- Research article
- Open Access
Current utility of the ankle-brachial index (ABI) in general practice: implications for its use in cardiovascular disease screening
BMC Family Practice volume 15, Article number: 69 (2014)
Peripheral arterial disease (PAD) is a marker of systemic atherosclerosis and associated with a three to six fold increased risk of death from cardiovascular causes. Furthermore, it is typically asymptomatic and under-diagnosed; this has resulted in escalating calls for the instigation of Primary Care PAD screening via Ankle Brachial Index (ABI) measurement. However, there is limited evidence regarding the feasibility of this and if the requisite core skills and knowledge for such a task already exist within primary care. This study aimed to determine the current utility of ABI measurement in general practices across Wales, with consideration of the implications for its use as a cardiovascular risk screening tool.
A self-reporting questionnaire was distributed to all 478 General Practices within Wales, sent via their responsible Health Boards.
The survey response rate was 20%. ABI measurement is primarily performed by nurses (93%) for the purpose of wound management (90%). It is infrequently (73% < 4 times per month) and often incorrectly used (42% out of compliance with current ABI guidance). Only 52% of general practitioners and 16% of nurses reported that patients with an ABI of ≤ 0.9 require aggressive cardiovascular disease risk factor modification (as recommended by current national and international guidelines).
ABI measurement is an under-utilised and often incorrectly performed procedure in the surveyed general practices. Prior to its potential adoption as a formalised screening tool for cardiovascular disease, there is a need for a robust training programme with standardised methodology in order to optimise accuracy and consistency of results. The significance of a diagnosis of PAD, in terms of associated increased cardiovascular risk and the necessary risk factor modification, needs to be highlighted.
Peripheral arterial disease (PAD) is a marker of systemic atherosclerosis and has been associated with a three to six fold increased risk of death from cardiovascular (CV) causes in multiple longitudinal studies . Moreover, existing evidence demonstrates that PAD (both asymptomatic and symptomatic) conveys independent increased risk in addition to that expected by concomitant traditional CV risk factors and disease . However, PAD is typically asymptomatic and under-diagnosed . This has resulted in calls for the instigation of Primary Care PAD screening which would identify those at increased risk and potentially allow alteration of the disease trajectory via secondary risk factor modification . Current guidelines recommend the same strategy of cardiovascular risk management for persons with PAD as for those with coronary artery disease (CAD) [3, 5].
PAD can be diagnosed and also quantified by means of the ankle brachial index (ABI) which involves a comparison of the systolic pressure at the ankle with the systolic pressure at the arm; an ABI of ≤0.9 is considered diagnostic of the disease. The ABI is widely regarded as non-invasive, inexpensive, and easily used in a general practice setting. However, there is limited evidence regarding the feasibility of PAD screening and if the requisite core skills and knowledge for such a task already exist within primary care. Bendermacher et al. considered the workload of screening all patients over the age of 50 in general practices in the Netherlands; they concluded that it was not achievable and suggested a clinical prediction model to determine who should undergo ABI measurement . The Scottish Intercollegiate Guidelines Network (SIGN) state that there is a pool of expertise for measuring the ABI of patients in the community but they do not substantiate this and existing research regarding this issue has produced varying results .
This study aimed to determine the current utility of ABI measurement in general Practices across Wales, including: (i) the occupations of those who perform ABI measurement, (ii) frequency of ABI measurement, (iii) reasons for ABI measurement, (iv) methodology utilised for ABI measurement, (v) prior training for ABI measurement and, (vi) subsequent management of patients found to have PAD.
A self-reporting questionnaire was distributed, via seven health boards, to all general practices within Wales (n = 478); branch practices were not included as staff may work at both main and branch practices which may have resulted in duplication of results. Questionnaires were sent to practice managers and an accompanying letter requested that the survey be passed on to an appropriate person for completion.
