Transcription & Words
Section1
It’s 4 a.m., and the big test is in eight hours, followed by a piano recital. You’ve been studying and playing for days, but you still don’t feel ready for either. So, what can you do? Well, you can drink another cup of coffee and spend the next few hours cramming and practicing, but believe it or not, you might be better off closing the books, putting away the music, and going to sleep.
Sleep occupies nearly a third of our lives, but many of us give surprisingly little attention and care to it. This neglect is often the result of a major misunderstanding. Sleep isn’t lost time, or just a way to rest when all our important work is done. Instead, it’s a critical function, during which your body balances and regulates its vital systems, affecting respiration and regulating everything from circulation to growth and immune response.
piano recital /piˈænoʊ rɪˈsaɪtl/ (n) piano concert
“She performed beautifully at the piano recital.”
cramming/ˈkræmɪŋ/ (v) cramming
“He was cramming for the exam all night.”
believe it or not
“Believe it or not, sleep can improve your memory.”
neglect/nɪˈɡlɛkt/ (v) ignore
“Many people neglect the importance of sleep.”
vital/ˈvaɪtl/ (adj) important
“Sleep is vital for good health.”
respiration/ˌrɛspəˈreɪʃən/ (n) breathing
“The doctor checked his respiration rate.”
circulation/ˌsɜːrkjʊˈleɪʃən/ (n) circulation
“Good exercise improves your circulation.”
immune response/ɪˈmjun rɪˈspɒns/ (n) immune response
“The vaccine helps trigger an immune response.”
regulate/ˈrɛɡjʊleɪt/ (v) regulate
“Sleep regulates many bodily functions.”
Section 2
That’s great, but you can worry about all those things after this test, right? Well, not so fast. It turns out that sleep is also crucial for your brain, with a fifth of your body’s circulatory blood being channeled to it as you drift off. And what goes on in your brain while you sleep is an intensely active period of restructuring that’s crucial for how our memory works.
At first glance, our ability to remember things doesn’t seem very impressive at all. 19th century psychologist Herman Ebbinghaus demonstrated that we normally forget 40% of new material within the first twenty minutes, a phenomenon known as the forgetting curve. But this loss can be prevented through memory consolidation, the process by which information is moved from our fleeting short-term memory to our more durable long-term memory.
crucial/ˈkruːʃəl/ (adj) critical
“Sleep is crucial for your health.”
drift off/drɪft ɔːf/ (phrasal v) fall asleep
“It took a while for me to drift off to sleep.”
circulatory/ˈsɜːkjʊləˌtɔːri/ (adj) circulatory
“The circulatory system pumps blood throughout the body.”
restructuring/riˈstrʌktʃərɪŋ/ (n) restructuring
“The brain undergoes restructuring during sleep.”
fleeting/ˈfliːtɪŋ/ (adj) fleeting
“His fleeting thoughts vanished quickly.”
memory consolidation (n) memory consolidation
“Sleep helps with memory consolidation.”
durable / ˈdʊrəb(ə)l / (adj) durable
The durable high-impact plastic case is water resistant to 100 feet.
impressive / ɪmˈpresɪv / (adj) impressive
It is an impressive achievement.
Section 3
This consolidation occurs with the help of a major part of the brain, known as the hippocampus. Its role in long-term memory formation was demonstrated in the 1950s by Brenda Milner in her research with a patient known as H.M. After having his hippocampus removed, H.M.’s ability to form new short-term memories was damaged, but he was able to learn physical tasks through repetition.
Due to the removal of his hippocampus, H.M.’s ability to form long-term memories was also damaged. What this case revealed, among other things, was that the hippocampus was specifically involved in the consolidation of long-term declarative memory, such as the facts and concepts you need to remember for that test, rather than procedural memory, such as the finger movements you need to master for that recital.
hippocampus/ˌhɪpəˈkæmpəs/ (n) hippocampus
“The hippocampus plays a role in memory formation.”
demonstrated/ˈdɛmənstreɪtɪd/ (v) demonstrated
“The study demonstrated the importance of sleep for memory.”
repetition/ˌrɛpɪˈtɪʃən/ (n) repetition
“Repetition helps improve procedural memory.”
declarative memory/dɪˈklærətɪv / (n) declarative memory
“I use declarative memory for remembering facts.”
procedural memory/prəˈsiːdʒərəl / (n) procedural memory
“Procedural memory helps me learn to play the piano.”
Section 4
Milner’s findings, along with work by Eric Kandel in the 90’s, have given us our current model of how this consolidation process works. Sensory data is initially transcribed and temporarily recorded in the neurons as short-term memory. From there, it travels to the hippocampus, which strengthens and enhances the neurons in that corticalarea.
