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Jason 2010: Classification of ME/CFS by types of fatigue

leelaplay

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Behav Med. 2010 Jan-Mar 1;36(1):24-31.

Classification of myalgic encephalomyelitis/chronic fatigue syndrome by types of fatigue.

Jason LA, Boulton A, Porter NS, Jessen T, Njoku MG, Friedberg F.

DePaul University.

Persons with myalgic encephalomyelitis/chronic fatigue syndrome (ME/CFS) often complain of fatigue states (eg, postexertional malaise, brain fog) that are qualitatively different than normal, daily fatigue. Given the heterogeneous nature of ME/CFS, it is likely that individuals with this illness experience these fatigue types differently in terms of severity and frequency. It is also possible that meaningful subgroups of patients exist that exhibit different patterns of the fatigue experience. The purpose of this study was to investigate whether individuals with ME/CFS can be classified in a meaningful way according to the different types of fatigue they experience. One hundred individuals with ME/CFS participated in the study. Individuals that met inclusion criteria were administered the Multiple Fatigue Types Questionnaire (MFTQ), a 5-factor instrument that distinguishes between different types of fatigue. A cluster analysis was used to classify patients into various clusters based on factor subscale scores. Using a 3-factor solution, individuals were classified according to illness severity (low, moderate, severe) across the different fatigue factors. However, a 5-cluster solution enabled participants with moderate to severe fatigue levels to fall into more differentiated clusters and demonstrate distinct fatigue state patterns. These results suggest that fatigue patterns of individuals with ME/CFS are heterogeneous, and that patients may be classified into meaningful subgroups.

PMID: 20185398 [PubMed - in process]

(rats - this is the first time I've tried to post research to the library first. Couldn't do it as couldn't find the full article anywhere)
 

CBS

Senior Member
Messages
1,522
Behav Med. 2010 Jan-Mar 1;36(1):24-31.

Classification of myalgic encephalomyelitis/chronic fatigue syndrome by types of fatigue.

Jason LA, Boulton A, Porter NS, Jessen T, Njoku MG, Friedberg F.

DePaul University.

Persons with myalgic encephalomyelitis/chronic fatigue syndrome (ME/CFS) often complain of fatigue states (eg, postexertional malaise, brain fog) that are qualitatively different than normal, daily fatigue. Given the heterogeneous nature of ME/CFS, it is likely that individuals with this illness experience these fatigue types differently in terms of severity and frequency. It is also possible that meaningful subgroups of patients exist that exhibit different patterns of the fatigue experience. The purpose of this study was to investigate whether individuals with ME/CFS can be classified in a meaningful way according to the different types of fatigue they experience. One hundred individuals with ME/CFS participated in the study. Individuals that met inclusion criteria were administered the Multiple Fatigue Types Questionnaire (MFTQ), a 5-factor instrument that distinguishes between different types of fatigue. A cluster analysis was used to classify patients into various clusters based on factor subscale scores. Using a 3-factor solution, individuals were classified according to illness severity (low, moderate, severe) across the different fatigue factors. However, a 5-cluster solution enabled participants with moderate to severe fatigue levels to fall into more differentiated clusters and demonstrate distinct fatigue state patterns. These results suggest that fatigue patterns of individuals with ME/CFS are heterogeneous, and that patients may be classified into meaningful subgroups.

PMID: 20185398 [PubMed - in process]

(rats - this is the first time I've tried to post research to the library first. Couldn't do it as couldn't find the full article anywhere)

IF,

I wanted to say thanks for another great reference. I can see it on my institution's site but nothing is available online post 1/1/2010. This may warrant a short drive up to get a hard copy. I'll keep you posted.
 

julius

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I was just looking for the questionnaire and found this paper. I haven't read through it yet but I'm pretty sure it's worth posting from reading the first paragraph,

Examining Types of Fatigue Among Individuals with ME/CFS Leonard A. Jason, DePaul University, Chicago
E-mail: Ljason@depaul.edu, Tricia Jessen, DePaul University, Chicago, Nicole Porter, DePaul University, Chicago, Aaron Boulton
DePaul University, Chicago, Mary Gloria-Njoku, DePaul University, Chicago, Fred Friedberg, Stony Brook University, New York

Abstract
Severe, persisting fatigue is a prominent symptom of Myalgic Encephalomyelitis/chronic fatigue syndrome (ME/CFS), but individuals with this illness frequently report the occurrence of unique fatigue states that might be different from conventional symptoms of fatigue. The present study attempted to assess a comprehensive set of fatigue symptoms that have been commonly reported among patients with ME/CFS. A 22-item fatigue questionnaire was developed and administered to 130 persons diagnosed with ME/CFS and 251 controls. Adequate scale reliability was found. Factor analyses revealed a five-factor structure for participants with ME/CFS but only a one-factor solution for the control group. The new scale was also contrasted with other more traditional scales developed to measure fatigue. Findings suggest that individuals with ME/CFS experience different types of fatigue than what are reported in the general populations.

