Osteoporosis

OSTEOPENIA (LOW BONE MASS)

Osteopenia, now called low bone mass, is a term used to describe lower-than-normal bone density or thickness. Approximately 44 million adults in the United States have osteopenia.The condition is different than osteoporosis, which is a disease where normal bone structure becomes thinned out and porous.

Low bone mass can occur at any age, but noticeable and significant bone loss is most likely to occur in women during the 5 to 7 years following menopause. This group is also more likely to experience a bone fracture than someone with normal bone mass.

What is Osteopenia?

Low bone mass is a condition that develops when a person:

  • May naturally have less-dense bones due to factors such as body size, genetics, or gender.
  • Has gradually lost bone mass over time due to lack of exercise and poor diet.
  • Has begun to experience perimenopause, symptoms that signal the onset of menopause or who is in menopause.
  • Has rapidly lost bone mass due to an illness or use of medication.

How Is It Diagnosed?

Low bone mass is diagnosed through a quick and painless specialized scan ordered by aphysician. If you are seeing a physical therapist for rehabilitation, the therapist may confer with your physician when detecting a possible need for bone testing.

The results of the scan are reported using T- and Z-scores.

The T-score compares your score to that of healthy 30-year-old women. A T-score between -1 and -2.49 means that you have low bone mass. Those who have a T-score of -2.5 and lower have osteoporosis.

If you have a T score of -1 or less, you have a greater risk of experiencing a fracture. A person with a T-score of -2 has lower bone density than a person with -1.

The Z-score compares your bone mineral density to the average of peoplewho are of the same age, sex,weight,and race as you. A Z-score of -2 or lower might mean that something other than normal bone loss due to age is occurring. Your doctor will likely explore other health issues that might be causing the bone loss.

Other methods of screening bone density include x-ray, ultrasound, and CT scan.If you have risk factors that includecertain diseases, short- or long-term use of steroids, or a recent bone fracture, a DXA scan may be prescribed.

How Can a Physical Therapist Help?

A physical therapist can help you prevent and treat low bone massat any age by prescribing the specific amount and type of exercise that best builds and maintains strong bones.

When you see your physical therapist, the therapist will review your health history, including your medical, family, medication, exercise, dietary, and hormonal history. Your physical therapistwill also conduct a complete physical therapy examination and identify your risk factors for low bone density.

It is important to exercise throughout life, and especially when you have been diagnosed with low bone mass in order to build and maintain healthy bones. Exercise can help to build bone or slow the loss of bone.

Your physical therapist is likely to prescribe 2types of exercise that are best to build strong bones:

Weight-bearing Exercises

  • Dancing
  • Walking at a quick pace (122-160 steps per minute or 2.6 steps per second)
  • Jumping, stomping, heel drops
  • Running at least a 10-minute mile
  • Racket sports

Resistance Exercises

  • Weightlifting
  • Use of resistance bands
  • Gravity-resistance exercises (pushups, yoga, stair climbing, etc.)

Your physical therapist will design an individual exercise program for you based on your particular needs. Your physical therapist will test you to see how much resistance is needed and is safe for your specific bone density as well asother physical issues that you may have. Treatment starts at the level you can tolerate. Once you learn how to perform your program, your physical therapist may add more strenuous activity with physical effort to encourage your bones to grow stronger.

Your exercise prescription will include guidelines for weightbearing and resistance training for the hips, spine, shoulders, and wrists. The therapist will prescribe guidelines for the intensity, frequency, and progression of your exercises.

Exercise is only 1component of healthy bones. Your physical therapist will encourage you to pursue a healthy and varied diet, including foods rich in calcium, to reach the amount recommended according to your age and health status. Your physical therapist may recommend that you meet with a dietitian to learn about the many foods that contribute to bone health. Sometimes, medication or hormone replacement therapy may be recommended. Your physician will help guide you to find the best combination of exercise, diet, and medication to treat your condition.

Can this Injury or Condition be Prevented?

