Editorial: “The stuff that dreams are made of”

IF 16.4 1区 化学 Q1 CHEMISTRY, MULTIDISCIPLINARY Accounts of Chemical Research Pub Date : 2021-10-01 DOI:10.11607/ofph.2021.4.e
R. Benoliel
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We may dream to augment rest and repair for our mind and body. We may dream for psychologic reasons. In fact, there are several dream theories, from Sigmund Freud’s interpretations to hypotheses that claim dreams are just random. Many of the theories on the function of dreams are contradicted by the sparse, hallucinatory, and narrative nature of dreams, a nature that seems to lack any specific function; the answer to why we dream remains nebulous. The recent advent of deep neural networks (DNNs) has provided a novel conceptual framework within which to understand the evolved function of dreams1—fascinating, but beyond the scope of this editorial. Dreams, it seems, are not just “sleep-time” entertainment. Dreams can provide much information about our state of mind, problems, and wishes for our future. Answers to our problems may be found in our dreams, which may also try to offer solutions.2 The “dream machine” works efficiently, with insights and “advice” occurring the night of and about a week after a triggering event. This would suggest that dreams serve social and emotional adaptive functions. Would this include pain-related disorders? A relevant question is: Does pain occur in dreams? It has been shown that realistic, localized painful sensations can be experienced in dreams, either through direct incorporation or from past memories. Nevertheless, the frequency of pain dreams in healthy subjects is low. In one study, dreams often reflected attempts to obtain pain relief.3 So although pain is rare in dreams, it is compatible with the representational code of dreaming.3 Patients suffering from burn pain dream more frequently of pain than controls.4 Findings have indicated that dreaming about pain may be an added stress for pain patients and may contribute to both poor sleep and higher pain intensity, which could evolve into a cycle of pain–anxiety–sleeplessness.4 Researchers have found that during dreams in REM sleep, our stress responses shut down, and the neurochemicals responsible for stressful feelings stop being released.5 In addition to this, REM helps reduce the negative effects of difficult memories. Although not studied, this suggests to me that pain may be similarly modulated. Possibly, dreams could be harnessed and manipulated to manage some of the disorders we encounter. There is a definite relationship between bad dreams and chronic pain.6 Evidence demonstrates that nightmares sometimes accompany migraine, and this link has been proposed as the result of a number of factors that affect both migraine and nightmares; for example, various stressors.7 Clearly the directionality of the relationship and the involvement of comorbidities are not always clear and need further study. A lucid dream is a type of dream where the dreamer becomes aware that they are dreaming. A recent study instructed volunteers to enter a lucid dream and imagine themselves experiencing pain in their arms, following which they were required to wake up immediately. Of the participants, around three-quarters experienced pain during lucid dreaming, and one-fifth felt pain even after waking.8 These are thought-provoking findings: A dreamer consciously induced pain, without a nociceptive or other stimulus, and was able to subsequently project this into a conscious physical sensation! This is consistent with studies that establish the brain as the source of pain. It strengthens approaches that pain may be controlled through our consciousness. 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Abstract

Dentistry and specifically orofacial pain have been involved in the science of sleep and its interactions with pain and various other relevant disorders for decades. Yet we have not yet explored dreams; an amazing phenomenon occurring during sleep where brain activity can induce a virtual reality that includes visual, auditory, olfactory, taste, and emotional experiences as true as their waketime counterparts. Humans spend about 2 hours dreaming per night, and we have established that most, but not all, of our dreaming occurs during REM (rapid eye movement) sleep. While neuroscientists routinely examine neural activity during sleep, capturing dreams so that they can be evaluated presents obvious challenges. There is general agreement about what dreams are, but ongoing debate remains over why we dream. We may dream to augment rest and repair for our mind and body. We may dream for psychologic reasons. In fact, there are several dream theories, from Sigmund Freud’s interpretations to hypotheses that claim dreams are just random. Many of the theories on the function of dreams are contradicted by the sparse, hallucinatory, and narrative nature of dreams, a nature that seems to lack any specific function; the answer to why we dream remains nebulous. The recent advent of deep neural networks (DNNs) has provided a novel conceptual framework within which to understand the evolved function of dreams1—fascinating, but beyond the scope of this editorial. Dreams, it seems, are not just “sleep-time” entertainment. Dreams can provide much information about our state of mind, problems, and wishes for our future. Answers to our problems may be found in our dreams, which may also try to offer solutions.2 The “dream machine” works efficiently, with insights and “advice” occurring the night of and about a week after a triggering event. This would suggest that dreams serve social and emotional adaptive functions. Would this include pain-related disorders? A relevant question is: Does pain occur in dreams? It has been shown that realistic, localized painful sensations can be experienced in dreams, either through direct incorporation or from past memories. Nevertheless, the frequency of pain dreams in healthy subjects is low. In one study, dreams often reflected attempts to obtain pain relief.3 So although pain is rare in dreams, it is compatible with the representational code of dreaming.3 Patients suffering from burn pain dream more frequently of pain than controls.4 Findings have indicated that dreaming about pain may be an added stress for pain patients and may contribute to both poor sleep and higher pain intensity, which could evolve into a cycle of pain–anxiety–sleeplessness.4 Researchers have found that during dreams in REM sleep, our stress responses shut down, and the neurochemicals responsible for stressful feelings stop being released.5 In addition to this, REM helps reduce the negative effects of difficult memories. Although not studied, this suggests to me that pain may be similarly modulated. Possibly, dreams could be harnessed and manipulated to manage some of the disorders we encounter. There is a definite relationship between bad dreams and chronic pain.6 Evidence demonstrates that nightmares sometimes accompany migraine, and this link has been proposed as the result of a number of factors that affect both migraine and nightmares; for example, various stressors.7 Clearly the directionality of the relationship and the involvement of comorbidities are not always clear and need further study. A lucid dream is a type of dream where the dreamer becomes aware that they are dreaming. A recent study instructed volunteers to enter a lucid dream and imagine themselves experiencing pain in their arms, following which they were required to wake up immediately. Of the participants, around three-quarters experienced pain during lucid dreaming, and one-fifth felt pain even after waking.8 These are thought-provoking findings: A dreamer consciously induced pain, without a nociceptive or other stimulus, and was able to subsequently project this into a conscious physical sensation! This is consistent with studies that establish the brain as the source of pain. It strengthens approaches that pain may be controlled through our consciousness. The psycho-physiologic connection found between dreams and wakefulness could lead to new treatments for pain relief.9 From the use of lucid dreams and “dream incubation” (“planting a seed” for a specific dream topic to occur) . . . this is “the stuff of dreams.”
