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Ischaemic heart disease

Primary prevention - There is a clear inverse relationship between physical activity and cardiovascular disease (CVD) which is dose responsive, with the largest benefits occurring moving from no activity to low levels of activity. Additional benefits do occur with higher levels of activity.1 The reduction in cardiovascular mortality is of the order of 20-35%, depending on the level of physical fitness.2

Mechanisms which contribute to this effect from exercise interventions are multiple:3 - 5

Direct cardiovascular effects on the heart

  • Lower heart rate at rest and during exercise

  • Lower blood pressure at rest and during exercise

  • Lower oxygen demand

  • Increased plasma volume

  • Increased stroke volume

  • Increased myocardial oxygen supply

  • Increased myocardial contraction electrical stability

  • Improved vascular endothelial function

  • Decreased blood coagulability

Metabolic effects

  • Increased high density lipids

  • Decreasing harmful low density cholesterol

  • Improved insulin sensitivityIncreased coronary blood flow, coronary collateral vessels and myocardial capillary density

Secondary prevention: in established heart disease, regular adapted exercise is required to reduce mortality, and habitual physical activity has been shown to reduce all-cause mortality by 25-30%.7 The evidence of cardiac rehabilitation if it is used, is associated with a reduction in morbidity, cardiac mortality (26%), hospital readmissions (18%) and improved health-related quality of life.8, 9 Despite this, 50% of adults in the UK having had a cardiac event do not attend cardiac rehabilitation exercise programmes.10

NICE guideline CG172 on Myocardial infarction: cardiac rehabilitation and prevention of cardiovascular disease11 recommend:

  • Offer cardiac rehabilitation programmes designed to motivate people to attend and complete the programme. Explain the benefits of attending

  • Patients should be advised to undertake regular physical activity sufficient to increase exercise capacity

  • They should be advised to be physically active for 20-30 min a day to the point of breathlessness

  • Patients not achieving this should be advised to increase their activity in a gradual step-by-step way, aiming to increase their exercise capacity

  • They should start at a level that is comfortable, and increase the duration and intensity as they gain fitness

  • The benefit of exercise may be enhanced by tailored advice from a suitable qualified professional

contra 1 cardio

Read more: http://www.fyss.se/wp-content/uploads/2018/01/21.-Coronary-artery-disease.pdf

Heart failure

Trials support the evidence of the beneficial effect of physical activity training in patients with stable heart failure in NYHA class I, II and III.12, 14 - 16

Although there is no evidence of increased or decreased all-cause mortality in the short term (up to 12 months), the benefits of exercise have been shown by meta-analysis to:15, 17, 18

  • Physiologically increase VO2 max

  • Functionally increase walking speed and tolerance

  • Significantly reduce hospital admissions

  • Improve quality of life.

In addition, there is an emerging trend towards reducing mortality in trials longer than 1 year.15

NICE guidelines CG 10819 on chronic heart failure recommend:

  • Offer a supervised group exercise-based rehabilitation programme designed for patients with heart failure

  • Patients should be stable and does not have a condition or device that would exclude an exercise-based rehabilitation programme

  • This can be incorporated within an existing cardiac rehabilitation programme

contra 2 cardio 2

Read more: http://www.fyss.se/wp-content/uploads/2018/01/29.-Heart-failure.pdf

Hypertension

The evidence supports an inverse relationship between physical activity and the incidence of hypertension, with inactive individuals who are less active and fit having a 30-50% greater risk of high blood pressure.20 Apart from prevention, it is also effective in treatment with clinically relevant reductions in blood pressure.

  • The acute effect of physical activity causes a decrease in blood pressure lasting 4-10 hours, but may last up to 22 hours; thus, daily activity may achieve clinically significant improvement2, 21

  • For a long-term effect, regular maintenance exercise is required

  • The effect seems to be greatest in those with established hypertension

  • Review data support the observation that physical activity training, with all forms of exercise, in hypertensive patients can show a reduction of 3-10 mmHg in systolic and 2-6 mmHg in diastolic blood pressure respectively22

  • The main recommendation is for aerobic fitness training but dynamic resistance and isometric resistance at moderate intensity training is also beneficial22, 23,24

  • Reductions of this magnitude have important clinical implications

    • They are of a similar magnitude to conventional medication

    • A 2mmHg reduction in systolic blood pressure is associated with reductions of 10% and 7% in the risks of stroke and coronary heart disease respectively 25

NICE guideline CG12726 on Hypertension in adults recommends that appropriate guidance and written or audio-visual materials to promote lifestyle changes are offered.

contra blood pressures

Read more: http://www.fyss.se/wp-content/uploads/2018/01/31.-Hypertension.pdf

 

Pharmacology v physical activity

There is plenty of strong randomized controlled trial data showing reductions in stroke risk in those taking antihypertensive medication.27 There is less evidence that they significantly reduce the risk of all-cause mortality and myocardial infarction, with the exception of thiazide diuretics and angiotensin-converting enzyme inhibitors.28 However, there is strong prospective cohort evidence that regular physical activity can reduce the risks of all-cause mortality and cardiovascular mortality.29

The comparison of the mortality and morbidity risk reduction between long-term antihypertensive medication and physical activity is made below and reinforces of the need for physical activity as a treatment in hypertensive patients.28

Table 1: Mortality and morbidity risk reductions with long-term anti-hypertensive medication and physical activity. 28

Intervention

All-cause mortality

Cardio-vascular   mortality

Myocardial infarction

ACE-I *

10%

19%

NR

Thiazide *

9%

NR

22%

β-blocker *

6% (NS)

NR

8% (NS)

Ca2+ channel blockers *

-6% (NS)

NR

29% (NS)

Regular physical activity (self-reported) #

29%

30%

NR

Regular physical activity (fitness tests) #

41%

57%

NR

NS: Not significant; NR: Not reported. *: Randomised control trials. #: Prospective cohort studies

Lipids

Isolated hypercholesterolaemia and mixed dyslipidaemia with high LDL cholesterol, high triglycerides and low HDL cholesterol are associated with an elevated risk of atherosclerosis.