Risk factors that you can avoid in order to lower your chances of developing low bone mass include:

  • Cigarette smoking
  • Excessive alcohol intake (greater than 1 drink per day for women, 2 per day for men)
  • Poor diet
  • Low calcium and Vitamin D levels        
  • Sedentary or low level activity—less than 5,000 steps per day

PHYSICAL THERAPY AND A PELVIC FRACTURE

A pelvic fracture is a break in 1 or more bones in the pelvis. It is sometimes referred to as a "hip fracture" or "broken hip" because it occurs in the bones that make up the hip area. A pelvic fracture causes difficulty walking or standing. It can also cause abdominal pain, bleeding from pelvic cavities, and difficulty urinating. Pelvic fractures in the United States are relatively rare, making up 0.3% to 6% of all fractures. Pelvic fractures are most common in people 15-28 years of age. In people younger than 35, males suffer a higher incidence of pelvic fractures than females. In people older than 35, females suffer pelvic fractures more often than males.

Fractures of the neck of the femur are most common in postmenopausal women, as their estrogen levels decrease and the body naturally becomes less efficient at absorbing vitamins and minerals, such as calcium, vitamin D, and phosphates - and will increase the risk of osteoporosis and risk of future fractures. 

Spontaneous and mild-trauma (falling from standing height or less) fractures of the femur are clinical signs of osteoporosis. 

What is a Pelvic Fracture (Hip Fracture)?

A pelvic fracture is a crack or break in one or more of the pelvic bones, which are located at the base of the spine. The pelvis is often referred to as part of the hip. (When you "put your hands on your hips," your hands are actually resting on your pelvic bones.)

A pelvic fracture can result from a low-impact or high-impact event.

Low-impact pelvic fractures most commonly occur in 2 age groups: adolescents and the elderly. Adolescents typically experience fractures of the tips of 1 of the pelvic bones, resulting from an athletic injury (football, hockey, skiing) or an activity such as jogging. Pelvic fractures also can occur after minor falls in people with osteoporosis or even occur spontaneously when bones are weak. The elderly frequently suffer fractures of the thicker part of the pelvic bones. These "pelvic ring fractures" result from falling onto the side of the hip. These falls can be caused by balance problems, vision problems, medication side effects, general frailty, or unintended obstacles such as pets underfoot, slippery floors, or rumpled rugs. Low-impact pelvic fractures often are mild fractures, and they may heal with several weeks of rest. Physical therapy is very helpful in restoring strength and balance in these cases.

High-impact pelvic fractures most commonly result from major incidents such as a motor vehicle accidents, a pedestrian being struck by a vehicle, or a fall from a high place. These pelvic fractures can be life-threatening, require emergency room care, surgery, and extensive physical therapy rehabilitation.

How Can a Physical Therapist Help?

Pelvic fracture recovery often involves surgery or long periods of bed rest. In the case of athletes, avoidance of sport activities is recommended until pain has resolved. During these periods of rest, which are usually weeks to months, a person often loses strength, flexibility, endurance, and balance abilities.

Physical therapists can help you recover from a pelvic fracture by improving your:

  • Pain level
  • Hip, spine, and leg motion
  • Strength
  • Flexibility
  • Speed of healing
  • Speed of return to activity and sport

When you are cleared by your physician to begin physical therapy, your physical therapist will design a specific treatment program to speed your recovery, including exercises and treatments you should do at home. This program will help you return to your normal life and activities and reach your recovery goals.

The First 24-48 Hours

Your physical therapist may help you learn to use crutches so you can move around your home without walking on the leg of the injured side. This will more commonly apply to low-impact pelvic fractures, as in athletes. More severe pelvic fractures will require a wheelchair, in which your physical therapist can instruct your safe usage.

Reduce Pain

Your physical therapist can use different types of treatments and technologies to control and reduce your pain, including ice, heat, ultrasound, electrical stimulation, taping, exercises, and special hands-on techniques called manual therapy that gently move your muscles and joints.

