Successful Ageing

As I am discovering, ageing is an inevitable process. However what can you do to keep as healthy as possible in order to get the most out of life?

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If you are a Masters athlete, you will know that moving into these age groups means it is advisable to change training emphasis in order to prevent injury and compete successfully. As discussed at the recent conference Royal Society of Medicine on Sports Injuries and Sports Orthopaedics, during the session on “The Ageing Athlete”, older athletes need a longer dynamic warm up with controlled mobilisation and muscle activation, together with strength and conditioning sessions to prevent injury. Moving into next age group every five years gives the opportunity to assess and modify training accordingly.

Childhood development has an impact on long term adult health. Essentially the most rapid changes and potential peaks attained during childhood and adolescence reflect optimal physical and cognitive functioning in later life. The evidence from population cohort studies was presented by Professor Diana Kuh, director of MRC Unit for Lifelong Health and Ageing, at the recent conference at the Royal Society of Medicine. Up to 66% of the decline in functional ability in ageing adults is related to childhood development. In the case of pubertal timing, Professor Kuh described that delay causes 20% reduction of volumetric trabecular bone accrual. In my 3 year longitudinal study of 87 pre and post pubertal girls, high levels of training delayed menarche and blunted attainment of peak bone mass (PBM). Conversely an optimal level of training did not delay menarche and improved bone mineral density compared to age marched sedentary controls. A similar long term effect is seen in older female athletes who have experienced amenorrhoea of more than 6 months duration. Even after retirement and resumption of menses pre-menopause, irreversible loss of bone mineral density (BMD) is seen. Professor Kuh argued for specific and personalised recommendations to individuals to support successful ageing.

From a personalised medical perspective, what about hormonal changes associated with ageing? Although in men testosterone levels decline with age, nevertheless the change is more dramatic in women at menopause where the ovaries stop producing oestrogen and progesterone. This results in increased risk after the menopause of osteoporosis, cardiovascular disease and stroke, together with other vasomotor symptoms and mood changes. With increased life expectancy comes an increasing number of women with menopausal symptoms and health issues which can negatively impact on quality of life. What about hormone replacement therapy (HRT)? HRT improves menopausal symptoms and reduces the risk of post menopausal long term health problems, provided HRT is started within ten years after the menopause. After this window of opportunity replacement oestrogen can actually accelerate cell damage. As with any medical treatment there will be those for whom HRT is contra-indicated. Otherwise the risk:benefit ratio for each individual has to be weighed up so that women can arrive at an informed decision. Regarding the risk of breast cancer, this is increased by 4 cases per 1,000 women aged 50-59 years on combined HRT. This compares to an additional 24 cases in women who have body mass index (BMI)>30 and are not on HRT. This underlines the important of lifestyle which is crucial in all areas of preventative medicine.

What type of HRT has the most favourable risk:benefit ratio? Oral preparations undergo first pass metabolism in the liver, so other routes of delivery such as transdermal may be preferred. There is also an argument that hormones with identical molecular structure are preferable to bio-similar hormones. What functional effect could a slight difference in sex steroid structure have? For example no methyl group and a side chain with hydroxyl group (C-OH) rather than a carbonyl group (C=O)? That is the difference between oestradiol and  testosterone.

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Testosterone
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Oestradiol

In the case of hormones with identical molecular structure to those produced endogenously, there are no potential unwanted side effects or immunogenic issues as the molecule is identical to that produced by the body. Although the oestradiol component in most HRT preparations in the UK has an identical molecular structure to endogenous oestradiol, there is only one licensed micronised progesterone preparation that is has an identical molecular structure. Synthetic, bio-similar progestins have additional glucocorticoid and androgenic effects compared to molecular identical progesterone which exerts a mild anti-mineralocorticoid (diuretic) effect.

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Progesterone
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Norethisterone (synthetic progestin)

With an increasing ageing population and increase in life expectancy, it is important to support successful ageing and quality of life with a personalised and specific approach.

For further discussion on Endocrine and Metabolic aspects of SEM come to the BASEM annual conference 22/3/18: Health, Hormones and Human Performance

References

Conference Royal Society of Medicine 17/1/17 “Sports Injuries and Sports Orthopaedics” Session on “The Ageing Athlete”

Optimal health: especially young athletes! Part 3 Consequences of Relative Energy Deficiency in sports Dr N. Keay, British Association Sport and Exercise Medicine

From population based norms to personalised medicine: Health, Fitness, Sports Performance Dr N. Keay, British Journal of Sport Medicine 22/2/17

Optimal health: including female athletes! Part 1 Bones Dr N. Keay, British Journal of Sports Medicine

Bio-identical hormone replacement therapy course. Marion Gluck Training Academy 27/1/17

The British Menopause Society

Royal College of Obstetricians and Gynaecologists 

Sleep for Health and Sports Performance

“Sleep.. chief nourisher in life’s feast,” Macbeth.

In my blog for British Association of Sport and Exercise Medicine, I described improving sport performance by balancing the adaptive changes induced by training together with the recovery strategies to facilitate this, both in the short and long term.  alec0120-12x17

A recovery strategy which is vital in supporting both health and sport performance, during all stages of the training cycle is sleep.

Sufficient sleep is especially important in young athletes for growth and development and in order to support adaptive changes stimulated by training and to prevent injury. Amongst teenage athletes, studies have shown that a lack of sleep is associated with higher incidence of injury. This may be partly due to impaired proprioception associated with reduced sleep. Sleep is vital for consolidating neurological function and protein synthesis, for example in skeletal muscle. Sleep and exercise are both stimuli for growth hormone release from the anterior pituitary, which mediates some of these adaptive effects.