Aerobic fitness training has been shown to be beneficial in reducing triglycerides30, 31 and elevating the protective HDL cholesterol,32 with some effect in also lowering LDL cholesterol.30

Best results are achieved with regular daily moderate intensity aerobic exercise or vigorous exercise at slightly higher volumes of the present UK guidelines, expending 1200-2000 kcal per week which equates to 360 minutes moderate activity per week. This workload is associated with a 5-8% increase in HDL cholesterol and a decrease in triglycerides of approximately 10%.34 It should still supplement other interventions.

Read more: http://www.fyss.se/wp-content/uploads/2018/01/33.-Lipids.pdf

Peripheral Arterial Disease

Risk factors for peripheral arterial disease (PAD) are similar to cardiovascular disease and are an important marker of overall cardiovascular disease, with about 65% of patients with PAD also having clinically relevant cerebral or coronary artery disease. 34

There is a strong consensus view that physical training in the form of walking is important in the management of peripheral arterial disease. 34 - 37 This is important as the disease responds poorly to pharmacotherapy. 34 Meta-analysis reviews conclude that physical exercise increased the walking distance to the onset of pain by 89.29 m and the maximum walking distance by 108.99 m. 36

Exercise should continue lifelong, with expected improvement in walking distance, higher quality of life and reduced pain. It may also slow the progression of further atherosclerotic disease.

NICE guideline CG 147 on lower limb peripheral artery disease recommend:38

  • Offering a supervised exercise programme to all patients with intermittent claudication.

  • Consider providing a supervised exercise programme which involves

    • 2 hours of supervised exercise a week for a three-month period
    • Encouraging people to exercise to the point of maximal pain

Read more: http://www.fyss.se/wp-content/uploads/2018/01/41.-Peripheral-arterial-disease.pdf

Stroke

Primary prevention: the benefits of physical activity on the prevention of stroke are well documented.2, 12, 39, 40, 41  Risk factors for stroke include hypertension, type 2 diabetes and hyperlipidaemia all of which are beneficially affected by physical activity. It is not surprising then that there is a clear inverse relationship between activity and risk of stroke. It is also clearly dose dependent and depending on the amount of activity, the effect is a 20 - 35% lowering of risk. 42

Secondary prevention: the adverse vascular disease profile of many stroke patients remains after a first stroke and, physical activity should continue to be encouraged. Meta-analysis has shown exercise reduces mortality following a stroke and when compared head to head exercise interventions have also been shown to be more effective than anticoagulants and antiplatelets.43

Treatment: there is a huge variation in the degree of disability after a stroke. Once stabilised, an individualised aerobic fitness training programme can increase the endurance for day to day activities. This can improve self-confidence of patients to take part in physical activity themselves. 44 Similarly, muscle strengthening of the lower limbs has been shown to increase function thereby improving quality of life.41

NICE guidelines CG 16245 on stroke rehabilitation recommend:

Strength training:

  • Consider strength training for people with muscle weakness after stroke

  • Include progressive strength building through increasing repetitions of body weight activities (for example, sit-to-stand repetitions), weights (for example, progressive resistance exercise), or resistance exercise on machines such as stationary cycles

Fitness training:

  • Encourage people to participate in physical activity after stroke

  • Cardiorespiratory and resistance training for people with stroke should be started by a physiotherapist

  • Aim that the person continues the programme independently based on the physiotherapist's instructions

  • Physiotherapists should supply any necessary information about interventions and adaptations so that where the person is using an exercise provider, the provider can ensure their programme is safe and tailored to their needs and goals

Walking therapies:

  • Offer walking training to people after stroke who are able to walk, with or without assistance, to help them build endurance and move more quickly

  • Consider treadmill training as one option of walking training for people after stroke including those who require body support

Read more: http://www.fyss.se/wp-content/uploads/2018/01/47.-Stroke.pdf

Key message: Exercise is an essential part of any treatment plan for a patient with stable cardiovascular disease. It can improve their quality of life, enhance the management of their condition, reduce the risks of cardiac events and lead to fewer hospital admissions and drug prescriptions.

Consider:

1. Auditing your ischaemic heart disease patients to see if they have been offered a cardiac rehabilitation or exercise referral scheme programme.

2. Auditing and monitoring your ischaemic heart disease and hypertensive patients to determine their present physical activity levels.

3. Advise on diagnosis and reviews of the importance of this lifestyle approach for their own well-being.

Benefits for GPs and teams: Reduced admissions, drug costs, appointments and visits.

Signposting to support resources such as those found at:

https://www.bhf.org.uk/heart-health/preventing-heart-disease/staying-active

 

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