- 1International Vegetative State and Consciousness Science Institute, Hangzhou Normal University, Hangzhou, China
- 2Coma Science Group, GIGA-Consciousness, University of Liège, Liège, Belgium
- 3Centre du Cerveau2, University Hospital of Liège, Liège, Belgium
- 4Joint International Research Unit on Consciousness, CERVO Brain Research Centre, Laval University, Québec, QC, Canada
Introduction: In recent years, a growing number of near-death experience (NDE) testimonies have been collected worldwide due to an increasing interest in research on this phenomenon. China has many patients who survive life-threatening situations, leaving over much data on NDEs to be collected for research. In the historical context of Eastern civilization, many mentally controlled practices in China can also lead to “NDEs-like” (e.g., meditation). This study aimed (1) to translate and validate the recently developed Near-Death Experience Content (NDE-C) scale into Chinese and (2) to quantify and identify NDEs and NDEs-like in China with this new Chinese version of the NDE-C scale.
Methods: Here, we presented the work that had been performed to translate the NDE-C scale into Chinese and validated this version on 79 NDE testimonies.
Results: Brislin’s back-translation model was performed to translate a Chinese version of the NDE-C scale and internal consistency (the Cronbach’s α value for the total group = 0.846) as well as the confirmatory factor analysis was conducted.
Discussion: Currently, the Chinese version of the NDE-C scale is ready for use in research practice in the context of Eastern culture, to screen people who have experienced an NDEs(-like) and to quantify their subjective experience, promoting further NDEs-related research in China.
1 Introduction
Near-death experiences (NDEs) are subjective experiences including prototypical self-related emotional and mystical features (1), which can be considered as an episode of disconnected consciousness (2). Out-of-body experiences (OBEs), the feeling of peace and well-being, altered time perception, seeing a bright light, seeing a tunnel, encountering people or spirits, and a sense of harmony and/or unity are among the typical NDE elements (3–8). Since 1975, when Moody (9) brought the term “NDE” into medical and bestselling literature, interest in NDEs has grown considerably. Since then, more and more NDE testimonies have been collected all around the world. NDEs are increasingly being described as a clear, identifiable physiological and psychological reality with clinical implications (3). NDE, with an incidence of about 20% in cardiac arrest survivors and 15% in patients surviving a protracted severe illness, is not a rare phenomenon (10–12). Currently, the phenomenon of NDEs can be divided into two categories: classical NDEs and near-death-like experiences (NDEs-like). Classical NDEs occurred in life-threatening situations, such as cardiac arrest, perioperative complications, electrocution, near-drowning, asphyxia, or attempted suicide (6, 11–13). On the other hand, it may also occur in non-life-threatening situations, or what are known as NDEs-like (14–19), including epilepsy (20), syncope (21), meditation (22), intense grief and anxiety (16), or drug use (23, 24).
In 2020, Martial et al. (2) suggested a unified framework for “consciousness” based on two original models (2, 25, 26), offering a novel perspective to the investigation of NDE. They considered consciousness as a multi-faceted concept, which has three main dimensions: wakefulness (i.e., eye opening), internal awareness (i.e., environmental stimulus-independent thoughts), and connectedness (i.e., connection to the environment). Classical NDEs are subjective experiences that dissociate the correlation of the three dimensions and can be viewed as inner awareness without contact with the environment and without wakefulness. NDEs-like are a more heterogeneous set of states with the possibility of different levels of wakefulness and connectedness in the presence of inner awareness. The most widespread explanations for the occurrence of NDEs tend to integrate psychological and neurobiological mechanisms (2, 12). Therefore, NDEs provide researchers with a unique perspective to better understand the neurological mechanisms of (disconnected) consciousness (2).
The Greyson scale is the most commonly used measure to assess NDEs (27). However, as elaborated in Martial et al. (28), this questionnaire has several significant limitations, such as not addressing negative NDEs, leading to many cases of overlooked negative NDEs (27, 29–32). As the interest in NDEs increased in recent years, the original scientific tool has no longer met the scientists’ needs, and it is increasingly important to accurately identify near-death experiencers (NDErs) to facilitate empirical research as well as facilitate reproducibility among evaluators. In this context, Martial and colleagues developed the Near-Death Experience Content (NDE-C) scale in 2020 to strictly screen the phenomenology of NDEs (28). They demonstrated that the newly developed scale has good psychometric properties, such as good internal consistency and concurrent validity. This scale notably reevaluated the composition of the NDE scale for negative NDEs. Meanwhile, it solved the problem that distressing NDEs were not quantified in the Greyson scales. Importantly, the NDE-C scale itself does not distinguish between classical NDEs and NDEs-like; It is intended to identify the content of NDEs independent of context. It is rather the context within which the subjective experience has been occurred that will allow for this distinction.
