Effects of Ageing on Bone: Difference between revisions

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== Clinically Relevant Anatomy<br>  ==


add text here relating to '''''clinically relevant''''' anatomy of the condition<br>  
== Introduction ==
[[File:Older person with osteoporosis.png|thumb|298x298px|Osteoporotic posture]]
As a result of the ageing process, [[bone]] deteriorates in composition, structure and function, which predisposes to [[osteoporosis]].  Bone is a dynamic organ that serves mechanical and homeostatic functions. It undergoes a continual self-regeneration process called remodelling ie removing old bone and replacing it with new bone. Bone formation and  bone resorption is coupled tightly in a balance to maintain bone mass and strength. With aging this balance moves in a negative direction, resulting in greater bone resorption than bone formation. This combination of bone mass deficiency and reduction in strength ultimately results in osteoporosis and [[Insufficiency Fracture|insufficiency fractures]].<ref name=":1">Demontiero O, Vidal C, Duque G. Aging and bone loss: new insights for the clinician. Therapeutic advances in musculoskeletal disease. 2012 Apr;4(2):61-76. Available: https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3383520/ (accessed 2.12.2022)</ref>
== Ageing Bone Dynamics ==
[[File:Bone cells.jpeg|thumb|426x426px|Bone cells]]
As people age the rate of bone resorption by osteoclast cells (multinucleated cells which contain [[mitochondria]] and lysosomes that is responsible for bone resorption) exceeds the rate of bone formation so bone weaken.<ref>https://www.boundless.com/physiology/textbooks/boundless-anatomy-and-physiology-textbook/appendix-b-development-and-aging-of-the-organ-systems-1417/bone-development-1497/bone-tissue-and-the-effects-of-aging-1500-11222/</ref> The reasons for this are multi factorial, including:. 


== Mechanism of Injury / Pathological Process<br> ==
Non-Modifiable Risk Factor  


add text here relating to the mechanism of injury and/or pathology of the condition<br>  
* [[Genetics and Health|Genetics]] eg family history of osteoporosis
* Peak [[Bone Density|bone mass]] accrual in youth
* Alterations in cellular components
* Older than 50 years of age
* [[Multimorbidity|Comorbid]] medical conditions eg [[Hyperthyroidism]], [[Hyperparathyroidism]]
* [[Neonatal Intensive Care Unit (NICU)|Premature birth]]
* [[Hormones|Hormonal]], biochemical and vasculature status eg low levels of estrogen
*[[Sarcopenia]]
*[[Epilepsy|Seizure]] disorder<ref name=":0">Andrew A, Rita A, Dale A. Geriatric Physical Therapy. Third Edition. Elsevier Mosby. 2012</ref>


== Clinical Presentation  ==
Modifiable Risk Factor


add text here relating to the clinical presentation of the condition<br>  
* Nutrition eg [[Hypocalcemia|Calcium intake of less than 1200 mg/day]], Insufficient [[Proteins|protein]] intake, [[Vitamin D Deficiency|Inadequate Vitamin D]] intake, [[Body Mass Index|BMI]] <18.5,
* Physical activity, 
* Drugs eg Excessive intake of [[Alcoholism|alcohol]], Cigarette [[Smoking and Exercise|smoking]]<ref name=":0" /><ref name=":1" />  


== Diagnostic Procedures  ==
== Adverse Effects ==
[[File:Osteoprosis of Spine.jpg|thumb|Osteoprosis of Spine]]The effects of bone structure changes may bring about:


add text here relating to diagnostic tests for the condition<br>  
* Osteoporosis: a major cause of [[Femoral Neck Hip Fracture|hip fractures]] in the elderly, a type of insufficiency fracture
* [[Lumbar Compression Fracture|Spinal Compression Fracture]]: Most occur at the thoracolumbar junction. 40% of the women over 80 years have received at least one compression fracture.<ref>Lumbar Compression [[Lumbar Compression Fracture|Fracture]]</ref>See also [[Osteoporotic Vertebral Fractures]]
* <span style="line-height: 1.5em;">Reduced bone density of the [[Thoracic Vertebrae|vertebrae]]: Combined with the loss of fluid in [[Biomechanics of Lumbar Intervertebral Disc Herniation|intervertebral discs]], result in a curved and shortened spine and possible</span> [[Thoracic Hyperkyphosis|poor posture]], leads to pain, reduced mobility, and other musculoskeletal problems.<ref>http://www.nlm.nih.gov/medlineplus/ency/article/004015.htm</ref><ref>https://medlineplus.gov/ency/article/004015.htm</ref>


== Outcome Measures  ==
=== Prevention ===
[[File:Gym ladies.jpeg|thumb|Ladies gym]]
For more see the informative on prevention, management and physiotherapy for see [[Osteoporosis]]


