial length measurements:comparison of a new swept-source optical coherence tomography-based biometer and partial coherence interferometry in myopia[J].J Cataract Refract Surg,2017,43(3):328-332.
                  [12] 竺向佳,何雯雯,杜鈺,錢東瑾,戴錦暉,盧奕.三種人工晶狀體計算公式對高度近視眼并發性白內障的預測誤差比較[J].中華眼科雜志,2017,53(4):260-265.
                  ZHU X J,HE W W,DU Y,QIAN D J,DAI J H,LU Y.Intraocular lens power calculation for high myopic eyes with cataract:comparison of three formulas[J].Chin J Ophthalmol,2017,53(4):260-265.
                  [13] AN G,DAI F,WANG R,LIU Z,GUO J,PAN M,et al.Association between the types of posterior staphyloma and their risk factors in pathological myopia[J].Transl Vis Sci Technol,2021,10(4):5-8.
                  [14] ZHU X,HE W,SUN X,DAI J,LU Y.Fixation stability and refractive error after cataract surgery in highly myopic eyes[J].Am J Ophthalmol,2016,169:89-94.
                  [15] CHONG E W,MEHTA J S.High myopia and cataract surgery[J].Curr Opin Ophthalmol,2016,27(1):45-50.
                  [16] KANE J X,VAN HEERDEN A,ATIK A,PETSOGLOU C.Intraocular lens power formula accuracy:comparison of 7 formulas[J].J Cataract Refract Surg,2016,42(10):1490-1500.
                  [17] RONG X,HE W,ZHU Q,QIAN D,LU Y,ZHU X.Intraocular lens power calculation in eyes with extreme myopia:comparison of Barrett Universal Ⅱ,Haigis,and Olsen formulas[J].J Cataract Refract Surg,2019,45(6):732-737.
                  [18] ZHOU D,SUN Z,DENG G.Accuracy of the refractive prediction determined by intraocular lens power calculation formulas in high myopia[J].Indian J Ophthalmol,2019,67(4):484-489.
                  [19] MELLES R B,HOLLADAY J T,CHANG W J.Accuracy of intraocular lens calculation formulas[J].Ophthalmology,2018,125(2):169-178.
                  [20] 杜昕芮,劉亞楠,符正漢,張鳳妍.高度近視者白內障人工晶狀體屈光度計算公式的比較[J].中華眼外傷職業眼病雜志,2021,43(6):433-439.
                  DU X R,LIU Y N,FU Z H,ZHANG F Y.Comparison of calculation formulas of intraocular lens for cataract with high myopia[J].Chin J Ocul Traum Occupat Eye Dis,2021,43(6):433-439.
                  [21] ABULAFIA A,BARRETT G D,KOCH D D,WANG L,ASSIA E I.Protocols for studies of intraocular lens formula accuracy[J].Am J Ophthalmol,2015,160(3):403-405.

                  相似文獻/References:

                  [1]龐雪娜,楊鴿,萬文萃,等.高度近視眼底及后極部的影像學評估[J].眼科新進展,2016,36(5):461.[doi:10.13389/j.cnki.rao.2016.0123]
                   PANG Xue-Na,YANG Ge,WAN Wen-Cui,et al.Iconography evaluation of fundus and posterior pole in high myopia[J].Recent Advances in Ophthalmology,2016,36(7):461.[doi:10.13389/j.cnki.rao.2016.0123]
                  [2]張鵬程,張婕,嚴宏.眼壓對青光眼—白內障聯合術患者人工晶狀體計算公式選擇的影響[J].眼科新進展,2018,38(2):146.[doi:10.13389/j.cnki.rao.2018.0032]
                   ZHANG Peng-Cheng,ZHANG Jie,YAN Hong.Effects of intraocular pressure on the selection of intraocular lens calculation formulas for cataract and glaucoma surgery[J].Recent Advances in Ophthalmology,2018,38(7):146.[doi:10.13389/j.cnki.rao.2018.0032]
                  [3]雷蕊蓮,趙軍梅.青光眼-白內障聯合術后患者屈光誤差及其與術前眼球生物學參數的相關性[J].眼科新進展,2022,42(6):480.[doi:10.13389/j.cnki.rao.2022.0098]
                   LEI Ruilian,ZHAO Junmei.Analysis of refractive error and its correlation with preoperative ocular biometric parameters in patients after glaucoma-cataract combined surgery[J].Recent Advances in Ophthalmology,2022,42(7):480.[doi:10.13389/j.cnki.rao.2022.0098]
                  [4]孔佳怡,張自峰,李曼紅,等.玻璃體切割聯合超聲乳化人工晶狀體植入術治療黃斑疾病合并白內障患者的屈光預測誤差分析[J].眼科新進展,2024,44(5):370.[doi:10.13389/j.cnki.rao.2024.0072]
                   KONG Jiayi,ZHANG Zifeng,LI Manhong,et al.Refractive prediction error in vitrectomy combined with phacoemulsification and intraocular lens implantation for patients with macular disease and cataract[J].Recent Advances in Ophthalmology,2024,44(7):370.[doi:10.13389/j.cnki.rao.2024.0072]
                  [5]杜雅莉,金創,林麗瑜,等.后鞏膜葡萄腫深度與高度近視合并白內障患者術后屈光誤差的關系[J].眼科新進展,2018,38(11):1070.[doi:10.13389/j.cnki.rao.2018.0252]
                   DU Ya-Li,JIN Chuang,LIN Li-Yu,et al.The relationship between the depth of posterior staphyloma and refractive error after cataract surgery in patients with high myopia[J].Recent Advances in Ophthalmology,2018,38(7):1070.[doi:10.13389/j.cnki.rao.2018.0252]

                  備注/Memo

                  備注/Memo:
                  上海市科委共享配套設備和應用項目研究(編號:20142203200);上海申康臨床研究培育項目(編號:SHDC12019X30)。
                  更新日期/Last Update: 2023-07-05
                  做做受视频播放试看30分钟_国产成人美女视频网站_亚洲成在人网站天堂日本_最新亚洲人成无码www

                          <ruby id="bdzv7"><p id="bdzv7"></p></ruby>
                          <output id="bdzv7"><strike id="bdzv7"></strike></output><menuitem id="bdzv7"><strike id="bdzv7"><th id="bdzv7"></th></strike></menuitem>

                          <mark id="bdzv7"><ruby id="bdzv7"></ruby></mark>

                          <mark id="bdzv7"><ruby id="bdzv7"></ruby></mark>

                            <listing id="bdzv7"></listing>

                                <listing id="bdzv7"><span id="bdzv7"></span></listing>
                                <dfn id="bdzv7"></dfn>