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Tests for central sensitization in general practice: a Delphi study

BMC Family Practice volumeĀ 22, ArticleĀ number:Ā 206 (2021) Cite this article

Abstract

Introduction

Central sensitization (CS) may explain theĀ persistence of symptoms in patients with chronic pain and persistent physical symptoms (PPS). There is a need for assessing CS in the consultation room. In a recently published systematic review, we made an inventory of tests for CS. In this study we aimed to assess which tests might have added value, might be feasible and thus be suitable for use in general practice.

Methods

We conducted a Delphi study consisting of two e-mail rounds to reach consensus among experts in chronic pain and PPS. We invited 40 national and international experts on chronic pain and PPS, 27 agreed to participate. We selected 12 tests from our systematic review and additional searches; panellists added three more tests in the first round. We asked the panellists, both clinicians and researchers, to rate these 15 tests on technical feasibility for use in general practice, added value and to provide an overall judgement for suitability in general practice.

Results

In two rounds the panellists reached consensus on 14 of the 15 tests: three were included, eleven excluded. Included were the Central Sensitization Inventory (CSI), pressure pain thresholds (PPTs) and monofilaments. No consensus was reached on the Sensory Hypersensitivity Scale.

Conclusion

In a Delphi study among an international panel of experts, three tests for measuring CS were considered to be suitable for use in general practice: the Central Sensitization Inventory (CSI), pressure pain thresholds (PPTs) and monofilaments.

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Introduction

Central sensitization (CS) may explain the persistence of symptoms in the absence of specific somatic or psychiatric disease, which are very prevalent in healthcare [1,2,3].

The International Association for the Study of Pain (IASP) defined CS in 2011 as: ā€œan increased responsiveness of nociceptive neurons in the central nervous system to their normal or sub-threshold afferent inputā€ [4]. CS has been studied in relation to chronic pain and persistent physical symptoms (PPS). PPS is replacing the frequently used term medically unexplained (physical) symptoms, covering a large number of symptoms for which no explanation is found [1, 5,6,7]. We explained aspects of CS in TableĀ 1.

Table 1 Explanation of aspects of CS
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For patients with chronic pain and PPS, the explanation of the mechanism of CS might lead to a better understanding of how symptoms persist [16, 17]. They often struggle to accept that there is no conclusive medical explanation for their symptoms and feel misunderstood in their search for a medical diagnosis [18]. Diagnostic procedures often take a long time and may involve many different medical specialists. This can cause delays in an appropriate treatment of the symptoms, contributing to a deterioration of the symptoms [19]. Addressing perpetuating factors, like unhelpful cognitions, emotions, behaviour and social factors, are the most important goal in the treatment of chronic pain and PPS [20, 21]. The longer these perpetuating factors exist, the more difficult they are to change due to loss of physical fitness, work and social contacts [22]. Finally, doctors often feel frustrated, costs for medical care, as well as the societal costs for sickness leave, can be high [23].

But how do the doctor and the patient know that CS is an appropriate explanation for the persistence of the symptoms? After all, there is no gold standard for CS. We collected information in our systematic review on available tests for measuring CS [1, 13]. These tests include various forms of quantitative sensory testing (QST) and two combined QST tests to measure conditioned pain modulation (CPM) [13,14,15, 24]. QST tests are performed with various stimuli: mechanical stimuli, cold, heat, electricity, ischemia and vibrations [10, 11, 25].

Furthermore, in CS dysregulation of the immune system and an increase of neurotrophins play a role [1]. Cytokines as interleukins and TNF-alpha, and neurotrophins as brain derived neurotrophic factor (BDNF) can be measured in blood samples [26,27,28,29,30]. Structural and/or functional changes in the brain in CS can be demonstrated with (functional) magnetic resonance imaging ((f)MRI), PET, and somatosensory evoked potentials (SEP) [31,32,33]. Finally, questionnaires like the Central Sensitisation Inventory (CSI) and Sensory Hypersensitivity Scale (SHS) have been used to detect and measure CS-related symptoms.

Until now these tests have mostly been used by medical specialists and physiotherapists and rarely in general practice, so we aimed to assess which tests might have added value and might be feasible and suitable for use in general practice.

To reach consensus on which tests for CS from our systematic review could be feasible and have added value in general practice, we conducted a Delphi study among various experts [34].

Methods

We provided a flowchart of the Delphi study in Fig.Ā 1.

Fig. 1
figure 1

flowchart Delphi study

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Recruitment of participants for the Delphi panel

We compiled a list of potential participants consisting of GPs and other (medical) specialists (e.g. neurologists) with expertise in the domain of chronic pain and/or PPS treatment and research, from the Netherlands as well as from other countries. The authors discussed potential participants based on their professional networks and on a list of authors of CS-related studies. We invited them by email to participate in the Delphi study, offering a modest reward, a credit voucher of 20 euro.

Selection of tests

We made a list of the tests we retrieved from the literature for our systematic review (TableĀ 2) [1]. These tests comprised mostly physical examination tests but also questionnaires.

