Many Health Benefits of Love and Valentine's!

This year, Valentine’s Day is Valentine’s Weekend! And, while you may wonder what that has to do with health and wellness, you might be surprised to learn that love can be good for your health! Studies show that it is in our DNA to seek out good relationships and that these solid relationships can lead to a happier, safer and healthier life. Conversely, infatuation and less committed, volatile relationships that are “on and off,” are very stressful and unhealthy. But those fortunate to participate in a stable and satisfying long-term relationship are the beneficiaries of many health benefits! Whether you have spouse, partner, or close friend, (love is love is love), feeling connected, respected, valued, and loved is critically important to your health and wellness! So celebrate Valentine's Day and enjoy all the love that surrounds you!

10 Ways Love and Valentine's are Good for You!

1. Less Sick Visits to your Physician - The US Department of Human Services found that couples in a committed long-term relationship are less likely to require sick visits to their physician. And, when hospitalized, these “love birds,” have shorter hospital stays. One theory for this health benefit is that couples in good relationships watch after each other to ensure regular healthy visits for routine care and testing. Consequently, they are less likely to have unexpected serious illnesses.
2. Less Depression & Substance Abuse - Experts feel that social isolation is associated with unhealthy behavior and depression. Happy, loving and committed couples are far less likely to suffer from depression. Furthermore, these couples are less likely to engage in risky and unhealthy behaviors such as excessive drinking and drug abuse.
3. Lower Blood Pressure - Researchers have found a strong relationship between marital status and blood pressure. Happily married couples have the lowest, while unhappily married couples have the highest. Happy singles scored somewhere in between. It is also interesting to note that non-married committed couples and well-adjusted singles with strong support groups had lower blood pressure.
4. Less Anxiety - Studies show that long-term committed couples have far less anxiety than new romance. MRI brain scans found both groups showed high activation in areas of the brain related to romance, but only new couples had activation of the area of the brain associated with anxiety.
5. Pain Control - A CDC report on pain included a study of more than 127,000 adults and found that married people were less likely to complain of headaches and lower back pain. In fact, one study showed, when a happily married couple held hands, pain thresholds improved and, the happier the marriage, the greater the effect.
6. Better Stress Management - Similar to the findings on pain, there is a strong link between happy and committed couples and stress management. The support and love from a strong and healthy relationship provides good coping methods to help overcome adversity…job loss, illness etc. 
7. Boosted Immune System - Solid loving relationships can boost your immune system. In fact, researchers at Carnegie Mellon University found that people who exhibit positive emotions are less likely to get sick after exposure to cold or flu viruses.
8. Quicker Healing Time - It may be that a wound from “Cupid’s Arrow” will heal faster when you are in a loving relationship. Researchers at Ohio State University Medical Center gave married couples superficial wounds and followed their healing time. The wounds healed nearly twice as fast in spouses who interacted warmly compared with those who behaved with hostility.
9. Longevity - Strong research indicates that married people live longer. Researchers found that people who had never been married were 58% more likely to die than married people. Some reasons purported were mutual financial, emotional and physical support and assistance from children. One common denominator for a short life span is loneliness and those in a healthy relationship may live longer because they feel loved and connected.
10. Happiness - A study in the Journal of Family Psychology showed that happiness depends more on the quality of family relationships than on the level of income.  So, according to the research, when it comes to a long, happy and healthy life…love is more important than money!

SOURCES: WebMD

EVERY MONDAY – Read Dr. Paul J. Mackarey “Health & Exercise Forum!” via Blog

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This article is not intended as a substitute for medical treatment. If you have questions related to your medical condition, please contact your family physician. For further inquires related to this topic email: drpmackarey@msn.com

Paul J. Mackarey PT, DHSc, OCS is a Doctor in Health Sciences specializing in orthopedic and sports physical therapy in Scranton and Clarks Summit. Dr. Mackarey is in private practice and is an associate professor of clinical medicine at Geisinger Commonwealth School of Medicine. For all of Dr. Mackarey's articles, visit our exercise forum!

Part II of II

Last week’s column was dedicated to Rosie Malloy as we discussed the importance of laughter for health and wellness. In this column, I will discuss one of the most understated benefits of exercise – mental health! Specifically, aerobic exercise (exercise that increases your heart rate for 30 minutes or more) such as walking, biking, running, swimming, hiking, elliptical & stepper machines to name a few, is the secret to “runner’s high.” This exercise euphoria is not limited to runners alone, but all who engage in aerobic exercise are more likely to experience high energy, positive attitude, and mental wellness by helping reduce depression.