Introduction
Myalgic Encephalomyelitis/chronic fatigue syndrome (ME/CFS) is a disabling condition characterized by severe unexplained fatigue and a mixed profile of symptoms such as sore throat, painful/swollen lymph nodes, muscle pain, joint pain, headaches, unrefreshing sleep, post-exertional malaise and cognitive difficulties (K. Fukuda et al., 1994). Understanding this condition continues to be problematic as a result of its heterogeneity (Jason, Corradi, Torres-Harding, Taylor, & King, 2005). One fundamental impediment to diagnostic, assessment, and treatment efficacy research is the definition of fatigue itself. Researchers have noted that the subjective experience of fatigue may differ between individuals as well as within individuals themselves (Gielissen et al., 2007; Smets, Garssen, Bonke, & De Haes, 1995). Individuals with ME/CFS frequently report the occurrence of several distinct fatigue states that might diverge from commonplace perceptions of the fatigue among the general population.

Fatigue has been measured using a single, finite symptom as well as in more multi dimensional approaches (Chalder et al., 1993). Early studies on fatigue measurement adhered to the former model (Brook et al., 1979; Krupp, LaRocca, Muir-Nash, & Steinberg, 1989; Montgomery, 1983; Pearson & Byars, 1956) whereas more recent studies have utilized the latter model (Gielissen et al., 2007; Ray, Weir, Phillips, & Cullen, 1992; Smets et al., 1995). Although for clinical and research purposes, a single measure of fatigue may be expedient, empirical evidence supports the measurement of fatigue in multi-dimensional ways (Dechene, Friedberg, McKenzie, & Fontanetta, 1994; Gielissen et al., 2007; Jason et al., 2002; Libman et al., 2008; Nisenbaum, Reyes, Mawle, & Reeves, 1998; Smets et al., 1995). A consensus model has yet to emerge, but there are some consistencies between existing typologies. For example, the distinction between "physical" fatigue and "mental" fatigue is one with general acceptance among researchers as reflected in existing fatigue instruments (Chalder et al., 1993; Ray et al., 1992; Smets et al., 1995) and ME/CFS typologies (Jason et al., 2002).

These typologies of fatigue in ME/CFS have not always been able to discriminate the variety of types of fatigue experienced. The distinction between the experience of fatigue for persons with and without this condition is important for several reasons. First, understanding fatigue states unique to ME/CFS would be helpful for diagnosticians that lack biological testing and must rely on patient self-report. Second, incorporating measures of fatigue types could clarify patient profiles, and researchers have already begun working towards empirical methods of diagnosis (Jason, Corradi, & Torres-Harding, 2007). Third, examining the properties of each fatigue aspect may aid clinicians in creating individualized treatment options. Finally, types of fatigue unique to persons with ME/CFS could provide a language that patients could use to communicate with family, friends, and health-care providers about their condition; a language that the patient community feels is lacking (Wall, 2000).

The Fatigue Scale (Chalder et al., 1993) is one of the most widely used measures assessing fatigue in research with ME/CFS. Recently, Goudsmit, Stouten, and Howes (in press) found patients with ME/CFS recorded comparatively high scores on the Fatigue Scale. In addition, they found that there was a marked overlap in fatigue scores between those patients who rated themselves as moderately or severely ill. The authors concluded that the Fatigue Scale is not sensitive enough to reflect changes in functioning, as those with a maximum score at baseline will not be able to record an increase in fatigue following an intervention. In addition, the Fatigue Scale has not demonstrated efficacy in discriminating between different individuals with ME/CFS and those with primary depression (Friedberg & Jason, 1998). Stouten (2005) has also indicated that many frequently used fatigue scales do not accurately measure the severe fatigue that is characteristic of ME/CFS. Several recent investigations have compiled data that suggests a different fatigue structure for individuals with ME/CFS as compared to normal populations. Gielissen and colleagues (2007) developed the Fatigue Quality List (FQL), which is an 18-item adjective checklist that measures the affective experience of fatigue. Using factor analysis, these 18 adjectives resulted in four factors. Interestingly, one of the factors identified was 'pleasant', which was found to have higher scores for healthy populations as opposed to clinical populations. Additionally, higher scores were found in the ME/CFS group on the other three factors (i.e., Exhausting, Frustrating, and Frightening). This study did not assess the actual experience or symptoms of fatigue, but rather the affective responses associated with fatigue.

In another study, Libman et al. (2008) asked a group of healthy participants and a group of participants diagnosed with ME/CFS to make a list of adjectives to describe their fatigue. The resulting lists were separated into 18 different categories, and it was found that the participants with ME/CFS were present in more categories and used more descriptors for each category. Also, the healthy group used more positive adjectives describing their fatigue, such as "temporary," "comfortable," and "sleepy." This study employed non-parametric methods, so they were not able to provide a factor analysis to uncover the underlying dimensions within these constructs. Finally, Fukuda et al. (2008) developed a new fatigue scale that assessed the factors of Fatigue, Anxiety/Depression, Cognitive, Pain, Overwork, Autonomic, Sleep, and Infection. However, only Anxiety/Depression, Pain, and Infection were able to discriminate CFS-fatigue patients from non-CFS-fatigue patients. This questionnaire, however, is somewhat long at 64 items, and 11 items involve anxiety or depression constructs which are not physical items and might represent different dimensions than fatigue.

