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Revised STandards for Reporting Interventions in Clinical Trials of Acupuncture (STRICTA): Extending the CONSORT Statement

  • Hugh MacPherson ,

    hm18@york.ac.uk

    Affiliation Department of Health Sciences, University of York, York, United Kingdom

  • Douglas G. Altman,

    Affiliation Centre for Statistics in Medicine, University of Oxford, Oxford, United Kingdom

  • Richard Hammerschlag,

    Affiliation Department of Research, Oregon College of Oriental Medicine, Portland, Oregon, United States of America

  • Li Youping,

    Affiliation Chinese Cochrane Centre, Chinese Evidence-Based Medicine Centre, West China Hospital, Sichuan University, China

  • Wu Taixiang,

    Affiliation Chinese Cochrane Centre, Chinese Evidence-Based Medicine Centre, West China Hospital, Sichuan University, China

  • Adrian White,

    Affiliation Primary Care Research, Peninsula Medical School, Universities of Exeter and Plymouth, Plymouth, United Kingdom

  • David Moher,

    Affiliation Ottawa Methods Centre, Ottawa Hospital Research Institute; Department of Epidemiology and Community Medicine, Faculty of Medicine, University of Ottawa, Ottawa, Canada

  • on behalf of the STRICTA Revision Group

    Membership of the STRICTA Revision Group is provided in the Acknowledgments.

Summary Points

  • The Standards for Reporting Interventions in Clinical Trials of Acupuncture (STRICTA) were published in five journals in 2001 and 2002. These guidelines, in the form of a checklist and explanations for use by authors and journal editors, were designed to improve reporting of acupuncture trials, particularly the interventions, thereby facilitating their interpretation and replication. Subsequent reviews of the application and impact of STRICTA have highlighted the value of STRICTA as well as scope for improvements and revision.
  • To manage the revision process a collaboration between the STRICTA Group, the CONSORT Group, and the Chinese Cochrane Centre was developed in 2008. An expert panel with 47 participants was convened that provided electronic feedback on a revised draft of the checklist. At a subsequent face-to-face meeting in Freiburg, a group of 21 participants further revised the STRICTA checklist and planned dissemination.
  • The new STRICTA checklist, which is an official extension of CONSORT, includes six items and 17 sub-items. These set out reporting guidelines for the acupuncture rationale, the details of needling, the treatment regimen, other components of treatment, the practitioner background, and the control or comparator interventions. In addition, and as part of this revision process, the explanations for each item have been elaborated, and examples of good reporting for each item are provided. In addition, the word “controlled” in STRICTA is replaced by “clinical”, to indicate that STRICTA is applicable to a broad range of clinical evaluation designs, including uncontrolled outcome studies and case reports.
  • It is intended that the revised STRICTA, in conjunction with both the main CONSORT Statement and extension for nonpharmacologic treatment, will raise the quality of reporting of clinical trials of acupuncture.

Introduction

The STRICTA (Standards for Reporting Interventions in Clinical Trials of Acupuncture) reporting guidelines, first published in 2001 [1][9], were designed to improve the completeness and transparency of reporting of interventions in controlled trials of acupuncture, in order that such trials may be more accurately interpreted and readily replicated. STRICTA comprised a checklist that expanded the generic content of Item 4 of the CONSORT statement [10],[11], which relates to the reporting of the intervention.

A survey of authors of clinical trials and systematic reviews was subsequently conducted to determine the usefulness of STRICTA in helping them write their reports [12]. In addition, a survey of 90 acupuncture trials was undertaken to assess whether use of the STRICTA checklist was associated with improved reporting over time [13]. The results of these initiatives led to conclusions that most STRICTA items were found to be necessary and easy to use, though some were seen as poorly reported, ambiguous or possibly redundant, and a number of suggestions were made for additional items. A revision of STRICTA was therefore proposed.

Meanwhile, extensions to CONSORT have been developed to cover the reporting of non-pharmacological treatments [14],[15] and pragmatic trials [16]. Since there are acupuncture specific aspects to reporting not covered by these extensions, it was decided that STRICTA should be revised in a manner congruent with CONSORT and its extensions for non-pharmacological treatments and pragmatic trials.

The combination of these developments led to an agreement between the CONSORT Group and the STRICTA Group, in collaboration with the Chinese Cochrane Centre and the Chinese Centre for Evidence-based Medicine, to revise STRICTA as a formal extension to CONSORT. The revision processes have been described in more detail elsewhere [17]. This paper describes the outcome in terms of a new checklist, updated explanations, and published examples of good reporting.

Methods

In the summer of 2008, a group of 47 experts from the original STRICTA Group, the CONSORT Group, the World Federation of Acupuncture and Moxibustion Societies, the Acupuncture Trialists' Collaboration [18], the Society for Acupuncture Research [19], and clinical trial authors were surveyed [12]. The experts were from 15 countries, 41 had academic positions, 31 were acupuncturists, 18 were involved with journals, such as board members, 15 were physicians, and 11 had been involved previously in developing reporting guidelines. These experts were consulted in regard to a draft of revised STRICTA items that had evolved from previous research [12],[13]. Feedback was collated and forwarded (with permission) to those invited to a consensus development workshop, the next phase of the revision process.

Twenty-one individuals attended a workshop in Freiburg, Germany, in October 2008. The attendees included experts in epidemiology, trial methodology, statistics, and medical journal editing. Just over half the participants were acupuncturists from a variety of backgrounds, including physician and non-physician. All attendees received collated feedback from the 47 experts, along with a draft revised STRICTA checklist for consideration.

The workshop comprised presentations about the history of STRICTA, CONSORT, and the then new CONSORT non-pharmacological treatments extension [14],[15]. The results of two investigations into the utility and acceptability of STRICTA [12],[13], and the subsequent consultation with the 47 experts, were also presented. A general discussion and agreement on generic issues relating to STRICTA were followed by a discussion of each nominated checklist item. The aim was to agree, where possible, on the content of the updated draft checklist as well as to develop a revised set of explanations for each included item.

Subsequent to the workshop, a small writing group edited drafts of the revised STRICTA checklist, identifying for each item one or more exemplars of good reporting, and developed text explaining the rationale and discussing relevant evidence. Taking into account further feedback from those attending the Freiburg workshop, the writing group finalised the STRICTA checklist, the explanations and the examples of good reporting.

Results

Note: In the Examples that follow, the embedded terms (ref) and (refs) refer to sources that are reported in the original published studies, but the details of these sources are not provided in this article for reasons of brevity.

There was agreement that STRICTA should continue to function as a stand-alone guideline for reporting acupuncture studies, and be an official extension of CONSORT for reporting randomized controlled trials. There was also consensus on a minor change of name, in that the word “controlled” in STRICTA should be replaced by “clinical”, to indicate that it was applicable for reporting a broad range of clinical evaluation designs, including uncontrolled outcome studies and case reports. The group agreed that the rationale behind reporting should be to provide the information needed to allow replication of a study, reduce ambiguity and enhance transparency. The group recognised that acupuncture trials inevitably differ in the degree of individualisation of care that is permitted, and agreed that the reporting guideline should acknowledge this and be applicable across the whole range of designs. The group also suggested that the revised STRICTA statement, when published, should be presented as embedded within the two-group parallel trial CONSORT checklist [10] and its non-pharmacological treatment extension checklist [14].