Lack of sleep can also interfere with functioning of the immune system due to disruption of the circadian rhythm of secretion in key areas of the Endocrine system. Athletes in heavy training, with high “stress” loads and associated elevated cortisol can also experience functional immunosuppression. So a combination of high training load and insufficient sleep can compound to disrupt efficient functioning of the immune system and render athletes more susceptible to illness and so inability to train, adapt and recover effectively.  Lack of sleep disrupts carbohydrate metabolism and recently found to suppress expression of genes regulating cholesterol transport. In overreaching training, lack of sleep could be either a cause or a symptom of insufficient recovery. Certainly sleep deprivation impairs exercise performance capacity (especially aerobic exercise) although whether this is due to a psychological, physical or combination effect is not certain.

Sufficient sleep quality and quantity is required for cognitive function, motor learning, and memory consolidation. All skills that are important for sports performance, especially in young people where there is greater degree of neuroplasticity with potential to develop neuromuscular skills. In a fascinating recorded lecture delivered by Professor Jim Horne at the Royal Society of Medicine, the effects of prolonged wakefulness were described. Apart from slowing reaction time, the executive function of the prefrontal cortex involved in critical decision making is impaired. Important consequences not only for athletes, but for doctors, especially for those of us familiar with the on call system in hospitals back in the bad old days. Sleep pattern pre and post concussive events in teenage athletes is found to be related to degree and duration of concussive symptoms post injury. The explanation of how sleep deprivation can cause these functional effects on the brain has been suggested in a study where subtle changes in cerebral neuronal structural properties were recorded. It is not known whether these changes have long term effects.

So given that sleep is essential not only for health and fitness, but to support sports performance, what strategies to maximise this vital recovery process? Use of electronic devices shortly before bedtime suppresses secretion of melatonin (neurotransmitter and hormone), which is a situation not conducive for sleep. Tryptophan is an amino acid precursor in the synthesis of melatonin and serotonin (neurotransmitter) both of which promote sleep. Recent research demonstrates that protein intake before bed can support skeletal and muscle adaptation from exercise and also recovery from tendon injury. Conversely there is recent report that low levels of serotonin synthesis may contribute to the pathogenesis of autoimmune inflammatory disease such as rheumatoid arthritis. This highlights the subtle balance between degree of change required for positive adaptation and a negative over-response, as in inflammatory conditions. This balance is different for each individual, depending on the clinical setting. So maybe time to revisit the warm milky drink before bed? Like any recovery strategy, sleep can also be periodised to support exercise training, with well structured napping during the day as described by Dr Hannah Macleod, member of gold winning Olympic Hockey team.

In conclusion, when you are planning your training cycle, don’t forget that periodised recovery to compliment your schedule should be factored in, with sleep a priority recovery and adaptation strategy.

For further discussion on Endocrine and Metabolic aspects of SEM come to the BASEM annual conference 22/3/18: Health, Hormones and Human Performance

References

Balance of recovery and adaptation for sports performance Dr N. Keay, British Association of Sport and Exercise Medicine

Sleep, Injury and Performance

Keay N. The effects of growth hormone misuse/abuse. Use and abuse of hormonal agents: Sport 1999. Vol 7, no 3, 11-12.

Wallace J, Cuneo R, Keay N, Sonksen P. Responses of markers of bone and collagen turover to exercise, growth hormone (GH) administration and GH withdrawal in trained adult males. Journal of Endocrinology and Metabolism 2000. 85 (1): 124-33.

Sleep and sporting performance

Young people: neuromuscular skills for sports performance

Prolonged sleep restriction induces changes in pathways involved in cholesterol metabolism and inflammatory responses

“Sleepiness and critical decision making”. Recorded lecture Professor Jim Horne, Royal Society of Medicine 16/11/16

What Does Sleep Deprivation Actually Do To The Brain?

Pre-Sleep Protein Ingestion to Improve the Skeletal Muscle Adaptive Response to Exercise Training

Exercise and fitness in young people – what factors contribute to long term health? Dr N. Keay, British Journal of Sports Medicine

Serotonin Synthesis Enzyme Lack Linked With Rheumatoid Arthritis

“Science in Elite Sport” Dr Hannah Macleod, University of Roehampton, 6/12/16

Amina Sana in Corpore Sano

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Barnes Studio

Why not give both your body and brain a workout simultaneously? Recall sequences of steps and translate into movement with musicality and expression. Challenge mind and body by taking a Ballet class. Develop and maintain a healthy mind in a healthy body.

A healthy mind in a healthy body: the WHO (World Health Organisation) defines health as a positive state, incorporating the elements of physical, mental and social health, not simply the absence of disease.

Medical evidence demonstrates that exercise is beneficial for the cardio vascular, respiratory, metabolic, endocrine and musculoskeletal systems. It also enhances wellbeing, through the release of endorphins.

Longer term interaction of physical and mental health is now being reported more in scientific journals and the press. Exercise has a long term positive effect on mental health. Exercise is a modifiable lifestyle factor that can decrease the risk of cognitive decline by 18-30%. The mechanism is thought to be related to blood flow to areas of the brain associated with memory.

Ballet is recommended by American Academy of Orthopaedic Surgeons as an injury prevention strategy for athletes as improves neuromuscular skills, proprioception, muscle tone and muscle dynamics.

Ballet

For further discussion on Endocrine and Metabolic aspects of SEM come to the BASEM annual conference 22/3/18: Health, Hormones and Human Performance

References

http://gpcpd.walesdeanery.org/index.php/welcome-to-motivate-2-move

http://www.businessinsider.com/master-athletes-stopped-exer…

Ballet for Injury Prevention