add links to outcome measures here (see [[Outcome Measures|Outcome Measures Database]])  
# [[Therapeutic Exercise|Exercise]]:  (See also [[Age and Exercise]]) Ageing is associated with reduced physical activity and mechanical loading. Decreased mechanical loading exerts a decreased effect upon osteoblasts.  Functional loading has been shown to improve bone mass in humans. However exercise training programs can prevent or reverse almost 1% of bone loss per year in both lumbar spine (LS) and femoral neck (FN) for both premenopausal and postmenopausal women.<ref name=":1" /> It is important exercise to preserve bone density, however care must be taken to avoid high-impact exercises and exercises that present the risk of falling. Functional loading  exercises include: Weight-bearing exercises e.g. [[Walking: Muscles used|walking]]; [[Strength Training|Strengthening exercises]] using free weights, elastic bands, [[Dumbbell Exercise|dumbbells]] etc.; [[Balance]] exercises e.g. [[Tai Chi and the Older Person|tai chi]]
#[[Nutrition|Diet]]: A healthy diet, including adequate dosage of Vitamin D and Calcium, is also useful for preserving bone mass.  And it is important to limit [[Caffeine and Exercise|coffee]], alcohol and tobacco consumption as they may have deleterious effect on bone mineral  density<ref>http://www.nlm.nih.gov/medlineplus/ency/article/000360.htm</ref><ref>Coronado-Zarco R, de León AO, García-Lara A, Quinzaños-Fresnedo J, Nava-Bringas TI, Macías-Hernández SI. Nonpharmacological interventions for osteoporosis treatment: Systematic review of clinical practice guidelines. Osteoporosis and sarcopenia. 2019 Sep 1;5(3):69-77.</ref>.


== Management / Interventions<br>  ==
== References  ==


add text here relating to management approaches to the condition<br>  
<references />  


== Differential Diagnosis<br>  ==
[[Category:Older_People/Geriatrics]]
 
[[Category:Falls]]
add text here relating to the differential diagnosis of this condition<br>
[[Category:Older People/Geriatrics - Anatomy]]
 
[[Category:Older People/Geriatrics - Conditions]]
== Key Evidence  ==
[[Category:Anatomy]]
 
[[Category:Conditions]]
add text here relating to key evidence with regards to any of the above headings<br>
[[Category:Bone - Conditions]]
 
== Resources <br>  ==
 
add appropriate resources here
 
== Case Studies  ==
 
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== Recent Related Research (from [http://www.ncbi.nlm.nih.gov/pubmed/ Pubmed])  ==
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== References  ==
 
References will automatically be added here, see [[Adding References|adding references tutorial]].
 
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Latest revision as of 12:04, 19 December 2022

Original Editor Oyemi Sillo

Top Contributors - Lucinda hampton, Esraa Mohamed Abdullzaher, Tolulope Adeniji, Oyemi Sillo, Andeela Hafeez, Kim Jackson, Lauren Lopez, Jasrah Javed, Tony Lowe, Scott Buxton and WikiSysop

Introduction[edit | edit source]

Osteoporotic posture

As a result of the ageing process, bone deteriorates in composition, structure and function, which predisposes to osteoporosis. Bone is a dynamic organ that serves mechanical and homeostatic functions. It undergoes a continual self-regeneration process called remodelling ie removing old bone and replacing it with new bone. Bone formation and bone resorption is coupled tightly in a balance to maintain bone mass and strength. With aging this balance moves in a negative direction, resulting in greater bone resorption than bone formation. This combination of bone mass deficiency and reduction in strength ultimately results in osteoporosis and insufficiency fractures.[1]

Ageing Bone Dynamics[edit | edit source]

Bone cells

As people age the rate of bone resorption by osteoclast cells (multinucleated cells which contain mitochondria and lysosomes that is responsible for bone resorption) exceeds the rate of bone formation so bone weaken.[2] The reasons for this are multi factorial, including:.

Non-Modifiable Risk Factor

Modifiable Risk Factor

Adverse Effects[edit | edit source]

Osteoprosis of Spine

The effects of bone structure changes may bring about:

Prevention[edit | edit source]

Ladies gym

For more see the informative on prevention, management and physiotherapy for see Osteoporosis

  1. Exercise: (See also Age and Exercise) Ageing is associated with reduced physical activity and mechanical loading. Decreased mechanical loading exerts a decreased effect upon osteoblasts. Functional loading has been shown to improve bone mass in humans. However exercise training programs can prevent or reverse almost 1% of bone loss per year in both lumbar spine (LS) and femoral neck (FN) for both premenopausal and postmenopausal women.[1] It is important exercise to preserve bone density, however care must be taken to avoid high-impact exercises and exercises that present the risk of falling. Functional loading exercises include: Weight-bearing exercises e.g. walking; Strengthening exercises using free weights, elastic bands, dumbbells etc.; Balance exercises e.g. tai chi
  2. Diet: A healthy diet, including adequate dosage of Vitamin D and Calcium, is also useful for preserving bone mass. And it is important to limit coffee, alcohol and tobacco consumption as they may have deleterious effect on bone mineral density[7][8].

References[edit | edit source]

  1. 1.0 1.1 1.2 Demontiero O, Vidal C, Duque G. Aging and bone loss: new insights for the clinician. Therapeutic advances in musculoskeletal disease. 2012 Apr;4(2):61-76. Available: https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3383520/ (accessed 2.12.2022)
  2. https://www.boundless.com/physiology/textbooks/boundless-anatomy-and-physiology-textbook/appendix-b-development-and-aging-of-the-organ-systems-1417/bone-development-1497/bone-tissue-and-the-effects-of-aging-1500-11222/
  3. 3.0 3.1 Andrew A, Rita A, Dale A. Geriatric Physical Therapy. Third Edition. Elsevier Mosby. 2012
  4. Lumbar Compression Fracture
  5. http://www.nlm.nih.gov/medlineplus/ency/article/004015.htm
  6. https://medlineplus.gov/ency/article/004015.htm
  7. http://www.nlm.nih.gov/medlineplus/ency/article/000360.htm
  8. Coronado-Zarco R, de León AO, García-Lara A, Quinzaños-Fresnedo J, Nava-Bringas TI, Macías-Hernández SI. Nonpharmacological interventions for osteoporosis treatment: Systematic review of clinical practice guidelines. Osteoporosis and sarcopenia. 2019 Sep 1;5(3):69-77.
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