Caerphilly Heart Disease Study

The Caerphilly Heart Disease Study is an epidemiological prospective cohort.

The Caerphilly Heart Disease Study, also known as the Caerphilly Prospective Study (CaPS), is an epidemiological prospective cohort, set up in 1979 in a representative population sample drawn from Caerphilly, a typical small town in South Wales, UK.[1]

The initial aim was to examine relationships between a wide range of social, lifestyle, dietary and other factors with incident vascular disease. Opportunity was also taken, in collaboration with a range of clinical and laboratory colleagues, to collect data on a wide range of factors with possible relevance to diseases other than vascular, and at the same time to collect clinical information on incident disease events. The study was initiated by Professor Peter Elwood OBE, Director of the Medical Research Council (MRC) Epidemiology Unit for South Wales. The work has so far led to over 400 publications in the medical press.

History

In 1948, an MRC epidemiological unit was set up in Cardiff, South Wales, under Professor Archie Cochrane. Peter Elwood joined Cochrane in 1963 and together they promoted long-term studies of representative population samples. They also conducted randomised controlled trials to test a variety of clinical hypotheses. Undoubtedly, the most important of their joint studies was a randomised controlled trial of aspirin showing a reduction of vascular mortality.[2]

Professor Peter Elwood and his team set up the Caerphilly Heart Disease Study in 1979.

Reported in the British Medical Journal in 1974, this was the first study to demonstrate a protective role for aspirin in the reduction of death and reinfarction.[3] The British Medical Journal recognised this article as one of the 50 most frequently cited papers published between 1945 and 1989.[4]

Following this trial, Elwood and his research team set up the Caerphilly Heart Disease Study,[1] with their primary focus on vascular disease, and the identification of predictors for platelet activity and thrombosis. Caerphilly was chosen for the work because the population was fairly stable, it had age and social class structures similar to that of the whole UK population, and there was a high incidence of ischaemic heart disease compared with the rest of the UK.

Study design

In 1979, all men aged between 45 and 59 years, who were on the electoral registers and/or general practice lists for Caerphilly and the adjoining villages of Abertridwr, Senghenydd, Trethomas, Bedwas and Machen were invited to co-operate in a long-term health study. 2,512 subjects (89% of the total eligible population) agreed to participate and were examined in Phase 1 (baseline) between July 1979 and September 1983.[1]

Since then, the men have been re-examined seven times (at five-year intervals) with approximately 95% of the surviving men co-operating in each re-examination. Many questions and tests have been repeated, but the opportunity has also been taken to include new questionnaires and tests. In the early phases of the study, samples of fasting blood were collected for extensive testing and long-term storage, and on occasions urine and other biological samples were also taken, and aliquots stored. Thus, while the initial aims of the study focused upon vascular disease, the wealth of data collected has enabled the testing of a large number of hypotheses relevant to other diseases too.

The Caerphilly Study research team, photographed outside the South Wales MRC Unit in Cardiff during the 1980s.

From the start of the study, the term 'Collaborative' was usually added to the title, paying tribute to the many physicians, laboratory technicians and other colleagues, expert in a wide range of clinical and metabolic disciplines, who were actively involved in the work.

Heart disease prevalence is far greater in men than women – therefore women were not included in the study. A far larger sample size would have been required if women had been the focus of the study, and unfortunately, the available resources were not sufficient for this.

The work in Caerphilly was often linked with the Speedwell Study, a similar study operating in nearby Bristol, 60 km away. The survey techniques were similar and a number of questionnaires and biological tests were used in both the studies. This enabled a number of joint reports on vascular disease, and in particular on the relevance of blood lipids, to be based on the five thousand subjects within the two cohorts together.

Funding

Initially, the study was funded by the Medical Research Council and led by Peter Elwood. Following Elwood's retirement in 1995 the study continued under the leadership of Dr John Gallacher (Cardiff University) and Professor Yoav Ben-Shlomo (Bristol University), together with Dr John Yarnell (Queen's University) and Professor Tony Bayer (Cardiff University). Financial support was obtained from the British Heart Foundation and the Alzheimer's Society.

Aims

The Caerphilly Study's research strategy was to identify factors showing an association with vascular disease (and other diseases), and then to test these associations in randomised controlled trials and statisitical analysis.