Guidelines for the measurement and calculation of the ABI are available from multiple sources [3–5, 7–10]. Whilst some are more explicit than others, they all broadly advocate the same methodology (Table 1). The questionnaire (Additional file 1) was designed by the authors to assess six fundamental points of the guidelines advocated ABI method (detailed in Table 2 along with their associated rationales). The questionnaire was piloted at a local general practice and approved by an independent expert (a Consultant Vascular Surgeon) prior to distribution. It is acknowledged that measurement of the ABI includes more complex components such as the choice of Doppler probe frequency and angulation of Doppler probes to achieve good signals; however, the aim of the survey was to determine if the fundamental underpinnings of correct ABI measurement exist.
As general practice survey response rates are often low , several strategies were employed in an attempt to address this issue: the questionnaire was designed to be minimally time consuming with predominantly close-ended, tick box questions, with a pre-paid return envelope included. Returned questionnaires were entered into a prize draw (a £50 gift voucher for each heath board).
This study did not require ethical approval (according to the UK Health Research Authority guidance). However, approval to distribute the questionnaire was obtained from each of the individual health boards and completion of the survey constituted consent.
The overall response rate was 20% (95:478) and ranged from 16-41% across individual health boards: Cwm Taf Health Board 16% (8:50), Aneurin Bevan Health Board 22% (20:91), Cardiff & Vale University Health Board 19% (13:68), Abertawe Bro Morgannwg Health Board 18% (14:77), Betsi Cadwaladr University Health Board 16% (19:119), Powys Teaching Health Board 41% (7:17), Hywel Dda Health Board 25% (14:56). Thirty per cent (27:95) of returned surveys were completed by GPs, 6% (6:95) by nurse practitioners, 34% (32:95) by practice nurses and 5% (5:95) by district nurses. The remaining 25% were completed as a collaboration between GPs and nursing staff.
Twenty seven per cent (26:95) of responding general practices were not undertaking ABI measurement, with patients needing this procedure often being referred to secondary care. Other practices relied on their district nursing colleagues (who, in Wales, are not generally based within general practices) to undertake the task.
The majority of practices reported performing ABI measurements relatively infrequently at less than four times a month (73%) (Figure 1). Respondents were asked to indicate if there were any other reasons, besides the presence of signs and symptoms of lower limb arterial insufficiency, which would cause them to undertake or request ABI measurement. Whilst the management of lower limb oedema and leg ulceration/wounds accounted for 90% of responses to this question, it was interesting to note that 6% reported utilising the ABI in a screening capacity (Figure 2).
General practitioners (GPs) were the least likely occupational group to undertake ABI measurement. They were also the least likely to: (i) consider themselves, or be considered by colleagues, to be competent at ABI measurement, (ii) have received formal training for ABI measurement, and (iii) be compliant with current guidelines for ABI measurement (Table 3). Conversely, practice nurses were the most likely to perform ABI measurement with 64% having received training for the procedure and 71% of practice nurse survey responders being compliant with ABI measurement guidelines. In general, nurses were much more likely to have received training for ABI measurement and more likely to be adhering to current ABI guidelines.
There was considerable variation in the method utilised for ABI measurement and calculation. Only 58% of general practices undertaking ABI measurements were found to be compliant with current guidelines for the procedure. Figure 3 illustrates the proportion of survey responses which successfully progressed through each of the methodology assessment points as described in Table 2. Eighteen per cent of practices reported not resting their patients in the supine position prior to ABI measurement. Lack of time was the primary reason for not doing this (75%), whilst the remaining 25% of respondents thought it was unnecessary. Five per cent of respondents reported utilising the Korotkoff method to measure the brachial systolic pressure with a further 2% reportedly using automated blood pressures devices. Furthermore, 13% of respondents said that they would measure the brachial systolic pressure in one arm only. Thirty three per cent of respondents reported not calculating ABI’s according to current guidance. In 17% of cases, this was because only one brachial pressure and/or only one ankle pressure had been measured. A further 12% reported using the lower of the ankle and/or brachial pressures, whilst the remaining 4% used the average of the ankle and/or brachial pressures when calculating the index.
A large proportion of respondents reported difficulty in (i) locating pulses in the foot/ankle (59%), and (ii) maintaining the position of the Doppler probe whilst inflating the blood pressure cuff (33%). The survey provided opportunity to expand on these issues and 9% of respondents (all of which were nurses) independently stated that they addressed these problems by utilising another health professional to assist with the procedure.
