Introduction
Allen. J, Elkin and D.J. Murray prove in “The Effects of Sleep Loss and Short-term Recognition Memory” that sleep deprived individuals become less aware or conscious of the material presented to them. This evaluation will show that though the author makes some good use of statistical findings, he doesn 't cover all aspects in this article.
Summary
Allen. J, Elkin and D.J. Murray systematically lists the studies and opinions of others who agree with them and does not discuss opposing positions . In content first Allen. J, Elkin and D.J. Murray discuss that there has been many articles about sleep loss and how it effects vigilance (Deaton, Tobias, & Wilkinson, 1971), speed of addition (Williams & Lubin, 1967), and reaction time (Wilkinson, 1963) but there are hardly any articles about how sleep loss an effect memory. They follow that with their method, they had altogether 40 subjects 19 male and 21 females all who volunteered. 20 subjects were deprived of sleep for up to 55 hours and were compared with 20 subjects who had normal sleep over this period. The experiment took place in a room of the Department of Psychology. Everything was arranged for them. The experimental group they had a total of 55 hours of sleep deprivation. The digit probe technique (Waugh & Norman, 1965) was used to assess retention. The recognition was either immediate or delayed by 20 seconds. When it came to the results, it showed that the sleep deprived group had made more errors than
Memory can also be affected by lack of sleep. Also peoples inability to remember things can be affected.
In a laboratory study of sleep deprivation, researchers employed a variety of techniques to keep volunteers awake for variable amounts of time. One group of participants was kept awake for 24 hours, and the other was kept awake for 48 hours. During periods of forced wakefulness, participants were required to engage verbal learning tasks such as memorizing the definitions of obscure English words. At the conclusion of the period of forced wakefulness, participants were allowed to sleep for as
This paper examines five different sources of information that addresses information pertaining to wakeful resting or sleeping and the effects it has on memory garnered by experiments performed on humans and animals. Wakeful resting is defined as an individual that has not fallen asleep but has engaged in a period of rest that cuts them off from the distractions of the outside world. Sleep is the bodies natural cycle of rest that suspends the consciousness and allows both the body and the mind to take a break from any stressful activities and recover. By either taking a short wakeful rest or going to sleep after learning new material, memory consolidation in both humans and animals will be improved, and it is not limited to humans that
There have been many experiments performed trying to find the correlation between sleep and memory. One of these experiments has showed that different stages of sleep has different effects on memory for instance, not only has sleep been seen to combine new memory with old long-term memories, but also helps stabilize memory (Born & Rasch, 2013). Using the Memory Interference Test (MIT), Amir conducted an experiment to further confirm the conclusion that the sleep improves a person’s memory. The experiment compared the amount of correctly remembered pictures by a sample people who had eight hours of sleep compared to a sample with only four hours of sleep. The hypothesis is that there is a correlation between the amount of sleep a person
An article in Nature Neuroscience from February 2009 describes an experiment which was conducted regarding sleep and its correlation to memory. Memory was impaired after 35 hours of sleep deprivation weekly and constant shallow sleep. Regular sleep benefits memory as newly stored information is easily encoded. Proper sleep is crucial for processing and retaining new information. Those who suffer from sleep deprivation struggle to maintain new information and with comprehension skills. In order for students to maximize their learning capabilities, they need the proper sleep to be mentally prepared for
This article explains the importance of getting the perfect amount of sleep at night. The idea that sleeping for less than five hours or more than nine hours proves to have a negative effect on the human body. Sleep deprivation has a closely related link to memory retention and can cause a person to have trouble with daily task. The author continues to explain that not only is the brain effected by too little or too much sleep, but the rest of the body is also effected. Conditions such as high blood pressure, diabetes, and even depression have links to not getting the perfect amount of sleep. The article concludes with listing tips to get the ideal amount of sleep at night, such as, going to sleep and waking up at the same time every day and limiting the amount of caffeine that is consumed throughout the day.