Table 2 Tests fromĀ a previous systematic review
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To collect information on test characteristics, we performed additional searches in the PubMed database with search terms covering the name of the test category combined with search terms referring to CS. If there were too many publications (>ā€‰100), we restricted the search by adding the search terms ā€˜specificity OR sensitivityā€™. For tactile stimulation our first search had 187 hits, after addition of sensitivity OR specificity 7 hits were left. See TableĀ 3 for the search terms in PubMed.

Table 3 Search terms PubMed
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We excluded publications that did not focus on CS, were written in other languages than English, German, French or Dutch, were not available in full text or reporting on animal studies. Two persons (CdB and CG) screened the search results and independently selected publications based on title and abstract. These publications were discussed by the project team (Fig.Ā 2, TableĀ 4).

Fig. 2
figure 2

Flowchart publications

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Table 4 Articles divided into test categories
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We identified twelve tests for CS that might be useful and feasible in general practice. We excluded tests that are, in general, inaccessible or too costly for general practice (brain MRI, fMRI, PET and somatosensory evoked potentials (SEP)) and included tests based on perceived feasibility for general practice: acceptable costs, acceptable execution time and no costly equipment required (TableĀ 5).

Table 5 Selected tests for the first round
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We provided more details about the tests in TableĀ 6.

Table 6 Overview test 1ā€“12 First round
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Selected panellists in the Delphi procedure received by email a list of the 12 tests in a questionnaire with an appendix (Appendix 1 and 2).

For each test the following concise information was provided in the questionnaire:

  1. 1.

    background of the test;

  2. 2.

    procedure of the test;

  3. 3.

    investigated populations;

  4. 4.

    Results

For each test the appendix provided the following additional information:

  1. 1.

    abovementioned information for each individual study

  2. 2.

    materials needed for the test;

  3. 3.

    availability of materials needed for the test;

  4. 4.

    burden for patient;

  5. 5.

    time needed to apply the test;

  6. 6.

    ability of an assistant or practice nurse needed to perform the test;

  7. 7.

    reference list.

The panellists were asked to rate (with a yes/no/?) on two different aspects: firstly, the technical feasibility of the test, and secondly, its added value for general practice. Finally, the panellists were asked to provide an overall judgement on the suitability of the test in general practice. They could motivate their rating or refrain from answering in case of insufficient expertise with regard to a particular test. In this round, they could also provide suggestions for additional tests and general remarks. We selected from the suggestions three additional tests and send these in an additional survey in round 1 (Appendix 3).

Participants were asked to complete and return the score form by e-mail within 2 weeks. The researchers summarized the forms returned by the participants. We defined that consensus was reached if 70% or more of the participants (who had returned the form) agreed selecting a test as suitable or not suitable for general practice. If no agreement was reached on a test (less agreement than the 70% threshold), this test was added to the list for the second round of our Delphi study.

Second round

Only tests not reaching the threshold of 70% agreement in the first round were included in the second round. Each of these tests was presented with information on the percentage of agreement per item in the first round and a summary of participant comments (Appendixes 4 and 5). In this round, participants could change their rating of a test or motivate their decision again, both in view of the groupā€™s scores. Participants were asked to complete a final score and return it via e-mail within 2 weeks.

As in the first round, consensus was considered to be reached if 70% or more of the participants who had returned the form agreed the test was suitable or not suitable for general practice. Tests for which in the second round less than 70% agreement was reached, were put on a new list for the third round.

Third round

A third round was planned in case of remaining disagreements. However, we decided to cancel the third round for good reasons, see the results.

Comments of the panellists

In order to provide an overview of the comments of the panellists, we performed a qualitative analysis. Two researchers (CdB, JCvdW) independently listed the comments and coded all relevant items with the program ATLAS.ti version 8.0. We categorized the codes into families and performed a thematic analysis of the data.

Results

Delphi study

Off the invited 40 participants, 26 agreed to participate. In the first round, a few panellists recommended additional experts of whom we invited three, one agreed to participate. Thus, the final panel consisted of 27 experts. 21 panellists were Dutch and 12 panellists were GPs (Appendix 6). In the first round, panellists had the opportunity to add tests. Nine panellists suggested 18 additional tests; after analysis and discussion in the research group, we decided to add the monofilaments, the clothes peg and the Sensory Hypersensitivity Scale. As in our first selection of tests, we selected tests that might be useful and feasible for general practice and excluded tests that are, in general, inaccessible or too costly for general practice.

We added these three tests recommended by the panellists in an extension of the first round, making a total of fifteen tests. We provided the information in the same way as for the other 12 tests, an overview of test 13ā€“15 can be found in TableĀ 7.

Table 7 Overview test 13ā€“15
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First round

In the first round the panel reached consensus on eight of the fifteen tests: one to be included and seven to be excluded (TableĀ 8).

Table 8 Results Delphi study
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Arguments in favour of the one included test, CSI, were: easy to use, cheap, accessible, to have good test characteristics and ā€˜the best so farā€™. However, the panellists were critical on the construct validity of the CSI.

Seven tests were excluded in this round. The electrical pain and reflex thresholds tests were discarded mostly because electrical stimuli were considered unattractive to apply to patients; an EMG device is expensive and was considered to be too complex for use in general practice.