The present study assessed the symptoms of fatigue using factor analysis among patients with ME/CFS versus control individuals. We developed the ME/CFS Fatigue Types Questionnaire (MFTQ), a 22-item scale designed to measure the duration, severity and frequency of different fatigue-related sensations and symptoms. Item generation was guided by existing typologies Specifically, we generated fatigue items that encompassed the following dimensions: lack of energy resources needed for daily functioning; over stimulation of the mind or body without the available energy to act out the mental or physiological excited state; exhaustion or interruption related to everyday cognitive processes; tiredness that is associated with physical symptoms commonly seen in cases of influenza; and abnormal exhaustion following physical activity. We hypothesized there would be several fatigue factors in the individuals with ME/CFS but that this differentiation would not occur with our control group. Validity analyses were also conducted by comparing the factor scores of the new instrument with more traditional measures of fatigue.

Method
Participants & Procedure
The present study was approved by a local university Institutional Review Board (IRB). A total of 381 participants were enrolled in the study. The ME/CFS group comprised of 130 participants who indicated that they had been diagnosed with ME/CFS. These participants were initially contacted and recruited through several chronic fatigue support groups, conferences, and newsletters. Participants in this group had the choice of completing a paper and pencil test battery or completing the questionnaires online.

The control group consisted of a hundred and ninty-nine (199) participants enrolled at a large Midwestern university. These students were contacted through their introductory psychology course research participation, and they completed the test battery in person. The other 52 participants in the control group were recruited via convenience sampling. All participants read the study information and instructions, and consented to the study before completing the questionnaires.

Measures
ME/CFS Fatigue Types Questionnaire.
The ME/CFS Fatigue Types Questionnaire (MFTQ) was created for the present study. Initially, 22 items were generated that address various aspects of fatigue frequently described by patients with ME/CFS. Item generation was guided by existing typologies (Dechene et al., 1994; Jason et al., 2002; Nisenbaum et al., 1998; Smets et al., 1995) and reports of individuals with ME/CFS. Items were written for the following five hypothesized dimensions: Post-Exertional, Wired, Brain Fog, Energy, and Flu-Like fatigue. Post-Exertional fatigue was defined as abnormal exhaustion following a bout of physical activity (e.g., "Physically drained after mild activity").Wired fatigue was considered an over stimulation of the mind or body without the available energy to act out the mental or physiological excited state (e.g., "Body feels over-stimulated when very tired"). Brain Fog fatigue constituted the exhaustion or interruption related to everyday cognitive processes, such as memory recall, speech, or information processing (e.g., "Thinking is hard work and muddy"). Energy fatigue was defined as a lack of energy resources needed for daily functioning (e.g., "Do not have energy to do anything"). Finally, Flu-Like fatigue was the tiredness that is associated with physical symptoms commonly seen in cases of influenza (e.g. "Flu-like symptoms, such as sinus pain, etc.").

Respondents were asked to provide details that described the onset, frequency, and severity of each statement as it relates to the participants' experience. The onset was identified by month/season and year, the frequency of each fatigue symptom was determined by a 5-point Likert-scale format (i.e. Never, Seldom, Often, Usually, Always), and severity was rated on a symptom rating scale from 1 to 100 with a higher score indicating that the symptom is more of a problem for the participant. A composite score for each item was then calculated by multiplying the symptom rating score by the frequency score. In addition to these measures, an open-ended response item was included for feedback on the terms (fatigue factors) generated in this study.

Fatigue Severity Scale.
The Fatigue Severity Scale (FSS) has 9 Likert-scale items that are designed to assess fatigue severity and functionality for various clinical populations (Krupp et al., 1989). Items are rated on a scale of 1 to 7 according to their level of agreement with a given statement, and include such statements as "I am easily fatigued" or "fatigue interferes with carrying out certain duties and responsibilities." Values for each item are averaged for a composite score, with higher scores indicating higher levels of impairment as a result of fatigue. In the original scale development study, Krupp et al. (1989) demonstrated that the FSS had sufficient internal consistency (Cronbach's alpha was between 0.81 and 0.89 for the study groups), test-retest reliability, and concurrent validity.

The Fatigue Scale.
The Fatigue Scale (FS), developed by Chalder and colleagues (1993), is an 11 item scale intended to measure the severity of fatigue-related symptoms experienced by individuals with ME/CFS. Responses to items are measured using a Likert-style format with four possible response choices related to symptom frequency (0=less than usual, 1=no more than usual, 2=worse than usual, 3=much worse than usual). The scores are then summed and a higher score indicates more severe fatigue-related symptomology. The first eight items of the scale represent a "Physical fatigue" factor and includes items such as "Do you have problems with tiredness?" or "Do you lack energy?" The remaining items constitute a "Mental fatigue" factor with questions such as "Do you have difficulty concentrating?" or "Do you make slips of the tongue when speaking?." The scale demonstrated sufficient internal consistency with alpha coefficients of .85 and .82 for the physical and mental subscales, respectively (Chalder et al., 1993).