The article Sleep deprivation and false memories reported two studies, but only study one will be summarized here. The study done here is to see if amount of sleep is associated to false memories. This study is a correlational study because it is looking for the association of natural occurring variables (i.e. the amount of sleep one gets). The independent variable of this study is the amount of sleep the participants had, either they were sleep deprived or not. The dependent variable is whether or not they had false memories. The participants were made up of one hundred ninety-three undergraduates from the University of California, Irvine, 76% of which were female and 24% were male. The participants were divided into two different groups based on their self-reported sleep duration only on the night prior to the study session. The participants who reported five or fewer hours of sleep were put in the restricted sleep group, those with more than five hours were put into the reference group. Neither group differed meaningfully on age, gender, race-ethnicity etc.
Most studies are about discovering the contributors of false memories. However, this study focuses on how sleep deprivation contributes to false memories even though many studies argue that sleep deprivation damages cognitive function. Their study went in detail by researching the effect encoding have during this process. They found that if a participant was sleep deprived during event encoding; he or she would increase the likelihood of falsifying memories. However, when the participant was sleep deprived after encoding had already occurred then there was no big impact on falsifying memories. These experiments are conducted on the effect of sleep deprivation contributing to false memories since false memories can have dreadful consequences.
Researchers tested this idea by monitoring several individuals’ performance declines on memory tasks following selective sleep deprivation or administration of drugs that hinder the NREM-REM cycle. Performance on procedural memory
Sleep is essential for optimal human function. In fact, a lack of sleep can actually affect important cognitive functions, like memory. A 2007 study added to the already substantial evidence that even acute total sleep deprivation impairs attentiveness, working memory, and reaction time in various tasks (Alhola, Polo-Kantola). One such way to further this investigation of the effects of sleep deprivation on memory is through the Memory Interference Test, or MIT. MIT is a program designed by Gaston Pfluegl, Ph.D., and Enrique Lopez, Psy. D., at UCLA to test the memory of students. Along with a memory test, the MIT also anonymously collected the physical states, mental states, and demographics of each student test subject, providing a substantial database through which students can test hypotheses, such as the connection between sleep deprivation and memory. Since the MIT requires short-term memory recall, the hours of sleep a student had before taking the test could have a noticeable effect on his or her performance. An unprecedented study this year found that sleep deprivation may actually even induce false memories, which would certainly impact a student taking the MIT because the test requires the subject to recognize images that have been previously presented to them (Frenda, et al). The hypothesis is that students who slept 8 hours before the test will perform better on the MIT than students who only slept 4 hours. The null hypothesis is that students who had adequate
While much research has been conducted regarding sleep deprivation Tatar J, et al. 2006 demonstrates the results of sleep
Sleep is one of the unavoidable daily-living activities and it is one of the most important factors contributing to a person’s health. A quality sleep is essential for the physical, cognitive and psychological well-being of a person. Learning, memory processing and maintenance of the brain are among the most important functions of sleep. In addition to maintaining the brain, sleep has important roles in controlling the
The impact of sleep behavior on memory recall is a new topic in psychology study field, but the result of this research will help many researches in the future. Sleep not only brings people physiologically relax but also improve people’s ability on memory recall. 300 undergraduate students in UW participated in an experiment about memory recall test (recall a list of words). The text result and later analysis showed that, after sleeping, students tend to gain higher score in their memory recall test. Students who take a nap(sleep group) before take the memory test have an average 4.5 points higher than students who do not(non-sleep group). The relationship between sleep and memory recall is significant, and p-value is also smaller than 0.01.
There are a few things dealing with sleep, learning, attention, and memory that can improve people’s ability to learn, and remember information in certain college courses. In chapter three it states how sleep helps us to to strengthen our neural fastenings, and also repeats what we learned that day. Another thing sleep does for us is it helps turn the things we learned that day into memories to remember for later. Sleep also helps us to re energize our bodies, and minds for the next day, REM sleep is also something that gets our minds in a deep sleep, and our bodies tend to not wake up as easily during this cycle.
Memory consolidation increases during sleep, indicating that additional learning has taken place without further rehearsal. Brashers-Krug, Shadmehr and Bizzi (1996) measured participants performance after a 24 hour period (including sleep)