The Framingham Heart Study, a much earlier cohort study in the USA, had already shown that cholesterol is an important predictive factor for heart disease,[5] and studies of US Veterans had shown that raised blood pressure is a major factor in stroke.[6] The Caerphilly Study re-tested these predictors together with lipid fractions and high-density lipoproteins (total HDL, HDL2 and HDL3).[7] More recently, arterial resistance and its contribution to blood pressure has also been studied within the cohort.[8]

The Caerphilly Study's mobile research unit, parked in the grounds of Caerphilly District Miners' Hospital

The randomised controlled trial of aspirin had shown that blood platelets play a key role in vascular disease.[2] The Caerphilly Study focused on this by developing a large data-bank of platelet testing during the early phases of the study. Platelet collection and analysis was undertaken in close collaboration with Dr John O'Brien, Consultant Haematologist in St Mary's Hospital, Portsmouth, Professor Serge Renaud, a Director of Research in the French National Institute of Health and Medical Research in Lyon, and Professor Rod Flower FRS, then at the University of Bath. The work was done in a specially equipped mobile platelet laboratory, lent to the Caerphilly team by Serge Renaud, and towed by him from INSERM in Lyon, France, to the Miners' Hospital.[9]

Detailed work was also completed on thrombosis and haemostatic factors with the active involvement of John O'Brien and in collaboration with Professor Gordon Lowe, in the Institute of Cardiovascular and Medical Sciences.[10][11][12][13][14]

At baseline, a 1:3 sample (668 men) completed a 7-day weighed dietary intake record. Data on the dietary intake of each subject in the cohort was collected during each phase of the study.

Ten years into the study a detailed package of cognitive function tests were performed by each subject. These tests have been repeated several times[15] and later enabled the evaluation of factors with possible relevance to cognitive decline and dementia.

Major findings

Healthy lifestyles

The Caerphilly Study gave opportunity to study the relationship between lifestyle choices and health in a representative population sample drawn from a typical small town in the UK.[16] The participants were asked detailed questions at baseline and at subsequent examinations about lifestyle behaviours, enabling the men to be classified in terms of five healthy behaviours:


These healthy behaviours displayed significant negative associations with cognitive impairment and dementia, with participant disease outcomes falling as the number of healthy behaviours followed increased. Men who followed four or five of the healthy behaviours during 30 years of follow-up experienced on average a 73% reduction in diabetes, a 67% reduction in vascular disease, a 35% reduction in cancer (attributable to non-smoking alone) and a 64% reduction in cognitive impairment and dementia.[16]

Healthy behaviours are the responsibility of each individual,[17] and <1% of the men in the Caerphilly Study followed all five, with only 5% following four consistently.[16] Comparisons with data collected in the 2009 Welsh Health Survey indicate that while the pattern of behaviours has changed, the proportions of subjects following four or five of the healthy behaviours has scarcely altered over the past 30 years.[18]

The Caerphilly Study estimated the likely effect of increased healthy living within the community by supposing that each man in the Caerphilly cohort had each been urged at the start of the study in 1979 to adopt just one additional healthy behaviour. If only half of them had complied, then over the following 30 years 12% fewer would have developed diabetes; 6% fewer would have had a vascular disease event; 13% fewer would have developed dementia; and there would have been 5% fewer deaths.[16] A video summarising this work is available on YouTube.[19]

Cognitive function

Participants were asked to obtain from a close female relative the details of their own birth weight and how they had been fed as infants. Over half of the men obtained these details, and results showed that having been breast fed conferred some protection against the loss of cognitive function later in life, particularly in those whose birth weight had been low.[20]

Smoking, alcohol intake and leisure activities are lifestyle factors which were found to be predictive of cognitive function.[21] Significant associations were also between cognitive function and blood rheology and negative associations with both haematocrit and plasma viscosity, but not with the thrombotic potential of blood, as indicated by fibrinogen level.[22] These relationships appear to be direct, and not through underlying long-term disease processes. Sleep pattern, and in particular severe daytime sleepiness, was also predictive of vascular dementia.[23]

In diabetic subjects, it was found that poor control of blood sugar was associated with a lower cognitive function, and diabetes per se, but none of the components of metabolic syndrome, other than high blood pressure, were predictive of worse cognition.[24] Hearing loss was also found to be predictive of later cognitive impairment and incident dementia.[25]

Platelets and thrombosis

The main objective of the work on platelets was to identify an aspect of platelet morphology or activity with predictive power for incident vascular disease, which could be developed as a screening test to identify subjects at high risk of a vascular event. In addition to number and size of the platelets, three tests of platelet aggregation were performed, several being repeated after five years. A stressed template bleeding time test was also performed on each man.