The revised STRICTA checklist comprises six items broken out into seventeen sub-items (Table 1). Table 2 presents how the revised STRICTA checklist fits within the CONSORT checklist [10] and its extension for non-pharmacological treatments [14]. Below we provide the checklist text for each of the six items and their sub-items, as well as explanations on the need for their adequate reporting and examples of good reporting from the published literature.

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Table 1. STRICTA 2010 checklist of information to include when reporting interventions in a clinical trial of acupuncture.

https://doi.org/10.1371/journal.pmed.1000261.t001

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Table 2. CONSORT 2010 checklist with the Non-pharmacological Trials Extension to CONSORT (with STRICTA 2010 extending CONSORT Item 5 for acupuncture trials).

https://doi.org/10.1371/journal.pmed.1000261.t002

Stricta Item 1: Acupuncture Rationale

Item 1a

Style of acupuncture (e.g. Traditional Chinese Medicine, Japanese, Korean, Western medical, Five Element, ear acupuncture, etc.).

Explanation.

Acupuncture has a long history in many cultures and is characterised by a broad diversity of styles and approaches in both East Asia and the West [20]. In order for the readers to contextualize the trial within the range of current clinical practices, researchers should state the overall style or approach on which they have based the treatments. If the researcher believes the treatment approach is completely novel, then this should be clearly stated.

Examples.

(i) We based the acupuncture point selections on Traditional Chinese Medicine meridian theory to treat knee joint pain, known as the “Bi” syndrome [21].

(ii) Participants were randomised to two styles of acupuncture: Japanese style (Kiiko-Matsumoto's Form) and Traditional Chinese Medicine style [22].

(iii) Four out of five of the acupuncturists primarily practised the Five Element style with a diagnostic focus on individual ‘Causative Factors’,(ref) and one used the Traditional Chinese Medicine (TCM) style with diagnosis primarily based on syndrome patterns.(ref) Both styles are rooted in traditional acupuncture theory, and they are the most common traditional approaches used by professional acupuncturists in the UK today(ref) [23].

(iv) Each patient was treated with non-local needle acupuncture (according to the theory of channels of Traditional Chinese Medicine) at distant points, and dry needling of local myofascial trigger points [24].

Item 1b

Reasoning for treatment provided, based on historical context, literature sources, and/or consensus methods, with references where appropriate.

Explanation.

The author(s) should provide the reasoning for the chosen treatment, including rationale for diagnosis, point selection and treatment procedures. The “rules” that were used in providing treatments should be described. When treatments were selected that have roots in traditional practice, it is recommended that the historical and cultural context be supplied. This is relevant for interventions within styles such as “Traditional Chinese Medicine” or “TCM”, where the broad diversity of approaches requires careful identification of where and when the treatment parameters were developed. Where consensus methods, expert clinical panels, practitioner surveys or some combination of sources have been used to define the treatment protocol, it is recommended that full details of the methodology be given. Literature and other sources should be provided where relevant, in order that others can replicate the trial by consulting these source(s) and/or developmental methods on which treatment was based. Authors are encouraged to reference published works that are easily obtainable, such as a book or journal article. If the reference is a thesis, non-published work, written material only available in a different language from the journal article, or a verbal communication, authors are encouraged to present or summarise the information in an appendix or make it otherwise generally available (e.g. on a website). For fully individualised trials where the goal is to have representative practitioners who are encouraged to practice as they normally do, it is appropriate to specify the selection process for the practitioners, providing details of criteria for their inclusion. It is important to note that where details of the intended intervention are defined in advance, it is possible that what was actually administered may have differed. In such cases, precise details of the treatments that were provided are also necessary.

Examples.

(i) This study employed a style of Japanese acupuncture developed by Shima and Chace (ref) and Manaka (ref), and follows the Japanese acupuncture training curriculum at the New England School of Acupuncture. In comparison to typical traditional Chinese medicine (TCM) acupuncture, Japanese acupuncture uses smaller needles and inserts needles less deeply and with less manipulation.(ref) For these reasons, we believed Japanese acupuncture would be less invasive than TCM, and thus better received by our adolescent population. Japanese acupuncture has been shown to be effective in treating certain pain conditions.(ref) The specific acupuncture protocols employed in this study are briefly described below and discussed in greater detail in a companion paper(ref) [25].

(ii) We based point selection on individualized Western acupuncture techniques by using a list of points previously reported as being effective in neck pain (refs) and by reaching a consensus according to our own clinical and teaching practice.(ref) The specific points for each individual were defined at each treatment session, depending on the patient's pain distribution and palpation of the neck and thorax to determine ah-shi points, or local tender points, for acupuncture. At least one distal point was used. Point location and depth of insertion were as described in traditional texts(ref) [26].

(iii) We developed the treatment strategies for acupuncture and minimal acupuncture in a consensus process with three acupuncture specialists (names provided) representing two major German societies for medical acupuncture: the German Medical Acupuncture Association (Deutsche Ärztegesellschaft für Akupunktur, DÄGfA) and the International Society for Chinese Medicine (Societas Medicinae Sinensis, SMS). The first step involved three specialists (names provided) and the study team developing a proposal, which was followed by a discussion including more than 30 acupuncture experts from both acupuncture societies. The final intervention strategies were defined by the above mentioned three specialists together with the study team and subsequently were communicated to the external advisors [27].

Item 1c

Extent to which treatment was varied.

Explanation.

The extent to which the treatment was individualised, both between patients and between practitioners, should be described. Trial protocols choose one of three broad levels of individualisation, ranging from none at all (all patients receiving the same treatment at all sessions), through partially individualised treatments (e.g. use of a fixed set of points to be combined with a set of points to be used flexibly), to fully individualised treatment protocols within which each patient receives a unique and evolving diagnosis and treatment. Additionally, the practitioners may have to apply a standardised theoretical framework, or may be allowed to apply their own. Many styles of acupuncture, whether based on traditional theories or Westernized concepts such as trigger points, are individualised in routine practice. Trials that are more pragmatic [28] in their aim, and designed to replicate routine settings and patient groups, have more of an emphasis on fully individualised treatment. In such cases standardisation may consist of a protocol that instructs practitioners to provide treatments as they normally do. Trials that are more explanatory (mechanistic) in their aim tend to need a tighter definition of specific components in order to minimise variation across treatments.

Examples.

(i) Each patient received individualized acupuncture treatments that focused on specific needs and symptoms that the individual was experiencing. The rationale for this intervention was to test acupuncture as it is typically performed in practice. Point selection was based on the general principles of acupuncture and Traditional Chinese Medicine.(ref) The treatment was modified over the course of the study to accommodate the individual's changing pattern of pain, sleep, or other health issues [29].

(ii) The verum points consisted of obligatory points and additional points individually chosen by the physicians on the basis of traditional Chinese medicine diagnosis for syndromes (including tongue diagnosis), acupuncture channels related to the individual headache area, and Ah Shi points (locus dolendi points) [30].