Physical activity, specifically aerobic exercise, is a scientifically proven useful tool for preventing and easing depression symptoms. Studies in the British Journal of Medicine and the Journal of Exercise and Sports Science found that depression scores were significantly reduced in groups that engaged in aerobic running, jogging or walking programs, 30-45 minutes 3-5 days per week for 10-12 weeks, when compared to a control group and a psychotherapy counseling group.

Depression is the most common mental disorder and is twice as common among women as in men. Symptoms include: fatigue, sleeplessness, decreased appetite, decreased sexual interest, weight change, and constipation. Many of these symptoms are likely to bring an individual to their family physician. Unfortunately, depression is on the increase in the United States. According to the National Ambulatory Medical Care Survey, in the 1990’s, 7 million visits to a primary care physician were for the treatment of depression. 10 years later the number doubled.

HOW EXERCISE REDUCES DEPRESSION:

According to copious amounts of scientific research, exercise improves health and wellness and reduces depression in two ways, psychologically (mentally) and physiological (physically). 

Psychological or Mental Benefits of Exercise on Depression:

• Helps a person gain control over their lives
• Increases self-esteem
• Diverts attention away from worry, concern or guilt
• Improves mood – with visible signs of improvement in physique & body weight
• Increases sense of pleasure and satisfaction
• Anger management – release pent-up frustration, anger and hostility

Physiological or Physical Benefits of Exercise on Depression:

• Increase in brain serotonin (natural mood elevator chemical in brain)
• Increase in beta-endorphins (natural mood, stress & pain control chemical in brain)
• Improvement in natural sleep patterns

HOW TO BEGIN EXERCISE FOR DEPRESSION:

1. First and most importantly, consult your primary care physician to confirm the diagnosis of depression. Be sure that your symptoms are not related to other health problems. Also, if you are using antidepressants or other medications discuss the impact it may have on your exercise program with your physician.
2. Recognize and fight depression symptoms that are contrary to or prohibit physical activity such as: fatigue, lack of energy, slow motor skills. Work hard to recognize and overcome these symptoms to begin an exercise program. An aerobic exercise routine should eventually lessen these symptoms.
3. Be realistic. Expect that aerobic exercise will take time to have a noticeable benefit. Do not get overly ambitious and set yourself up for failure.
4. Begin with an aerobic exercise program that is practical and destined to succeed. For example: inactive and deconditioned people should begin walking 5 minutes per day, 3-5 days per week for 1 week. Then, add 3-5 minutes each week until you attain 30-45 minutes per walk 3-5 times per week. Younger and fitter people can begin to walk for 15 minutes and continue until they attain 45-60 minutes per walk, 3-5 times per week. Remember, what seems impossible today will be easier and more routine in 3-4 weeks so JUST DO IT !
5. Find a pleasurable environment: a beautiful park (Nay Aug), a scenic lake (Lake Scranton), quiet countryside (rural farmlands of Dalton). Use a mall in inclement weather.
6. Find a friendly, uplifting group of people to enjoy a good walk and talk. This may be more appropriate for people feeling isolated or withdrawn. Others may enjoy the peace and quiet of exercising and meditating alone.
7. Be specific and compliant! Make a serious commitment. Keep a journal or exercise log. Mark a calendar. 30-45 minutes, 3-5 days per week – NO EXCUSES! Get and exercise buddy you can count on and help keep you compliant!
8. Make it fun! Mix it up. Walk 3 days, swim or bike 1-2 days, some days alone, some days with a buddy.
9. BE RELIGIOUS! Be religious about exercise BUT don’t get too compulsive!

SOURCES: British Journal of Medicine: Journal of Exercise and Sports Science

EVERY MONDAY – Read Dr. Paul J. Mackarey “Health & Exercise Forum!” via Blog

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This article is not intended as a substitute for medical treatment. If you have questions related to your medical condition, please contact your family physician. For further inquires related to this topic email: drpmackarey@msn.comPaul J. Mackarey PT, DHSc, OCS is a Doctor in Health Sciences specializing in orthopedic and sports physical therapy in Scranton and Clarks Summit. Dr. Mackarey is in private practice and is an associate professor of clinical medicine at Geisinger Commonwealth School of Medicine. For all of Dr. Mackarey's articles, visit our exercise forum!