Your physical therapist will choose specific activities and treatments to help restore normal movement in the leg and hip. These might start with passive motions that he or she applies to your leg and hip joint, and progress to active exercises and stretches that you perform yourself. Treatment can involve hands-on manual therapy techniques called "trigger point release" and "soft tissue mobilization," as well as specific stretches to muscles that might be abnormally tight.

Improve Strength

Certain exercises will benefit your healing at each stage of recovery, and your physical therapist will choose and teach you an individualized exercise program that will restore your strength, power, and agility. These exercises may be performed using free weights, stretch bands, weight-lifting equipment, and cardio exercise machines such as treadmills and stationary bicycles. For pelvic fractures, muscles of the hip and core are often targeted by the strength exercises.

Improve Balance

The hip area contains many muscles that are vital for balance and steadiness when walking or performing any activity. Your physical therapist will teach you effective exercises to restore strength and endurance to these muscles so that you can regain your balance.

Speed Recovery Time

Your physical therapist is trained and experienced in choosing the treatments and exercises to help you heal, get back to your normal life, and reach your goals faster than you might be able to on your own.

Return to Activities

Your physical therapist will collaborate with you to decide on your recovery goals, including return to work and sport. Your treatment program will be designed to help you reach these goals in the safest, fastest, and most effective way possible. Your physical therapist will use hands-on therapy and teach you exercises and work re-training activities. Athletes will be taught sport-specific techniques and drills to help achieve sports-specific goals.

Prevent Future Problems

Your physical therapist can recommend a home exercise program to strengthen and stretch the muscles around your hip, upper leg, and core to help prevent future problems, such as fatigue and walking difficulty. This program may include strength and flexibility exercises for the hip, thigh, and core muscles. Your physical therapist will also review with you and your family ways to prevent falls in your home. These fall-prevention strategies may include clearing the floors of loose obstacles (throw rugs, mats), using sticky mats or chairs in the shower, preventing pets from walking near your feet, and using non-slippery house shoes, as well as installing grab bars or rails for the shower, toilet, and stairs.

If Surgery Is Necessary

If surgery is required, your physical therapist will help you minimize pain, restore motion and strength, and return to normal activities in the speediest manner possible after surgery.

Can this Injury or Condition be Prevented?

Pelvic fracture can be prevented by:

  • Warming up before starting any sport or heavy physical activity. Your warm-up should include stretches taught to you by your physical therapist, including stretches for the muscles on the front, side, and back of the hip.
  • Increasing the intensity of an activity or sport gradually, not suddenly. Avoid pushing yourself too hard, too fast, too soon.
  • Following a reasonable and safe nutritional plan. Nutritional factors can contribute to osteoporosis, which can put you at higher risk of pelvic fracture.
  • Maintaining good balance skills. Balance problems can increase the risk of falling and thus increase the risk of incurring a pelvic fracture. Physical therapy can help maintain and improve balance ability, which can help prevent falls.
  • Driving safely to avoid motor vehicle accidents.
  • Clearing your house of obstacles that you could trip over, and eliminating slippery walking surfaces.

HEALTHY BONES AT EVERY AGE

Bone health is important at every age and stage of life. The skeleton is our body's storage bank for calcium — a mineral that is necessary for our bodies to function. Calcium is especially important as a building block of bone tissue, as well as exercise.  

We must get calcium from the foods we eat. If we do not have enough calcium in our diets to keep our bodies functioning, calcium is removed from where it is stored in our bones. Over time, this causes our bones to grow weaker.

Loss of bone strength can lead to osteoporosis — a disorder in which bones become very fragile and more likely to break. Older adults with osteoporosis are most vulnerable to breaks in the wrist, hip, and spine. These fractures can seriously limit mobility and independence.

Fortunately, there are many things we can do at every age to keep our bones strong and healthy - the first being exercise. Exercise equals forces being put upon the bones, and while joints may swell slightly out of protest, forces increase osteoclast activity.  Osteoclasts are the basic starter-cell to bone production.  The more forces implemented upon the bones, the more dense the bone.  This can help to prevent osteoporosis or slow it's symptoms later in life. Here at Champion Performance and Physical Therapy, we can give you an exercise program to gradually increase your daily activity, and therefore, increase your bone density and strengthen the muscles around the bones.