Profile of Fatigue-Related Symptoms.
Ray, Weir, Phillips, and Cullen (1992) created the 54-item Profile of Fatigue-Related Symptoms (PFRS) in order to measure symptomology specifically related to ME/CFS. Each item lists a symptom typical of ME/CFS and respondents are asked to indicate how intensely they have experienced that symptom over the past week. Responses are given in a seven point Likert-scale format ranging from 0 (not at all) through 3 (moderately) to 6 (extremely). Average item scores are then computed for four separate factors: Emotional Distress, Fatigue, Cognitive Difficulty, and Somatic symptoms. Scale reliability was assessed for each factor, with alpha coefficients ranging from 0.88 to 0.96.

Results
Sample Characteristics
Socio-demographic information can be found in Table 1 for the two samples. Chi-square analyses and one independent t-test (age) found significant differences between the ME/CFS and control samples for all variables, including: age, gender, race, Hispanic origin, marital status, educational attainment, and work status.

Factor Analysis
A factor analysis was conducted separately for each group. A factor analysis is a data reduction technique that groups information from similar variables (i.e. test questions) together to form a new latent or unobservable variable. That is, a factor analysis determines what factors are being measured by a specific questionnaire, which in our case are different types of fatigue. This is accomplished by examining the response patterns of participants on the questionnaire items. Items that supposedly measure the same construct will be scored by the participant in a similar manner, and items that supposedly measure different factors will have unrelated response patterns (see Table 2 for an example of items that are related as well as non-related).

The maximum likelihood method was used to extract each component. The maximum likelihood method is the best choice when the data are relatively normally distributed, as the data are in the present study (Costello & Osborne, 2005). The resulting solution was rotated using a Varimax rotation, which minimizes the number of variables that have high loadings on a factor to enhance the interpretability of the factors. Before rotation, the solution was created using factors that met the Kaiser criteria for inclusion (Kaiser, 1960).

The resulting rotated factor matrix for the ME/CFS group can be found in Table 2. The rotated solution consisted of 5 interpretable factors that confirmed a priori hypotheses. The solution accounted for 63.1% of the observed scale variance: Post-Exertional explained 20.3% of the variance; Wired explained 11.7% of the variance; Brain Fog explained 10.9% of the variance; Energy explained 6.4% of the variance; and Flu-Like fatigue explained 13.8% of the variance). The criterion for factor loading was set at a factor-item correlation of .4, with one exception, an item with a correlation of .36 was considered to load onto a factor for theoretical reasons. In the case of redundant factor loading, an item was loaded according to the higher of the two (or more) loadings.

Using the same factor analysis and procedural criteria for the control group, a single factor emerged, and the item loadings for this factor can be found in Table 3, accounting for 39.6% of the variance. All 22 items loaded onto one factor that was labeled Global Fatigue, which indicates a ubiquitous feeling of drowsiness or tiredness.

Internal consistency for the MFTQ was examined using Cronbach's alpha (Cronbach, 1951). The alpha coefficients for Post-Exertional, Wired, Brain Fog, Energy, and Flu-Like fatigue were .89, .83, .85, .76, and .84, respectively. For the control group, the Cronbach's alpha was .92. These values demonstrate high internal consistency for the MFTQ on both samples.

Mean Comparisons
Analysis of Variance (ANOVA) was conducted for each MFTQ subscale score as well as the overall summary score, using group membership as the independent variable. All six variables found in Table 1 were entered as covariates in order to control for demographic differences between groups. The "marital status" and "race" variables were recoded into binary variables in order to enter them into the model (i.e. married vs. not-married, white vs. minority). Findings in Table 4 indicate that the two groups differed at the p < .05 level for all dependent variables.

Validity
In order to evaluate scale validity, Pearson correlation coefficients were calculated for subscale scores from the MFTQ and factor/composite scores from the FSS (Krupp et al., 1989), the FS (Chalder et al., 1993), and the PFRS (Ray et al., 1992). All correlations are presented in Table 5. Additional analyses were conducted to determine whether there were significant differences between correlation coefficients for the ME/CFS group and control group for each relationship. These tests were conducted using Fisher's z and the results are also in Table 5.

For the ME/CFS group, 36 of the 42 (86%) coefficients were significant at the p < .05 level. Coefficients ranged from .05 to .70. For the control group, all correlation coefficients were found to be significant at the p <.05 level. These coefficients ranged between .22 and .61. Significant differences between group correlation coefficients (ME/CFS vs. Control) were found for 11 of the 42 (26%) factor pairs.