While I normally do not address the topic of shoveling snow until January, considering recent weather events, I thought it might be valuable to present it sooner. Much has been written about the dangers of snow shoveling for your heart. However, while not fatal, low back pain is the most common injury sustained while shoveling snow. Heart attacks are also more common following wet and heavy snow.

Snow shoveling can place excessive stress on the structures of the spine. When overloaded and overstressed, these structures fail to support the spine properly. The lower back is at great risk of injury when bending forward, twisting, lifting a load, and lifting a load with a long lever. When all these factors are combined simultaneously, as in snow shoveling, the lower back is destined to fail. Low back pain from muscle strain or a herniated disc is very common following excessive snow shoveling.

Snow Shoveling as a Form of Exercise:

• GOOD - For the Young and Healthy – studies show that snow shoveling for 15 minutes is considered moderate physical activity and extreme and vigorous physical activity when performed more than 15 minutes even for young healthy college students.
• BAD – For the Older and Unfit – research clearly shows that there is a significant increase in heart attacks among snow shovelers. If you have any risk factors or medical condition and do not exercise regularly consult your physician.
• Cold Weather – makes this activity even more difficult and physically stressful. Cold air makes breathing more labored and difficult and cold temps create added strain on the body.

People at High Risk of Illness Due to Snow Shoveling:

• History of Heart Attack
• History of Heart Disease
• History of High Blood Pressure or High Cholesterol
• Smokers
• Inactive & Sedentary Lifestyle
• Overweight
• Elderly

10 TIPS FOR SAFE SNOW SHOVELING:

1. MEDICAL CLEARANCE: If you have any medical condition or risk factors consult your physician.
2. PAIN: Stop immediately if you experience any pain. Especially in the chest, left arm, jaw, face, neck, or lower back.
3. ERGONOMICS: Choose a snow shovel that is right for you:
   1. An ergonomic shovel with a curved handle allows you to keep your back straighter or arched when shoveling
   1. An ergonomic shovel with a shorter or adjustable handle length allows you to keep your back straighter and knees bent when shoveling. The right handle length allows you to arch your back 10 degrees with your knees slightly bent when the shovel is on the ground.
   1. A plastic shovel blade is lighter than a metal one and will be better for your spine.
   1. A smaller blade is better than a larger blade. It may take longer but will stress your back less.
4. PUSH: When possible, push the snow. Do not lift it. Lifting is much more stressful on the spine. You can find shovels that are ergonomically designed just for pushing snow.
5. WARM – UP: Be sure your muscles are warm before you start to shovel. Cold and tight muscles are more likely to strain than warm, relaxed muscles. Layer and consider compression shirts or tights can help prevent cold and tight muscles.
6. LEVERAGE: When you grip your shovel, spread your hands at least 12 inches apart. This will improve your leverage and reduce strain on your lower back.
7. TECHNIQUE: Shoveling technique is very important. The American Academy of Orthopaedic Surgeons recommends:
   • Squat with your legs apart, knees bent and back straight.
   • Lift with your legs. Do not bend at the waist.
   • Scoop small amounts of snow into the shovel and walk when you want to dump it.
   • Do not hold the filled shovel with outstretched arms.
   • If snow is deep, remove in piecemeal, a few inches at a time.
   • Rest and repeat as necessary.
   • Move your feet and do not twist your back as you shovel or dump. Never throw snow over your shoulder
8. CAUTION: Be cautious shoveling wet snow. One full shovel can weigh 25 pounds.
   • Shovel wet snow slowly in piecemeal.
9. PACE YOURSELF: Take frequent breaks and stretch your back in the opposite direction of shoveling. For example: 1. Lean backwards and extend your lower back. 2. Pinch your shoulder blades together.
10. TECHNOLOGY:
    • Snow Blower - Use a self-propelled snow blower. It will put much less stress on your lower back than shoveling snow if used correctly. For example, push the blower with your legs and keep your back straight or arched and knees bent.
    • Ergonomic Shovels:
    • 2 Handle Shovels: ErgieShovel or Snow Joe Shovelution
      • Push Shovels: Garant Yukon or Garant Sleigh Shovel
    • Snow Melting Alternatives:
    • www.warmlyyours.com - WarmlyYours - HeatTrak® portable snowmelting system for roofs, gutters, driveways, sidewalks, stairs and handicapped ramps uses electric mats or runners for home or office which can be customized.

