Temporal Artery Biopsy vs ULtrasound in Diagnosis of GCA (TABUL)

NCT ID: NCT00974883

Last Updated: 2015-07-17

Basic Information

• Recruitment Status: COMPLETED
• Total Enrollment: 880 participants
• Study Classification: OBSERVATIONAL
• Study Start Date: 2010-06-30
• Study Completion Date: 2014-12-31

Brief Summary

Giant Cell Arteritis (GCA) causes inflammation and narrowing of blood vessels and can cause blindness in one third of patients. It is important that a prompt, accurate diagnosis of GCA is made and treatment given as steroids for two or more years. Currently there is no 100% accurate test for GCA. Patients usually have new headache and scalp tenderness, typically with an abnormal blood test. However, it can be difficult to distinguish non-serious forms of headache from GCA; infection produces similar abnormal blood results. If there is a suspicion of GCA, treatment with steroids is started straight away. To confirm a diagnosis, the patient will need a biopsy of a temporal artery (a minor procedure performed under local anaesthetic to remove a sample of one of the scalp arteries). However, up to 44% of patients will have a normal biopsy. Therefore it is difficult to know if a patient with a normal biopsy does or does not have GCA. Withdrawing steroid treatment may increase the risk of blindness. Continuing treatment in a patient without GCA increases the risk of side effects (e.g., weight gain, infection risk, osteoporosis and fracture risk, high blood pressure, diabetes, cataracts). It is important to improve diagnostic tests for GCA. Another test to help in diagnosing GCA is an ultrasound scan of the arteries in the side of the head and under the arms. Ultrasound does not involve surgery; it is a simple test which can be performed as an out patient. Gel is applied to both sides of the head and under each arm. A sound probe is placed over the artery at each site to produce the scan.

The investigators' study will examine the role of ultrasound in diagnosis of 402 patients with suspected GCA. All patients will have an ultrasound examination in addition to biopsy within a week of starting steroids. Patients will be treated according to usual practice. After six months, the investigators will reassess the diagnosis. The investigators will look at the accuracy of ultrasound compared with or combined with biopsy. The investigators will look at how a doctor's knowledge of ultrasound results or biopsy results alone would affect the diagnosis and recommendation to continue or stop steroid treatment. The investigators will assess whether knowledge of both results together would alter the diagnosis and treatment. The investigators will collect information to estimate the costs of different ways of diagnosing GCA in relation to the impact on quality of life.

Detailed Description

OVERALL DESIGN: The overall design consists of a cohort study of 402 participants with suspected GCA who will be followed up for 6 months; a cost-effectiveness study comparing ultrasound with temporal artery biopsy; a study of observer agreement in evaluating ultrasound and temporal artery biopsies; and an expert panel assessing the appropriateness of alternative strategies for diagnosing and treating patients with suspected GCA.

PRIMARY OBJECTIVES:

1. To evaluate the diagnostic accuracy (sensitivity and specificity) of ultrasound as an alternative to temporal artery biopsy for the diagnosis of GCA in patients referred for biopsy with suspected GCA.

2. To evaluate the cost-effectiveness (incremental cost per QALY) of ultrasound instead of biopsy in the diagnosis of GCA.

SECONDARY OBJECTIVES:

3. To evaluate inter-observer agreement in the assessment of ultrasound and temporal artery biopsy.

4. To elicit expert views on the appropriateness of performing a biopsy following ultrasound using clinical vignettes.

5. To evaluate the diagnostic accuracy (sensitivity and specificity) of the sequential diagnostic strategy from 4 as an alternative to temporal artery biopsy alone in the diagnosis of GCA.

6. To evaluate the cost-effectiveness (incremental cost per QALY) of the diagnostic strategy from 4 instead of biopsy alone in the diagnosis of GCA.