No prediction for heart disease was shown by any aspect of platelet morphology nor any platelet test, nor by the bleeding time test. An unexpected finding was that the men who had had the most active platelets in two tests, based on platelet rich plasma and whole blood, had the lowest subsequent risk of an incident ischaemic stroke.[26]

Diet and dietary items

Detailed analyses of the dietary data identified a number of food items related to vascular disease risk. The consumption of fatty fish was associated with lower levels of blood lipids,[27] and a reduction in vascular disease mortality was confirmed in a randomised trial.[28]

Milk consumption was found to be associated with a small reduction in the metabolic syndrome,[29] and reductions in ischaemic heart disease, ischaemic stroke and diabetes,[30] and these findings were confirmed in later overviews and meta-analyses.[31] A reduction in blood pressure associated with milk consumption is well recognised, but new work in Caerphilly also identified a reduction in arterial stiffness associated with milk consumption.[8]

The consumption of fruit and vegetables was shown to be positively associated with blood antioxidant levels.[32] Detailed work with Serge Renaud on platelet activity showed a beneficial relationship between a low alcohol consumption and platelet aggregation, but an enhanced response to thrombin with binge drinking, confirming previous work in animals.[33]

Sleep

A detailed questionnaire of sleep pattern was included in one of the re-examinations of the men. In addition to the association with cognitive function already mentioned,[23] there was evidence of an increase in ischaemic stroke in men whose sleep is frequently disturbed, and an association between daytime sleepiness and a significant increase in ischaemic heart disease.[34]

Other studies

Many analyses of foods and dietary factors were conducted, as well as an examination of Helicobacter pylori and other infections, and vascular disease risk.[35][36][37] A reduction in vascular disease mortality was found in those subjects most sexually active.[38] Relationships between vascular disease and psychiatric symptoms,[39][40] noise exposure,[41][42] and hearing loss[25] were also identified.