Thanks to the phenomenon of neuroplasticity, new synaptic buds are formed, allowing new connections between neurons, and strengthening the neural network where the information will be returned as long-term memory. So why do we remember some things and not others? Well, there are a few ways to influence the extent and effectiveness of memory retention.
sensory/ˈsɛnsəri/ (adj) sensory
“Sensory data is the first step in memory formation.”
temporarily/ˈtɛmpərərɪli/ (adv) temporarily
“Information is temporarily stored in short-term memory.”
neurons/ˈnjʊərɒnz/ (n) neurons
“Neurons transmit signals throughout the brain.”
cortical area/ˈkɔːtɪkəl ˈɛə(r)ɪə/ (n) cortical area
“The cortical area plays a key role in memory.”
neuroplasticity/ˌnjʊəroʊplæˈstɪsɪti/ (n) neuroplasticity
“Neuroplasticity allows the brain to form new connections.”
synaptic buds/sɪˈnæptɪk bʌdz/ (n) synaptic buds
“Synaptic buds form as the brain creates new connections.”
effectiveness/ɪˈfɛktɪvnɪs/ (n) effectiveness
“The effectiveness of memory consolidation depends on sleep.”
For example, memories that are formed in times of heightened feeling, or even stress, will be better recorded due to the hippocampus’ link with emotion. But one of the major factors contributing to memory consolidation is, you guessed it, a good night’s sleep. Sleep is composed of four stages, the deepest of which are known as slow-wave sleep and rapid eye movement.
EEG machines monitoring people during these stages have shown electrical impulses moving between the brainstem, hippocampus, thalamus, and cortex, which serve as relay stations of memory formation. And the different stages of sleep have been shown to help consolidate different types of memories. During the non-REM slow-wave sleep, declarative memory is encoded into a temporary store in the anterior part of the hippocampus.
heightened/ˈhaɪtənd/ (adj) heightened
Memories formed during heightened emotions are often stronger.”
EEG machine/ˈiːˈiːˈdʒi məˈʃiːn/ (n) EEG machine
“An EEG machine monitors brain activity during sleep.”
electrical impulses/ɪˈlɛktrɪkəl ˈɪmpʌlsɪz/ (n) electrical impulses
“Electrical impulses are active during sleep stages.”
relay stations/rɪˈleɪ ˈsteɪʃənz/ (n) relay stations
“The hippocampus serves as a relay station for memory.”
cortex/ˈkɔːtɛks/ (n) cortex
“The cortex stores long-term memories.”
It is usually the result of a left anterior hemiblock.
Through a continuing dialogue between the cortex and hippocampus, it is then repeatedly reactivated, driving its gradual redistribution to long-term storage in the cortex. REM sleep, on the other hand, with its similarity to waking brain activity, is associated with the consolidation of procedural memory.
So based on the studies, going to sleep three hours after memorizing your formulas and one hour after practicing your scales would be the most ideal. So hopefully you can see now that skimping on sleep not only harms your long-term health, but actually makes it less likely that you’ll retain all that knowledge and practice from the previous night, all of which just goes to affirm the wisdom of the phrase, “Sleep on it.”
When you think about all the internal restructuring and forming of new connections that occurs while you slumber, you could even say that proper sleep will have you waking up every morning with a new and improved brain, ready to face the challenges ahead.
gradual redistribution/riːdɪstrɪˈbjuːʃən/ (n) gradual redistribution
“Memory undergoes gradual redistribution during sleep.”
skimping/ˈskɪmpɪŋ/ (v) skimping
“Skimping on sleep can negatively affect your memory.”
affirm/əˈfɜːrm/ (v) affirm
“The study affirms the importance of sleep for memory.”
slumber/ˈslʌmbər/ (n) sleep
While you slumber, your brain works on memory.
retention/rɪˈtɛnʃən/ (n) retention
“Sleep improves memory retention.”
Quizs
Part 1: True or False
1. Sleep is often neglected because it is seen as lost time and not a vital function for the body.
2. The hippocampus is responsible for consolidating long-term procedural memories.
3. The phenomenon known as the “forgetting curve” demonstrates that we forget 40% of new material within the first hour.
4. Sleep, especially REM sleep, plays a crucial role in the consolidation of procedural memories, such as learning a piano recital.