According to nearly 40 years of surveys, the majority of NDEs research has been done in North America and Western Europe, while much less has been done in Asia (33). In the historical background of traditional culture in the East, the exploration of consciousness issues has never left the attention of scholars and monks of traditional Eastern culture. In China, there are a lot of common mental control practices (e.g., meditation) happening in situations that are not life-threatening inducing “NDEs-like,” a series of strong subjective experiences close to the content of the NDE, which also suits for this scale. However, up until today, there has not been a scientific scale to identify and quantify NDEs-like in China. The use of the newly developed NDE-C scale in China may help researchers to better understand and interpret these complex and often life-changing experiences. Meanwhile, it could also be adopted to quantify conscious experiences with the different contexts in Eastern culture. Therefore, it is of great significance to translate and validate the recently developed NDE-C scale into Chinese (28). The official language of the translated scale is Mandarin.
2 Methods
2.1 The NDE-C scale: description and psychometric properties
The NDE-C scale is a self-reported instrument with 20 items associated with five factors: (1) Beyond the usual (NDE-C1, 2, 8, 9, 11, 20); (2) Harmony (NDE-C5 and 6); (3) Insight (NDE-C3, 4, 10, 13, 14); (4) Border (NDE-C12, 15, 16, 17, 18); (5) Gateway (NDE-C7, 19). This tool aims to identify the presence of an NDE phenomenology using a cut-off score of ≥27/80. Each item scores from 0 to 4 on a Likert-type scale (0 = “not at all; none,” 1 = “slightly,” 2 = “moderately,” 3 = “strongly; equivalent in degree to any other strong experience lived so far” and 4 = “extremely; more than any other time in my life and stronger than 3”). Items and scale scores are linearly transformed to a 0–80 total score with higher scores indicating richer subjective experience. The developers of the NDE-C scale demonstrated that the five-factor structure is employed to cover the main relevant aspects of NDE and that it has very good psychometric properties, including concurrent validity and very good internal consistency (28). These improvements have led to the use of the NDE-C scale in subsequent studies as a reliable scale to quantify the phenomenology of NDEs (28, 34).
2.2 Translation procedure
In order to translate a Chinese version of the NDE-C scale that strictly respects the structure and the content of the original version, we used the Brislin’s back-translation model (35). The model has been applied for cross-cultural translation, which includes forward translation, back translation, and linguistic adaptation.
First, we performed forward translation. A graduate student (YL) and a professor (HD) majoring in basic medicine, who are proficient in English, independently translated the English version into the Chinese version. A committee consisting of three Chinese native authors (YL, HD and XZ) and two psychological experts worked together to edit, review, and approve a first draft translation of the NDE-C scale.
Next, back translation and linguistic adaption were carried out. The first draft of the NDE-C scale was translated back into English by Abacus Consulting Services, a translation agency without knowledge of the English version. The translators and interpreters of the agency are certified by the state and federal courts of the United States. A separate committee, consisting of one original developer of the NDE-C (CM) and four authors (YL, HD, XZ, and JY), evaluated the back translation to discuss linguistic errors or ambiguities and revised the first draft of the Chinese translation accordingly. The committee compared the back translation with the original scale and repeated the above steps, trying to make the Chinese version of the scale closest to the original English scale in terms of meaning.
Then, we conducted a pilot study and distributed the Chinese version to 20 participants who claimed to have experienced NDEs to evaluate the items’ fluency and comprehensibility and to identify whether there existed any confusion or difficulty in comprehending each item. We made appropriate modifications according to their feedback. Given the taboo surrounding death in traditional Chinese society, we adjusted the scale’s title to some extent to decrease people’s potential reluctance to fill out the scale (36). The adapted title was “Experience Content Scale.” Finally, the Chinese version of the NDE-C scale was formed.
2.3 Validation procedure
2.3.1 Participants
Seventy-nine native Mandarin-speaking participants who claimed to have experienced NDEs (i.e., NDErs) (including the 20 NDErs of the pilot study) were recruited through social media via the website.1 They were capable of clearly remembering an NDE, aged over 17 years old, and had no history of neurological or psychiatric disorders. They completed the Chinese translation of the NDE-C scale which included socio-demographic information (i.e., gender, interview age, religion, nation, education level) and clinical characteristics (i.e., precipitating factors, etiology). Data were collected from December 2021 to December 2022.