Peak Bone Mass

Our maximum bone size and strength is called peak bone mass. Genes play a large role in how much peak bone we have. For example, the actual size and structure of a person's skeleton is determined by genetic factors.

Between the ages of 10 and 20 we can greatly increase our peak bone mass with a calcium-rich diet and regular weightbearing exercise.

© Thinkstock, 2012

Although peak bone mass is largely determined by our genes, there are lifestyle factors — such as diet and exercise — that can influence whether we reach our full bone mass potential.

There is a limited time that we can influence our peak bone mass. The best time to build bone density is during years of rapid growth. Childhood, adolescence, and early adulthood are the times when we can significantly increase our peak bone mass through diet and exercise. Not surprisingly, we can also make choices that decrease peak bone mass, such as smoking, poor nutrition, inactivity, and excessive alcohol intake.

Most people will reach their peak bone mass between the ages of 25 and 30. By the time we reach age 40, however, we slowly begin to lose bone mass. We can, however, take steps to avoid severe bone loss over time. For most of us, bone loss can be significantly slowed through proper nutrition and regular exercise.

Although everyone will lose bone with age, people who developed a higher peak bone mass when young are better protected against osteoporosis and related fractures later in life.

Some people, however, are at higher risk for bone loss and osteoporosis because of problems with the way their bodies remodel bone. A healthy diet and exercise can help, but bone will still be lost at a faster rate. The good news is that in recent years, medications have been developed to treat this metabolic problem. In severe cases, bone loss may even be reversed with newer, bone-forming medications.

Gender and Peak Bone Mass

Men have a higher peak bone mass than women. Men accumulate more skeletal mass than women do during growth, and their bone width and size is greater. Because women have smaller bones with a thinner cortex and smaller diameter, they are more vulnerable to developing osteoporosis. Although men have a higher peak bone mass, they also are at risk for osteoporosis, especially after age 70 when bone loss and fracture risk increases significantly.

This chart shows bone mass in women as it relates to age.

Reproduced from J Bernstein, ed: Musculoskeletal Medicine. Rosemont, IL, American Academy of Orthopaedic Surgeons, 2003.

Bone Health at Every Stage

There are things we can do at every stage of life to ensure good bone health. Especially important is making sure we get enough calcium and Vitamin D. The sections below provide guidelines from the Food and Nutrition Board (FNB) at the Institute of Medicine of the National Academies on calcium and Vitamin D daily intake at every age for the general public.

Please note that some people may require different dosages of these supplements. For example, people who live in areas with little sun, those with darker skin, and people who are obese may need more Vitamin D than the recommended daily amount. The upper safe limit for people older than 9 years of daily Vitamin D is 4000 IU, but talk to your doctor about the best dose for you. Also, be aware that taking calcium and Vitamin D at higher than recommended levels may cause adverse side effects.

For a complete overview of calcium and Vitamin D Recommended Dietary Allowances (RDAs), as well as Tolerable Upper Intake Levels (ULs), refer to "Calcium, Nutrition, and Bone Health"

  • Birth to Age 9

Calcium is an essential mineral for babies and young children to ensure they are able to grow strong bones and teeth. Because our bodies need Vitamin D to absorb calcium from our diets, getting enough Vitamin D goes hand-in-hand with getting enough calcium. Young children who do not get enough Vitamin D are at risk for rickets, a disease that can cause bone weakness, bowed legs, and other skeletal deformities.

First year. According to the FNB, infants, age birth to 6 months, need 200 milligrams (mg) of calcium each day, and infants, ages 7 to 12 months, 260 mg. During this first year, both breast milk and infant formula provide sufficient calcium.

The FNB daily recommendation of Vitamin D for infants birth to 12 months is 400 International Units (IU). Although Vitamin D can be found in breast milk and infant formula, it is not in sufficient amounts. The American Academy of Pediatrics now recommends that babies take daily Vitamin D supplement drops, unless they are drinking 32 oz. of infant formula each day.

