Dybtgående forskning og ekspertguider til vedligeholdelse af dit syn.
การมองเห็นเทียมสำหรับต้อหินระยะสุดท้าย: อวัยวะเทียมที่จอประสาทตาเทียบกับอวัยวะเทียมที่คอร์เท็กซ์สมอง ต้อหินระยะรุนแรงทำลายเส้นประสาทตาและเซลล์ปมประสาท...
말기 녹내장을 위한 인공 시각: 망막 보철물 대 대뇌 피질 보철물 진행된 녹내장은 시신경과 망막 신경절 세포(RGC)를 파괴하여 환자들을 실명하게 합니다. 인공 시각 (시각 보철물)은 이러한 손상을 우회하는 것을 목표로 합니다. 대부분의 기존 보철물은 망막 또는 시신경...
Konstgjord syn för glaukom i slutskedet: Retinala kontra kortikala proteser Avancerat glaukom förstör synnerven och retinala ganglieceller (RGC), vilk...
Kunstlik nägemine lõppstaadiumis glaukoomi korral: võrkkesta vs. ajukoore proteesid Kaugelearenenud glaukoom hävitab nägemisnärvi ja võrkkesta ganglio...
Visione Artificiale per il Glaucoma allo Stadio Terminale: Protesi Retiniche vs. Corticali Il glaucoma avanzato distrugge il nervo ottico e le cellule...
Visión Artificial para el Glaucoma Terminal: Prótesis Retinianas vs. Corticales El glaucoma avanzado destruye el nervio óptico y las células gangliona...
Mākslīgā redze beigu stadijas glaukomai: tīklenes pret kortikālajām protēzēm Attīstīta glaukoma iznīcina redzes nervu un tīklenes ganglija šūnas (RGS)...
Mesterséges látás végstádiumú glaukómában: Retinális vs. Kortikális protézisek Az előrehaladott glaukóma elpusztítja a látóideget és a retinális gangl...
Keinotekoinen näkö loppuvaiheen glaukoomassa: Verkkokalvo- vs. Aivokuoriproteesit Pitkälle edennyt glaukooma tuhoaa näköhermon ja verkkokalvon ganglio...
Kunstig syn for sluttstadium glaukom: Retinale vs. kortikale proteser Avansert glaukom ødelegger synsnerven og retinale ganglieceller (RGCs), noe som...
Viziune Artificială pentru Glaucomul în Stadiu Terminal: Proteze Retiniene vs. Corticale Glaucomul avansat distruge nervul optic și celulele gangliona...
末期緑内障の人工視覚:網膜プロテーゼ vs. 皮質プロテーゼ 進行した緑内障は視神経と網膜神経節細胞(RGC)を破壊し、患者を失明させます。人工視覚(視覚プロテーゼ)は、このような損傷を回避することを目的としています。既存のプロテーゼのほとんどは網膜または視神経を対象としていますが、末期緑内障ではこ...
Vision artificielle pour le glaucome au stade terminal : Prothèses rétiniennes vs corticales Le glaucome avancé détruit le nerf optique et les cellule...
Kunstmatig Zicht voor Endstadium Glaucoom: Retinale versus Corticale Protheses Gevorderd glaucoom vernietigt de oogzenuw en retinale ganglioncellen (R...
Штучний зір при термінальній стадії глаукоми: ретинальні проти кортикальних протезів Прогресуюча глаукома руйнує зоровий нерв та гангліозні клітини сі...
Künstliches Sehen bei Endstadium-Glaukom: Netzhaut- vs. kortikale Prothesen Fortgeschrittenes Glaukom zerstört den Sehnerv und die retinalen Ganglienz...
Thị giác nhân tạo cho Giai đoạn cuối Glaucoma: Bộ phận giả võng mạc so với Bộ phận giả vỏ não Glaucoma tiến triển phá hủy dây thần kinh thị giác và cá...
Τεχνητή Όραση για Γλαύκωμα Τελικού Σταδίου: Αμφιβληστροειδικές έναντι Φλοιϊκών Προσθέσεων Το προχωρημένο γλαύκωμα καταστρέφει το οπτικό νεύρο και τα γ...
Argus II is a specific retinal implant system developed to give people with severe retinal degeneration a form of artificial vision by electrically stimulating the remaining retinal cells. The system uses a small array of electrodes that is implanted on the surface of the retina, together with glasses housing a camera and a processing unit that converts visual information into electrical pulses. When worn and activated, the device produces patterns of light perception that recipients can learn to interpret as edges, motion, or basic shapes, which can help with navigation and object detection. The experience is not like natural sight; it provides low-resolution, high-contrast signals that require training and rehabilitation to be useful in daily life. Argus II was one of the first retinal prosthesis systems to be used widely in clinical settings and to receive regulatory approvals, which helped establish standards for safety and effectiveness in the field. Users report benefits such as improved orientation, easier mobility, and greater independence, though outcomes vary across individuals. Surgical implantation carries risks, and the system has limitations in image detail, update speed, and long-term electrode performance. Despite these limits, Argus II represented an important milestone that encouraged further research and development in devices aiming to restore vision. Ongoing work builds on lessons from Argus II to improve resolution, biocompatibility, and the range of people who might benefit.
