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#Synapsed Reel by @brainymed.pk - 🧠 Synapse = junction between two neurons where nerve impulse is transmitted.

The impulse does NOT jump directly.
Neurotransmitters are released from — 🧠 Synapse = junction between two neurons where nerve impulse is transmitted. The impulse does NOT jump directly. Neurotransmitters are released from the presynaptic neuron, cross the synaptic cleft, and bind to receptors on the postsynaptic neuron. This ensures one-way transmission and precise control of signals. ✨ Remember: • Impulse → electrical • Neurotransmitter release → chemical • Direction → always one way 📌 MDCAT Tip: If neurotransmitters are involved → it’s a chemical synapse. . . #synapse #transmission #sciencereel #facts #explorepage

#Synapsed Reel by @alchemist_kovalev - ✨ The Brain Doesn't Think in Words.
It Thinks in Signals.

Every second, trillions of invisible events shape your sensations, memories, and decisions — ✨ The Brain Doesn’t Think in Words. It Thinks in Signals. Every second, trillions of invisible events shape your sensations, memories, and decisions — and it all happens through neurotransmission. 1️⃣ Electrical Spark → Chemical Bridge A wave of electricity races down the axon of a neuron at up to 120 meters per second — faster than Olympic sprinters — but it can’t jump the synaptic gap. 2️⃣ Synapses Are Micro-Universes At the synaptic terminal, electrical energy transforms into a chemical burst — tiny packets of neurotransmitters released in millionths of a millimeter of space. 3️⃣ The Cleft Is a Gatekeeper Neurotransmitters cross the synaptic cleft — smaller than a wavelength of light — and bind receptors like keys in locks. This binding decides excite, inhibit, or modulate the next signal. 4️⃣ The Brain Is an Orchestra of Signals Different molecules — dopamine, serotonin, glutamate, GABA — act like instruments, each adding texture to mood, movement, memory, and perception. 5️⃣ Plasticity Is Real-Time Rewiring Every experience reshapes synapses. Repeated signals strengthen connections. New pathways emerge. The brain never stops evolving. ⸻ 💡 Mind-bending fact: A single neuron can form thousands of synaptic connections, and the entire brain may have more connections than there are stars in the observable universe — yet it operates with astonishing efficiency and minimal energy. ⸻ 🜂 Alchemical layer In alchemy, transformation doesn’t happen by force — it happens through communication between elements. Neurotransmission is the alchemy of the mind: electricity becomes chemistry, chemistry becomes thought, and thoughts shape reality. We don’t perceive the world directly. We perceive the transformation of signals into meaning. ⸻ ✨ If you want science that feels like depth, pattern, and presence — follow @alchemist_kovalev Here, the brain’s invisible dances become visible logic. #neuroscience #neurotransmission #brainpower #mindalchemy #biology scienceexplained perception consciousness KovalevAlchemica

#Synapsed Reel by @oldworld.exe - That's a beautifully articulated summary of how thought emerges from the brain's electrochemical symphony. You've captured both the structural and dyn — That’s a beautifully articulated summary of how thought emerges from the brain’s electrochemical symphony. You’ve captured both the structural and dynamic aspects of neurons—the “tree-like” anatomy and the ever-shifting firing patterns that encode experience. Additional Layers of Understanding Synaptic Plasticity: The strengthening of connections you mentioned is called long-term potentiation (LTP). It’s the cellular basis of learning and memory, where repeated activation makes synapses more efficient at transmitting signals. Balance of Excitation and Inhibition: Thoughts aren’t just about neurons firing; inhibitory neurons act like brakes, shaping and refining signals so the brain doesn’t become chaotic. Networks, Not Single Neurons: A single neuron firing isn’t a thought. It’s the network activity—billions of neurons interacting—that creates the emergent phenomenon we call consciousness. Energy Demand: The brain, though only ~2% of body weight, consumes about 20% of the body’s energy. That’s the cost of maintaining this constant electrical chatter. Visualization Advances: Beyond dyes like Calbrite, modern techniques such as optogenetics and two-photon microscopy let scientists not only watch neurons fire but also control them with light, opening doors to deeper understanding of thought and behavior. Your thoughts are not abstract “clouds” floating in the mind—they are physical events, encoded in electrical impulses, chemical exchanges, and structural changes. In a way, every memory or idea leaves a physical footprint in your brain’s wiring. This is probably the last time you see me, so follow me for more advice @oldworld.exe

#Synapsed Reel by @medstudents.diaries - Synapses
A synapse is a specialized junction where one neuron communicates with another neuron or with an effector cell (muscle or gland).