References

  1. 1 2 3 "Caerphilly and Speedwell collaborative heart disease studies. The Caerphilly and Speedwell Collaborative Group". Journal of Epidemiology and Community Health 38 (3): 259–62. September 1984. doi:10.1136/jech.38.3.259. PMC 1052363. PMID 6332166.
  2. 1 2 Elwood P (November 2006). "The first randomized trial of aspirin for heart attack and the advent of systematic overviews of trials". Journal of the Royal Society of Medicine 99 (11): 586–8. doi:10.1258/jrsm.99.11.586. PMC 1633560. PMID 17082305.
  3. Elwood PC, Cochrane AL, Burr ML, et al. (March 1974). "A randomized controlled trial of acetyl salicylic acid in the secondary prevention of mortality from myocardial infarction". British Medical Journal 1 (5905): 436–40. doi:10.1136/bmj.1.5905.436. PMC 1633246. PMID 4593555.
  4. Dixon B (October 1990). "The 'top 50': a perspective on the BMJ drawn from the Science Citation Index". BMJ 301 (6754): 747–51. doi:10.1136/bmj.301.6754.747. PMC 1664071. PMID 2224253.
  5. Mahmood SS, Levy D, Vasan RS, Wang TJ (March 2014). "The Framingham Heart Study and the epidemiology of cardiovascular disease: a historical perspective". Lancet 383 (9921): 999–1008. doi:10.1016/S0140-6736(13)61752-3. PMID 24084292.
  6. Freis ED (1974). "The Veterans Administration cooperative study on antihypertensive agents. Implications for stroke prevention". Stroke 5 (1): 76–7. doi:10.1161/01.STR.5.1.76. PMID 4811316.
  7. Sweetnam PM, Bolton CH, Yarnell JW, et al. (August 1994). "Associations of the HDL2 and HDL3 cholesterol subfractions with the development of ischemic heart disease in British men. The Caerphilly and Speedwell Collaborative Heart Disease Studies". Circulation 90 (2): 769–74. doi:10.1161/01.CIR.90.2.769. PMID 8044946.
  8. 1 2 Livingstone KM, Lovegrove JA, Cockcroft JR, Elwood PC, Pickering JE, Givens DI (January 2013). "Does dairy food intake predict arterial stiffness and blood pressure in men?: Evidence from the Caerphilly Prospective Study". Hypertension 61 (1): 42–7. doi:10.1161/HYPERTENSIONAHA.111.00026. PMID 23150503.
  9. Elwood PC, Renaud S, Sharp DS, Beswick AD, O'Brien JR, Yarnell JW (January 1991). "Ischemic heart disease and platelet aggregation. The Caerphilly Collaborative Heart Disease Study". Circulation 83 (1): 38–44. doi:10.1161/01.CIR.83.1.38. PMID 1984896.
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  11. Lowe GD, Yarnell JW, Sweetnam PM, Rumley A, Thomas HF, Elwood PC (January 1998). "Fibrin D-dimer, tissue plasminogen activator, plasminogen activator inhibitor, and the risk of major ischaemic heart disease in the Caerphilly Study". Thrombosis and Haemostasis 79 (1): 129–33. PMID 9459337.
  12. Rumley A, Lowe GD, Sweetnam PM, Yarnell JW, Ford RP (April 1999). "Factor VIII, von Willebrand factor and the risk of major ischaemic heart disease in the Caerphilly Heart Study". British Journal of Haematology 105 (1): 110–6. doi:10.1111/j.1365-2141.1999.01317.x. PMID 10233372.
  13. Yarnell JWG, Sweetnam PM, Rumley A, Lowe GDO (2001). "Lifestyle factors and coagulation activation markers: the Caerphilly study". Blood Coag and Fibrinolysis 12 (8): 721–8. doi:10.1097/00001721-200112000-00015. PMID 11734674.
  14. Lowe GD, Rumley A, Sweetnam PM, Yarnell JW, Rumley J (September 2001). "Fibrin D-dimer, markers of coagulation activation and the risk of major ischaemic heart disease in the caerphilly study". Thrombosis and Haemostasis 86 (3): 822–7. PMID 11583314.
  15. Fish M, Bayer AJ, Gallacher JE, et al. (2008). "Prevalence and pattern of cognitive impairment in a community cohort of men in South Wales: methodology and findings from the Caerphilly Prospective Study". Neuroepidemiology 30 (1): 25–33. doi:10.1159/000115439. PMID 18259098.
  16. 1 2 3 4 Elwood P, Galante J, Pickering J, et al. (2013). "Healthy lifestyles reduce the incidence of chronic diseases and dementia: evidence from the caerphilly cohort study". PLOS ONE 8 (12): e81877. doi:10.1371/journal.pone.0081877. PMC 3857242. PMID 24349147.
  17. Elwood P, Longley M (September 2010). "My health: whose responsibility? A jury decides". Journal of Epidemiology and Community Health 64 (9): 761–4. doi:10.1136/jech.2009.087767. PMID 19897471.
  18. Welsh Health Survey 2009, Welsh Government (2010)
  19. http://www.youtube.com/watch?v=U6Uj6K9MFKg&feature=youtu.be[][]
  20. Elwood PC, Pickering J, Gallacher JE, Hughes J, Davies D (February 2005). "Long term effect of breast feeding: cognitive function in the Caerphilly cohort". Journal of Epidemiology and Community Health 59 (2): 130–3. doi:10.1136/jech.2004.022913. PMC 1732991. PMID 15650144.