DESIGN:

A prospective cohort study to evaluate the impact of ultrasound or biopsy of temporal arteries on diagnosis of GCA and treatment decisions . The cohort study will use a paired design, i.e. all participants will have both US and biopsy, with diagnostic performance assessed against a composite reference standard diagnosis following final (6 months) assessment. To evaluate the impact of US/biopsy results on clinical practice and longer term outcomes, we will derive clinical vignettes based on cases recruited to the study, and present them to the treating clinician, along with either the ultrasound, or biopsy or both results, so that they can indicate diagnosis and proposed treatment. The main cost-effectiveness analyses will evaluate incremental cost per quality adjusted life year (QALY) on a long term (lifetime) horizon between diagnostic strategies.

SETTING:

Outpatient and inpatient rheumatology and ophthalmology departments in 25 National Health Service (NHS) trusts in the United Kingdom (UK) (also sites in Europe of required) with access to high resolution US.

TARGET POPULATION: Patients with suspected GCA who would normally require an urgent temporal artery biopsy, i.e. referrals from primary care and suspected GCA identified in secondary care. Recruitment of participants will be restricted to patients for whom US and biopsy can be performed within 7 days of starting high-dose steroids.

HEALTH TECHNOLOGIES BEING ASSESSED:

Halo, stenosis, or occlusion assessed by high resolution US; presence of giant cells or granulomatous inflammation on temporal artery biopsy.

MEASUREMENT OF COST AND OUTCOMES:

Data collection at baseline, 2 weeks and 6 months will include clinical and laboratory markers of disease activity, resource use, health-related quality of life (HRQoL) using the EuroQol-5D (EQ-5D), and adverse events. Baseline assessment will include retrospective assessment of symptoms and erythrocyte sedimentation rate/C-reactive protein (ESR/CRP) results before starting steroids. The reference standard diagnosis will be made using a composite of American College of Rheumatology classification criteria, GCA-related events, and alternative diagnoses using data collected at all assessments. Proposed treatment data will be collected from participating clinicians after each test result is released, and classified as treatment for GCA (e.g. initiate/continue steroids) or not GCA (e.g. withdraw/rapid taper of steroids) to compare changes in proposed treatment and evaluate agreement with the reference diagnosis. Unit costs of resources used will be obtained from nationally published sources where available. Modelling will estimate the impact of diagnostic strategies on clinical outcomes (e.g. GCA complications and steroid related adverse events), their costs and impact on HRQoL beyond study follow-up and within study follow-up. Probabilities of events, their cost and impact will be obtained from study data, a systematic literature review, or in the absence of relevant data, by formal elicitation of expert opinion. Costs and benefits will be discounted at 3.5% (National Institute for Health and Care Excellence [NICE] guidance) and uncertainty (including modelling assumptions) subjected to probabilistic sensitivity analysis and scenario analysis.

SAMPLE SIZE:

A sample size of 402 patients provides 90% power at a 5% type I error rate to test the joint hypothesis that (i) US has greater sensitivity than biopsy (to detect an increase in sensitivity from 76% for biopsy (assuming a 0.24 false negative fraction based on 9-44% biopsy-negative GCA) to 87% sensitivity for US; and (ii) to detect specificity of US of no less than 0.83 based on an expected specificity of 0.96. This sample size will allow estimation of a one-sided rectangular confidence region for US false and true positive fractions, assuming 80% prevalence of GCA in patients having a biopsy for suspected GCA, with the sample size inflated (gamma=0.1) due to uncertainty in the proportion of cases/controls in a cohort design. We will actually recruit 430 cases to allow for possible drop-outs from the study. In addition we will recruit 270 individuals for training purposes, to allow each centre to learn the technique of temporal artery and axillary artery scanning. Each centre will collect 10 such individuals (training cases), who will be of similar age and gender as the study cohort, but who will not have temporal arteritis. This is very important in order to ensure that observers are trained to recognise the appearances seen in normal (non GCA arteries) especially patients with atherosclerosis. Further ultrasound training including a video exam (to identify images of both normal and abnormal features of GCA) and a 'hot' case assessment (scanning a patient with GCA) will be designed into the ultrasound training programme. In addition, we will provide adequate training days (e.g. 2 separate training days) when all observers will be trained formally by Dr Schmidt and other ultrasound experts to ensure adequate observer agreement. The first training day will be held prior to starting the recruitment of patients, and will be repeated after the first year.