2.3.2 Statistics
Content validity was used to determine whether the scale’s items could correctly and sufficiently evaluate the concept (37). A panel of five experts in medicine and psychology (not including the experts in translation procedure) examined the cultural and semantic equivalency as well as the content validity index (CVI) of the NDE-C Chinese version, as in Huang et al. (38). To evaluate the CVI at the item-level CVI (I-CVI), each item was graded on a 4-point Likert scale to rate the relevance between the Chinese version and the original version by each expert (1 = “not relevant,” 2 = “somewhat relevant,” 3 = “quite relevant,” and 4 = “highly relevant”) (39). The I-CVI was determined by calculating the number of experts who scored “3” or “4” at all items and then dividing by the total number of experts (i.e., 5) (39). If the value of I-CVI is 1, the content validity is considered good (39, 40).
The data was split into two categories based on the context of the clinical characteristics of the NDEs: classical NDEs and NDEs-like.
We performed descriptive statistics on the socio-demographic information. The Shapiro–Wilk test was used to test for normality across all variables (p < 0.05). All distributions were skewed except for the NDE-C scale’s total score. Data were reported as medians (inter-quartile range, IQR).
We conducted internal consistency analysis in the total NDEs group and the classical NDEs group. The scale’s internal consistency was assessed by Cronbach’s α and by the correlations of each item with the total score. Cronbach’s α has a minimum acceptable value of 0.70 and a maximum acceptable value of 0.90 (41). A value below 0.70 shows a low internal consistency of the scale, whereas a score larger than 0.90 suggests redundancy or duplication of items within the scale.
Confirmatory factor analysis was based on the best conceptual fit. Communalities were examined to access the scale factorability. To determine whether the original five-factor model was supported by the data, the 20-item instrument was evaluated using criteria fit statistics to assess whether the suggested models were consistent with the data (28).
All analyses were performed using SPSS 25.0 and Amos 25.0.
2.4 Ethics statement
The study protocols were approved by the Ethics Committee of Hangzhou Normal University [NO: (20230322-4)]. Completion of the scale was voluntary for participants. The study was conducted according to the World Medical Association’s Declaration of Helsinki.
3 Results
3.1 Translation and cross-cultural adaptation
The final version of the Chinese translation of the NDE-C scale is shown in Supplementary material A. We made a few wording modifications to maintain the original scale while using descriptions that were more in tune with Chinese culture and way of life. The second item, “thoughts” literally means “an idea or opinion” in Chinese. There is a Chinese semantic problem: The translated noun cannot be paired with “speed up.” So, we made a slight modification to this expression. Some changes were also made to item four’s “understanding everything”: Since “understanding” refers to understanding the content or meaning in Chinese, it is easy to misunderstand here. After inquiring CM and discussing it with the group members, we modified it appropriately. The rest of the changes were simple word order changes, not obvious to the original change. Finally, it was determined by the committee that each item was simple, understandable, and acceptable. When we presented the scale to Chinese NDEs-like experiencers, we altered the name of the scale from “the Near-Death Experience Content (NDE-C) Scale” to “Experience Content Scale” due to Chinese people’s potential negative attitude toward death. Table 1 displays the exact wording for the 20 items after the Chinese translation method.
Table 1. The final Chinese version of the Near-Death Experience Content (NDE-C) scale (English translation into Chinese).
3.2 Validation procedure
3.2.1 Content validity
For the final NDE-C Chinese version, items were all scored “3” or “4” by all the five experts. Therefore, the I-CVI value is 1. As a result, the Chinese NDE-C scale has good content validity, and no items should be removed.
3.2.2 Participant characteristics
Table 2 shows the demographic characteristics of the total NDEs group constituting the retrospective study cohort [N = 79; 38 males (48%); median age at interview (IQR) = 27 (18–55) years]. The classical NDEs group [N = 43, 21 males, median age (IQR) = 27 (18–55) years] could be divided according to the etiology of the coma: “anoxic” (e.g., cardiac arrest, near-drowning and gas poisoning, N = 15); “traumatic” (e.g., motor vehicle accident, falls, N = 10); “complications of surgery or childbirth” (N = 11) and “other” (i.e., non-traumatic events such as hemorrhage or pesticide poisoning, N = 7). The NDEs-like group [N = 36, 17 males, median age (IQR) = 24 (18–53) years] included NDE occurring following a non-life-threatening event such as during sleep (N = 15), syncope (N = 7), meditation (N = 4), drugs and alcohol consumption (N = 3), or other non-life-threatening situations (N = 7). The education levels of the total NDEs group were as follows: 16 graduated from senior high school or below, 6 completed technical secondary or tertiary education, 38 had bachelor’s degrees, and 10 had master’s degrees or above. In terms of religion and beliefs, 86% of participants were agnostic or atheist (86% in both classical NDEs and NDEs-like) while others were religious. The majority of the participants were Han nationality (90%). Table 2 shows the detailed characteristics of the participants.