The CPM test with the combination of cold and pressure pain thresholds was unanimously discarded because of the following arguments: the test is complex, expensive, the use of ice water is messy and the temperature is difficult to control.

Three- quarter of the panellists discarded the CPM test with the combination of heat and cold stimuli because the thermosensory unit is very expensive and again the use of ice water was considered to be messy.

The nociceptive flexion reflex (NFR) and the cutaneous silent period (CSP) were considered to be valid tests but discarded because an EMG is too expensive for general practice. Maybe this test could be made available as a diagnostic test in a hospital or diagnostic centre for primary care.

Some panellists found assessing cytokine and neurotrophin levels in blood useful while others stated that these tests are not specific enough as a test of CS; moreover, the tests are not available yetĀ in general practice.

Second round

One test was included in the second round, the pressure pain threshold (PPT) test. Some panellists changed their minds based on additional information on the reliability and costs of the handheld algometer. A digital algometer was considered to be too expensive, but a handheld algometer of 200 euros was considered reasonable.

Four tests were excluded in this round. Panellists discarded the electric toothbrush test because the validity of the test is not clear and hygiene is an issue. The painful heat or cold stimuli test appeared, due to additional information of the panellists, to be more expensive than we had stated in the first round, so it was discarded because of the costs and complexity of the test. The clothes peg was discarded because it is not sufficiently studied and the panellists found this test not professional, it lacks face validity. The CPM test with combination of ischemic stimuli and pressure pain thresholds was discarded because it was considered too complex for use in general practice.

Inconclusive

For two tests the panel reached no consensus in the second round. For the monofilaments the panel almost reached ā€˜positiveā€™ consensus (69%). Because 69% consensus for monofilaments was so close to 70% we considered this test to be included.

No consensus was reached for the sensory hypersensitivity scale (SHS), 52% scored yes. Arguments pro were that the questionnaire is cheap and measures more specific items than the CSI. Arguments contra were that the SHS is not available and validated in Dutch, correlations with other measures are low and the CSI is validated better. There were little shifts in arguments and judgements between round 1 and 2. As we did not expect a third round would produce important new information, we decided to cancel this round.

Finally, we included three tests: the CSI in the first round, the ā€œpressure pain thresholdsā€ test (PPT) and monofilaments in the second round; these tests were considered to be suitable for use in general practice.

Expert comments

The analysis of the free text comments provided by the panellists were categorized into ten themes (TableĀ 9).

Table 9 Themes and number of codes of each theme
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Most mentioned themes were the performance of the test, test characteristics, costs and time. Panellists agreed on easy performance of the tests, e.g. electric toothbrush, PPTs, taking blood samples, questionnaires and the use of monofilaments and the clothes peg. Electrical pain thresholds were considered difficult to perform. CPM tests scored equally positive and negative on performance, especially the GPs in the panel found the combination of tests too complex and messy.

Test characteristics were mostly mentioned when they were unclear, e.g. in the electrical pain and reflex threshold test and in almost all CPM tests.

Costs were an issue, especially when the costs were high the panellists were negative about the test. This was particularly the case in tests where an expensive EMG device was needed, as in the nociception flexion reflex (NFR), the cutaneous silent period (CSP) and the electrical pain and reflex thresholds.

Time was frequently mentioned and here again we saw a difference in opinions between the GPs in the panel and other panellists like physiotherapists and medical specialists. Due to the consultation time of GPs, which is 10ā€“20ā€‰min, tests should not take more time than 10ā€‰min. Especially the GPs from the UK, where the consultation time is often limited to 10ā€‰min, found most tests too long for performing in GP practice.

Burden for the patient was an issue when the test was unpleasant, as in the electrical pain and reflex threshold test.

Reference values were mentioned as a negative argument when they were not available. Specific test materials needed was only mentioned in the tests with an EMG device. Test population was mentioned as a negative argument when it was too specific, as in the electric toothbrush test only patients with temporomandibular disorder were tested. The possibility of follow up of the patient was mentioned as a positive argument, e.g. with the CSI.

General remarks

Many panellists used the opportunity to provide general remarks. Some panellists were very critical, they considered the tests more as research tools, not yet ready for application in general practice and only interpretable on group level but not in an individual patient. Other panellists even questioned CS in general and its relation to PPS. And some doubted the added value above good history taking and physical examination and were afraid of medicalisation of the symptoms. Finally, there was criticism on the information provided to the panellists, there was not enough information provided on reliability and validity of the tests.

Other panellists were very enthusiastic about the idea of applying these tests in general practice. They reported that they used the tests themselves, that a battery of tests was better than a single test and were happy with all the provided information on the tests.

Discussion

We aimed to obtain consensus from experts on which tests to measure CS could be feasible and suitable to use in general practice. In two rounds we reached consensus on fourteen of the fifteen tests: eleven were discarded, the CSI, PPTs and monofilaments were included. After the second round, we did not reach consensus on one test, but as we did not expect a third round would produce important new information, we decided to cancel this round and discarded the test.