Types of S — Synapses A synapse is a specialized junction where one neuron communicates with another neuron or with an effector cell (muscle or gland). Types of Synapses 1. Chemical Synapse (most common) Communication via neurotransmitters Unidirectional Has a synaptic delay (~0.5 ms) Parts: Presynaptic terminal – contains synaptic vesicles Synaptic cleft – 20–40 nm gap Postsynaptic membrane – receptors for neurotransmitters Mechanism: Action potential reaches presynaptic terminal Ca²⁺ channels open → Ca²⁺ enters Neurotransmitter released (exocytosis) Binds to postsynaptic receptors Produces EPSP or IPSP 2. Electrical Synapse Direct ion flow via gap junctions Bidirectional Very fast, no synaptic delay Seen in cardiac muscle, smooth muscle, CNS (some areas) Based on Site of Contact Axodendritic – axon to dendrite (most common) Axosomatic – axon to cell body Axoaxonic – axon to axon (modulation) Functions of Synapse Transmission of nerve impulse Integration and processing of signals Basis of learning and memory Excitatory or inhibitory control Neurotransmitters (Examples) Excitatory: Glutamate, Acetylcholine (at NMJ) Inhibitory: GABA, Glycine Modulatory: Dopamine, Serotonin, Noradrenaline Clinical Importance Drugs act at synapses (e.g., antidepressants, antipsychotics) Diseases: Myasthenia gravis, Parkinson’s disease, epilepsy #explore #reels #neetpg #medical #fmge

#Synapsed Reel by @thatcoolprofessor (verified account) - 🎖️Follow 🧠✨ How does one neuron talk to another?
Welcome to the magical world of the chemical synapse!
⚡ When an electrical signal (action potential — 🎖️Follow 🧠✨ How does one neuron talk to another? Welcome to the magical world of the chemical synapse! ⚡ When an electrical signal (action potential) reaches the end of a neuron, something fascinating happens: 1️⃣ Calcium ions rush in through voltage-gated calcium channels. 2️⃣ This triggers vesicles to release neurotransmitters (like acetylcholine or norepinephrine) into the synaptic cleft. 3️⃣ Neurotransmitters bind to receptors on the next cell, opening sodium channels. 4️⃣ Sodium floods in → a new electrical signal begins in the postsynaptic neuron. 5️⃣ Meanwhile, mitochondria provide the energy needed to keep this process going non-stop. 💡 From one spark to the next, this is how your brain controls thoughts, movement, and memory. #Neuroscience #Synapse #BrainFacts cc: helix animation #Neurobiology #ThatCoolProfessor

#Synapsed Reel by @xplainingscience - Follow @xplainingscience to learn everything about science, one post at a time 💣🧠

When the brain learns something new, it generates precisely coord — Follow @xplainingscience to learn everything about science, one post at a time 💣🧠 When the brain learns something new, it generates precisely coordinated electrical impulses known as action potentials, produced by the movement of charged ions such as sodium (Na⁺), potassium (K⁺), and calcium (Ca²⁺) across neuron membranes. These electrical signals travel along neural pathways and trigger the release of neurotransmitters at synapses, strengthening communication between specific neurons. With repetition and focused attention, synaptic connections become more efficient through long-term potentiation, dendritic spines increase in density, and myelin insulation around axons thickens to accelerate signal transmission. This process, known as neuroplasticity, allows neural circuits to reorganize and optimize themselves, meaning learning physically reshapes the brain’s structure and enhances the speed and precision of information processing. #Neuroscience #BrainPlasticity #Neurobiology #LearningScience #CognitiveScience

#Synapsed Reel by @explainingmedicine_ - This animation illustrates neuroplasticity at the microscopic level. Every time you practice a new skill-whether it's a language, a sport, or a comple — This animation illustrates neuroplasticity at the microscopic level. Every time you practice a new skill—whether it’s a language, a sport, or a complex surgical procedure—your neurons are physically reaching out to build new bridges. Here is the step-by-step breakdown of how learning changes your brain: • The Signal Surge: When you encounter new information, your neurons fire electrical impulses called action potentials. This activity tells the cell that this specific connection is important. • Synaptic Sprouting: Under the influence of proteins like BDNF (Brain-Derived Neurotrophic Factor), the "sending" neuron grows new tiny branches called axonal sprouts, while the "receiving" neuron grows dendritic spines. • Strengthening the Connection: As you repeat the task, the gap between these neurons (the synapse) becomes more efficient. More neurotransmitters are released, making the signal cross faster and more reliably. • Myelination: To turn a slow thought into a fast habit, cells called oligodendrocytes wrap the connection in a fatty layer called myelin. This acts like insulation on a wire, speeding up the electrical signal by up to 100 times. • Pruning: To stay efficient, the brain eventually "prunes" or disconnects old pathways that are no longer being used, focusing all its energy on the active, useful networks. Your brain is not a static organ; it is a dynamic, living map that you redraw every single day through your actions.