Sources: The Colorado Comprehensive Spine Institute; American Academy of Orthopaedic Surgeons 

Visit your doctor regularly and listen to your body.     

EVERY MONDAY – Read Dr. Paul J. Mackarey “Health & Exercise Forum!” via Blog

EVERY SUNDAY in "The Sunday Times" - Read Dr. Paul J. Mackarey “Health & Exercise Forum!” in hard copy

This article is not intended as a substitute for medical treatment. If you have questions related to your medical condition, please contact your family physician. For further inquires related to this topic email: drpmackarey@msn.com

Paul J. Mackarey PT, DHSc, OCS is a Doctor in Health Sciences specializing in orthopedic and sports physical therapy in Scranton and Clarks Summit. Dr. Mackarey is in private practice and is an associate professor of clinical medicine at Geisinger Commonwealth School of Medicine. For all of Dr. Mackarey's articles, visit our exercise forum!

Recently, two patients asked me when I thought it would be safe for them to return to their exercise programs after abdominal surgery. She stated that she was not sure how to properly and safely implement or return to her program.

This column will attempt to ensure a safe return to activity and exercise following general surgery such as gall bladder, appendix, hernia, etc. The post-operative patient has many questions: When is it safe to begin an exercise program? How do I begin? What is the best exercise? Which exercises are best? How do I know if the activity is too intense or not intense enough? Are there safe guidelines?

• Medical Clearance

Before you begin, discuss your intention to exercise with your surgeon and  primary care physician. Get medical clearance to make sure you can exercise safely. With the exception of short daily walks, don’t be disappointed if your surgeon requires you to wait at least until your 6 week post-op check-up to begin exercise.

• Time for a Standard Work-out

While a 60 minute workout would be the long term goal, begin slowly at 15-20-30 minutes and add a few minutes each week. Make time to warm up and cool down.

Warm-up                                 5-10 minutes

Strength Training                    10-15-20 minutes

Aerobic                                   10-15-20 minutes

Cool down                              5-10 minutes

• Exercise Routine

• If the individual does not exercise regularly, start slowly and then increase activity level
• Importance of exercising in comfortable temperatures
  • Example: in the summer if exercising outside --- recommendation: early morning or late evening NOT during the middle of the day in the summer heat
  • Hydration before, during, and after exercise is important
  • Cellular Phone – for emergencies - take to hotel gym – especially if unattended

• Warm Up
  1. 5-10 minutes
  • Ways to warm up:
    1. Walking on a treadmill / around gym area
    1. Bike
    1. Stretching – active and gentle

• Strength Training – begin with light weights and increase repetitions
  1. 20 minutes
  1. Can begin with one set of 8 to 12 reps
  1. 2-3 times a week (do not exercise the same muscles 2 days in a row)
  • Exercises (Perform 8-10 different exercises that train all major muscle groups)
    1. Shoulders – Bent over row with weights  
    1. Back – Seated rows with bands or bent over with weights
    1. Chest – Chest press with weights or Push-ups
    1. Biceps – Biceps curl with weights
    1. Triceps – Triceps extensions with weights or Push-ups
    1. Abdominals – pelvic tilts or core exercises on ball  
    1. Gluteals – Leg Press, 30 degree Wall Slides
    1. Quadriceps – Knee extensions with ankle weights, Lunges, Squats
    1. Hamstrings -  Hamstring Curl 
    1. Calves – Calf raises

• Aerobic
  1. 20 minutes
  • Exercise
    1. Treadmill / walking outside
    1. Elliptical
    1. Bike (recumbent bike is recommended)
    1. Stepper
    1. Stairmaster

• Cool Down
  • 5-10 minutes
    1. Walking on a treadmill / around gym area
    1. Bike
    1. Stretching

How to Monitor Your Exercise Program:

• Target Heart Rate

First, determine your resting heart rate by taking your HR (pulse) using your index finger on the thumb side of your wrist for 30 seconds and multiply it by two. 80 beats per minute is considered a normal HR but it varies. This is a good baseline to use as a goal to return to upon completion of your workout. For example, your HR may increase to 150 during exercise, but you want to return to your pre exercise HR (80) within 3-5 minutes after you complete the workout.