(iii) The acupuncture protocol was based on the concept of adequacy of treatment,(ref) survey results,(ref) a consensus workshop, and recommendations from traditional Chinese protocols. We did not allow moxibustion, cupping, herbs, or electroacupuncture. For each individualised treatment session between six and 10 acupuncture points from 16 commonly used local and distal points were selected. Local points were Sp 9, Sp 10, St 34, St 35, St 36, Xiyan, Gb 34, and trigger points. Distal points were LI 4, TH5, Sp 6, Liv 3, St 44, Ki 3, BI 60, and Gb 41 [31].

Stricta Item 2: Details of Needling

Item 2a

Number of needle insertions per subject per session (mean and range where relevant).

Explanation.

It is recommended that the reporting of this item should include a total of needle insertions per subject per session. This item is relevant to all designs of randomised controlled trials, from pragmatic to explanatory. For more explanatory designs where a formula of points is prescribed, the number of needle insertions should be reported as a simple total. For more pragmatic designs, with individualised treatments, the mean and range should be reported. Clearly, full details of individualised treatment cannot be reported in every section of Item 2 below. However, each item should be considered and as much information given as possible.

Examples.

(i) The protocol allowed for up to 10 treatments per patient, the precise number being agreed between patient and practitioner. A total of 1269 treatments were provided, an average of 8.6 treatments per patient (range 1–10) and 9.6 needles per treatment (range 6–12). See (table) for variations between practitioners [32].

(ii) Disposable stainless steel needles (0.2×50mm, Seirin) were inserted into the skin over the trigger point to a depth of 10–30mm, appropriate to the muscle targeted, attempting to elicit a local muscle response using the “sparrow pecking” technique. After the local twitch response was elicited or a reasonable attempt made, the needle was retained for a further ten minutes. The mean number of insertions was 3.3 [33].

(iii) In the real acupuncture group, the acupuncture points Hegu (LI 4), Jiache (St 6), Xiaguan (St 7) and Yifeng (SJ 17) were used unilaterally on the tooth extraction side [34].

Item 2b

Names (or location if no standard name) of points used (uni/bilateral).

Explanation.

The point descriptions in the seminal classic texts, such as the Huangdi Neijing (Inner Canon of the Yellow Emperor) are rare and vague. The depiction of acupuncture points in relation to precise anatomical structures dates back only 100 years. Since the mid 1950s a process of standardisation has been taking place, and the acupuncture point descriptions based on anatomical locations and proportional cun measurement systems have served as a blueprint for many Western translations. It should be noted that these locations have not been universally adopted. Given this historical context, it remains important to know which acupuncture points have been used in clinical trials, with as accurate descriptions as possible of the location of these points, and where relevant the method used to identify the points.

The specific point locations used in treatments where standardised should be described in terms of an accepted nomenclature (e.g. GB21) [35] or in terms of anatomical location where there is no accepted name. Whether the needles are inserted unilaterally or bilaterally should be stated. For protocols with partially individualised prescriptions, list any prescribed essential or optional points, and describe (in the Results section) both the points used at every visit, and all the points used on an ad hoc basis. If the list is extensive, the most commonly used points (with percentages) should be reported. Where protocols specify using fully individualised point prescriptions, authors should consider the best way to report the points used, for example by listing all points across all subjects, or by identifying the most commonly used points if the list is extensive.

Examples.

(i) We based the acupuncture point selections on Traditional Chinese Medicine meridian theory to treat knee joint pain, known as the “Bi” syndrome. These points consisted of 5 local points (Yanglinquan [gall bladder meridian point 34], Yinlinquan [spleen meridian point 9], Zhusanli [stomach meridian point 36], Dubi [stomach meridian point 35], and extra point Xiyan) and 4 distal points (Kunlun [urinary– bladder, meridian point 60], Xuanzhong [gall bladder meridian point 39], Sanyinjiao [spleen meridian point 6], and Taixi [kidney meridian point 3]) on meridians that traverse the area of pain (refs). The same points were treated for each affected leg. If both knees were affected, 9 needles were inserted in each leg [21].

(ii) The VA (verum acupuncture) group received acupuncture with a 0.25×40-mm stainless steel needle (Asia Med, Munich, Germany) at LI4, which is situated between the first two metacarpal bones on the dorsal side of both hands at the top of the muscle belly (figure provided) [36].

(iii) The most frequently treated local points were Bl 23, Bl 25, Gb 30, DU 4, Bl 26, and the extra point Huatuojiaji (table provided) ..….. The most frequently treated distant points were Bl 40, Kid 3, Gb 34, Bl 60, SI 3, and DU 20. In most cases, 8 to 12 local points and 4 to 6 distant points were used. Physicians used additional acupuncture points in 565 of the treatment sessions. The most frequently used additional local points were Li 4, St 40, Bl 17, Sp 6, and St 36 [27].

Item 2c

Depth of insertion, based on a specified unit of measurement, or on a particular tissue level.

Explanation.

The depth of insertion should be expressed using the Chinese measurement of the cun; in terms of anatomical depth, for example, of subcutaneous tissue, fascia, muscle or periosteum; or in millimetres. For some trials, the protocol might specify the angle and direction of insertion along with depth of insertion, in which case these should also be reported.

Examples.

(i) All needle placements were performed by an experienced acupuncturist at a premarked depth of 4 mm from the tip of the needle [37].

(ii) The depth of needle insertion varied with thickness of the skin and subcutaneous fatty tissues at the site of the acupuncture points; it was usually 1 to 1.5cm [38].

(iii) Shallow and light needling stimulation (1–2 mm) using fine needles (0.18–0.16 mm) inserted with the aid of insertion tubes was emphasized. Points were needled at a 10°–20° angle with a 2-hand needling technique, generally in the direction of the flow of the channel [39].

Item 2d

Responses sought (e.g., de qi or muscle twitch response).

Explanation.

If the study protocol requires that specific responses to needling be elicited, for example the de qi sensation in traditional Chinese acupuncture, the muscle twitch in trigger point treatment or muscle contraction in electro-acupuncture, these elicited responses should be reported. Where relevant, the authors should differentiate between the responses required in the protocol and those actually obtained (which should be reported in the Results section).

Examples.

(i) The TRP (trigger point) group received treatment at trigger points. The correct application of the technique requires experience in palpation and localisation of taut muscle bands and myofascial trigger points. Precise needling of myofascial trigger points provokes a brief contraction of the muscle fibres. This local twitch response must be elicited for successful therapy but it may be painful and post treatment soreness is frequent [33].

(ii) In contrast with TCM style acupuncture, we did not employ vigorous manipulation in order to elicit a strong de qi sensation (defined as a feeling of heaviness around the acupuncture point).(ref) Practitioners focused instead on feeling the response to stimulation as an “echo” sensation experienced on the receiving hand, while the active hand performed the actual needling. Attention was placed on reactivity or change in diagnostic areas, especially the pulse and abdomen. By carefully assessing changes in palpatory findings, the treatment was adjusted continuously based on the patient's response. Before needling, the “live” points were identified by palpation, that is, subtle changes at the skin level, or upon touch or pressure, for that particular patient [39].