Seventy six per cent (28:37) of respondents who were in compliance with current guidelines for ABI measurement reported having received formal training for the procedure. Accordingly, 73% (38:52) of respondents who were not in compliance with current guidelines had not received any formal training.
Training originated from a variety of sources with Tissue Viability Nurses/Wound Care Practitioners accounting for the largest proportion (41%). Eighty two per cent of respondents who received training from these clinical nurse specialists reporting measuring ABI’s in accordance with current guidance. Training via specialist clinics or as part of a formalised course also appears effective in achieving compliance with guidelines (Figure 4). Five per cent of respondents expressed their frustration at a lack of refresher or update ABI education/courses to enable them to maintain their competency in the procedure.
Respondents were asked to indicate any medical management which they would instigate or expect to be instigated for patients who were found to have PAD. Twenty nine per cent referred to “aggressive” cardiovascular risk factor modification such as commencing antiplatelets, control of hypertension and hyperlipidaemia in combination with lifestyle advice; this is in line with current guidance issued by the European Society of Cardiology (ESC) and National Institute of Clinical Excellence (NICE) [3, 5]. A further 8% mentioned a lesser degree of cardiovascular risk modification involving only lifestyle factors such as encouraging smoking cessation and exercise. GPs were more likely to have mentioned cardiovascular disease risk factor modification than nurses (56% versus 16%).
Results indicate that ABI measurement is very much a nursing task which is, at present, mainly performed for the purpose of wound management rather than for cardiovascular risk assessment. It is only utilised at approximately three quarters of respondents from general practices in Wales and those that do utilise it, do so on an infrequent basis. According to a literature review conducted by Sihlangu & Bliss , this raises issues of competency as studies have demonstrated greater variability in ABI’s when measured by less experienced practitioners [26, 27]. In addition, this survey found that a large proportion of respondents experienced difficulties with the skilled or technical aspects of the procedure such as locating ankle pulses and maintaining the position of the Doppler probe, and it is possible that these difficulties were also related to inexperience. A survey by Mohler et al. found that primary care staff reported increased use of the ABI following their participation in a PAD/ABI training programme . However, the survey was completed 1-3 months following programme completion so it is not known if this increase would have been sustained over a longer time period. This survey found that reported use of the ABI was low regardless of whether training had been received or not.
Aboyans and colleagues recently highlighted that a lack of standardised ABI methodology is likely to have significant clinical, public health and economic repercussions . They subsequently released a scientific statement setting out an evidence based, recommended procedure for ABI measurement and interpretation ; this concurs with the methodology assessed by this survey. The clinical rationale for standardisation arises from the fact that the majority of studies demonstrating the association between low ABI and CV risk, have used this recommended methodology and it is not known if this would differ with alternative methods.
This survey has found that deviations from the guideline advocated method of ABI measurement are commonplace and two inter-related factors have emerged as important with regard to this. The first concerns the time it takes to perform the measurement, as the majority of deviations could be attributed to attempts to reduce this. Not resting patients prior to measurement, using automated blood pressure monitors, measuring the brachial pressure in one arm only and assessing only one ankle pulse all equate to a reduction in the time it takes to perform the test. Mohler et al.  and Bendermacher  found that lack of time was a barrier to the use of the ABI in primary care. This issue is further compounded by the fact that the procedure sometimes requires two health care personnel. Results indicate that GPs are more likely to resort to these time saving strategies and this is not surprising considering that their allocated time for a complete patient consultation is often only 10 minutes.
The second factor concerns training, with those who had undergone specialised training for the procedure being much more likely to be adhering to the guidelines advocated method. Hence, it appears that training successfully educates practitioners regarding the importance of not “cutting corners” at the expense of the accuracy of results. Mohler et al. found that a targeted educational initiative can have significant impact on the use of the ABI in clinical practice which could offer dramatic benefits to improve PAD diagnosis .