Scientific evidence for the three included tests

We included the CSI, PPTs and monofilaments.

The CSI is a self-report questionnaire that has been validated in several studies and that can be used both as a screener and as treatment outcome measure [37, 41,42,43,44,45,46]. The CSI generates reliable and valid data and is able to quantify the severity of CS symptoms [38]. At the time of this writingĀ it has been translated into 19 different languages, is freely onlineĀ available on www.pridedallas.com and a user manual is available [47].

Nevertheless, there are disadvantages of the CSI. First, it was developed to measure central sensitivity syndromes (CSS), which is not quite the same as central sensitization. CSS are syndromes like fibromyalgia, irritable bowel syndrome and chronic fatigue syndrome. These syndromes share common symptoms and CS is one of the underlying mechanisms in the development of CSS, but not the only one [48,49,50]. Secondly, some of the panellists expressedĀ doubts about the construct validity of the test. The items of the CSI measure different constructs, like physical, psychological and cognitive functioning, physical symptoms and others. These constructs are probably related to CS, but further research is needed to establish the validity of the CSI [51].

PPTs are widely used to measure CS and are validated well [25, 52,53,54]. In general practice measurement of pressure pain thresholds seems more appropriate than pressure tolerance thresholds. The PPT is the minimum force applied to induce pain and is measured with an algometer or dolorimeter, which is a calibrated force gauge. A handheld algometer is cheap, the procedure is short, around 10ā€‰min, and fits in the normal consultation schedule of the GP.

Monofilaments are thick nylon threads of different thicknesses and can be used to measure temporal summation, which is specific for CS. GPs use the monofilaments also to assess lower extremity neuropathy in patients with diabetes. They are cheap and the time to perform the test, 10ā€‰min, fits in the schedule of the GP. There is scant research on the use of monofilaments to assess CS, but the available studies have convincing results, e.g. for slowly repeated evoked pain (SREP) a sensitivity of 0,89 and specificity of 0,87 in discriminating between fibromyalgia and rheumatoid arthritis patients [9, 53, 55].

Strengths and limitations

We invited 43 panellists, 27 (63%) agreed to participate and all 27 panellists completed all surveys. Among the panellists, we had 12 general practitioners, 8 physiotherapists and 7 participants from other disciplines. Less than half of the panellists were GPs, this might be considered as a limitation. But as GPā€™s have little experience with the application of these tests, we decided to invite also a number of medical specialists who frequently use these tests in practice and some physiotherapists. A strength is that most panellists have both research experience and clinical experience in the field of PPS or chronic pain.

We invited 27 panellists from the Netherlands and 16 from 9 other countries. In the final panel 21 panellists from the Netherlands and 6 from 4 other countries participated. So we had more refusals from international experts. The GPs from the Netherlands and UK were involved in PPS, chronic pain and/or research, their opinion might not be representative for the GPs as a group.

We excluded tests that were considered to be too expensive or not available in general practice, like (f)MRI, PET and sensomotory evoked potentials (SEP). However, we could have added SEP as a test to assess CS; SEP is evoked with an electrical stimulus of a peripheral nerve and potentials are measured [56,57,58].

Because the presented tests are not used yet in general practice, the GPs did not have clinical experience with the tests and had to answer from a theoretical point of view. Other panellists had more experience with the presented tests, but were less critical on time constraints and costs, e.g. physiotherapists have more time and hospitals have more money to spend on needed devices.

Whereas the CSI and PPTs have a solid base in the literature, monofilaments are less well-studied.

More research is needed to establish their characteristics to assess CS.

Note that the choices for the most suitable tests were based solely on expert opinion about what is practical in general medical practice, not which ones were perceived to be the best at diagnosing CS. We will conduct a study to assess whether GPs are able to apply the tests to their patients in practice and investigate their experiences with the tests.

Recommendations for further research

We do not yet know whether the tests are sensitive and specific enough to diagnose CS on an individual level. The tests are mostly used on population level and further research is needed to assess if and how these tests are transferable to clinical practice with regard to interpretation, practicality and feasibility.

More research is also needed to assess whether the characteristics of these tests, as test-retest reliability and temporal stability, are sufficient when the tests are applied by general practitioners in a primary care population [55]. Additionally, further research should establish reference values, cut-off points and assessment of the construct validity of the tests) [59].

Conclusion

After a consensus study among an international panel of 27 experts, three tests for measuring CS were considered to be potentially feasible and suitable to be used in general practice: the Central Sensitization Inventory (CSI), pressure pain thresholds (PPTs) and monofilaments. It is worthwhile to conduct further research on the feasibility of these tests in general practice because they might have additional diagnostic value and offer an acceptable explanation for PPS.

Availability of data and materials

The datasets used and/or analysed during the current study are available from the corresponding author on reasonable request.

References

  1. den Boer C, Dries L, Terluin B, van der Wouden JC, Blankenstein AH, van Wilgen CP, et al. Central sensitization in chronic pain and medically unexplained symptom research: a systematic review of definitions, operationalizations and measurement instruments. J Psychosom Res. 2019;117(2 (2019)):32ā€“40.