PROJECT TIMETABLE:

Total: 48 months (UPDATED TO 60 MONTHS SEE BELOW) Month 1-6 Study materials/protocols prepared; Ethics and research governance approval complete; Centres trained, approved and ready to recruit.

Month 7-12 Recruitment monitoring report; Quality control report. Month 13-18 Recruitment monitoring report; Quality control report; Additional centres (if required) trained, approved and ready to recruit; Month 19-24 Recruitment monitoring report; Quality control report. Month 25-30 Recruitment monitoring report; Quality control report; Web-based US and biopsy assessment developed.

Month 31-36 Recruitment completed; Clinical vignettes (web-based) developed. Month 37-42 Follow-up completed; Inter-rater assessment of US and biopsy images analysis competed; Expert panel review of vignettes completed.

Month 43-48 Database cleaned and locked; Analysis completed; statistical analysis and economic modelling, report drafting and preparation of papers. Final report completed.

PLEASE NOTE: 12 MONTH EXTENSION WAS GRANTED BY THE FUNDER (NIHR HTA) IN SEPTEMBER 2012 TO EXTEND THE RECRUITMENT PERIOD FROM THE END OF DECEMBER 2012 TO END OF DECEMBER 2013 (A FURTHER 12 MONTHS).

TH END OF STUDY WILL NOW BE DECEMBER 2014

The study will be overseen by a Trial Steering Committee (TSC) and an independent Data Monitoring Committee (DMC)at least 1 meeting per year.

BIOBANK:

We will develop a biobank of tissue, serum, DNA and ultrasound video imaging of blood vessels in GCA. An important benefit of the primary protocol is that we can use the accumulated material for a number of related projects.

Conditions

Giant Cell Arteritis

Study Design

• Observational Model Type: COHORT
• Study Time Perspective: PROSPECTIVE

Study Groups

Suspected GCA

Patients who present with new onset of headache and suspected diagnosis of GCA. They will all require a temporal artery biopsy to assist in the diagnosis

Ultrasound of temporal and axillary arteries

Intervention Type: PROCEDURE

Standardised assessment of temporal arteries and axillary arteries using high resolution ultrasound to detect halo, stenosis or occlusion

Temporal artery biopsy

Intervention Type: PROCEDURE

Biopsy of temporal artery from symptomatic side

Training cohort

Patients with any condition or healthy volunteers who are willing to consent ot have their temporal and axillary arteries examined using ultrasound, for training purposes

Ultrasound of temporal and axillary arteries

Intervention Type: PROCEDURE

Standardised assessment of temporal arteries and axillary arteries using high resolution ultrasound to detect halo, stenosis or occlusion

Interventions

Ultrasound of temporal and axillary arteries

Standardised assessment of temporal arteries and axillary arteries using high resolution ultrasound to detect halo, stenosis or occlusion

Intervention Type: PROCEDURE

Temporal artery biopsy

Biopsy of temporal artery from symptomatic side

Intervention Type: PROCEDURE

Other Intervention Names

Ultrasound scan; Biopsy of temporal artery

Eligibility Criteria

Inclusion Criteria

1. A clinical suspicion of new diagnosis of GCA e.g. patients with a new onset of headache, scalp tenderness, with or without elevated CRP or ESR, jaw or tongue claudication with or without visual loss.

2. The clinician decides that the patient requires an urgent temporal artery biopsy to determine whether or not the diagnosis is GCA.