Item 2e

Needle stimulation (e.g. manual or electrical).

Explanation.

Needle stimulation techniques, where used, should be clearly described for all points. For manual stimulation, such techniques include lifting, thrusting or rotating the needle to manipulate the de qi sensation. For electrical stimulation, the current, amplitude and frequency settings should be recorded.

Examples.

(i) This mode of (manual) stimulation was provided via the acupuncture needles, which were placed in the premarked depth at the marked sites. The needle was rotated by an experienced acupuncturist with the index finger and thumb in an alternating clockwise and counterclockwise fashion at the rate of three to five rotations per second [37].

(ii) Electrical stimulation was given to the anterior part of the knee for 10 minutes and then 10 minutes for the posterior part using a battery-operated, four-channel, ‘AS Super 4’ Electrostimulator (RDG Medical, Surrey UK) which generated low frequency, square-wave (2–10Hz) pulses of 1 millisecond duration for 10 minutes.(ref) In both groups, the apparatus was attached to needles at the two Xiyan points, SP9 and GB34, and BL40 and BL57. Electrical stimulation was delivered at 6Hz at a constant current. Voltage was set at a level just above the pain threshold [38].

Item 2f

Needle retention time.

Explanation.

Needle retention times should be reported as either a standard or a mean and range. Authors should make it clear that they are reporting the time elapsed between the insertion and removal of needles (retention time) and distinguish it from treatment time, which may include other procedures such as history taking, discussion and preparation for treatment.

Examples.

(i) Each participant was treated bilaterally and had a total of six needles inserted for the duration of the treatment. A draining technique was used and the needles were left for a period of 30 minutes. The practitioner returned to check on the participant at regular intervals during the intervention [40].

(ii) Needles were withdrawn immediately for tonification, and retained for up to 20 minutes for the evens technique [23].

(iii) Therapists allow 25 (min) to 35 (max) minutes between insertion of the last needle and cessation of treatment and during that time they are to revisit the needles as appropriate [41].

(iv) The patients in group A were dry needled for a few seconds. For trigger point inactivation by dry needling… it is especially important not to apply too strong a stimulus because this may produce a flare-up of the patient's symptoms [42].

Item 2g

Needle type (diameter, length, and manufacturer or material).

Explanation.

Details should be given of the types of needles used, including the diameter and length as well as the manufacturer and/or the material. This information is of importance since the effect of different metals or needle sizes on the body is not known. For trials using a variety of different types of needles, the ranges of diameters and lengths as well as types of material should be reported.

Examples.

(i) Seirin 36 gauge 2.5 inches long unused sterile L-type needles were used for the study [37].

(ii) The VA (verum acupuncture) group received acupuncture with a 0.25×40-mm stainless steel needle (Asia Med, Munich, Germany) at LI4 [36].

Stricta Item 3: Treatment Regimen

Item 3a

Number of treatment sessions.

Explanation.

The planned number of sessions and frequency of treatment should be clearly documented. The actual number of treatments received by participants should be reported in the Results section. If there is variation between patients, then the mean and range should be reported.

Examples.

(i) The true acupuncture (experimental) group underwent 26 weeks of gradually tapering treatment according to the following schedule: 8 weeks of 2 treatments per week followed by 2 weeks of 1 treatment per week, 4 weeks of 1 treatment every other week, and 12 weeks of 1 treatment per month [21].

(ii) In all groups, participants were asked to attend treatment sessions twice weekly for 12 weeks (24 treatments). We considered participants who attended 80% or more (≥19 of 24) of acupuncture sessions to have completed a full course of treatment [43].

Item 3b

Frequency and duration of treatment sessions.

Explanation.

The frequency and duration of sessions should be documented, with mean and range to be reported where there is variation across patients. Any variation in frequency of treatment (for example if subjects are to be treated twice weekly in the first two weeks then once a week for the next six weeks) should be clearly reported.

Examples.

(i) Acupuncture was administered a maximum of eight times, twice during each of the first three weeks and once during each of the following two weeks, for 30 minutes at each session. One month after this series of treatments had been completed and evaluated, the patients were offered a maximum of two follow up treatments of the same kind, one week apart [44].

Stricta Item 4: Other Components of Treatment

Item 4a

Details of other interventions administered to the acupuncture group (e.g. moxibustion, cupping, herbs, exercises, lifestyle advice).

Explanation.

Additional components of treatment refer to the auxiliary techniques, prescribed self-treatment and lifestyle advice provided by the practitioner. All additional components, whether carried out by the practitioner or patient and whether integral or adjunctive to the acupuncture needling, should be described clearly. For acupuncture related interventions, such as moxibustion or cupping, detail should be provided equivalent to that recommended for acupuncture needling. If the protocol specifies the options of prescribed self-help treatments such as qigong or muscle stretching exercises, and/or lifestyle advice such as dietary changes based on acupuncture-related diagnostic criteria, then these too must be reported. The frequency with which the advice was given, and participants' compliance with this advice, should be reported. “Other components of treatment” should be distinguished from “co-interventions”, that is interventions that are provided additionally to both groups, which should be fully reported as described in STRICTA Item (6b) below.

Examples.

(i) In addition to needling, moxibustion or thermal stimulation of the acupoints was used forming very fine wool of mugwort (Artemisa vulgaris) into minute, thread-size punks (okyū) and placing them on a thin layer of an herbal cream (shiunko). The moxa was lit with an incense stick and the process was repeated several times until warmth was felt by the patient [39].

(ii) Following application of the studs, patients were instructed to apply pressure to the stud by making small circular movements with the fingers of the opposite hand, 2–3 cycles per second for 1–2 minutes per point. As is typical for self-administered acupressure, patients were encouraged to apply acupressure this way on waking, in the early afternoon and during any exacerbation of symptoms. Initial instruction was provided verbally, at which time patients were asked to confirm their understanding by demonstrating the procedure. Patients also were given easy-to-read written materials describing the acupressure procedure [45].

(iii) Chinese herbal medicine was to be taken three times per day over a period of 6 weeks and parallel to acupuncture treatment… All herbs used in the present study were imported from China by a single TCM herbal medicine import company (Sinores, Lueneberg, Germany)… All herbs were prepared in dried, minced pieces and then sealed in generic paper sachets by a pharmacist in order to render the herbal formulation non-identifiable for patients… In addition to the basic formula, every patient received a second additional formula tailored to his or her individual TCM diagnosis [46].

Item 4b

Setting and context of treatment, including instructions to practitioners and information and explanations to patients.

Explanation.

The setting and context of treatment can also provide important additional components to treatment [47]. Context includes instructions to practitioners that might modify their normal practice, for example, prescribing or proscribing explanations to patients about their diagnosis. For patients, the context includes the information they have been given about the trial that might be expected to modify outcomes. Therefore, the information that the patient receives regarding the treatment and control intervention should be reported, including any relevant wording on consent forms and information leaflets designed to influence beliefs or expectations. For example, describing a sham acupuncture control as “a type of acupuncture” may have a different effect on outcome than saying it is “not acupuncture, but will involve a similar experience to acupuncture.”