    ArticleĀ  Google ScholarĀ 

  2. Woolf CJ. Central sensitization: implications for the diagnosis and treatment of pain. Pain. 2011;152(3 Suppl):S2ā€“15.

    ArticleĀ  PubMedĀ  Google ScholarĀ 

  3. Sanchis NM, Lluch E, Nijs J, Struyf F, Kangasperko M. The role of central sensitization in shoulder pain: a systematic literature review. Semin Arthritis Rheum.Ā 2015;44(6):710ā€“6.

  4. IASP taxonomy [https://www.iasp-pain.org/Taxonomy].

  5. Kaya S, Hermans L, Willems T, Roussel N, Meeus M. Central sensitization in urogynecological chronic pelvic pain: a systematic literature review. Pain Phys. 2013;16(4):291ā€“308.

    ArticleĀ  Google ScholarĀ 

  6. Stabell N, Stubhaug A, FlƦgstad T, Mayer E, Naliboff BD, Nielsen CS. Widespread hyperalgesia in adolescents with symptoms of irritable bowel syndrome: results from a large population-based study. J Pain. 2014;15(9):898ā€“906.

    ArticleĀ  PubMedĀ  Google ScholarĀ 

  7. Nijs J, Meeus M, van Oosterwijck J, Ickmans K, Moorkens G, Hans G, et al. In the mind or in the brain? Scientific evidence for central sensitisation in chronic fatigue syndrome. Eur J Clin Investig. 2012;42(2):203ā€“12.

    ArticleĀ  Google ScholarĀ 

  8. den Boer C, Terluin B, van Wilgen CP: [Explanation of central sensitisation to patients with medically unexplained symptoms helps acceptation]. Ned Tijdschr Geneeskd 2020, 164.

  9. de la Coba P, Bruehl S, Moreno-Padilla M, Reyes Del Paso GA. Responses to slowly repeated evoked pain stimuli in fibromyalgia patients: evidence of enhanced pain sensitization. Pain Med. 2017;18(9):1778ā€“86.

    ArticleĀ  PubMedĀ  Google ScholarĀ 

  10. Nixdorf DR, Hemmaty A, Look JO, Schiffman EL, John MT. Electric toothbrush application is a reliable and valid test for differentiating temporomandibular disorders pain patients from controls. BMC Musculoskelet Disord. 2009;10:94.

    ArticleĀ  PubMedĀ  PubMed CentralĀ  Google ScholarĀ 

  11. Staud R, Weyl EE, Price DD, Robinson ME. Mechanical and heat hyperalgesia highly predict clinical pain intensity in patients with chronic musculoskeletal pain syndromes. J Pain. 2012;13(8):725ā€“35.

    ArticleĀ  PubMedĀ  PubMed CentralĀ  Google ScholarĀ 

  12. Van Oosterwijck J, Nijs J, Meeus M, Paul L. Evidence for central sensitization in chronic whiplash: a systematic literature review. Eur J Pain. 2013;17(3):299ā€“312.

    ArticleĀ  PubMedĀ  Google ScholarĀ 

  13. Skou ST, Graven-Nielsen T, Lengsoe L, Simonsen O, Laursen MB, Arendt-Nielsen L. Relating clinical measures of pain with experimentally assessed pain mechanisms in patients with knee osteoarthritis. Scand J Pain. 2013;4(2):111ā€“7.

    ArticleĀ  PubMedĀ  Google ScholarĀ 

  14. Correa JB, Costa LO, de Oliveira NT, Sluka KA, Liebano RE. Central sensitization and changes in conditioned pain modulation in people with chronic nonspecific low back pain: a case-control study. Exp Brain Res. 2015;233(8):2391ā€“9.

    ArticleĀ  PubMedĀ  PubMed CentralĀ  Google ScholarĀ 

  15. Heymen JS. Central processing of noxious stimuli in patients with irritable bowel syndrome compared to healthy controls: US: ProQuest Information & Learning; 2007.

    Google ScholarĀ 

  16. Morton L, Elliott A, Cleland J, Deary V, Burton C. A taxonomy of explanations in a general practitioner clinic for patients with persistent ā€œmedically unexplainedā€ physical symptoms. Patient Educ Couns. 2017;100(2):224ā€“30.

    ArticleĀ  PubMedĀ  Google ScholarĀ 

  17. Hartman TCO, Lam CL, Usta J, Clarke D, Fortes S, Dowrick C. Addressing the needs of patients with medically unexplained symptoms: 10 key messages. 2018;68(674):442ā€“3.

  18. Cournoyea M, Kennedy AG. Causal explanatory pluralism and medically unexplained physical symptoms. J Eval Clin Pract. 2014;20(6):928ā€“33.

    ArticleĀ  PubMedĀ  Google ScholarĀ 

  19. Eisenberger NI, Lieberman MD, Williams KD. Does rejection hurt? An FMRI study of social exclusion. Science. 2003;302(5643):290ā€“2.