Significant differences between group coefficients were found for the ME/CFS Fatigue Types Questionnaire (MFTQ) and the Profile of Fatigue-Related Symptoms (PFRS) for following subscale pairs:

MFTQ Post-Exertional/PFRS Emotional Distress (Z = 2.36 , p < .05);
MFTQ Post-Exertional/PFRS Fatigue (Z = 2.82, p < .05)
MFTQ Brain Fog/PFRS Somatic Symptoms (Z = 1.77, p < .05);
MFTQ Brain Fog/PFRS Fatigue (Z = 2.34, p < .05);
MFTQ Energy/PFRS Emotional Distress (Z = 2.16, p < .05);
MFTQ Energy/PFRS Fatigue (Z = 2.63 , p < .05);
MFTQ Total/PFRS Emotional Distress (Z = 1.92, p < .05); and
MFTQ Total/PFRS Fatigue (Z = 1.92, p < .05).
For the Fatigue Scale (FS), only the MFTQ Flu-Like/FS Physical (Z = 1.86, p < .05) was significant. Finally, for the Fatigue Severity Scale (FSS), two significant group differences were found for the MFTQ Post-Exertional/FSS (Z = 2.22, p < .05) and MFTQ Energy/FSS (Z = 1.83, p < .05).

Response to Fatigue Terminology
In addition to the theoretical contributions of this study, we were also interested in providing persons with ME/CFS a set of terms to aide when describing their conditions. Consequently, comments provided in the open-ended response question were analyzed by the authors to gauge respondents' reaction to the terms. Reponses were grouped by consensus into one of three categories: positive (e.g., "I like your new terms simple, eloquent, enlightening and useful"), negative (e.g., "Don't give it some cutesy name"), or neutral/general comments (e.g., "I would like other people to understand how our fatigue doesn't go away over the weekend or overnight by going to sleep"). Overall, the terms were well received by the ME/CFS sample, as 55% of the respondents provided positive feedback, 39% made general comments, and only 6% viewed the terms as negative. One common theme found in most comments was a frustration in communicating or articulating one's fatigue experience to others who do not have the illness.

Discussion
Overall, the MFTQ appears to be a reliable and valid measure of fatigue types in individuals with ME/CFS. The five-factor structure confirmed in the ME/CFS sample suggests that the symptom of fatigue in this illness is a multi-dimensional entity that is distinct from the generalized form of fatigue experienced by general population. These factors explained an adequate amount of the variance. In contrast, among the control group, only one factor emerged, and it explained considerably less variance. It appears that the items, designed for individuals with ME/CFS, did not account for a large percent of the variance among the controls. Therefore, among members of the general population, this new fatigue scale does not measure what most individuals perceive as fatigue. However, the findings suggest that the MFTQ does differentiate fatigue symptoms for those who have ME/CFS.

Because of the subjectivity of fatigue, there has been inconsistency in the language used to describe this construct. Several researchers and professionals agree that the lack of a common vocabulary may result in clinicians' doubts concerning their prescribed treatment and unsatisfactory care for the patient (Gielissen et al., 2007; Shapiro, 1998). The problem does not appear to be a lack of fatigue descriptors (Libman et al., 2008), but rather a considerable amount of definitional overlap for different fatigue terms (Shapiro et al., 2002).

This study therefore attempted to draw conceptual distinctions between fatigue synonyms and make this information accessible for clinicians to use in practice. It is equally important that the language used is also disease-specific for conditions in which fatigue is a primary symptom. In the present study, we attempted to use terms already employed by individuals with ME/CFS to label the hypothesized fatigue types (e.g. "brain fog"). Comments among members of ME/CFS group indicated the terms were generally favorable. Controlling for the socio-demographic variables, the ME/CFS group had significantly worse factor scores than the control group. These findings suggest that the MFTQ differentiates between individuals with ME/CFS versus those from the general population. It should be noted that the two samples differed on several demographic variables that were controlled for in the analyses. Still, it could be argued that some of the differences between the two groups were due to socio-demographic differences. While it is true that we might have been able to recruit a comparison group of similar age, gender and ethnicity, there still would have been significant employment differences, given the health status of the ME/CFS group. In a sense, whenever a comparison is made between ME/CFS participants and a control group, there will be important differences between these groups that will be difficult to control.

As illustrated within Table 5, several of the more interesting significant differences between the ME/CFS versus control groups involved when one correlation was significant and the other was not significant. For example, there was a significantly higher correlation between the MFTQ Post-Exertional and PFRS Emotional Distress factors (r = .36) for the control group when compared to the ME/CFS group (r = .09), with the former correlation being significant and the latter not being significant. The MFTQ Post-Exertional factor, which measures unusual, persisting fatigue or malaise resulting from some type of effort, is distinct for ME/CFS patients from the Emotional Distress factor of the PFRS, which measures mood states such as depression, anxiety, and anger (Ray et al., 1992).

When people with ME/CFS report symptoms of post-exertional malaise, those symptoms are independent of emotional distress, but when the general population report what they think are post-exertional malaise symptoms, their symptoms of post-exertional malaise are significantly related to emotional distress. It is possible that because healthy individuals experience a relationship between emotional distress and post-exertional malaise, they might believe that these two domains are connected for themselves and by inference with patients with ME/CFS, when in fact it is not the case. This ultimately might blur the ability of healthy controls to understand the experience of post-extertional malaise for people with ME/CFS. Of interest, a similar pattern occurred with the MFTQ factor Energy and PFRS Emotional distress, with a significant difference in the correlations between the ME/CFS group and the controls. Again, it is possible that the general population experiences a relationship between emotional distress and energy problems, they might believe that patients with ME/CFS not only have this same connection, but it might also be perceived by some as causal. In fact, the lack of a relationship between energy problems and emotional distress suggests that these two domains are not related among patients with ME/CFS. This observation is further supported by the finding that the Total MFTQ score among the control group is more highly related to emotional distress than among patients with ME/CFS.