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社论:“构成梦想的东西”
几十年来,牙科,特别是口腔面部疼痛,一直涉及睡眠科学及其与疼痛和其他各种相关疾病的相互作用。然而我们还没有探索过梦想;这是一种发生在睡眠期间的神奇现象,大脑活动可以诱发一种虚拟现实,包括视觉、听觉、嗅觉、味觉和情感体验,与清醒时的体验一样真实。人类每晚大约花2个小时做梦,我们已经确定,大多数(但不是全部)做梦发生在REM(快速眼动)睡眠期间。虽然神经科学家通常会检查睡眠期间的神经活动,但捕捉梦境以便对其进行评估显然是一项挑战。关于什么是梦,人们达成了普遍的共识,但关于我们为什么做梦的争论仍在继续。我们可以做梦来增加休息和修复我们的身心。我们做梦可能是出于心理原因。事实上,有几种梦的理论,从西格蒙德·弗洛伊德的解释到声称梦只是随机的假设。许多关于梦的功能的理论都与梦的稀疏、幻觉和叙述的本质相矛盾,这种本质似乎缺乏任何特定的功能;为什么我们会做梦,答案仍然很模糊。最近深度神经网络(dnn)的出现为理解梦的进化功能提供了一个全新的概念框架——这很吸引人,但超出了这篇社论的范围。看来,梦不仅仅是“睡眠时间”的娱乐。梦可以提供很多关于我们的精神状态、问题和对未来的期望的信息。我们问题的答案可能在梦中找到,梦中也可能试图提供解决方案“造梦机器”的工作效率很高,在触发事件发生的当晚和事件发生后一周左右,它就会产生深刻的见解和“建议”。这表明梦具有社会和情感适应功能。这包括疼痛相关的疾病吗?一个相关的问题是:疼痛会在梦中发生吗?研究表明,现实的、局部的痛苦感觉可以在梦中体验到,要么是通过直接结合,要么是来自过去的记忆。然而,健康受试者做疼痛梦的频率较低。在一项研究中,梦通常反映了人们试图缓解疼痛因此,尽管疼痛在梦中很少见,但它与梦的表征代码是相容的患有烧伤痛的病人比对照组更频繁地梦见疼痛研究结果表明,梦见疼痛可能是疼痛患者的额外压力,可能导致睡眠质量差和疼痛强度更高,这可能演变成疼痛-焦虑-失眠的循环研究人员发现,在快速眼动睡眠的梦境中,我们的压力反应会停止,负责压力感觉的神经化学物质也会停止释放除此之外,快速眼动有助于减少困难记忆的负面影响。虽然没有研究,但在我看来,这表明疼痛可能也有类似的调节。也许,梦可以被利用和操纵来管理我们遇到的一些障碍。5 .恶梦和慢性疼痛之间有一定的联系有证据表明,噩梦有时会伴随偏头痛,这种联系被认为是影响偏头痛和噩梦的许多因素的结果;例如,各种各样的压力显然,这种关系的方向性和合并症的参与并不总是明确的,需要进一步研究。清醒梦是做梦者意识到自己在做梦的一种梦。最近的一项研究要求志愿者进入一个清醒梦,想象自己正在经历手臂疼痛,然后要求他们立即醒来。在参与者中,大约四分之三的人在清醒梦中感到疼痛,五分之一的人甚至在醒来后也感到疼痛这些都是发人深省的发现:一个做梦的人在没有伤害性或其他刺激的情况下有意识地诱导疼痛,并能够随后将其投射到有意识的身体感觉中!这与将大脑作为疼痛来源的研究相一致。它强化了疼痛可以通过我们的意识来控制的观点。梦和清醒之间所发现的心理生理联系可能会导致新的止痛疗法从使用清醒梦和“梦孵化”(“播种”一个特定的梦的主题发生)…这是“梦想的东西”。
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来源期刊
Accounts of Chemical Research
Accounts of Chemical Research 化学-化学综合
CiteScore
31.40
自引率
1.10%
发文量
312
审稿时长
2 months
期刊介绍: Accounts of Chemical Research presents short, concise and critical articles offering easy-to-read overviews of basic research and applications in all areas of chemistry and biochemistry. These short reviews focus on research from the author’s own laboratory and are designed to teach the reader about a research project. In addition, Accounts of Chemical Research publishes commentaries that give an informed opinion on a current research problem. Special Issues online are devoted to a single topic of unusual activity and significance. Accounts of Chemical Research replaces the traditional article abstract with an article "Conspectus." These entries synopsize the research affording the reader a closer look at the content and significance of an article. Through this provision of a more detailed description of the article contents, the Conspectus enhances the article's discoverability by search engines and the exposure for the research.
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