Management of PAD patients
The under treatment of PAD patients has been well documented; the global Reach Registry demonstrated that patients with PAD were significantly less likely to be at target blood pressure, cholesterol and glucose levels in comparison to patients with coronary artery disease or cerebrovascular disease . The recent publication of PAD guidelines by various organisations [3, 5] and the addition of PAD indicators to the 2012/13 Quality and Outcomes Framework  in the UK may have served to increase awareness and improve the treatment of PAD. In addition, general practice computer software systems in the UK, such as EMIS (Egton Medical Information Systems), now generate pop-up reminders to consider aspirin, check BP and cholesterol when coding a new diagnosis of peripheral arterial disease. It is difficult to establish if data from this survey represent improved medical management of PAD patients. It is clear however, that the large majority of nurses who responded to the survey consider the ABI only in terms of its repercussions for leg ulcer/wound management and are unaware of its association with increased cardiovascular risk.
How this fits in
The global perspective of PAD screening is far from definitive; it is not universally advocated across international guidelines, and there is no consensus regarding who should be targeted. According to the United States Preventive Services Task Force  there is insufficient evidence to recommend PAD screening and this is based on a lack of randomised control trials of PAD screening versus no screening. Additionally, whilst some countries now offer remuneration for ABI measurement in Primary Care (e.g. the Netherlands, Australia), this is not the case in the UK or USA.
This survey has identified that a further potential issue of PAD screening relates to ABI measurement as the recommended screening tool. Its underutilisation and often incorrect use within general practice appears to be related to lack of time, but also suggests a current knowledge and skills deficit.
Study strengths and limitations
The response rate was low but not atypical, as published medical practitioners response rates are often lower than 30% [31, 32]. Mohler et al. utilised a survey to assess the utility and barriers to the use of the ABI in primary care practice. Primary care staff (physician and non-physicians) that had one month previously undergone a PAD and ABI preceptorship programme were either given or mailed the survey. It could be assumed that this participation in an educational programme would have served to raise awareness of the relevance of the survey and yet the response rate was still only 24% . Nevertheless, the possibility of response bias needs to be borne in mind when considering results of this survey. It is possible that those who do not utilise the ABI may have been less likely to complete the survey and hence its use may be over-estimated. Furthermore, the small number of nurse practititoner and district nurse respondents means that results relating to these occupational groups may be less representative of the professions as a whole. These limitations acknowledged, this survey is, to the authors’ knowledge, the only assessment of the utility of the ABI in the UK. Representation from both nurses and physicians from general practices in all areas of Wales has been achieved.
This study targeted primary care practitioners that were based within general practices as it is here that screening strategies are likely to be undertaken. It is acknowledged that ABI skills and knowledge exist in other sectors of primary care such as district nursing teams and podiatry for example. In addition, the usual validity concerns regarding self-reported behaviour in surveys apply and issues such the accuracy and reproducibility of ABI measurements have not been addressed. Hence these two points provide a focus for future research.
ABI measurement is an under-utilised and often incorrectly performed procedure in the surveyed general practices; lack of time and inadequate training have been identified as factors associated with this finding. Previous research undertaken in the USA  and the Netherlands  made remarkably similar conclusions hence demonstrating that these identified issues are historically problematic and not confined to Wales and the UK.
Prior to the potential adoption of the ABI as a formalised screening tool for cardiovascular disease, there is a need for a robust training programme with standardised methodology in order to optimise accuracy and consistency of results. ABI Training programmes should include the methodological requirements for accurate and reproducible ABI measurement, as well as the theoretical basis and limitations of the test. The subsequent implications of a reduced ABI with regard to cardiovascular risk also need to be highlighted.
This study was undertaken as part of JHD’s PhD which is being undertaken at the University of South Wales. EMW is JHD’s director of studies. JK is Professor of Primary Care at the University of South Wales and is also part of JHD’s supervisory team.
Ankle brachial Index
Coronary artery disease
Peripheral arterial disease
Egton Medical Information Systems Limited.