For those who are healthy, calculating your target heart rate (HR) is an easy and useful tool to monitor exercise intensity.

220 – Your Age = Maximum Heart Rate

EXAMPLE for a 45 year old: 220 – 45 = 175 beats per minute should not be exceeded during exercise.

• Metabolic Equivalent (MET) Intensity for Exercise - Energy Cost of Physical Exercise.

            For those concerned about calories expended during exercise.

NOTE: Keep the level at a light/moderate level for the first four to six weeks and advance to the moderate/heavy at week six. The Very Heavy Level may not be appropriate for 12 weeks post op is for those who have a reasonable fitness level and exercise 4-5 days per week.

Example of Data Found on Fitness Equipment

Remember, this is only accurate if you program your correct height, weight and age.

Level                          kCal/min                    MET

Light                              2 - 4.9                     1.6 – 3.9

Moderate                        5 - 7.4                     4 – 5.9

Heavy                          7.5 - 9.9                     6 - 7.9

Very Heavy                  10 - 12.4                   8 – 9.9

• Cardiac Patient on Beta Blockers

Always secure physician approval before engaging in an exercise program.
If the patient is on beta blockers (Atenolol, Bisoprolol, etc), it is important to use the Borg Rating of Perceived Exertion Scale (RPE) scale to determine safe exercise stress since exercise will not increase HR as expected:

• Borg (RPE) Scale = indicates exercise intensity

0 - Nothing at all
1 - Very light
2 - Light
3 - Moderate
4 - Somewhat intense
5 - Intense (heavy)
6
7 - Very intense
8
9 - Very, very intense
10 - Maximum Intensity

NOTE: Keep the RPE at 2-3 the first 6 weeks post op and advance to level 3-4 at 8-12 weeks post op. Levels 5-6-7 are for those with a reasonable fitness level and exercise 4-5 days per week. The advanced levels should not be attained until 2-3 months of exercise and 3-4 months post op.

MEDICAL CONTRIBUTOR: Timothy Farrell, MD, is a general surgeon at GCMC.

EVERY MONDAY – Read Dr. Paul J. Mackarey “Health & Exercise Forum!” via Blog

EVERY SUNDAY in "The Sunday Times" - Read Dr. Paul J. Mackarey “Health & Exercise Forum!” in hard copy

This article is not intended as a substitute for medical treatment. If you have questions related to your medical condition, please contact your family physician. For further inquires related to this topic email: drpmackarey@msn.com

Paul J. Mackarey PT, DHSc, OCS is a Doctor in Health Sciences specializing in orthopedic and sports physical therapy in Scranton and Clarks Summit. Dr. Mackarey is in private practice and is an associate professor of clinical medicine at Geisinger Commonwealth School of Medicine. For all of Dr. Mackarey's articles, visit our exercise forum!

Osteochondritis dissecans, also called OCD, is the most common cause of a loose body or fragment in the knee and is usually found in young males between the ages of ten and twenty. While this word sounds like a mouth full, breaking down its Latin derivation to its simplest terms makes it understandable: “osteo” means bone, “chondro” means cartilage, “itis” means inflammation, and “dissecans” means dissect or separate. In OCD, a flap of cartilage with a thin layer of bone separates from the end of the bone. As the flap floats loosely in the joint, it becomes inflamed, painful and disrupts the normal function of the joint.  

Typically, OCD is found in the knee joint of active young men who participate in sports which involve jumping or full contact. Although less common, it is also found in other joints such as the elbow. 

Often, the exact cause of OCD is unknown. For a variety of reasons, blood flow to the small segment at the end of the bone lessens and the weak tissue breaks away and becomes a source of pain in the joint. Long term, OCD can increase the risk of osteoarthritis in the involved joint.

Common causes of OCD:

• Repetitive microtraumas to the end of the bone over time
• Age – Most often between the ages of 10 to 20
• Gender – More common in males
• Activity – Sports that involve jumping, running, sudden changes in direction for the knee or throwing or lifting excessively for the elbow
• Genetics – Some have a greater propensity than others

Some common signs and symptoms:

• Pain in the joint sets in or increases with sports or activities such as: walking distances, climbing stairs or hills for the knee or throwing or lifting for the elbow.
• Weakness in the muscles around the joint which often leads to a “giving out” of the knee
• Locking, snapping or popping of the joint – the knee/elbow may get “stuck” in a specific position as the bone/cartilage fragment moves around
• Loss of Motion – the knee or elbow will not completely bend or straighten
• Swelling and tenderness in the joint – worsened with sport or activity

Diagnosis

To properly diagnose OCD a physician will consider onset, related activities, symptoms, medical history, and examine the joint involved for pain, tenderness, loss of strength and limited range of motion. Often, a referral to a specialist such as an orthopedic surgeon for further examination is necessary. Special tests specifically detect a defect in the bone or cartilage of the joint such as:

Radiograph (X-ray) may be performed to assess the bones.

