How does osteoporosis affect the muscular system?
Osteoporosis is a common problem, especially for older women. Bones break more easily. Compression fractures of the vertebrae can cause pain and reduce mobility. Muscle weakness contributes to fatigue, weakness, and reduced activity tolerance.
How does osteoporosis affect the endocrine system?
Common endocrine disorders include diabetes and high thyroid levels (hyperthyroidism). These disorders cause osteoporosis because hormones that are needed to ensure healthy bone growth and development are compromised. A lack of certain hormones accelerates bone loss and increases fracture risk.
Does osteoporosis affect the circulatory system?
As a result of increased osteolysis in patients with osteoporosis, there is an increase in calcium levels in blood circulation, and high levels of calcium ions deposit on the intima of the inner wall of cerebral blood vessels, causing cerebral vascular atherosclerosis and calcification, which ultimately leads to …
What happens if osteoporosis is left untreated?
Osteoporosis left untreated increases the likelihood of fractures. Simple actions such as sneezing or coughing, making a sudden turn, or bumping into a hard surface can result in a fracture. This can make you feel like you’re walking on eggshells and cause you to refrain from participating in activities that you enjoy.
Will osteoporosis shorten my life?
The residual life expectancy of a 50-year-old man beginning osteoporosis treatment was estimated to be 18.2 years and that of a 75-year-old man was 7.5 years. Estimates in women were 26.4 years and 13.5 years, respectively.
Can osteoporosis cause muscle and joint pain?
The area may be tender. Usually the pain and tenderness begin to go away gradually after 1 week. However, lingering pain may last for months or be constant. If several vertebrae break, an abnormal curvature of the spine (a dowager’s hump) may develop, causing muscle strain and soreness as well as deformity.
What are the types of osteoporosis?
Two categories of osteoporosis have been identified: primary and secondary. Primary osteoporosis is the most common form of the disease and includes postmenopausal osteoporosis (type I), and senile osteoporosis (type II). Secondary osteoporosis is characterized as having a clearly definable etiologic mechanism.
Which one of the following is used to combat osteoporosis?
Bisphosphonates are usually the first choice for osteoporosis treatment. These include: Alendronate (Fosamax), a weekly pill. Risedronate (Actonel), a weekly or monthly pill.
Why would you see an endocrinologist for osteoporosis?
If your doctor has diagnosed you with osteoporosis or you’ve had fragility fractures of the spine or hip, you may be referred to an endocrinologist to confirm the diagnosis. Testing will be completed to look for other medical conditions that lead to bone loss, determine its severity, and select the best treatment.
What is the best doctor to see for osteoporosis?
Rheumatologists treat patients with age-related bone diseases. They can diagnose and treat osteoporosis. Endocrinologists, who see patients with hormone-related issues, also manage the treatment of metabolic disorders such as osteoporosis. Orthopedic surgeons may fix fractures.
What endocrine gland is affected by osteoporosis?
Parathyroid and Thyroid problems: Hyperparathyroidism, which is caused by too much parathyroid hormone, can cause osteoporosis because the excess hormone extracts calcium from your bones. On that same note, hyperthyroidism, or an overproduction of thyroid hormone, may also lead to bone loss.
Can osteoporosis affect your heart?
A study by the American Heart Association (AHA) also revealed that 38% of people with osteoporosis also had atrial fibrillation (AFib), an irregular heartbeat. AFib can increase the risk of stroke up to five times if left untreated.
Is osteoporosis a risk factor for heart failure?
Osteoporosis is a serious health problem worldwide that is associated with an increased risk of fractures and mortality. Vascular calcification is a well-defined independent risk factor for cardiovascular disease (CVD) and mortality.