Examples.

(i) The first acupuncturist was the “diagnosing acupuncturist” (DA), whom the patient saw for the initial consultation, and before and after each treatment. A full case history was taken by the DA, together with tongue and pulse examination, to arrive at an individual diagnosis in accordance with the principles of TCM, with an additional lesser emphasis on Five Element Acupuncture (refs). Although all patients in the study had IBS, this corresponded to a wide range of TCM patterns, making individual diagnosis essential. Dietary and lifestyle advice (important in treatment according to TCM principles) was given to all patients by the DA, who then selected acupuncture points. The second “treating acupuncturist” (TA) opened the randomization envelope, and for the duration of the study remained the only individual aware of treatment allocation. The TA carried out the treatment - either according to instructions issued by the DA or using sham points, depending on the randomization [48].

(ii) Patients were informed about acupuncture and minimal acupuncture in the study as follows: “In this study, different types of acupuncture will be compared. One type is similar to the acupuncture treatment used in China. The other type does not follow these principles, but has also been associated with positive outcomes in clinical studies” [27].

Stricta Item 5: Practitioner Background

Item 5

Description of participating acupuncturists (qualification or professional affiliation, years in acupuncture practice, other relevant experience).

Explanation.

Characteristics of the acupuncturists providing treatment should be reported, including qualification or affiliation, years in acupuncture practice, as well as any other experience that may be relevant to the trial. Relevant differences (if any) in the qualification, training and experience of the participating acupuncturists should be highlighted. The recent survey of authors of acupuncture trials and reviews reinforced the need for these characteristics to be reported well [12], especially since the actual level of reporting has historically been poor [13]. In trials where different acupuncturists provide treatment to different treatment arms, the background of both groups should be reported. The eligibility criteria for acupuncturists should be explained, as these will influence generalisability of the trial results. Where there are known to be potential variations between practitioners, selecting a random sample of practitioners will reduce expertise bias and help improve the applicability of the results [49].

Examples.

(i) Physicians had a median of 350 hours (range 140–2508 hours) of acupuncture training before participating in the trial; 33 (73%) had the B-Diploma. Seventeen (17; 38%) trial physicians taught acupuncture in accredited postgraduate courses. The physicians had used acupuncture in their practices for an average of 11 years (median 10, range 0–25) and had treated 346 patients (range 22–1200) with acupuncture in the year before the trial. Forty-one physicians (92%) indicated that they frequently or always make a Chinese syndrome diagnosis before starting treatment [27].

(ii) Eight US-trained and licensed acupuncturists with a median of 10 years of experience (range 4–18 years) provided study treatments in their private offices. One investigator trained the acupuncturists in the study procedures to increase their comfort with delivering all 4 treatments and monitored compliance with the protocol throughout the study [43].

(iii) Of the 11 midwives participating in the study, six had been taught acupuncture for midwives at the Norwegian School of Acupuncture/NFKA. These six gave real and false acupuncture, whereas the others, who had been trained in acupuncture by the six, were allowed only to give false acupuncture [50].

Stricta Item 6: Control and Comparator Interventions

Item 6a

Rationale for the control or comparator in the context of the research question, with sources that justify the choice(s).

Explanation.

The rationale for choice of control or comparator should be presented and justified in relation to the research question and the methodology. In studies in which a group receiving acupuncture is compared with another group, the control or comparator can be sham acupuncture, usual care, an active treatment, a waiting list or no treatment. Whereas ‘control’ is sometimes used for a group that receives no intervention, the term ‘comparator’ may be more appropriate for an active intervention, such as physiotherapy, for which the intended action of the comparator is expected to be therapeutic. If using an acupuncture-like control in a participant-blinded trial then one of the following terms: active acupuncture control; penetrating needle control; or non-penetrating sham needling control might be helpful descriptors. Control procedures involving invasive or non-invasive sham needling techniques may be therapeutically active, evoking neurophysiological and/or localised immune and circulatory responses. The extent that sham acupuncture needling, whether penetrating or not, might elicit acupuncture-specific physiological mechanisms is not known, and is in part a consequence of our lack of knowledge of the mechanism(s) of true acupuncture. There are also variations in assumptions about the precision required for point location, as for some clinicians and investigators, acupuncture points are considered as areas of reactivity rather than points of action. Such assumptions have a bearing on the integrity of the sham as an appropriate control. Some non-needling control procedures can be assumed to be physiologically inert, such as an inactivated transcutaneous electrical nerve stimulation (TENS) machine; however, these procedures may not have the same total psychophysiological credibility as acupuncture, thereby compromising the interpretation of the results. Sources that led to the choice of control, such as literature or expert opinion, should also be reported and referenced. The author should reference prior work that supports the use of the selected comparator, such as from the conclusion of a systematic review or from another randomised controlled trial.

Examples.

(i) ‘Sham’ acupuncture points were chosen from three different areas on the body (the anterior thigh distally, the posterior thigh, and the lateral aspect of the lower back), which do not correspond to recognized acupuncture points and are deemed to have no therapeutic value [48].

(ii) International guidelines suggest that the best package of care for this patient group is one that includes patient education, advice and exercise (ref). …. Randomised clinical trials consistently show the benefit of exercise for knee pain in older adults (refs). Recent studies also highlight the need to provide adequate instruction, feedback and practice in order to ensure that the key muscle groups around the knee, such as the quadriceps, are activated (ref). The European League Against Rheumatism (EULAR) recommendations have recently been updated and in particular, advocate exercise for knee pain related to osteoarthritis (ref). In line with this evidence base, the current trial was designed so that all participants receive a package of care which includes education, advice, and exercise [41].

(iii) For this study a special ‘placebo needle’ was designed by Streitberger. The needle body is not fixed inside the copper handle. Its tip is blunt and when it touches the skin, a small pricking sensation is felt by the patient, simulating the puncture of the skin. The handle of the needle moves over the needle, the needle is shortened. Patients ‘see’ the needle moving inside their body… This needle was tested in 60 volunteers and proved to be sufficiently credible to be used in our clinical trial as a control(ref)[51].

Item 6b

Precise description of the control or comparator. If sham acupuncture or any other type of acupuncture-like control is used, provide details as for Items 1 to 3 above.

Explanation.

A precise description of the components of the control or comparator should be presented. If the control treatment is an acupuncture-like intervention, such as a form of sham acupuncture, then it should be specified whether the sham is invasive (penetrating the skin) or non-invasive (non-penetrating). The theoretical basis, needling details and regimen of an acupuncture-like control need to be reported in the same way as is set out in STRICTA Items 1 to 3 above. The lack of a world-wide consensus on the location and size of acupuncture points reinforces the importance of accurate documentation of the sham points actually used, their precise location and the method used to locate them. If usual care or another active treatment is the comparator, all the components should be reported in full detail. This will enable readers to compare usual care as provided in the trial with what is usually provided to participants in another setting. Where usual care is also provided to those receiving acupuncture, these data will also allow readers to compare the intensity of usual care in the comparator arm with that of the experimental arm. If it is a waitlist arm, then the period of waiting needs to be specified. While precise description of the control or comparator is fairly straightforward in principle, the more complex the components, the more care is required to specify them precisely.