Fowkes FGR, Murray GD, Butcher I, Heald CL, Lee RJ, Chambless LE, Folsom AR, Hirsch AT, Dramaix M, De Backer G, Wautrecht JC, Kornitzer M, Newman AB, Cushman M, Sutton-Tyrrell K, Lee AJ, Price JF, D’Agostino RB, Murabito JM, Norman PE, Jamrozik K, Curb JD, Masaki KH, Rodriguez BL, Dekker JM, Bouter LM, Heine RJ, Nijpels G, Stehouwer CD, Ferrucci L, et al: Ankle brachial index combined with Framingham risk score to predict cardiovascular events and mortality: a meta-analysis. JAMA. 2008, 300 (2): 197-208.
Heald CL, Fowkes FGR, Murray GD, Price JF: Risk of mortality and cardiovascular disease associated with the ankle-brachial index: systematic review. Atherosclerosis. 2006, 189 (1): 61-69. 10.1016/j.atherosclerosis.2006.03.011.
Tendera M, Aboyans V, Bartelink ML, Baumgartner I, Clement D, Collet JP, Cremonesi A, De Carlo M, Erbel R, Fowkes FG, Heras M, Kownator S, Minar E, Ostergren J, Poldermans D, Riambau V, Roffi M, Rother J, Sievert H, van Sambeek M, Zeller T, Bax J, Auricchio A, Baumgartner H, Ceconi C, Dean V, Deaton C, Fagard R, Funck-Brentano C, Hasdai D, et al: ESC Guidelines on the diagnosis and treatment of peripheral artery diseases: document covering atherosclerotic disease of extracranial carotid and vertebral, mesenteric, renal, upper and lower extremity arteries * The task force on the diagnosis and treatment of peripheral artery diseases of the European society of cardiology (ESC). Eur Heart J. 2011, 32 (22): 2851-2906.
Norgren L, Hiatt WR, Dormandy JA, Nehler MR, Harris KA, Fowkes FGR, Rutherford RB: Inter-society consensus for the management of peripheral arterial disease. Int Angiol. 2007, 26 (2): 81-157.
National Institute of Clinical Excellence: Lower Limb Peripheral Arterial Disease: Full Guideline CG147. 2012, London: National Clinical Guidance Centre
Bendermacher BLW, Teijink JAW, Willigendael EM, Bartelink M-L, Peters RJG, Langenberg M, Büller HR, Prins MH: Applicability of the ankle-brachial-index measurement as screening device for high cardiovascular risk: an observational study. BMC Cardiovasc Disord. 2012, 12: 59-10.1186/1471-2261-12-59.
Scottish Intercollegiate Guidelines Network: Diagnosis and Management of Peripheral Arterial Disease: A National Clinical Guideline. 2006, Edinburgh: Scottish Intercollegiate Guidelines Network
Hirsch AT, Haskal ZJ, Hertzer NR, Bakal CW, Creager MA, Halperin JL, Hiratzka LF, Murphy WR, Olin JW, Puschett JB, Rosenfield KA, Sacks D, Stanley JC, Taylor LM, White CJ, White J, White RA, Antman EM, Smith SC, Adams CD, Anderson J, Faxon DP, Fuster V, Gibbons RJ, Hunt SA, Jacobs AK, Nishimura R, Ornato JP, Page RL, Riegel B: ACC/AHA 2005 guidelines for the management of patients with peripheral arterial disease (lower extremity, renal, mesenteric, and abdominal aortic): executive summary a collaborative report from the American Association for Vascular Surgery/Society for Vascular Surgery, Society for Cardiovascular Angiography and Interventions, Society for Vascular Medicine and Biology, Society of Interventional Radiology, and the ACC/AHA Task Force on Practice Guidelines (Writing Committee to Develop Guidelines for the Management of Patients With Peripheral Arterial Disease) endorsed by the American Association of Cardiovascular and Pulmonary Rehabilitation; National Heart, Lung, and Blood Institute; Society for Vascular Nursing; TransAtlantic Inter-Society Consensus; and Vascular Disease Foundation. JACC. 2006, 47 (6): 1239-1312. 10.1016/j.jacc.2005.10.009.