Surprisingly, the Energy factor of the MFTQ, which logically should be related to the PFRS Fatigue factor (physical fatigue can also be thought of as having depleted energy reserves), did not show a significant correlation for the ME/CFS group (r = .05), yet a significantly stronger relationship was found for the control group (r = .35). This might seem like a contradiction to our main hypothesis that persons with ME/CFS are able to distinguish types of fatigue while control individuals cannot. However, a closer examination of the PFRS Fatigue factor items suggests that many different fatigue states are subsumed in this subscale and may have skewed the coefficients. For example, items such as "The slightest exercise making you physically tired" and "muscles feeling weak after slight exercise" denotes post-exertional fatigue that relates to the unusual fatigue or malaise resulting from exertion. Yet other items within the subscale are more closely related to the Energy factor of the MFTQ, such as "Feeling physically drained" and "Not having the physical energy to do anything", indicating a clear depletion of energy reserves that is unrelated to exercise or effort. Consequently, this suggests that the MFTQ may delineate finer shades of meaning when the word fatigue is used in the context of physical fatigue; shades of meaning that are more accessible to those who have ME/CFS. A similar inconsistent pattern emerged when correlating the MFTQ Brain Fog factor and the PFRS Fatigue factor. The correlation for the ME/CFS group (r = .15) was significantly lower than the control (r = .41). Similar reasons might have occurred for both the constructs of Energy and Brain Fog, as measured by the MFTQ, and the PFRS Fatigue factor.
 

julius

Watchoo lookin' at?
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785
Location
Canada
(couldn't fit the whole thing in one post...here's the end)


The FSS, a measure of the impact fatigue has on one's functional ability, demonstrated stronger relationships for the MFTQ Post-Exertional factor for the ME/CFS group (r = .46) than the control group (r = .25). The FSS also had a stronger relationship with the MFTQ Energy for the ME/CFS group (r = .40) as opposed to the control group (r = .22). Logically, lower energy levels and more impairment following exertion should exhibit a strong relationship with a measure of functionality. Once again, when compared to controls, the ME/CFS group demonstrated relationships more consistent with the theoretical underpinnings of each scale subfactor. There were several limitations in the present study. Differences in socio-demographic variables among the samples, and low variance explained by the items for the control group have already been mentioned. In addition, the sample sizes for the two groups were unequal, and somewhat small for the ME/CFS group. However, some researchers posit that a minimum of 100 participants (Guadagnoli & Velicer, 1988) or a subject to variable (i.e. item) ratio of 5 or greater is sufficient for factor analysis, and both of these criteria were satisfied in the present study (Bryant & Yarnold, 1995). It could also be argued that because the university sample yielded only 1 factor, the responses in that sample might not support calculating 5 separate factor scores. However, we thought it useful to compare the ME/CFS group with the control group on these factor scores, as they help differentiate important domains of the fatigue experience for people with ME/CFS versus those who are among the general population, and provide estimates of construct validity. Finally, most of the correlations in Table 5 were quite modest suggesting that there is considerable measurement error in all of the scales used.

We chose an exploratory factor analysis rather than a confirmatory factor analysis as we did not feel that there were enough prior studies or theory development to be confident in our predicted factor structure. We were pleased to find out that many of our items loaded on our predicted factors, and subsequently recognized that readers might wonder why we had not used a confirmatory factor analysis from the start. However, a decision on what statistic was to be employed was made prior to data analysis, and we felt it inappropriate to use a confirmatory factor analysis following our use of the exploratory factor analysis.

The symptom of fatigue continues to be problematic for researchers and clinicians and remains a fruitful area for further investigation. The push for an empirical case definition of ME/CFS (Jason et al., 2007) underscores the need for the measurement of fatigue in clinical settings as well as research laboratories. Many fatigue instruments now exist that could serve this purpose though the refinement of these measures and development of new diagnostic materials is needed. As suggested by this study, the disabling fatigue experienced by individuals with ME/CFS differs from that associated with other illnesses or everyday activity, and thus steps must be taken to clarify the diverse nature of fatigue among patients with ME/CFS. Such clarification would not only provide improvement in diagnosis and illness management, but also serve to mitigate the stigma associated with ME/CFS as evidence would exist of a fatigue experience different from those related to over-exertion or depression. Although our study focused on practical diagnostic and descriptive issues related to this illness, it is important for scientists to accurately and unequivocally communicate the experience of this illness in order to fully inform the perceptions of doctors, patients, and outside observers.

http://www.dsq-sds.org/article/view/938/1113
 

leelaplay

member
Messages
1,576
IF, I wanted to say thanks for another great reference. I can see it on my institution's site but nothing is available online post 1/1/2010. This may warrant a short drive up to get a hard copy. I'll keep you posted.

