뇌 가소성과 지각 학습: 뇌는 시신경 손상을 보상할 수 있는가?
흥미롭게도 많은 녹내장 환자는 맹점을 거의 인지하지 못합니다. 뇌가 누락된 주변 정보를 "채워 넣는" 이러한 지각적 채워넣기(perceptual filling-in)는 신경 보상을 반영하는 것으로 여겨집니다. 예를 들어, 한 뇌 영상 연구에서는 녹내장 환자(심각한...
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कॉर्टिकल प्लास्टिसिटी और अवधारणात्मक शिक्षण: क्या मस्तिष्क ऑप्टिक तंत्रिका क्षति की क्षतिपूर्ति कर सकता है?
दिलचस्प बात यह है कि कई ग्लूकोमा रोगियों को अपने अंधे धब्बों के बारे में बहुत कम जानकारी होती है। इस अवधारणात्मक भरने-में (perceptual filling-in) –...
Kortikal Plastisite ve Algısal Öğrenme: Beyin Optik Sinir Hasarını Telafi Edebilir mi?
İlginç bir şekilde, birçok glokom hastası kör noktalarının pek farkında değildir. Beynin eksik çevresel bilgiyi “doldurduğu” bu algısal doldurma,...
Corticale Plasticiteit en Perceptuele Leertraining: Kan het Brein Oogzenuwschade Compenseren?
Interessant is dat veel glaucoompatiënten zich weinig bewust zijn van hun blinde vlekken. Dit perceptuele invullen – waarbij het brein ontbrekende...
Φλοιώδης Πλαστικότητα και Αντιληπτική Μάθηση: Μπορεί ο Εγκέφαλος να Αντισταθμίσει τη Βλάβη του Οπτικού Νεύρου;
Είναι ενδιαφέρον ότι πολλοί ασθενείς με γλαύκωμα έχουν ελάχιστη επίγνωση των τυφλών κηλίδων τους. Αυτή η αντιληπτική συμπλήρωση – όπου ο εγκέφαλος...
ความยืดหยุ่นของเปลือกสมองและการเรียนรู้การรับรู้: สมองสามารถชดเชยความเสียหายของเส้นประสาทตาได้หรือไม่?
ที่น่าสนใจคือ ผู้ป่วยต้อหินจำนวนมากแทบไม่รู้ตัวถึงจุดบอดของตนเอง ปรากฏการณ์ perceptual filling-in นี้ – ที่สมอง “เติมเต็ม” ข้อมูลส่วนรอบนอกที่หายไป –...
Žievės plastiškumas ir suvokimo mokymasis: ar smegenys gali kompensuoti regos nervo pažeidimą?
Įdomu tai, kad daugelis glaukomos pacientų menkai suvokia savo akląsias zonas. Manoma, kad šis suvokimo užpildymas – kai smegenys „užpildo“ trūkstamą...
Plasticitatea Corticală și Învățarea Perceptivă: Poate Creierul Compensa Leziunile Nervului Optic?
Interesant este că mulți pacienți cu glaucom sunt puțin conștienți de punctele lor oarbe. Această umplere perceptuală – în care creierul...
Korová plasticita a percepční učení: Dokáže mozek kompenzovat poškození zrakového nervu?
Zajímavé je, že mnoho pacientů s glaukomem si je svých slepých skvrn jen málo vědomo. Toto percepční vyplňování – kdy mozek „vyplňuje“ chybějící...
Kortikal plasticitet och perceptuell inlärning: Kan hjärnan kompensera för skada på synnerven?
Intressant nog är många glaukompatienter lite medvetna om sina blinda fläckar. Denna perceptuella ifyllnad – där hjärnan ”fyller i” saknad perifer...
Plasticità Corticale e Apprendimento Percettivo: Il Cervello Può Compensare i Danni al Nervo Ottico?
È interessante notare che molti pazienti con glaucoma hanno poca consapevolezza dei loro punti ciechi. Questo riempimento percettivo – in cui il...
皮質可塑性と知覚学習:脳は視神経損傷を代償できるか?
興味深いことに、多くの緑内障患者は自身の暗点にほとんど気づいていません。この知覚的補完(脳が欠落した周辺情報を「埋める」こと)は、神経の代償を反映していると考えられています。例えば、ある脳画像研究では、緑内障患者(重度の視野喪失がある場合でも)は、脳が欠陥領域を効果的にマスクまたは「補完」するため、...
Plasticidade Cortical e Aprendizagem Perceptiva: O Cérebro Pode Compensar os Danos no Nervo Óptico?
Curiosamente, muitos pacientes com glaucoma têm pouca consciência dos seus pontos cegos. Este preenchimento perceptual – onde o cérebro “preenche”...
Plasticidad Cortical y Aprendizaje Perceptual: ¿Puede el Cerebro Compensar el Daño del Nervio Óptico?
Curiosamente, muchos pacientes con glaucoma tienen poca conciencia de sus puntos ciegos. Este relleno perceptual –donde el cerebro “rellena” la...
Plastisitas Kortikal dan Pembelajaran Perseptual: Bisakah Otak Mengompensasi Kerusakan Saraf Optik?
Menariknya, banyak pasien glaukoma memiliki sedikit kesadaran akan titik-titik buta mereka. Pengisian perseptual ini – di mana otak “mengisi”...
脑皮层可塑性与知觉学习:大脑能否代偿视神经损伤?
有趣的是,许多青光眼患者对其盲点知之甚少。这种知觉填充——即大脑“填充”缺失的周边信息——被认为反映了神经代偿。例如,一项脑成像研究指出,青光眼患者(即使有严重的视野缺损)并没有很快感受到视力丧失,因为他们的大脑有效地掩盖或“填充”了缺陷区域...
Aivokuoren muovautuvuus ja havaintioppiminen: Voiko aivo kompensoida näköhermovaurioita?
Kiinnostavaa kyllä, monet glaukoomapotilaat ovat vain vähän tietoisia sokeista pisteistään. Tämän havaintoperäisen täydennyksen – jossa aivot...
Kortikālā plastika un perceptuālā mācīšanās: Vai smadzenes var kompensēt redzes nerva bojājumus?
Interesanti, ka daudzi glaukomas pacienti maz apzinās savus aklos punktus. Šī perceptuālā aizpildīšana – kur smadzenes “aizpilda” trūkstošo perifēro...
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Functional magnetic resonance imaging, commonly called fMRI, is a brain imaging method that measures changes in blood flow to infer which parts of the brain are active. It uses a strong magnet and radio waves to create detailed pictures of the brain and detects a signal called the BOLD response, which stands for blood-oxygen-level-dependent contrast. When a brain region becomes more active, it consumes more oxygen and nearby blood flow increases, and fMRI picks up that change. The technique is noninvasive, meaning it doesn’t require injections or surgery, and it can map activity across the whole brain at once. Researchers and clinicians use fMRI to study how different brain areas work together, to track changes over time, and to see how the brain adapts after injury or disease. It matters because it gives a window into brain function that helps explain behavior, perception, and recovery processes. However, fMRI measures blood flow indirectly rather than the electrical firing of neurons, so its signals are slower and less precise in time than the brain’s actual activity. It also can be expensive, sensitive to motion, and not suitable for people with certain metal implants. Despite these limitations, fMRI has become a powerful tool for understanding brain organization, guiding research, and sometimes aiding clinical decisions about disorders that affect thinking and sensation.