The Society for Vascular Technology of Great Britain and Ireland: Physiological Measurement Specifications: Ankle Brachial Pressure Index (ABPI) Measurement and Pre and Post Exercise ABPI. http://www.docstoc.com/docs/155965935/Service-specification-Ankle-Brachial-Pressure-Index-measurement,
Aboyans V, Criqui MH, Abraham P, Allison MA, Creager MA, Diehm C, Fowkes FG, Hiatt WR, Jönsson B, Lacroix P, Marin B, McDermott MM, Norgren L, Pande RL, Preux PM, Stoffers HE, Treat-Jacobsen D: Measurement and interpretation of the ankle-brachial index: a scientific statement from the american heart association. Circulation. 2012, 126 (24): 2890-2909. 10.1161/CIR.0b013e318276fbcb.
Jeelani NU, Braithwaite BD, Tomlin C, MacSweeney ST: Variation of method for measurement of brachial artery pressure significantly affects ankle-brachial pressure index values. Eur J Vasc Endovasc Surg. 2000, 20 (1): 25-28. 10.1053/ejvs.2000.1141.
Heinemann M, Sellick K, Rickard C, Reynolds P, McGrail M: Automated versus manual blood pressure measurement: a randomized crossover trial. Int J Nurs Pract. 2008, 14 (4): 296-302. 10.1111/j.1440-172X.2008.00696.x.
Landgraf J, Wishner SH, Kloner RA: Comparison of automated oscillometric versus auscultatory blood pressure measurement. Am J Cardiol. 2010, 3: 386-388.
Smith FB, Lee AJ, Price JF, van Wijk MCW, Fowkes FGR: Changes in ankle brachial index in symptomatic and asymptomatic subjects in the general population. J Vasc Surg. 2003, 38 (6): 1323-1330. 10.1016/S0741-5214(03)01021-8.
Clark CE, Taylor RS, Shore AC, Ukoumunne OC, Campbell JL: Association of a difference in systolic blood pressure between arms with vascular disease and mortality: a systematic review and meta-analysis. Lancet. 2012, 379 (9819): 905-914. 10.1016/S0140-6736(11)61710-8.
Kornø M, Eldrup N, Sillesen H: Comparison of ankle-brachial index measured by an automated oscillometric apparatus with that by standard Doppler technique in vascular patients. Eur J Vas Endovasc Surg. 2009, 38 (5): 610-615. 10.1016/j.ejvs.2009.07.004.
Nelson MR, Quinn S, Winzenberg TM, Howes F, Shiel L, Reid CM: Ankle-Brachial index determination and peripheral arterial disease diagnosis by an oscillometric blood pressure device in primary care: validation and diagnostic accuracy study. BMJ Open. 2012, 2 (5): e001689-doi.10.1136/bmjopen-2012-001689
Sinski M, Styczynski G, Szmigielski C: Automated oscillometric measurement of the ankle-brachial index in patients with coronary artery disease. Hypertens Res. 2013, 36 (1): 25-28. 10.1038/hr.2012.120.
Takahashi I, Furukawa K, Ohishi W, Takahashi T, Matsumoto M, Fujiwara S: Comparison between oscillometric-and Doppler-ABI in elderly individuals. Vasc Health Risk Manag. 2013, 9: 89-94.
Espinola-Klein C, Rupprecht HJ, Bickel C, Lackner K, Savvidis S, Messow CM, Munzel T, Blankenberg S: Different calculations of ankle-brachial index and their impact on cardiovascular risk prediction. Circulation. 2008, 118 (9): 961-967. 10.1161/CIRCULATIONAHA.107.763227.
Allison MA, Aboyans V, Granston T, McDermott MM, Kamineni A, Ni H, Criqui MH: The relevance of different methods of calculating the ankle-brachial index: the multi-ethnic study of atherosclerosis. Am J Epidemiol. 2010, 171 (3): 368-376. 10.1093/aje/kwp382.