Examples.

(i) Acupuncturists inserted 2 needles into the sham points in the abdominal area, approximately 3 cm lateral to and slightly above the umbilicus bilaterally, and then immediately applied 2 pieces of adhesive tape next to the needles. In addition, they tapped a mock plastic needle guiding tube on the surface of each of the 9 true points in the leg to produce some discernible sensation and then immediately applied a needle with a piece of adhesive tape to the dermal surface, without needle insertion, of each point for a total of 20 minutes. The sham acupuncture procedure was given on the same schedule as the experimental group and used the same active needle placements, except actual insertion did not occur at these 9 points. Although electrical stimulation did not occur, a mock transelectrical stimulation unit (which emitted a sound and possessed a blinking light) was attached to the sham needles at the knee. To facilitate blinding, we used screens in both treatment and sham groups that were placed below the abdomen to prevent participants from actually observing the true or sham procedures at the knee area but to allow them to observe the procedure being performed in the abdomen area [21].

(ii) In each session, at least 5 out of 10 predefined distant nonacupuncture points (ref) were needled bilaterally (at least 10 needles) and superficially using fine needles (ie, minimal acupuncture). “De Qi” and manual stimulation of the needles were avoided. All acupuncturists received oral instructions, a videotape, and a brochure with detailed information on sham acupuncture [52].

(iii) Conservative therapy involved 10 visits to practitioners with consultation and a prescription for diclofenac, up to 150 mg/d, or rofecoxib, 25 mg/d, as needed until week 23 [53].

(iv) Patients received the same treatment as in the standard group but in addition did stabilising exercises modified because of the pregnancy.(refs) The training programme started by emphasising activation and control of local deep lumbopelvic muscles. Training of more superficial muscles in dynamic exercises to improve mobility, strength, and endurance capacity was gradually included. Patients received treatments individually for a total of six hours during six weeks. They were told to integrate the exercises in daily activities and to exercise in short sessions on several occasions during the day [54].

Discussion

This revised STRICTA Statement has been designed to help improve the reporting of interventions in clinical trials of acupuncture, with the intention that it will help authors of acupuncture trials provide readers with a clear, accurate and transparent account of their acupuncture protocols as well as their control and/or comparator procedures. In addition to revising the STRICTA checklist, we have improved the explanations of each item and provided examples of good reporting. To enhance awareness, endorsement and adherence, the revised STRICTA Statement has been developed as an extension to CONSORT. Authors of clinical trials of acupuncture should use the STRICTA recommendations for the acupuncture intervention (Item 5 in the CONSORT 2010 Statement) in conjunction with the other 25 items of the checklist in the main CONSORT guidelines [10],[11]. The extension to CONSORT for non-pharmacological interventions is also highly relevant to acupuncture trials [14],[15]. There are other extensions to CONSORT that may be relevant, depending on the type of trial design, including extensions for cluster trials, equivalence and non-inferiority trials, and pragmatic trials, and the reporting of abstracts and of harms (e.g. adverse events) associated with the intervention. The most recent versions of all CONSORT guidance documents can be found on the CONSORT website (http://www.consort-statement.org).

A complete, accurate and transparent trial report facilitates dissemination, interpretation, translation and replicability. There continues to be a need for better reporting generally, as has been highlighted in a recent study of what is missing from descriptions of treatments in trials and reviews [55]. The authors found that elements of the intervention were missing in half of the published articles that they reviewed, giving insufficient detail, for example, with practitioners unable to use the treatments as described and researchers unable to replicate studies. This finding is similar to that from a review of authors of acupuncture trials [12]. Improved reporting reduces reader ambiguity in interpretation, is likely to increase credibility and application of the results by providing better evidence on which to base decisions on patient care.

Reporting guidelines do help improve the quality of reporting randomized trials [56] although it is difficult to observe their maximal benefit because too few journals endorse reporting guidelines [57] and fewer adhere to them [57]. To maximize this potential, we encourage journals to unambiguously endorse the revised STRICTA reporting guidelines. This can be most readily achieved by updating journal Instructions to Authors, thereby alerting prospective authors. In addition, we encourage journals to implement strategies to improve author adherence to reporting guidelines. These efforts might also help peer reviewers and journal editors in deliberating the merits of such trials.

Acknowledgments

This revision to STRICTA has benefited from contributions from many people. Support and administrative help in managing the process of revising STRICTA has come from Anne Burton, Ann Hopton, Suzanne Jenna, Stephanie Prady, and Tracy Stuardi. The Steering Group comprised Doug Altman and David Moher (CONSORT), Hugh MacPherson and Richard Hammerschlag (STRICTA), and Li Youping and Wu Taixiang (Chinese Cochrane Centre).

The initial consultation with experts, which was piloted with the help of Mark Bovey, Val Hopwood and Adrian White, involved a panel consisting of: Joyce Anastasi, Stephen Birch, Joao Bosco, Claudia Citkovitz, Remy Coeytaux, Misha Cohen, Agatha Colbert, Helen Elden, Reginaldo de Carvalho Silva Filho, Alastair Forbes, Nadine Foster, Joel Gagnier, Mark Goldby, Marita Gronlund, Richard Harris, Dominik Irnich, Helene Langevin, Lao Lixing, Anna Lee, Lee Hyangsook, Lee Myeongsoo, Lee Sanghoon, George Lewith, Klaus Linde, Liu Jianping, Ryan Milley, Scott Mist, Dieter Melchart, Albrecht Molsberger, Vitaly Napadow, Richard Niemtzow, Park Jongbae, Mahmood Saghaei, Koosnadi Saputra, Rosa Schnyer, Charles Shang, Karen Sherman, Shin Byung-Cheul, Caroline Smith, Elisabet Stener-Victorin, Kien Trinh, Jorge Vas, Andrew Vickers, Peter White, Claudia Witt, Hitoshi Yamashita, Christopher Zaslawski.

The STRICTA Revision Group, who participated in the consensus-building workshop in Freiburg, comprised the six members of the Steering Group and Stephen Birch, Isabelle Boutron, Mark Bovey, Fei Yutong, Joel Gagnier, Sally Hopewell, Val Hopwood, Susanne Jena, Klaus Linde, Liu Jianping, Kien Trinh, Emma Veitch, Adrian White, and Hitoshi Yamashita.

Author Contributions

ICMJE criteria for authorship read and met: HM DGA RH LY WT AW DM. Wrote the first draft of the paper: HM. Contributed to the writing of the paper: HM DGA RH LY WT AW DM. Reviewed Delphi process responses: RH. Helped organize the workshop that finalized the STRICTA revisions: RH.