3.2.3 Item statistics and distributional properties
The Chinese NDE-C scale total score mean was 39 ± 16 (out of 80) for the total group, 38 ± 18 (out of 80) for the classical NDEs group, and 39 ± 14 (out of 80) for the NDEs-like group. Supplementary material B comprises the frequency of each response for all NDE-C scale multiple-choice items. No item was reported by any participant as having a value of 1 on the Likert scale.
3.2.4 Internal consistency and item-total correlation
The entire standardized Cronbach’s α estimate for the Chinese NDE-C scale was 0.85 for the total group and 0.88 for the classical NDEs group, which is regarded as acceptable. The correlation between each item and the total score ranged from 0.28 to 0.61 for the total group and 0.19 to 0.70 for the classical NDEs group. The estimation of Cronbach’s α for the total NDEs group (after removing each item from the pool of items to assess the independent contribution of each item to the measurement error in the scale) ranged from 0.83 to 0.85 (see Supplementary material C for details). The Cronbach’s α for the classical NDEs ranged from 0.86 to 0.88 after deleting each item and thus achieved the recommended 0.70. This shows that the items are homogenous and interdependent for the construct they measure.
3.2.5 Confirmatory factor analysis
We followed the 5-factor structure from its original version for verification (28). In the total group, fit statistics of this 5-factor model were: χ2 = 275.400, χ2/DF = 1.721, p < 0.001; root mean squared error of approximation (RMSEA) = 0.096; standardized root-mean-squared residual (SRMR) = 0.101; Tucker-Lewis Index (TLI) = 0.693; Comparative Fit Index (CFI) = 0.741. In the classical NDEs group, fit statistics of this 5-factor model were: χ2 = 294.015, χ2/DF = 1.838, p < 0.001; RMSEA = 0.141; SRMR = 0.127; TLI = 0.544; CFI = 0.616. In the NDEs-like group, fit statistics of this 5-factor model were: χ2 = 317.736, χ2/DF = 1.986, p < 0.001; RMSEA = 0.168; SRMR = 0.155; TLI = 0.293; CFI = 0.404. In the total group, the median score (see Supplementary material D for details) of the Beyond the usual subscale was 11 (out of 24), the median score of the Harmony subscale was 5 (out of 8); median score of the Insight subscale was 4 (out of 20); median score of the Border subscale was 9 (out of 20); and median score of the Gateway subscale was 3 (out of 8). In the classical NDEs group, the median score of the Beyond the usual subscale was 11 (out of 24), the median score of the Harmony subscale was 7 (out of 8); the median score of the Insight subscale was 7 (out of 20); median score of the Border subscale was 10 (out of 20); and median score of the Gateway subscale was 3 (out of 8). In the NDEs-like group, the median score of the Beyond the usual subscale was 14 (out of 24), the median score of the Harmony subscale was 4 (out of 8); the median score of the Insight subscale was 10 (out of 20); median score of the Border subscale was 8 (out of 20), and median score of the Gateway subscale was 2 (out of 8). The above results indicate that for the Chinese translation of the NDE-C scale, the 5-factor structure is still the best conceptual fit in the context of Eastern culture.
3.2.6 Cut-off score
In the total group, we observed 60 participants (76%) with total scores ≥27/80. In the classical NDEs group, we observed 30 participants (70%) with total scores ≥27/80. In the NDEs-like group, we observed 30 participants (83%) with total scores ≥27/80.
4 Discussion
The first purpose of this study was to rigorously translate the original NDE-C scale from English into Chinese. The differences between the two independent translations were slight, owing primarily to differences in language order. The committee’s translation discussion went equally well. In order to adapt to linguistic and cultural differences in different locations where diverse dialects are spoken, cross-cultural adaptation was carried out appropriately, as in Zhang et al. (42).
The second purpose of the present study was to validate the NDE-C in Chinese NDErs. Its internal consistency is good (the Cronbach’s α value of the Chinese version of the NDE-C scale for the total group = 0.85, the Cronbach’s α value of classical NDEs group = 0.88). The Chinese version of the NDE-C scale maintains the original five-factor structure in the confirmatory factor analysis, as opposed to Greyson’s four-factor structure, which was inconsistent with some certain scale items. Compared with the traditional common tool NDE Scale by Greyson, all the items of the Chinese version of the NDE-C scale were worded affirmatively, instead of questions. Also, the Chinese version of the NDE-C scale added items related to negative emotions, which is more in line with the actual situation of NDE case studies (43). We here showed that the Chinese version of the NDE-C scale has good psychometric properties in our sample study and still adapts in an Eastern cultural context.