    ArticleĀ  CASĀ  PubMedĀ  Google ScholarĀ 

  20. Olde Hartman TC BA, Molenaar AO, Bentz van den Berg D, Van der Horst HE, Arnold IA, Burgers JS, Wiersma TJ, Woutersen-Koch H. NHG-Standaard Somatisch Onvoldoende verklaarde Lichamelijke Klachten (SOLK). Huisarts Wet. 2013;56(5):222ā€“30.

  21. Dutch Pain Society: Zorgstandaard Chronische Pijn. In. Amsterdam: Dutch Pain Society; 2017.

  22. Konnopka A, Kaufmann C, Kƶnig HH, Heider D, Wild B, Szecsenyi J, et al. Association of costs with somatic symptom severity in patients with medically unexplained symptoms. J Psychosom Res. 2013;75(4):370ā€“5.

    ArticleĀ  PubMedĀ  Google ScholarĀ 

  23. Zonneveld LN, Sprangers MA, Kooiman CG, vanā€™t Spijker A, Busschbach JJ. Patients with unexplained physical symptoms have poorer quality of life and higher costs than other patient groups: a cross-sectional study on burden. BMC Health Serv Res. 2013;13:520.

    ArticleĀ  PubMedĀ  PubMed CentralĀ  Google ScholarĀ 

  24. Daenen L, Nijs J, Roussel N, Wouters K, Van Loo M, Cras P. Dysfunctional pain inhibition in patients with chronic whiplash-associated disorders: an experimental study. Clin Rheumatol. 2013;32(1):23ā€“31.

    ArticleĀ  PubMedĀ  Google ScholarĀ 

  25. Neziri AY, Limacher A, Juni P, Radanov BP, Andersen OK, Arendt-Nielsen L, et al. Ranking of tests for pain hypersensitivity according to their discriminative ability in chronic neck pain. Reg Anesth Pain Med. 2013;38(4):308ā€“20.

    ArticleĀ  PubMedĀ  Google ScholarĀ 

  26. Zanette SA, Dussan-Sarria JA, Souza A, Deitos A, Torres IL, Caumo W. Higher serum S100B and BDNF levels are correlated with a lower pressure-pain threshold in fibromyalgia. Mol Pain. 2014;10:46.

    ArticleĀ  PubMedĀ  PubMed CentralĀ  CASĀ  Google ScholarĀ 

  27. Wang H, Buchner M, Moser MT, Daniel V, Schiltenwolf M. The role of IL-8 in patients with fibromyalgia: a prospective longitudinal study of 6 months. Clin J Pain. 2009;25(1):1ā€“4.

    ArticleĀ  PubMedĀ  Google ScholarĀ 

  28. Euteneuer F, Schwarz MJ, Hennings A, Riemer S, Stapf T, Selberdinger V, et al. Psychobiological aspects of somatization syndromes: contributions of inflammatory cytokines and neopterin. Psychiatry Res. 2012;195(1ā€“2):60ā€“5.

    ArticleĀ  PubMedĀ  Google ScholarĀ 

  29. Wang H, Schiltenwolf M, Buchner M. The role of TNF-alpha in patients with chronic low back pain-a prospective comparative longitudinal study. Clin J Pain. 2008;24(3):273ā€“8.

    ArticleĀ  PubMedĀ  Google ScholarĀ 

  30. Generaal E, Vogelzangs N, Macfarlane GJ, Geenen R, Smit JH, Dekker J, et al. Basal inflammation and innate immune response in chronic multisite musculoskeletal pain. Pain. 2014;155(8):1605ā€“12.

    ArticleĀ  CASĀ  PubMedĀ  Google ScholarĀ 

  31. De Kruijf M, Bos D, Huygen FJPM, Niessen WJ, Tiemeier H, Hofman A, et al. Structural brain alterations in community dwelling individuals with chronic joint pain. Am J Neuroradiol. 2016;37(3):430ā€“8.

    ArticleĀ  PubMedĀ  PubMed CentralĀ  Google ScholarĀ 

  32. Schouppe S, Van Oosterwijck S, Danneels L, Van Damme S, Van Oosterwijck J. Are functional brain alterations present in low Back pain? A systematic review of EEG studies. J Pain. 2020;21(1ā€“2):25ā€“43.

    ArticleĀ  PubMedĀ  Google ScholarĀ 

  33. Walitt B, Čeko M, Gracely JL, Gracely RH. Neuroimaging of central sensitivity syndromes: key insights from the scientific literature. Curr Rheumatol Rev. 2016;12(1):55ā€“87.

    ArticleĀ  PubMedĀ  PubMed CentralĀ  Google ScholarĀ 

  34. Jones J, Hunter D. Consensus methods for medical and health services research. BMJ. 1995;311(7001):376ā€“80.

    ArticleĀ  CASĀ  PubMedĀ  PubMed CentralĀ  Google ScholarĀ 

  35. Wallwork SB, Grabherr L, O'Connell NE, Catley MJ, Moseley GL. Defensive reflexes in people with pain - a biomarker of the need to protect? A meta-analytical systematic review. Rev Neurosci. 2017;28(4):381ā€“96.