Part 2: Single Choice
5. What is the main role of sleep in relation to the brain?a) To repair damaged cellsb) To help with memory consolidationc) To regulate digestiond) To boost physical energy
6. According to Brenda Milner’s research, what was the effect of removing the hippocampus in the patient H.M.?
a) H.M. could not learn physical tasksb) H.M. lost all memoryc) H.M. could no longer form long-term declarative memoriesd) H.M. could no longer breathe properly
7. What is the process by which information moves from short-term memory to long-term memory?a) Memory consolidationb) Memory retrievalc) Memory retrieval failured) Memory encoding
8. During which stage of sleep is declarative memory mainly consolidated?a) REM sleepb) Slow-wave sleep (non-REM)c) Light sleepd) Dreamless sleep
9. Which of the following is most closely linked to memory retention during sleep?a) Exerciseb) Stress and emotionsc) Eatingd) Listening to music
10. According to the article, when is the best time to go to sleep after memorizing formulas or practicing scales?a) Immediately after studyingb) Three hours after studying formulas and one hour after practicing scalesc) As soon as the test is overd) Sleep is not necessary
Answers:T、F、F、T、B、C、A、B、B、B
Translation
Translation
Now it’s 4 a.m., and you have an important exam in eight hours, followed by a piano recital. You have been studying and practicing for days, but you still feel unprepared. So what can you do? You can drink another cup of coffee and cram for the next few hours, but believe it or not, you might be better off closing the books, putting away the music, and going to sleep.
Sleep occupies nearly a third of our lives, but surprisingly, many people give little attention to it. This neglect often stems from a major misunderstanding. Sleep isn’t lost time or just a way to rest when all our important work is done. Instead, it’s a critical function during which your body balances and regulates its vital systems, affecting respiration and regulating everything from circulation to growth and immune response. Sounds great, but you can worry about all those things after the test, right? Well, not so fast. It turns out that sleep is also crucial for your brain, with a fifth of your body’s circulatory blood being channeled to it as you drift off. And what goes on in your brain while you sleep is an intensely active period of restructuring that’s crucial for how our memory works. At first glance, our ability to remember things doesn’t seem very impressive at all. 19th-century psychologist Hermann Ebbinghaus demonstrated that we normally forget 40% of new material within the first twenty minutes, a phenomenon known as the forgetting curve. But this loss can be prevented through memory consolidation, the process by which information is moved from our fleeting short-term memory to our more durable long-term memory.
Memory consolidation occurs with the help of a major part of the brain, known as the hippocampus. Its role in long-term memory formation was demonstrated in the 1950s by Brenda Milner in her research with a patient known as H.M. After having his hippocampus removed, H.M.’s ability to form new short-term memories was damaged, but he was able to learn physical tasks through repetition. Due to the removal of his hippocampus, H.M.’s ability to form long-term memories was also damaged. What this case revealed, among other things, was that the hippocampus was specifically involved in the consolidation of long-term declarative memory, such as the facts and concepts you need to remember for that test, rather than procedural memory, such as the finger movements you need to master for that recital.
Milner’s findings, along with work by Eric Kandel in the 90s, have given us our current model of how this consolidation process works. Sensory data is initially transcribed and temporarily recorded in the neurons as short-term memory. From there, it travels to the hippocampus, which strengthens and enhances the neurons in that cortical area. Thanks to the phenomenon of neuroplasticity, new synaptic buds are formed, allowing new connections between neurons, and strengthening the neural network where the information will be returned as long-term memory. So why do we remember some things and not others? Well, there are a few ways to influence the extent and effectiveness of memory retention. For example, memories that are formed in times of heightened feeling, or even stress, will be better recorded due to the hippocampus’ link with emotion. But one of the major factors contributing to memory consolidation is, you guessed it, a good night’s sleep. Sleep is composed of four stages, the deepest of which are known as slow-wave sleep and rapid eye movement.
EEG machines monitoring people during these stages have shown electrical impulses moving between the brainstem, hippocampus, thalamus, and cortex, which serve as relay stations of memory formation. And the different stages of sleep have been shown to help consolidate different types of memories. During the non-REM slow-wave sleep, declarative memory is encoded into a temporary store in the anterior part of the hippocampus. Through a continuing dialogue between the cortex and hippocampus, it is then repeatedly reactivated, driving its gradual redistribution to long-term storage in the cortex. REM sleep, on the other hand, with its similarity to waking brain activity, is associated with the consolidation of procedural memory.
So based on the studies, going to sleep three hours after memorizing your formulas and one hour after practicing your scales would be the most ideal. So hopefully you can see now that skimping on sleep not only harms your long-term health, but actually makes it less likely that you’ll retain all that knowledge and practice from the previous night, all of which just goes to affirm the wisdom of the phrase, “Sleep on it.” When you think about all the internal restructuring and forming of new connections that occurs while you slumber, you could even say that proper sleep will have you waking up every morning with a new and improved brain, ready to face the challenges ahead.
end