Magnetic Resonance Imaging (MRI) may be performed to assess bones and other soft tissues such as cartilage, ligaments, muscles and tendons.

Treatment

The primary goal of treatment for OCD is to relieve pain, control swelling, and restore the complete function (strength and range of motion) of the joint. The age of the patient and severity of the injury determine the treatment methods. For example, medications assist with pain and inflammation reduction.

Conservative Treatment

Young patients who are still growing have a good chance of healing with conservative treatment. Rest and physical therapy are the conservative treatments of choice. Rest entails avoiding any activity that compresses the joint such as jumping, running, twisting, squatting, etc. In some cases, using a splint, brace and crutches to protect the joint and eliminate full weight bearing, may be necessary for a few weeks. Physical therapy, either as a conservative or post operative treatment, involves restoring the range of motion with stretching exercises and improving the strength and stability of the joint through strengthening exercises. Modalities for pain and swelling such as heat, cold, electrical stimulation, ultrasound, compression devices assist with treatment depending on the age of the patient and severity of the problem.

Surgical Treatment

Conservative treatment can often require 3 to 6 months to be effective. However, if it fails, arthroscopic surgery stimulates healing or reattaches the loose fragment of cartilage and bone. In some cases if the defect is small, surgery involves filling in the defect with small bundles of cartilage. In other cases, the fragment is reattached directly to the defect using a small screw or bioabsorbable device. More recently, surgeons are using the bone marrow of the patient to repair the deficit by stimulating the growth of new tissue (bone marrow stimulation).

In other cases, a plug of healthy tissue from the non-weight bearing surface of a patient's knee relocated to the defect to stimulate healing (osteochondral autograft transplantation OATS). While there are many surgical options for OCD, an orthopedic surgeon will help the patient decide the most appropriate procedure based on age, size of defect, and other factors.

Prevention

While prevention is not always possible, some measures can be taken to limit risk. For example, if a child playing sports has a father and older brother who had OCD, then it would be wise to consider the following: Avoid or make modifications for sports requiring constant jumping. Cross-train for a sport to avoid daily trauma (run one day and bike the next). Also, do not play the sport all year round (basketball in the fall/winter and baseball in the spring/summer). Seek the advice from an orthopedic or sports physical therapist to learn proper strength and conditioning techniques. Learn proper biomechanics of lifting, throwing, squatting, running, jumping and landing.

Sources: Mayo Clinic

EVERY MONDAY – Read Dr. Paul J. Mackarey “Health & Exercise Forum!” via Blog

EVERY SUNDAY in "The Sunday Times" - Read Dr. Paul J. Mackarey “Health & Exercise Forum!” in hard copy

This article is not intended as a substitute for medical treatment. If you have questions related to your medical condition, please contact your family physician. For further inquires related to this topic email: drpmackarey@msn.com

Paul J. Mackarey PT, DHSc, OCS is a Doctor in Health Sciences specializing in orthopedic and sports physical therapy in Scranton and Clarks Summit. Dr. Mackarey is in private practice and is an associate professor of clinical medicine at Geisinger Commonwealth School of Medicine. For all of Dr. Mackarey's articles, visit our exercise forum!

“When is it safe for my child to start weight training?” This is a very common question asked by parents of young athletes who are looking for advice regarding their children’s participation in weight training. This month, for example, I received three such inquiries. While some who are eager to get a “competitive edge” may not be satisfied with the answer, these recommendations are grounded in the scientific literature and medical specialist with the hope to prevent injury and dispel fear and fallacy.

Weight training, weight lifting or resistive training all describes the use of a resistive force on a muscle to improve strength. While much attention has been given to the benefits of weight training in adults, much less has been written about its application in children.