That'd be great CBS!

julius said:
The symptom of fatigue continues to be problematic for researchers and clinicians and remains a fruitful area for further investigation. The push for an empirical case definition of ME/CFS (Jason et al., 2007) underscores the need for the measurement of fatigue in clinical settings as well as research laboratories. Many fatigue instruments now exist that could serve this purpose though the refinement of these measures and development of new diagnostic materials is needed. As suggested by this study

the disabling fatigue experienced by individuals with ME/CFS differs from that associated with other illnesses or everyday activity, and thus steps must be taken to clarify the diverse nature of fatigue among patients with ME/CFS.

Such clarification would not only provide improvement in diagnosis and illness management,

but also serve to mitigate the stigma associated with ME/CFS as evidence would exist of a fatigue experience different from those related to over-exertion or depression.

Although our study focused on practical diagnostic and descriptive issues related to this illness, it is important for scientists to accurately and unequivocally communicate the experience of this illness in order to fully inform the perceptions of doctors, patients, and outside observers.

http://www.dsq-sds.org/article/view/938/1113

And thanks Julius! Jason does such amazing research. The bolds and spacing above are mine.
(This study is in Disability Studies Quarterly, Vol 29, No 3 (2009))
 
G

Gerwyn

Guest
Behav Med. 2010 Jan-Mar 1;36(1):24-31.

Classification of myalgic encephalomyelitis/chronic fatigue syndrome by types of fatigue.

Jason LA, Boulton A, Porter NS, Jessen T, Njoku MG, Friedberg F.

DePaul Univer

Persons with myalgic encephalomyelitis/chronic fatigue syndrome (ME/CFS) often complain of fatigue states (eg, postexertional malaise, brain fog) that are qualitatively different than normal, daily fatigue. Given the heterogeneous nature of ME/CFS, it is likely that individuals with this illness experience these fatigue types differently in terms of severity and frequency. It is also possible that meaningful subgroups of patients exist that exhibit different patterns of the fatigue experience. The purpose of this study was to investigate whether individuals with ME/CFS can be classified in a meaningful way according to the different types of fatigue they experience. One hundred individuals with ME/CFS participated in the study. Individuals that met inclusion criteria were administered the Multiple Fatigue Types Questionnaire (MFTQ), a 5-factor instrument that distinguishes between different types of fatigue. A cluster analysis was used to classify patients into various clusters based on factor subscale scores. Using a 3-factor solution, individuals were classified according to illness severity (low, moderate, severe) across the different fatigue factors. However, a 5-cluster solution enabled participants with moderate to severe fatigue levels to fall into more differentiated clusters and demonstrate distinct fatigue state patterns. These results suggest that fatigue patterns of individuals with ME/CFS are heterogeneous, and that patients may be classified into meaningful subgroups.

PMID: 20185398 [PubMed - in process]

(rats - this is the first time I've tried to post research to the library first. Couldn't do it as couldn't find the full article anywhere)

I like the ME/cfs emphasis
 

kurt

Senior Member
Messages
1,186
Location
USA
So many ways to classify fatigue! It really is not that complex.

So, I have been working on alternate acronyms for CFS that center on the word fatigue and just came up with this one, very simple and to the point:

Systemic Unrelenting Fatigue Unrelieved by Rest (SUFUR)

That seems like a simple way to describe CFS fatigue ....
 

Angela Kennedy

Senior Member
Messages
1,026
Location
Essex, UK
So many ways to classify fatigue! It really is not that complex.

So, I have been working on alternate acronyms for CFS that center on the word fatigue and just came up with this one, very simple and to the point:

Systemic Unrelenting Fatigue Unrelieved by Rest (SUFUR)

That seems like a simple way to describe CFS fatigue ....

I agree Kurt. Especially as what is often classified as 'fatigue' by doctors may be something else: drowsiness, altered state of consciousness, muscle weakness, and would not even be described as 'fatigue' by the patient, but by the doctor. This is what happened to certain patients I know, for example. But 'fatigue' - sheesh!
 

Anika

Senior Member
Messages
148
Location
U.S.
Especially as what is often classified as 'fatigue' by doctors may be something else: drowsiness, altered state of consciousness, muscle weakness, and would not even be described as 'fatigue' by the patient, but by the doctor. This is what happened to certain patients I know, for example. But 'fatigue' - sheesh!

Fatigue wasn't a word I used - but whether you say exhaustion, poor stamina, tired, worn out, etc. etc., most doctors will write fatigue and the word catches.

Fatigue is about as meaningful a term as the word "snow" would be to the Inuit.
 
G

Gerwyn

Guest
So many ways to classify fatigue! It really is not that complex.