Bhatt DL, Steg PG, Ohman EM, Hirsch AT, Ikeda Y, Mas J-L, Goto S, Liau C-S, Richard AJ, Röther J, Wilson PW: International prevalence, recognition, and treatment of cardiovascular risk factors in outpatients with atherothrombosis. JAMA. 2006, 295 (2): 180-189. 10.1001/jama.295.2.180.
Al-Qaisi M, Nott DM, King DH, Kaddoura S: Ankle brachial pressure index (ABPI): an update for practitioners. Vasc Health Risk Manag. 2009, 5: 833-841.
Bonevski B, Magin P, Horton G, Foster M, Girgis A: Response rates in GP surveys–trialling two recruitment strategies. Aust Fam Physician. 2011, 40 (6): 427-430.
Sihlangu D, Bliss J: Resting Doppler ankle brachial pressure index measurement: a literature review. Br J Community Nurs. 2012, 17 (7): 318-
Kaiser V, Kester AD, Stoffers HE, Kitslaar PJ, Knottnerus JA: The influence of experience on the reproducibility of the ankle-brachial systolic pressure ratio in peripheral arterial occlusive disease. Eur J Vasc Endovasc Surg. 1999, 18 (1): 25-29. 10.1053/ejvs.1999.0843.
Mätzke S, Franckena M, Albäck A, Railo M, Lepäntalo M: Ankle brachial index measurements in critical leg ischaemia–the influence of experience on reproducibility. Scand J Surg. 2003, 92 (2): 144-147.
Mohler ER, Treat-Jacobson D, Reilly MP, Cunningham KE, Miani M, Criqui MH, Hiatt WR, Hirsch AT: Utility and barriers to performance of the ankle-brachial index in primary care practice. Vasc Med. 2004, 9 (4): 253-260. 10.1191/1358863x04vm559oa.
National Institute of Clinical Excellence: Quality and Outcomes Framework, Menu of Indicators. http://www.nice.org.uk/aboutnice/qof/indicators.jsp,
Moyer VA: Screening for peripheral artery disease and cardiovascular disease risk assessment with the ankle-brachial index in adults: U.S. preventive services task force recommendation statement. Ann Intern Med. 2013, 159 (5): 342-348. 10.7326/0003-4819-159-5-201309030-00008.
Grava-Gubins I, Scott S: Effects of various methodologic strategies: survey response rates among Canadian physicians and physicians-in-training. Can Fam Physician. 2008, 54 (10): 1424-1430.
Britt H, Miller G, Bayram C: The quality of data on general practice–a discussion of BEACH reliability and validity. Aust Fam Physician. 2007, 36 (1-2): 36-40.
Nicolaï SP, Kruidenier LM, Rouwet EV, Bartelink ML, Prins MH, Teijink JA: Ankle brachial index measurement in primary care: are we doing it right?. Br J Gen Pract. 2009, 59 (563): 422-427. 10.3399/bjgp09X420932.
The pre-publication history for this paper can be accessed here:http://0-www.biomedcentral.com.brum.beds.ac.uk/1471-2296/15/69/prepub
JHD’s PhD is funded by a Knowledge Economy Skills Scholarship (KESS). This is a major European Convergence programme led by Bangor University on behalf of the HE sector in Wales. Benefiting from European Social Funds (ESF), KESS supports collaborative research projects (in this case, University of South Wales and Huntleigh Healthcare).
The authors thank Mr Kevin Conway, Vascular Surgeon at Prince Charles Hospital, Merthyr Tydfil for reviewing the survey design prior to its distribution.
All authors declare that they have no competing interests.
JHD and EMW designed the study. JK assisted in obtaining permission from Health Boards to distribute the questionnaire. JHD distributed questionnaires, coded responses where necessary and collated results. JHD, JK and EMW interpreted results. JHD and EMW wrote the paper. All authors read and approved the final manuscript.
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Davies, J.H., Kenkre, J. & Williams, E.M. Current utility of the ankle-brachial index (ABI) in general practice: implications for its use in cardiovascular disease screening. BMC Fam Pract 15, 69 (2014). https://0-doi-org.brum.beds.ac.uk/10.1186/1471-2296-15-69
- Peripheral arterial disease
- Doppler ultrasound
- Secondary prevention