Ages 1 to 3 years. The amount of calcium and Vitamin D that a young child needs increases with age.

The FNB recommended dietary allowance (RDA) for children ages 1 to 3 are 700 mg of calcium and 600 IU of Vitamin D. Milk is one of the best sources of calcium for children — plus a cup of milk is fortified with 100 IU of Vitamin D. Doctors recommend whole milk for children between the ages of 1 and 2 years. Lowfat and skim milk are good options after age 2.

The American Academy of Pediatrics recommends that all children take Vitamin D supplements.

© Thinkstock, 2012

Because very few foods contain substantial levels of Vitamin D, the American Academy of Pediatrics recommends that all children — from infancy through adolescence — take Vitamin D supplements.

Ages 4 to 8 years. Children ages 4 through 8 need 1,000 mg of calcium each day, or the equivalent of about two cups of yogurt and one glass of milk.

The FNB recommends 600 IU of Vitamin D for everyone from age 1 through 70 years. Recent research, however, supports that the body needs at least 1000 IU per day for good bone health, starting at age 5 years. Taking a Vitamin D supplement is the most effective way for your child to get 1000 IU of Vitamin D every day.

  • Between 10 and 20 Years of Age

This is the stage of life when peak bone mass is established.

Puberty. Puberty is a very important time in the development of the skeleton and peak bone mass. Half of total body calcium stores in women and up to 2/3 of calcium stores in men are made during puberty. At the end of puberty, men have about 50% more body calcium than women.

Adolescents grow rapidly and need 1,300 mg of calcium each day for the best possiblle development of the skeleton.

© Thinkstock, 2012

On average, girls begin puberty at age 10 and start having menstrual periods about age 12. Having a regular period is important to girls' and women's bone health because it indicates that sufficient estrogen is being produced. Estrogen is a hormone that improves calcium absorption in the kidneys and intestines.

The average girl grows the fastest in height between the ages of 11 and 12 years, and stops growing between the ages of 14 and 15 years. About 95% of a young woman's peak bone mass is present by age 20, and some overall gains in mass often continue until age 30.

The average boy has his fastest rate of growth in height between ages 13 and 14, and stops growing between ages 17 and 18. Peak bone mass occurs 9 to 12 months after the peak rate in height growth.

Early or late onset of puberty affects peak bone mass. Boys with late puberty generally have less bone mass for life than those who start puberty at the typical time, about age 11 1/2. Obesity delays the start of puberty in boys and, therefore, may have a negative effect on peak bone mass.

Obesity in girls, however, accelerates the onset of puberty. The effect that obesity and early puberty have on the peak bone mass is variable in girls.

Nutrional requirements. Many adolescents and young adults do not get enough calcium. Both boys and girls age 10 to 20 years need at least 1,300 mg of calcium each day, the equivalent of:

  • One cup of orange juice with added calcium
  • Two cups of milk
  • One cup of yogurt

Other dairy products, green leafy vegetables, fish, and tofu are also good sources of calcium.

A Vitamin D supplement is necessary to ensure the calcium that adolescents do take in is absorbed in the intestines. Sodas and carbonated beverages should be avoided for many nutritional reasons, including for bone health and to prevent obesity. Sodas decrease calcium absorption in the intestines and contain empty calories. Milk, calcium-fortified juices, and water are better beverage alternatives for all age groups.

Adolescent pregnancy. Like other adolescents, young women who are pregnant and/or breastfeeding between the ages of 14 and 18 should have 1300 mg of calcium each day. The RDA for Vitamin D remains 600 IU, although as mentioned above, recent research supports a daily dosage of 1000 IU for better bone health.

Exercise. Weightbearing exercise during the teen years is essential to reach maximum bone strength. Examples of weightbearing exercise include walking and running, as well as team sports like soccer and basketball.

Young women who exercise excessively can lose enough weight to cause hormonal changes that stop menstrual periods (amenorrhea). This loss of estrogen can cause bone loss at a time when young women should be adding to their peak bone mass. It is important to see a doctor if there have been any menstrual cycle changes or interruptions.