China is a vast country with a large population, many ethnic groups, and many dialects. In our study, 83% of the participants were agnostics or atheists which also indicates that atheism prevails in China. The same word may have different meanings, all of which may lead to misconceptions of translated concepts. Mandarin, China’s official language, is the language carrier of the Chinese translation of the NDE-C scale, which has the broadest reach and allows the scale to be promoted and utilized in all regions and hospitals in China as well as the Chinese-speaking areas to the greatest extent.
Although this study had important research implications, there are still some limitations. First of all, we have used the English version for Chinese translation and not the French version which is the original version of the NDE-C scale. Secondly, this is a relatively small sample. This is notably due to the specificity of this population, which limited our recruitment. Moreover, the participants were self-selected, therefore there was a potential selection bias, and they may not be representative of the general population. Future studies should study the psychometric properties of the Chinese NDE-C scale in a larger sample of NDEs(−like) experiencers. Another limitation is that we did not collect objective medical information regarding the presence of a life-threatening event.
5 Conclusion
The Chinese version of the NDE-C scale has been translated and validated in the present study, and is now accessible for use in actual research. This tool can be used to screen people who have experienced an NDEs(−like) and to quantify their subjective experience, thereby leading to promoting the growth of NDEs-related research in China. The Chinese translation of the NDE-C scale can be a valuable instrument for further empirical research on NDEs(−like) with Asian cultural backgrounds. Further investigations will nevertheless be needed to study its psychometric properties. Further research should also be conducted to determine how difficult it is to adopt and propagate Mandarin in a country with various dialects and traditional characters.
Data availability statement
The original contributions presented in the study are included in the article/Supplementary material, further inquiries can be directed to the corresponding author.
Author contributions
The protocol for this study was conceived and designed by YL, CM, HC, HD, JY, XZ, OG, and SL. YL, JY, CN, and XZ all made important contributions to data collection. Data processing and interpretation were done by YL and MS. YL, YC, CM, HC, XZ, JY, CN, ML, and NH all contributed to the preparation of the manuscript, including drafting and revision. All authors had full access to all the data in the study and had final authority on whether or not to submit it for publication. All authors contributed to the article and approved the submitted version.
Funding
This work was supported by the Key Project of Zhejiang Provincial Natural Science Foundation of China (Z21H170001), National Key Research and Development Program of China (2022YFC3601200, 2022YFE0141300), National Natural Science Foundation of China (81920108023; 82201332), Zhejiang Provincial Natural Science Foundation of China (LQ22H090002), and the BIAL Foundation, the University and University Hospital of Liège, and the Belgian National Funds for Scientific Research (FRS-FNRS).
Conflict of interest
The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest.
Publisher’s note
All claims expressed in this article are solely those of the authors and do not necessarily represent those of their affiliated organizations, or those of the publisher, the editors and the reviewers. Any product that may be evaluated in this article, or claim that may be made by its manufacturer, is not guaranteed or endorsed by the publisher.
Supplementary material
The Supplementary material for this article can be found online at: https://www.frontiersin.org/articles/10.3389/fpsyt.2023.1201416/full#supplementary-material
Footnotes
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Keywords: Near-Death Experience, scale, near-death-like experience, consciousness, phenomenology
Citation: Li Y, Chen Y, Martial C, Shen M, Cassol H, Yu J, Zhou X, Ni C, Li M, Hu N, Gosseries O, Laureys S and Di H (2024) Chinese translation and validation of the Near-Death Experience Content scale. Front. Psychiatry. 14:1201416. doi: 10.3389/fpsyt.2023.1201416
Edited by:
Luanna Melo Pereira Fernandes, Federal University of Pará, BrazilReviewed by:
Ivete Caldas, Universidade do Estado do Pará, BrazilRui Costa, University Institute of Psychological, Social and Life Sciences (ISPA), Portugal
Copyright © 2024 Li, Chen, Martial, Shen, Cassol, Yu, Zhou, Ni, Li, Hu, Gosseries, Laureys and Di. This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) and the copyright owner(s) are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms.
*Correspondence: Haibo Di, haibodi@hznu.edu.cn
†These authors have contributed equally to this work and share first authorship