References

  1. 1. MacPherson H, White A, Cummings M, Jobst K, Rose K, et al. (2001) Standards for reporting interventions in controlled trials of acupuncture: the STRICTA recommendations. Complement Ther Med 9: 246–9.
  2. 2. MacPherson H, White A, Cummings M, Jobst K, Rose K, et al. (2002) Standards for reporting interventions in controlled trials of acupuncture: the STRICTA statement. Acupunct Med 20: 22–5.
  3. 3. MacPherson H, White A, Cumming , Jobst K, Rose K, et al. (2002) Standards for reporting interventions in controlled trials of acupuncture: the STRICTA statement. Clin Acupunct Oriental Med 3: 6–9.
  4. 4. MacPherson H, White A, Cumming , Jobst K, Rose K, et al. (2002) Standards for reporting interventions in controlled trials of acupuncture: the STRICTA statement. Med Acupunct 13: 9–11.
  5. 5. MacPherson H, White A, Cummings M, Jobst KA, Rose K, et al. (2002) Standards for Reporting Interventions in Controlled Trials of Acupuncture: the STRICTA recommendations. J Altern Complement Med 8: 85–9.
  6. 6. Hyangsook Lee, Jongbae Park, Jungchul Seo, Hijoon Park, Hyejung Lee (2002) Standards for Reporting Interventions in Controlled Trials of Acupuncture: The STRICTA Recommendations. J Korean Soc Acupunct Moxibustion 19: 134–54.
  7. 7. Liu Jianping (2005) Standards for Reporting Interventions in Controlled Trials of Acupuncture: The STRICTA Recommendations. Zhongguo Zhong Xi Yi Jie He Za Zhi 25: 556–8.
  8. 8. Liu Xuemei, Zhang Mingming, Liu Huilin (2003) Improving the Quality of Reports in Controlled Trials of Acupuncture by Using CONSORT and STRICTA. Zhongguo Zhen Jiu 23: 699–701.
  9. 9. Kawakita K (2010) Standards for Reporting Interventions in Controlled Trials of Acupuncture: The STRICTA Recommendations. Available: http://jsam.jp/activity/checklist.html.
  10. 10. Schulz KF, Altman DG, Moher D, for the CONSORT Group (2010) CONSORT 2010 Statement: updated guidelines for reporting parallel group randomised trials. BMJ 340: c332–c332.
  11. 11. Moher D, Hopewell S, Schulz KF, Montori V, Gøtzsche PC, et al. (2010) CONSORT 2010 Explanation and Elaboration: updated guidelines for reporting parallel group randomised trials. BMJ 340: c869–c869.
  12. 12. Prady SL, MacPherson H (2007) Assessing the utility of the standards for reporting trials of acupuncture (STRICTA): a survey of authors. J Altern Complement Med 13: 939–43.
  13. 13. Prady SL, Richmond SJ, Morton VM, MacPherson H (2008) A Systematic Evaluation of the Impact of STRICTA and CONSORT Recommendations on Quality of Reporting for Acupuncture Trials. PLoS ONE 3: e1577.
  14. 14. Boutron I, Moher D, Altman DG, Schulz KF, Ravaud P (2008) Extending the CONSORT statement to randomized trials of nonpharmacologic treatment: explanation and elaboration. Ann Intern Med 2008 148: 295–309.
  15. 15. Boutron I, Moher D, Altman DG, Schulz KF, Ravaud P (2008) Methods and processes of the CONSORT Group: example of an extension for trials assessing nonpharmacologic treatments. Ann Intern Med 148: W60–W66.
  16. 16. Zwarenstein M, Treweek S, Gagnier JJ, Altman DG, Tunis S, et al. (2008) Improving the reporting of pragmatic trials: an extension of the CONSORT statement. BMJ 337: a2390.
  17. 17. MacPherson H, Altman DG (2009) Improving the quality of reporting acupuncture interventions: describing the collaboration between STRICTA, CONSORT and the Chinese Cochrane Centre. J Evid Based Med 2: 1–4.
  18. 18. Acupuncture Trialists Collaboration (2010) Home page. http://www.acupuncturetrialistscollaboration.org/.
  19. 19. Society for Acupuncture Research (2010) Home page. http://www.acupunctureresearch.org.
  20. 20. Birch S, Felt R (1999) Understanding Acupuncture. Edinburgh: Churchill Livingstone.
  21. 21. Berman BM, Lao L, Langenberg P, Lee WL, Gilpin AM, et al. (2004) Effectiveness of acupuncture as adjunctive therapy in osteoarthritis of the knee: a randomized, controlled trial. Ann Intern Med 141: 901–10.
  22. 22. Ahn AC, Bennani T, Freeman R, Hamdy O, Kaptchuk TJ (2007) Two styles of acupuncture for treating painful diabetic neuropathy - a pilot randomised control trial. Acupunct Med 25: 11–17.
  23. 23. Reynolds JA, Bland JM, MacPherson H (2008) Acupuncture for irritable bowel syndrome an exploratory randomised controlled trial. Acupunct Med 26: 8–16.
  24. 24. Irnich D, Behrens N, Gleditsch JM, Stor W, Schreiber MA, et al. (2002) Immediate effects of dry needling and acupuncture at distant points in chronic neck pain: results of a randomized, double-blind, sham-controlled crossover trial. Pain 99: 83–9.
  25. 25. Wayne PM, Kerr CE, Schnyer RN, Legedza ATR, Savetsky-German J, et al. (2008) Japanese-Style Acupuncture for Endometriosis-Related Pelvic Pain in Adolescents and Young Women: Results of a Randomized Sham-Controlled Trial. J Pediatr Adolesc Gynecol 21: 247–57.
  26. 26. White P, Lewith G, Prescott P, Conway J (2004) Acupuncture versus placebo for the treatment of chronic mechanical neck pain: a randomized, controlled trial. Ann Intern Med 141: 911–9.
  27. 27. Brinkhaus B, Witt CM, Jena S, Linde K, Streng A, et al. (2006) Interventions and Physician Characteristics in a Randomized Multicenter Trial of Acupuncture in Patients with Low-Back Pain. J Altern Complement Med 12: 649–57.
  28. 28. MacPherson H (2004) Pragmatic clinical trials. Complement Ther Med 12: 136–40.
  29. 29. Phillips KD, Skelton WD, Hand GA (2004) Effect of acupuncture administered in a group setting on pain and subjective peripheral neuropathy in persons with human immunodeficiency virus disease. J Altern Complement Med 10: 449–55.
  30. 30. Diener HC, Kronfeld K, Boewing G, Lungenhausen M, Maier C, et al. (2006) Efficacy of acupuncture for the prophylaxis of migraine: a multicentre randomised controlled clinical trial. Lancet Neurol 5: 310–6.
  31. 31. Foster NE, Thomas E, Barlas P, Hill JC, Young J, et al. (2007) Acupuncture as an adjunct to exercise based physiotherapy for osteoarthritis of the knee: randomised controlled trial. BMJ 335: 436.
  32. 32. MacPherson H, Thorpe L, Thomas K, Campbell M (2004) Acupuncture for low back pain: traditional diagnosis and treatment of 148 patients in a clinical trial. Complement Ther Med 12: 38–44.