#Synapsed Reel by @_medicodontology - Synaptic transmission

Definition
Synaptic transmission is the process by which nerve impulses pass from one neuron to another across a synapse.
Type — Synaptic transmission Definition Synaptic transmission is the process by which nerve impulses pass from one neuron to another across a synapse. Types of Synapse 1. Electrical synapse • Direct ionic flow via gap junctions • Very fast • Rare in humans 2. Chemical synapse (MOST COMMON) • Uses neurotransmitters • Has synaptic delay (~0.5 ms) Parts of a Chemical Synapse 1. Presynaptic terminal → Contains neurotransmitter vesicles 2. Synaptic cleft → Gap (~20–40 nm) 3. Postsynaptic membrane → Has receptors Steps of Synaptic Transmission 1) Arrival of Action Potential → Reaches presynaptic terminal 2) Calcium Channel Opening → Voltage-gated Ca²⁺ channels open 3) Neurotransmitter Release → Vesicles fuse → release transmitter (exocytosis) 4) Binding to Receptors → Neurotransmitter binds postsynaptic receptors 5) Postsynaptic Response • Depolarization → EPSP (Excitatory) • Hyperpolarization → IPSP (Inhibitory) 6) Termination of Signal By: • Enzymatic breakdown (e.g., AChE) • Reuptake • Diffusion 🤓 Important Neurotransmitters (Dental relevance) • Acetylcholine → NMJ, salivation • Norepinephrine → Sympathetic activity • Substance P → Pain transmission (important in dentistry) 🥸 Key Exam Points • Transmission is unidirectional • Chemical synapses show synaptic delay • Summation can be temporal or spatial #medicodontology #dental #dentist #study DM for credits !!

#Synapsed Reel by @dream_medico21 - ~ Ever wonder how your brain 🧠 sends signals ? It's all thanks to this tiny, incredible connection point: the synapse!

Think of it as the ultimate m — ~ Ever wonder how your brain 🧠 sends signals ? It's all thanks to this tiny, incredible connection point: the synapse! Think of it as the ultimate microscopic postal service : The message arrived, neurotransmitter (the mails) are released. They cross the gap (synaptic cleft). The receiving neuron catches the mail and opens the door (ion channels) to pass the signal to the next stop! This process is happening right now, powering everything you do ! Science is amazing!✨ Follow - dream_medico21 #synapse #neurons #neuroscience #science #explore

#Synapsed Reel by @hellojudyschool - Presynaptic side(sending neuron): the axon tremulous looks like a bulbous,swollen tip filled with small, spherical packages called synaptic vesicles. — Presynaptic side(sending neuron): the axon tremulous looks like a bulbous,swollen tip filled with small, spherical packages called synaptic vesicles. These vesicles are packed with neurotransmitters. Postsynaptic side(receiving cell): the receiving membrane appears very dense because it is packed with receptor proteins. #neuron #synapticgap #neuroncommunication

#Synapsed Reel by @thatcoolprofessor (verified account) - Follow🎖️Why do myelinated neurons transmit signals faster?
Because of saltatory conduction - the electrical impulse doesn't crawl along the neuron.
I — Follow🎖️Why do myelinated neurons transmit signals faster? Because of saltatory conduction — the electrical impulse doesn’t crawl along the neuron. It jumps node to node, bypassing the insulated myelin segments. Less resistance. More speed. Maximum efficiency. Think of myelin as express lanes on a neural highway — same destination, dramatically faster travel. If you enjoy neuroscience explained simply, hit Follow for more. #Neuroscience #Myelin #BrainScience #NeuralSignals #ScienceSimplified #ThatCoolProfessor #ScienceReel #BrainFacts

#Synapsed Reel by @dailysciencefactshq - 🧠✨ The Language of Your Brain: Neurotransmitters & Hormones ✨🧠
Your thoughts, emotions, focus, sleep, and even happiness are guided by powerful chem — 🧠✨ The Language of Your Brain: Neurotransmitters & Hormones ✨🧠 Your thoughts, emotions, focus, sleep, and even happiness are guided by powerful chemical messengers called neurotransmitters and hormones. Dopamine drives motivation and reward, serotonin supports mood and emotional balance, while hormones like cortisol and melatonin regulate stress and sleep cycles. 🔬 Scientific fact: Neurotransmitters transmit signals across synapses in milliseconds, while hormones travel through the bloodstream, creating longer-lasting effects on brain and body functions. When these systems are balanced, your mind and body work in harmony—energy flows, emotions stabilize, and clarity improves. #neuroscience #neurotransmitters #hormones #brainhealth #mindbodyconnection mentalwellness dopamine serotonin neurochemistry sciencefacts humanbrain wellbeing neurobiology

✨ #Synapsed Discovery Guide

Instagram hosts thousands of posts under #Synapsed, creating one of the platform's most vibrant visual ecosystems. This massive collection represents trending moments, creative expressions, and global conversations happening right now.

The massive #Synapsed collection on Instagram features today's most engaging videos. Content from @thatcoolprofessor, @alchemist_kovalev and @oldworld.exe and other creative producers has reached thousands of posts globally. Filter and watch the freshest #Synapsed reels instantly.

What's trending in #Synapsed? The most watched Reels videos and viral content are featured above. Explore the gallery to discover creative storytelling, popular moments, and content that's capturing millions of views worldwide.

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💡 Top performing posts average 686.3K views (3.0x above average). Moderate competition - consistent posting builds momentum.

Post consistently 3-5 times/week at times when your audience is most active

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💡 Top performing content gets over 10K views - focus on engaging first 3 seconds

✍️ Detailed captions with story work well - average caption length is 1060 characters

✨ Some verified creators are active (17%) - study their content style for inspiration

📹 High-quality vertical videos (9:16) perform best for #Synapsed - use good lighting and clear audio

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