Retinitis pigmentosa：术语与炎症_Chinese Journal of Ocular Fundus Diseases

Authors：

 惠延年

空军军医大学西京医院眼科全军眼科研究所, 西安 710032;

Corresponding author：

惠延年, Email: ynlhui@163.com

Keywords：

遗传性视网膜营养不良; 视网膜炎; 色素性; 视网膜变性; 炎症

DOI：

10.3760/cma.j.cn511434-20230512-00231

Video：

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Citation： 惠延年. Retinitis pigmentosa：术语与炎症. Chinese Journal of Ocular Fundus Diseases, 2023, 39(6): 494-495. doi: 10.3760/cma.j.cn511434-20230512-00231 Copy

1.	Pennesi ME, Yang P, Gregory-Evans K. Retinitis pigmentosa and allied disorders[M]//Sadda SR. Ryan’s Retina. 7th ed. New York: Elsevier, 2023: 925-1004.
2.	Weleber RG, Geogory-Evans K. Retinitis pigmentosa and allied disorders[M]//Ryan SJ, Hinton DR, Schachat AP, et al. Retina. 4th ed. Philadelphia: Elsevier Mosby, 2006: 395.
3.	McMurtrey JJ, Tso MOM. A review of the immunologic findings observed in retinitis pigmentosa[J]. Surv Ophthalmol, 2018, 63(6): 769-781. DOI: 10.1016/j.survophthal.2018.03.002.
4.	Pinilla I, Maneu V, Campello L, et al. Inherited retinal dystrophies: role of oxidative stress and inflammation in their physiopathology and therapeutic implications[J]. Antioxidants (Basel), 2022, 11(6): 1086. DOII 10.3390/antiox11061086.
5.	Olivares-González L, Velasco S, Campillo I, et al. Retinal inflammation, cell death and inherited retinal dystrophies[J]. Int J Mol Sci, 2021, 22(4): 2096. DOI: 10.3390/ijms22042096.
6.	Kaur G, Singh NK. Inflammation and retinal degenerative diseases[J]. Neural Regen Res, 2023, 18(3): 513-518. DOI: 10.4103/1673-5374.350192.
7.	Ortega JT, Jastrzebska B. Neuroinflammation as a therapeutic target in retinitis pigmentosa and quercetin as its potential modulator[J]. Pharmaceutics, 2021, 13(11): 1935. DOI: 10.3390/pharmaceutics13111935.
8.	Murakami Y, Ishikawa K, Nakao S, et al. Innate immune response in retinal homeostasis and inflammatory disorders[J/OL]. Prog Retin Eye Res, 2020, 74: 100778[2020-09-07]. https://linkinghub.elsevier.com/retrieve/pii/S1350-9462(19)30029-1. DOI: 10.1016/j.preteyeres.2019.100778.
9.	Okita A, Murakami Y, Shimokawa S, et al. Changes of serum inflammatory molecules and their relationships with visual function in retinitis pigmentosa[J]. Invest Ophthalmol Vis Sci, 2020, 61(11): 30. DOI: 10.1167/iovs.61.11.30.
10.	He M, Wu T, Zhang L, et al. Correlation between neutrophil-to-lymphocyte ratio and clinical manifestations and complications of retinitis pigmentosa[J]. Acta Ophthalmol, 2022, 100(1): e278-e287. DOI: 10.1111/aos.14880.
11.	Kutsyr O, Noailles A, Martínez-Gil N, et al. Short-term high-fat feeding exacerbates degeneration in retinitis pigmentosa by promoting retinal oxidative stress and inflammation[J/OL]. Proc Natl Acad Sci USA, 2021, 118(43): e2100566118[2021-10-26]. https://europepmc.org/article/MED/34667124. DOI: 10.1073/pnas.2100566118.
12.	Bhardwaj A, Yadav A, Yadav M, et al. Genetic dissection of non-syndromic retinitis pigmentosa[J]. Indian J Ophthalmol, 2022, 70(7): 2355-2385. DOI: 10.4103/ijo.IJO_46_22.

1. Pennesi ME, Yang P, Gregory-Evans K. Retinitis pigmentosa and allied disorders[M]//Sadda SR. Ryan’s Retina. 7th ed. New York: Elsevier, 2023: 925-1004.
2. Weleber RG, Geogory-Evans K. Retinitis pigmentosa and allied disorders[M]//Ryan SJ, Hinton DR, Schachat AP, et al. Retina. 4th ed. Philadelphia: Elsevier Mosby, 2006: 395.
3. McMurtrey JJ, Tso MOM. A review of the immunologic findings observed in retinitis pigmentosa[J]. Surv Ophthalmol, 2018, 63(6): 769-781. DOI: 10.1016/j.survophthal.2018.03.002.
4. Pinilla I, Maneu V, Campello L, et al. Inherited retinal dystrophies: role of oxidative stress and inflammation in their physiopathology and therapeutic implications[J]. Antioxidants (Basel), 2022, 11(6): 1086. DOII 10.3390/antiox11061086.
5. Olivares-González L, Velasco S, Campillo I, et al. Retinal inflammation, cell death and inherited retinal dystrophies[J]. Int J Mol Sci, 2021, 22(4): 2096. DOI: 10.3390/ijms22042096.
6. Kaur G, Singh NK. Inflammation and retinal degenerative diseases[J]. Neural Regen Res, 2023, 18(3): 513-518. DOI: 10.4103/1673-5374.350192.
7. Ortega JT, Jastrzebska B. Neuroinflammation as a therapeutic target in retinitis pigmentosa and quercetin as its potential modulator[J]. Pharmaceutics, 2021, 13(11): 1935. DOI: 10.3390/pharmaceutics13111935.
8. Murakami Y, Ishikawa K, Nakao S, et al. Innate immune response in retinal homeostasis and inflammatory disorders[J/OL]. Prog Retin Eye Res, 2020, 74: 100778[2020-09-07]. https://linkinghub.elsevier.com/retrieve/pii/S1350-9462(19)30029-1. DOI: 10.1016/j.preteyeres.2019.100778.
9. Okita A, Murakami Y, Shimokawa S, et al. Changes of serum inflammatory molecules and their relationships with visual function in retinitis pigmentosa[J]. Invest Ophthalmol Vis Sci, 2020, 61(11): 30. DOI: 10.1167/iovs.61.11.30.
10. He M, Wu T, Zhang L, et al. Correlation between neutrophil-to-lymphocyte ratio and clinical manifestations and complications of retinitis pigmentosa[J]. Acta Ophthalmol, 2022, 100(1): e278-e287. DOI: 10.1111/aos.14880.
11. Kutsyr O, Noailles A, Martínez-Gil N, et al. Short-term high-fat feeding exacerbates degeneration in retinitis pigmentosa by promoting retinal oxidative stress and inflammation[J/OL]. Proc Natl Acad Sci USA, 2021, 118(43): e2100566118[2021-10-26]. https://europepmc.org/article/MED/34667124. DOI: 10.1073/pnas.2100566118.
12. Bhardwaj A, Yadav A, Yadav M, et al. Genetic dissection of non-syndromic retinitis pigmentosa[J]. Indian J Ophthalmol, 2022, 70(7): 2355-2385. DOI: 10.4103/ijo.IJO_46_22.

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