  33. 33. Itoh K, Hirota S, Katsumi Y, Ochi H, Kitakoji H (2008) Trigger point acupuncture for treatment of knee osteoarthritis - a preliminary RCT for a pragmatic trial. Acupunct Med 26: 17–26.
  34. 34. Lao L, Bergman S, Hamilton GR, Langenberg P, Berman B (1999) Evaluation of acupuncture for pain control after oral surgery: a placebo-controlled trial. Arch Otolaryngol Head Neck Surg 125: 567–72.
  35. 35. World Health Organisation (1991) A Proposed Standard International Acupuncture Nomenclature: Report of a WHO Scientific Group. http://apps.who.int/medicinedocs/en/d/Jh2947e/. Accessed 31 December 2009.
  36. 36. Streitberger K, Steppan J, Mater C, Hill H, Backs J, et al. (2008) Effects of verum acupuncture compared to placebo acupuncture on quantitative EEG and heart rate variability in healthy volunteers. J Altern Complement Med 14: 505–13.
  37. 37. Leung AY, Park J, Schulteis G, Duann JR, Yaksh T (2006) The electrophysiology of de qi sensations. J Altern Complement Med 12: 743–50.
  38. 38. Jubb RW, Tukmachi ES, Jones PW, Dempsey E, Waterhouse L, et al. (2008) A blinded randomised trial of acupuncture (manual and electroacupuncture) compared with a non-penetrating sham for the symptoms of osteoarthritis of the knee. Acupunct Med 26: 69–78.
  39. 39. Schnyer RN, Iuliano D, Kay J, Shields M, Wayne P (2008) Development of protocols for randomized sham-controlled trials of complex treatment interventions: Japanese acupuncture for endometriosis-related pelvic pain. J Altern Complement Med 14: 515–22.
  40. 40. Gibson D, Bruton A, Lewith GT, Mullee M (2007) Effects of acupuncture as a treatment for hyperventilation syndrome: a pilot, randomized crossover trial. J Altern Complement Med 13: 39–46.
  41. 41. Hay E, Barlas P, Foster N, Hill J, Thomas E, et al. (2004) Is acupuncture a useful adjunct to physiotherapy for older adults with knee pain?: The “Acupuncture, Physiotherapy and Exercise” (APEX) study. BMC Musculoskelet Disord 5: 31.
  42. 42. Hesse J, Mogelvang B, Simonsen H (1994) Acupuncture versus metoprolol in migraine prophylaxis: a randomized trial of trigger point inactivation. J Intern Med 235: 451–6.
  43. 43. Assefi NP, Sherman KJ, Jacobsen C, Goldberg J, Smith WR, et al. (2005) A randomized clinical trial of acupuncture compared with sham acupuncture in fibromyalgia. Ann Intern Med 143: 10–9.
  44. 44. Hansson Y, Carlsson C, Olsson E (2007) Intramuscular and periosteal acupuncture for anxiety and sleep quality in patients with chronic musculoskeletal pain–an evaluator blind, controlled study. Acupunct Med 25: 148–57.
  45. 45. Vickers AJ, Feinstein MB, Deng GE, Cassileth BR (2005) Acupuncture for dyspnea in advanced cancer: A randomized, placebo-controlled pilot trial [ISRCTN89462491]. BMC Palliat Care 4: 5.
  46. 46. Brinkhaus B, Hummelsberger J, Kohnen R, Seufert J, Hempen CH, et al. (2004) Acupuncture and Chinese herbal medicine in the treatment of patients with seasonal allergic rhinitis: a randomized-controlled clinical trial. Allergy 59: 953–60.
  47. 47. Di Blasi Z, Kleijnen J (2003) Context effects. Powerful therapies or methodological bias? Eval Health Prof 26: 166–79.
  48. 48. Forbes A, Jackson S, Walter C, Quraishi S, Jacyna M, et al. (2005) Acupuncture for irritable bowel syndrome: A blinded placebo-controlled trial. World J Gastroenterol 11: 4040–4.
  49. 49. Devereaux PJ, Bhandari M, Clarke M, Montori VM, Cook DJ, et al. (2005) Need for expertise based randomised controlled trials. BMJ 330: 88.
  50. 50. Skilnand E, Fossen D, Heiberg E (2002) Acupuncture in the management of pain in labor. Acta Obstet Gynecol Scand 81: 943–8.
  51. 51. Kleinhenz J, Streitberger K, Windeler J, Gussbacher A, Mavridis G, et al. (1999) Randomised clinical trial comparing the effects of acupuncture and a newly designed placebo needle in rotator cuff tendinitis. Pain 83: 235–41.
  52. 52. Linde K, Streng A, Jurgens S, Hoppe A, Brinkhaus B, et al. (2005) Acupuncture for patients with migraine: a randomized controlled trial. JAMA 293: 2118–25.
  53. 53. Scharf H, Mansmann U, Streitberger K, Witte S, Krämer J, et al. (2006) Acupuncture and knee osteoarthritis. Ann Intern Med 145: 12–20.
  54. 54. Elden H, Ladfors L, Olsen MF, Ostgaard H-C, Hagberg H (2005) Effects of acupuncture and stabilising exercises as adjunct to standard treatment in pregnant women with pelvic girdle pain: Randomised single blind controlled trial. BMJ 330: 761–4.
  55. 55. Glasziou P, Meats E, Heneghan C, Shepperd S (2008) What is missing from descriptions of treatment in trials and reviews? BMJ 336: 1472–4.
  56. 56. Plint AC, Moher D, Morrison A, Schulz K, Altman DG, et al. (2006) Does the CONSORT checklist improve the quality of reports of randomised controlled trials? A systematic review. Med J Aust 185: 263–7.
  57. 57. Hopewell S, Altman DG, Moher D, Schulz KF (2008) Endorsement of the CONSORT Statement by high impact factor medical journals: a survey of journal editors and journal ‘Instructions to Authors’. Trials 9: 20.
  58. 58. Hopewell S, Clarke M, Moher D, Wager E, Middleton P, et al. (2008) CONSORT for reporting randomised trials in journal and conference abstracts. Lancet 371: 281–3.
  59. 59. Hopewell S, Clarke M, Moher D, Wager E, Middleton P, et al. (2008) CONSORT for reporting randomized controlled trials in journal and conference abstracts: explanation and elaboration. PLoS Med 5: e20. oi:10.1371/journal.pmed.0050020.
  60. 60. Ioannidis JP, Evans SJ, Gotzsche PC, O'Neill RT, Altman DG, et al. (2004) Better reporting of harms in randomized trials: an extension of the CONSORT statement. Ann Intern Med 141: 781–8.
  61. 61. Campbell MK, Elbourne DR, Altman DG (2004) CONSORT statement: extension to cluster randomised trials. BMJ 328: 702–8.
  62. 62. Piaggio G, Elbourne DR, Altman DG, Pocock SJ, Evans SJ (2006) Reporting of noninferiority and equivalence randomized trials: an extension of the CONSORT statement. JAMA 295: 1152–60.
  63. 63. Gagnier JJ, Boon H, Rochon P, Moher D, Barnes J, et al. (2006) Reporting randomized, controlled trials of herbal interventions: an elaborated CONSORT statement. Ann Intern Med 144: 364–7.