So, I have been working on alternate acronyms for CFS that center on the word fatigue and just came up with this one, very simple and to the point:

Systemic Unrelenting Fatigue Unrelieved by Rest (SUFUR)

That seems like a simple way to describe CFS fatigue ....

made worse by physical and or mental effort post exhertional malaise
 

creekfeet

Sockfeet
Messages
553
Location
Eastern High Sierra
It seems to me there are so many different sorts of exhaustion within my own case along. Sometimes I have pain with the exhaustion, sometimes not. Sometimes less pain, sometimes more. Sometimes I don't so much feel tired, but I have extreme muscle aches and can't lift anything or walk. Sometimes my brain is fogged but I can wash the dishes. At other times I feel heaviness throughout my body but my mind is racing. Sometimes all systems shut down.

Thinking that I could classify 5 clusters or more quickly within my own personal experience of the illness, I'd love to see the data tables and see if others experience similar ranges of symptoms.
 

leelaplay

member
Messages
1,576
It seems to me there are so many different sorts of exhaustion within my own case along. Sometimes I have pain with the exhaustion, sometimes not. Sometimes less pain, sometimes more. Sometimes I don't so much feel tired, but I have extreme muscle aches and can't lift anything or walk. Sometimes my brain is fogged but I can wash the dishes. At other times I feel heaviness throughout my body but my mind is racing. Sometimes all systems shut down.

Thinking that I could classify 5 clusters or more quickly within my own personal experience of the illness, I'd love to see the data tables and see if others experience similar ranges of symptoms.

So well described creekfoot. Me too. Plus if I were thinking clearer right now, might even be able to come up with a few more categories.
 

Chris

Senior Member
Messages
845
Location
Victoria, BC
Fatigue states

First, many thanks to Islandfinn and Julius and others for getting this stuff to us! Good for Jason, again!

My typical forms of "fatigue" are (1) a growing feeling of limb weariness and heaviness while walking, a sign that I am getting into trouble and had better get home as efficiently (not necessarily quickly) as possible, and (2) feeling tired and a bit light headed when I do get home, and then becoming aware of a growing unease, a kind of "wired but tired" feeling; if I check my blood pressure, I find it is rising, particularly the systolic, and in about 40 mins or an hour may get very high; with that comes chest pain, sometimes localized on the left, sometimes following the lower line of my ribs right across, tinnitus, and a general feeling as of a rising tide of inflammation (costochondritis? exercise reactivating a CMV infection? general activation of inflammatory processes?). If this really takes off, I am in for a very uncomfortable 8 hours or so, with BP possibly as high as 195/100; taking some BP meds helps some, as does meditative slow breathing, and a bit of aspirin, but I have found no way to really short circuit the process once well started. I then sleep very little the following night, and have a poor next day or two.

Does this kind of process sound familiar to anyone else? It does not seem to be described by Jason in his categories. Best wishes, Chris
 

oerganix

Senior Member
Messages
611
First, many thanks to Islandfinn and Julius and others for getting this stuff to us! Good for Jason, again!

My typical forms of "fatigue" are (1) a growing feeling of limb weariness and heaviness while walking, a sign that I am getting into trouble and had better get home as efficiently (not necessarily quickly) as possible, and (2) feeling tired and a bit light headed when I do get home, and then becoming aware of a growing unease, a kind of "wired but tired" feeling; if I check my blood pressure, I find it is rising, particularly the systolic, and in about 40 mins or an hour may get very high; with that comes chest pain, sometimes localized on the left, sometimes following the lower line of my ribs right across, tinnitus, and a general feeling as of a rising tide of inflammation (costochondritis? exercise reactivating a CMV infection? general activation of inflammatory processes?). If this really takes off, I am in for a very uncomfortable 8 hours or so, with BP possibly as high as 195/100; taking some BP meds helps some, as does meditative slow breathing, and a bit of aspirin, but I have found no way to really short circuit the process once well started. I then sleep very little the following night, and have a poor next day or two.

Does this kind of process sound familiar to anyone else? It does not seem to be described by Jason in his categories. Best wishes, Chris

Yes, it is very familiar to me. Especially : "...while walking, a sign that I am getting into trouble and had better get home as efficiently (not necessarily quickly) as possible,..." Yeah, my feet begin to feel like lead and I don't lift my knees as high as I think I'm doing, so I stub my toes and/or stumble.

My wonderfully supportive guy cannot grasp this. When I am fading and we are out, he always tries to find the quickest way to get a taxi home. But that way lies through crowded, noisy, air-polluted streets when I am needing less stimulation. So I want to get away from the stimulation,( that to me is "efficient"), while he is trying for speed. My method actually is just as fast, but less taxing, so I have taken to just walking off in my own direction, since I have explained it before, and then he usually remembers what I've tried to "teach" him about my reality vs his. The noise, pollution and movement begin to make me dizzy, I start shuffling and stumbling as if I'm drunk and by the time I get home I feel like crying and sometimes do.

And, right, once the process gets started, it takes its own path. I simply have to get prone, sleep if possible and wait for a better day. LDN has helped shorten my recovery period and helped my mental state while exhausted and dizzy. Last time this happened, I was able to tell my guy No, this is what I need, remember? Usually, I go mute, can't explain or insist on what I know is right. I still get just as exhausted but my response to it is better with LDN.