  • Between 20 and 30 Years of Age

Although your body is no longer forming new bone as readily as before, your bones will reach their peak strength during these years. It is important to get adequate calcium and exercise to help achieve peak bone density. Both men and women need at least 1,000 mg of calcium each day, and probably a Vitamin D supplement because it is difficult to get 1000 IU of Vitamin D even from a healthy diet.

To promote good bone health, adults need at least 30 minutes of weightbearing activity (such as a brisk walk), 4 or more days per week. Muscle-strengthening activities at least two days of the week are also recommended.

Pregnancy and breastfeeding. The calcium requirement for pregnant or breastfeeding women is the same for any adult in this age range: 1,000 mg. Of course, getting the recommended calcium and Vitamin D daily allowance is especially important when you are pregnant or breastfeeding. Without it, a growing baby in the womb may pull calcium out of the mother's bones in order to build its own skeleton. A nursing baby also requires calcium, and a mother can lose bone mass during the time she breastfeeds. In most cases, once breastfeeding ends, a healthy diet and exercise will help a mother regain any bone lost.

  • Between 30 and 50 Years of Age

After you reach your peak bone mass, you will begin to gradually lose bone. All through your life, your body is continually removing old bone and replacing it with fresh bone. This process is called remodeling. Up until about age 40, all the bone removed is replaced. After age 40, however, less bone is replaced. At this stage in life, getting enough exercise and calcium (1,000 mg) and Vitamin D (1,000 IU) every day, are crucial to minimizing bone loss. Exercise is also important for maintaining your muscle mass, which preserves and strengthens surrounding bone and helps prevent falls.

  • Older Than 50 Years of Age

The daily calcium recommendation for men over 50 remains the same at 1,000 mg. Many women over 50 are entering or have gone through menopause, and the FNB recommends that women over 50 increase their daily calcium intake to 1,200 mg.

Menopause. Most women enter menopause between the ages of 42 and 55. As the levels of estrogen drop dramatically, women undergo rapid bone loss. In fact, in the 10 years after menopause, women can lose 40% of their spongy, inner bone and 10% of their hard, outer bone. This reduces bone strength and increases a woman's risk for fracture. It also helps explain why osteoporosis is much more common in women than in men (who do not experience this acute loss of hormone in middle age).

In the past, estrogen replacement therapy was frequently used to protect aging women from bone loss. Research has since shown that there are significant risks in taking estrogen long-term after menopause. These include increased risk of serious blood clots, stroke, heart attack, breast and ovarian cancers, gall bladder disease, and possibly dementia.

If your period becomes irregular, or, if you develop signs of menopause, such as hot flashes, talk with your doctor. You also may want to ask about bone density testing. This is a safe, painless, x-ray technique that compares your current bone density with the peak bone mass someone your same gender and ethnicity should have reached at 20 to 25 years of age.

A duel-energy x-ray absorptiometry (DXA) scan is the "gold standard" of bone mineral density testing.

Reproduced with permission from JF Sarwark, ed: Essentials of Musculoskeletal Care, ed 4. Rosemont, IL, American Academy of Orthopaedic Surgeons, 2010

Age 70 and above. Both men and women should get 1,200 mg of calcium each day. The RDA for Vitamin D at this age is 800 IU.

After they reach the age of 70, men are more likely to experience low bone mass and fractures. Men over age 70 should discuss bone density testing with a doctor.

Fall prevention becomes especially important for people over age 70. Falls are the leading cause of injury to elderly people in the United States. Falls cause many seniors to lose their independence, requiring a change in living arrangements, such as moving to a nursing home or assisted living facility. Fortunately, many falls can be prevented, and having strong bones can help prevent fractures.

No matter your age, adequate calcium intake and exercise can limit bone loss and increase bone and muscle strength.

Source: National Institutes of Health (NIH) (Dietary Supplement Fact Sheet: Calcium) ; Institute of Medicine of the National Academies (Dietary Reference Intakes for Calcium and Vitamin D).