    ArticleĀ  PubMedĀ  Google ScholarĀ 

  36. Kilinc O, Sencan S, Ercalik T, Koytak PK, Alibas H, Gunduz OH, et al. Cutaneous silent period in myofascial pain syndrome. Muscle Nerve. 2018;57(1):E24ā€“e28.

    ArticleĀ  PubMedĀ  Google ScholarĀ 

  37. Kregel J, Vuijk PJ, Descheemaeker F, Keizer D, van der Noord R, Nijs J, et al. The Dutch central sensitization inventory (CSI): factor analysis, discriminative power, and test-retest reliability. Clin J Pain. 2016;32(7):624ā€“30.

    ArticleĀ  PubMedĀ  Google ScholarĀ 

  38. Scerbo T, Colasurdo J, Dunn S, Unger J, Nijs J, Cook C. Measurement properties of the central sensitization inventory: a systematic review. Pain Pract. 2018;18(4):544ā€“54.

    ArticleĀ  PubMedĀ  Google ScholarĀ 

  39. Egloff N, Klingler N, von Kanel R, Camara RJ, Curatolo M, Wegmann B, et al. Algometry with a clothes peg compared to an electronic pressure algometer: a randomized cross-sectional study in pain patients. BMC Musculoskelet Disord. 2011;12:174.

    ArticleĀ  PubMed CentralĀ  PubMedĀ  Google ScholarĀ 

  40. Dixon EA, Benham G, Sturgeon JA, Mackey S, Johnson KA, Younger J. Development of the sensory hypersensitivity scale (SHS): a self-report tool for assessing sensitivity to sensory stimuli. J Behav Med. 2016;39(3):537ā€“50.

    ArticleĀ  PubMedĀ  PubMed CentralĀ  Google ScholarĀ 

  41. Neblett R, Cohen H, Choi Y, Hartzell MM, Williams M, Mayer TG, et al. The central sensitization inventory (CSI): establishing clinically significant values for identifying central sensitivity syndromes in an outpatient chronic pain sample. J Pain. 2013;14(5):438ā€“45.

    ArticleĀ  PubMedĀ  PubMed CentralĀ  Google ScholarĀ 

  42. Neblett R, Hartzell MM, Mayer TG, Cohen H, Gatchel RJ. Establishing clinically relevant severity levels for the central sensitization inventory. Pain Pract. 2017;17(2):166ā€“75.

    ArticleĀ  PubMedĀ  Google ScholarĀ 

  43. van Wilgen CP, Vuijk PJ, Kregel J, Voogt L, Meeus M, Descheemaeker F, et al. Psychological distress and widespread pain contribute to the variance of the central sensitization inventory: a cross-sectional study in patients with chronic pain. Pain Pract. 2018;18(2):239ā€“46.

    ArticleĀ  PubMedĀ  Google ScholarĀ 

  44. Gervais-Hupe J, Pollice J, Sadi J, Carlesso LC. Validity of the central sensitization inventory with measures of sensitization in people with knee osteoarthritis. Clin Rheumatol. 2018;37(11):3125ā€“32.

    ArticleĀ  PubMedĀ  Google ScholarĀ 

  45. Kregel J, Schumacher C, Dolphens M, Malfliet A, Goubert D, Lenoir D, et al. Convergent validity of the Dutch central sensitization inventory: associations with psychophysical pain measures, quality of life, disability, and pain cognitions in patients with chronic spinal pain. Pain Pract. 2018;18(6):777ā€“87.

    ArticleĀ  PubMedĀ  Google ScholarĀ 

  46. Neblett R, Hartzell MM, Williams M, Bevers KR, Mayer TG, Gatchel RJ. Use of the central sensitization inventory (CSI) as a treatment outcome measure for patients with chronic spinal pain disorder in a functional restoration program. Spine J. 2017;17(12):1819ā€“29.

    ArticleĀ  PubMedĀ  Google ScholarĀ 

  47. Neblett R. The central sensitization inventory: a userā€™s manual. J Appl Biobehav Res. 2018;23(2):e12123.

    ArticleĀ  Google ScholarĀ 

  48. Yunus MB. Central sensitivity syndromes: a new paradigm and group nosology for fibromyalgia and overlapping conditions, and the related issue of disease versus illness. Semin Arthritis Rheum. 2008;37(6):339ā€“52.

    ArticleĀ  PubMedĀ  Google ScholarĀ 

  49. Yunus MB. Editorial review: an update on central sensitivity syndromes and the issues of nosology and psychobiology. Curr Rheumatol Rev. 2015;11(2):70ā€“85.

    ArticleĀ  PubMedĀ  Google ScholarĀ 

  50. Adams LM, Turk DC. Psychosocial factors and central sensitivity syndromes. Curr Rheumatol Rev. 2015;11(2):96ā€“108.

    ArticleĀ  PubMedĀ  PubMed CentralĀ  Google ScholarĀ 

  51. Chiarotto A, Viti C, Sulli A, Cutolo M, Testa M, Piscitelli D. Cross-cultural adaptation and validity of the Italian version of the central sensitization inventory. Musculoskelet Sci Pract. 2018;37:20ā€“8.