3. The patient agrees and provides NHS consent to undergo a temporal artery biopsy as part of standard care.

4. Patients have been started on high dose glucocorticoids or will be started on high dose glucocorticoids.

5. Patients must be willing to attend for an ultrasound scan of their temporal and axillary arteries.

6. Participants must be willing to give informed written consent or willing to give permission for a nominated friend or relative to provide written informed assent if they are unable to do so because of physical disabilities e.g. sudden onset of blindness/vision loss which can be caused by GCA (this will be made clear in the ethics approval application).

7. Must be 18 years of age or over.

For the training cases

1. Patients attending hospital outpatient or in patient departments for assessment for any condition (apart from giant cell arteritis or polymyalgia rheumatica) or healthy staff volunteers.

2. Above the age of 50 years.

3. Willing to attend for an ultrasound scan of their temporal and axillary arteries.

4. Willing and able to give written informed consent.

Exclusion Criteria

1. Previous diagnosis of GCA.

2. Use of high dose glucocorticoid (>20mg prednisolone/day) for management of current suspected GCA for more than 7 days prior to the dates of the ultrasound and biopsy.

3. Long term (>1 month) high dose (>20mg per day at any time) steroids for conditions other than PMR, within three months prior to study entry.

4. Inability to give informed consent (either written consent or verbal assent from a relative or carer)

5. Inability to undergo an ultrasound scans of the temporal and axillary arteries.

6. Patients with a known cause of headache (not due to GCA), or any condition which would preclude the need for a temporal artery biopsy.

7. Patients who are unable to undergo an ultrasound scan and a temporal artery biopsy within 7 days of starting glucocorticoids.

For the training cases

1. Diagnosis of suspected GCA or a previous history of diagnosed or suspected GCA.

2. Inability to give written informed consent.

3. Inability to undergo an ultrasound scans of the temporal and axillary arteries

• Minimum Eligible Age: 18 Years
• Eligible Sex: ALL
• Accepts Healthy Volunteers: Yes