  21. Elwood PC, Gallacher JE, Hopkinson CA, et al. (January 1999). "Smoking, drinking, and other life style factors and cognitive function in men in the Caerphilly cohort". Journal of Epidemiology and Community Health 53 (1): 9–14. doi:10.1136/jech.53.1.9. PMC 1756770. PMID 10326046.
  22. Elwood PC, Pickering J, Gallacher JE (March 2001). "Cognitive function and blood rheology: results from the Caerphilly cohort of older men". Age and Ageing 30 (2): 135–9. doi:10.1093/ageing/30.2.135. PMID 11395343.
  23. 1 2 Elwood PC, Bayer AJ, Fish M, Pickering J, Mitchell C, Gallacher JE (September 2011). "Sleep disturbance and daytime sleepiness predict vascular dementia". Journal of Epidemiology and Community Health 65 (9): 820–4. doi:10.1136/jech.2009.100503. PMID 20675705.
  24. Gallacher JE, Pickering J, Elwood PC, Bayer AJ, Yarnell JW, Ben-Shlomo Y (2005). "Glucoregulation has greater impact on cognitive performance than macro-vascular disease in men with type 2 diabetes: data from the Caerphilly study". European Journal of Epidemiology 20 (9): 761–8. doi:10.1007/s10654-005-2146-9. PMID 16170659.
  25. 1 2 Gallacher J, Ilubaera V, Ben-Shlomo Y, et al. (October 2012). "Auditory threshold, phonologic demand, and incident dementia". Neurology 79 (15): 1583–90. doi:10.1212/WNL.0b013e31826e263d. PMID 23019269.
  26. Elwood PC, Beswick A, Pickering J, et al. (May 2001). "Platelet tests in the prediction of myocardial infarction and ischaemic stroke: evidence from the Caerphilly Prospective Study". British Journal of Haematology 113 (2): 514–20. doi:10.1046/j.1365-2141.2001.02728.x. PMID 11380425.
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  32. Strain JJ, Elwood PC, Davis A, et al. (November 2000). "Frequency of fruit and vegetable consumption and blood antioxidants in the Caerphilly cohort of older men". European Journal of Clinical Nutrition 54 (11): 828–33. doi:10.1038/sj.ejcn.1601101. PMID 11114676.
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  34. Elwood P, Hack M, Pickering J, Hughes J, Gallacher J (January 2006). "Sleep disturbance, stroke, and heart disease events: evidence from the Caerphilly cohort". Journal of Epidemiology and Community Health 60 (1): 69–73. doi:10.1136/jech.2005.039057. PMC 2465538. PMID 16361457.
  35. Strachan DP, Mendall MA, Carrington D, et al. (September 1998). "Relation of Helicobacter pylori infection to 13-year mortality and incident ischemic heart disease in the caerphilly prospective heart disease study". Circulation 98 (13): 1286–90. doi:10.1161/01.CIR.98.13.1286. PMID 9751676.
  36. Strachan DP, Carrington D, Mendall M, Butland BK, Yarnell JW, Elwood P (February 2000). "Chlamydia pneumoniae serology, lung function decline, and treatment for respiratory disease". American Journal of Respiratory and Critical Care Medicine 161 (2 Pt 1): 493–7. doi:10.1164/ajrccm.161.2.9904055. PMID 10673191.
  37. Strachan DP, Carrington D, Mendall MA, Butland BK, Sweetnam PM, Elwood PC (March 1999). "Cytomegalovirus seropositivity and incident ischaemic heart disease in the Caerphilly prospective heart disease study". Heart 81 (3): 248–51. doi:10.1136/hrt.81.3.248. PMC 1728973. PMID 10026345.
  38. Ebrahim S, May M, Ben Shlomo Y, et al. (February 2002). "Sexual intercourse and risk of ischaemic stroke and coronary heart disease: the Caerphilly study". Journal of Epidemiology and Community Health 56 (2): 99–102. doi:10.1136/jech.56.2.99. PMC 1732071. PMID 11812807.
  39. Stansfeld SA, Sharp DS, Gallacher JE, Yarnell JW (November 1992). "A population survey of ischaemic heart disease and minor psychiatric disorder in men". Psychological Medicine 22 (4): 939–49. doi:10.1017/s0033291700038514. PMID 1488489.
  40. May M, McCarron P, Stansfeld S, et al. (January 2002). "Does psychological distress predict the risk of ischemic stroke and transient ischemic attack? The Caerphilly Study". Stroke; a Journal of Cerebral Circulation 33 (1): 7–12. doi:10.1161/hs0102.100529. PMID 11779881.
  41. Stansfeld S, Gallacher J, Babisch W, Shipley M (August 1996). "Road traffic noise and psychiatric disorder: prospective findings from the Caerphilly Study". BMJ 313 (7052): 266–7. doi:10.1136/bmj.313.7052.266. PMC 2351704. PMID 8704537.
  42. Babisch W, Ising H, Elwood PC, Sharp DS, Bainton D (1993). "Traffic noise and cardiovascular risk: the Caerphilly and Speedwell studies, second phase. Risk estimation, prevalence, and incidence of ischemic heart disease". Archives of Environmental Health 48 (6): 406–13. doi:10.1080/00039896.1993.10545962. PMID 8250592.
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