    ArticleĀ  PubMedĀ  Google ScholarĀ 

  52. Neziri AY, Scaramozzino P, Andersen OK, Dickenson AH, Arendt-Nielsen L, Curatolo M. Reference values of mechanical and thermal pain tests in a pain-free population. Eur J Pain. 2011;15(4):376ā€“83.

    ArticleĀ  PubMedĀ  Google ScholarĀ 

  53. de la Coba P, Bruehl S, Galvez-Sanchez CM, Reyes Del Paso GA. Slowly repeated evoked pain as a marker of central sensitization in fibromyalgia: diagnostic accuracy and reliability in comparison with temporal summation of pain. Psychosom Med. 2018;80(6):573ā€“80.

    ArticleĀ  PubMedĀ  Google ScholarĀ 

  54. Amiri M, Alavinia M, Singh M, Kumbhare D. Pressure pain threshold in patients with chronic pain: a systematic review and Meta-analysis. Am J Phys Med Rehabil. 2021;100(7):656ā€“74.

  55. Naugle KM, Ohlman T, Wind B, Miller L. Test-retest instability of temporal summation and conditioned pain modulation measures in older adults. Pain Med. 2020;21(11):2863ā€“76.

    ArticleĀ  PubMedĀ  Google ScholarĀ 

  56. van den Broeke EN, Lambert J, Huang G, Mouraux A. Central sensitization of mechanical nociceptive pathways is associated with a long-lasting increase of pinprick-evoked brain potentials. Front Hum Neurosci. 2016;10:531.

    PubMedĀ  PubMed CentralĀ  Google ScholarĀ 

  57. Rosner J, Scheuren PS, Stalder SA, Curt A, Hubli M. Pinprick evoked potentials-reliable Acquisition in Healthy Human Volunteers. Pain Med. 2020;21(4):736ā€“46.

    ArticleĀ  PubMedĀ  Google ScholarĀ 

  58. Di Stefano G, Celletti C, Baron R, Castori M, Di Franco M, La Cesa S, et al. Central sensitization as the mechanism underlying pain in joint hypermobility syndrome/ehlersā€“danlos syndrome, hypermobility type. Eur J Pain.Ā 2016;20(8):1319ā€“25.

  59. Coronado RA, George SZ. The central sensitization inventory and pain sensitivity questionnaire: an exploration of construct validity and associations with widespread pain sensitivity among individuals with shoulder pain. Musculoskelet Sci Pract. 2018;36:61ā€“7.

    ArticleĀ  PubMedĀ  PubMed CentralĀ  Google ScholarĀ 

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Acknowledgements

Christijan Georgiev, MD, participated in the development of the Delphi procedure as medical student.

Funding

Internal funding department of general practice Amsterdam UMC.

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Authors and Affiliations

  1. Department of General Practice, Amsterdam Public Health Research Institute, Amsterdam UMC, location VUmc, Van der Boechorststraat 7, 1081 BT, Amsterdam, The Netherlands

    Carine den Boer,Ā Berend Terluin,Ā Johannes C. van der Wouden,Ā Annette H. BlankensteinĀ &Ā HenriĆ«tte E. van der Horst

Authors
  1. Carine den Boer
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  2. Berend Terluin
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  3. Johannes C. van der Wouden
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  4. Annette H. Blankenstein
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  5. Henriƫtte E. van der Horst
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Contributions

Carine den Boer is PhD student and is the main researcher of the Delphi study and main author of this publication. Carine den Boer analyzed the results of the Delphi study with Hans van der Wouden. Professor Henriƫtte van der Horst is the PhD supervisor of Carine den Boer, Nettie Blankenstein and Hans van der Wouden are her second supervisors and Berend Terluin is senior researcher. They are all members of the research group of Carine den Boer and contributed to the research from research plan to PhD thesis. Each of them made substantial contributions to the design of the work, the analysis and have drafted and revised the work; they approved the submitted version and have agreed to be personally accountable for their contributions; they ensured that questions related to the accuracy or integrity of any part of the work, even ones in which the author was not personally involved, are appropriately investigated, resolved, and the resolution documented in the literature.

Corresponding author

Correspondence to Carine den Boer.

Ethics declarations

Ethics approval and consent to participate

The study was carried out in accordance with the Declaration of Helsinki, informed consent was obtained from all participants, and the Institutional Research Board of Amsterdam Public Health research institute approved our study (23-3-2018; WC2017ā€“088).

Consent for publication

Not applicable.

Competing interests

None of the authors declared conflicts of interest

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Supplementary Information

Additional file 1: Appendix 1.

Survey first round

Additional file 2: Appendix 2.

Appendix first round

Additional file 3: Appendix 3.

Survey and appendix additional tests first round

Additional file 4: Appendix 4.

Survey second round

Additional file 5: Appendix 5.

Appendix second round

Additional file 6:Ā Appendix 6.

List of participants

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den Boer, C., Terluin, B., van der Wouden, J.C. et al. Tests for central sensitization in general practice: a Delphi study. BMC Fam Pract 22, 206 (2021). https://doi.org/10.1186/s12875-021-01539-0

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Keywords

BMC Primary Care

ISSN: 2731-4553

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