Sponsors

University of Sheffield

OTHER

Sponsor Role: collaborator

Mid and South Essex NHS Foundation Trust

OTHER

Sponsor Role: collaborator

Nuffield Orthopaedic Centre NHS Trust

OTHER

Sponsor Role: collaborator

Oxford University Hospitals NHS Trust

OTHER

Sponsor Role: collaborator

The Leeds Teaching Hospitals NHS Trust

OTHER

Sponsor Role: collaborator

University of Bristol

OTHER

Sponsor Role: collaborator

London School of Hygiene and Tropical Medicine

OTHER

Sponsor Role: collaborator

Medical Center for Rheumatology Berlin-Buch

UNKNOWN

Sponsor Role: collaborator

University of Oxford

OTHER

Sponsor Role: lead

Responsible Party

Responsibility Role: SPONSOR

Principal Investigators

Raashid A Luqmani, DM FRCP

Role: STUDY_CHAIR

University of Oxford

Andrew Hutchings

Role: PRINCIPAL_INVESTIGATOR

London School of Hygiene and Tropical Medicine

Mike Bradburn

Role: PRINCIPAL_INVESTIGATOR

University of Sheffield

Bhaskar Dasgupta

Role: PRINCIPAL_INVESTIGATOR

University Hospital Southend

Allan Wailoo

Role: PRINCIPAL_INVESTIGATOR

University of Sheffield

John Salmon

Role: PRINCIPAL_INVESTIGATOR

John Radcliffe Hospital, Oxford

Eugene McNally

Role: PRINCIPAL_INVESTIGATOR

Nuffield Orthopaedic Centre Oxford

William Hamilton

Role: PRINCIPAL_INVESTIGATOR

University of Bristol

Colin Pease

Role: PRINCIPAL_INVESTIGATOR

Leeds General Infirmary

Brendan McDonald

Role: PRINCIPAL_INVESTIGATOR

John Radcliffe Hospital, Oxford

Konrad Wolfe

Role: PRINCIPAL_INVESTIGATOR

University Hospital Southend

Wolfgang Schmidt

Role: PRINCIPAL_INVESTIGATOR

Medical Centre for Rheumatology Berlin-Buch

Locations

Queens Medical Centre

Nottingham, , United Kingdom

University of Oxford

Oxford, , United Kingdom

The Pennine Acute Hospitals NHS Trust

Pennine Rheumatology Centre, Rochdale Infirmary, , United Kingdom

Queen Alexandra Hospital

Portsmouth, , United Kingdom

Royal Berkshire

Reading, , United Kingdom

Queens Hospiital

Romford, , United Kingdom

Southend University Hospital

Southend, , United Kingdom

Sunderland Royal Hospital

Sunderland, , United Kingdom

Universitätsklinikum Jena

Jena, , Germany

St Vincent's University Hospital

Dublin, , Ireland

Hospital of Southern Norway

Kristiansand, , Norway

Hospital de Santa Maria

Lisbon, , Portugal

Nuffield Orthopaedic Centre NHS Trust

Oxford, Oxfordshire, United Kingdom

John Radcliffe Hospital

Oxford, Oxfordshire, United Kingdom

Stoke Mandeville Hospital

Aylesbury, , United Kingdom

Musgrave Park Hospital

Belfast, , United Kingdom

City Hospital Birmingham

Birmingham, , United Kingdom

West Suffolk NHS Foundation Trust

Bury St Edmunds, , United Kingdom

Derbyshire Royal Infirmary

Derby, , United Kingdom

Dudley Group of Hospitals

Dudley, , United Kingdom

Gateshead Health NHS Foundation Trust

Gateshead, , United Kingdom

James Paget University Hospitals NHS Foundation Trust

Great Yarmouth, , United Kingdom

Princess Alexandra Hospital

Harlow, Essex, , United Kingdom

Leeds University NHS Trust

Leeds, , United Kingdom

James Cook University Hospital,

Middlesbrough, , United Kingdom

Northampton Hospital

Northampton, , United Kingdom

Norfolk and Norwich Hospiital

Norwich, , United Kingdom

Countries

Germany; Ireland; Norway; Portugal; United Kingdom

References

Hunder GG, Bloch DA, Michel BA, Stevens MB, Arend WP, Calabrese LH, Edworthy SM, Fauci AS, Leavitt RY, Lie JT, et al. The American College of Rheumatology 1990 criteria for the classification of giant cell arteritis. Arthritis Rheum. 1990 Aug;33(8):1122-8. doi: 10.1002/art.1780330810.

Reference Type: BACKGROUND

PMID: 2202311 (View on PubMed)

Smeeth L, Cook C, Hall AJ. Incidence of diagnosed polymyalgia rheumatica and temporal arteritis in the United Kingdom, 1990-2001. Ann Rheum Dis. 2006 Aug;65(8):1093-8. doi: 10.1136/ard.2005.046912. Epub 2006 Jan 13.

Reference Type: BACKGROUND

PMID: 16414971 (View on PubMed)

Borg FA, Salter VL, Dasgupta B. Neuro-ophthalmic complications in giant cell arteritis. Curr Allergy Asthma Rep. 2008 Jul;8(4):323-30. doi: 10.1007/s11882-008-0052-4.

Reference Type: BACKGROUND

PMID: 18606086 (View on PubMed)

Goodfellow N, Morlet J, Singh S, Sabokbar A, Hutchings A, Sharma V, Vaskova J, Masters S, Zarei A, Luqmani R. Is vascular endothelial growth factor a useful biomarker in giant cell arteritis? RMD Open. 2017 Mar 29;3(1):e000353. doi: 10.1136/rmdopen-2016-000353. eCollection 2017.

Reference Type: DERIVED

PMID: 28405470 (View on PubMed)

Other Identifiers

ISRCTN46280267

Identifier Type: OTHER

Identifier Source: secondary_id

08/64/01

Identifier Type: -

Identifier Source: org_study_id