Optimal Age to Begin Weight Training:

According to the Journal of Pediatric Orthopedics, children less than 12 years old are considered prepubescent or before puberty. Teenagers who are between 12 and 19 are considered to be adolescents. Studies consistently demonstrate that strength gains are much more significant in adolescents than in preadolescents. It is important to note that these strength gains are not only from the enlargement of muscle fibers (hypertrophy), but also from the improvement in the coordination and efficiency in muscle contraction and the recruitment of motor units and fibers within the muscle.

Preadolescents lack the hormones necessary to develop masculine characteristics. Adolescents begin to produce the hormones of testosterone and androsterone to develop secondary sexual characteristics such as pubic hair and enlarged genitalia. In view of this, age 13-14 is the optimal age to safely begin and benefit from a well-designed weight training program.

Benefits of a Well-Designed Weight Training Program for Adolescents:

• Increased Strength
• Improved Sports Performance
• Improved Injury Rehab
• Improved Overall Health & Wellness

Risks From Poorly Designed or Unsupervised Program:

• Risk level increases if the program is not developed or supervised by a qualified adult for technique, safety, intensity and frequency
• Lower Back Pain – from poor technique and overload
• Muscle/Tendon Strain – from overuse and overload
• Tendonitis – from overuse and overload
• Growth Plate Stress – (Osgood Schlatter’s Disease “ bump on the knee) from overload

How to Begin A Weight Training Program for Adolescents:

• Pediatrician/Family Physician – get medical clearance to make sure that you are not at risk, especially if you have medical issues such as juvenile diabetes or juvenile arthritis
• Orthopedic Physical Therapist – your doctor may think you would benefit from a few visits with an orthopedic PT to make sure your program is well-designed for your specific goals and your specific sport (track, football, basketball, baseball, soccer, tennis)
•  Avoid Competitive Weight Lifting – it sets you up for injury! No Clean-Jerk, Overhead Press, Full Squats. Don’t compete to lift to your maximum. Keep lifting FUN! Make training sport specific because soccer fitness is different than football fitness and runners differ from swimmers.
• Technique
  • Slowly lift and lower weight 4 seconds up, 4 seconds down
  • Breath – inhale lifting weight up and exhale down
  • Never hold breath!
  • Exercise major muscle groups:
  • Upper body: shrugs, rows, lats, biceps, triceps, chest press, wrist curls – all with light dumbbells and bands to start
  • Lower Body: hip hike, leg extension, ham curl, step ups, 45 degree squat, calf raise – all light with sandbags and dumbbells to start
• Lift 3 times per week on alternating days – 30 to 45 minute sessions
  • Warm up
  • Cool down
  • Work upper body/lower body
  • Can alternate days for upper body and lower body
  • Can alternate days for weight lifting with aerobic exercise (swim, run, bike)
• Concentrate on low weights (3-5#)/high repetitions(10-15 times)
  • Once master technique add 1-2 # and 3-5 reps
• • Never advance weight or reps if you overstrain and compromise technique

**STOP:

• If you have pain
• If you get lightheaded or dizzy
• If you experience lower back pain or joint pain
• If you have muscle or joint pain that lasts more than 2 days

EVERY MONDAY – Read Dr. Paul J. Mackarey “Health & Exercise Forum!” via Blog

EVERY SUNDAY in "The Sunday Times" - Read Dr. Paul J. Mackarey “Health & Exercise Forum!” in hard copy

This article is not intended as a substitute for medical treatment. If you have questions related to your medical condition, please contact your family physician. For further inquires related to this topic email: drpmackarey@msn.com

Paul J. Mackarey PT, DHSc, OCS is a Doctor in Health Sciences specializing in orthopedic and sports physical therapy in Scranton and Clarks Summit. Dr. Mackarey is in private practice and is an associate professor of clinical medicine at Geisinger Commonwealth School of Medicine. For all of Dr. Mackarey's articles, visit our exercise forum!

...Labor Day is also the start of the school year

While many people celebrate the Labor Day holiday by firing up the grill, others will be shopping to get their students ready for the school year. One item on the shopping list should be a good quality and well-fitted backpack…to prevent lower back pain!

In 2018, the government of India announced a ban on homework and recently in Poland; the government ministers did the same. Can you imagine…a ban on homework? In an effort to promote student health and address recent surges in the incidence of back pain in the young, there will be no homework for students in grades one and two.

It was estimated that the majority of students ages 7 – 13 in India were carrying almost half their body weight. Not surprisingly, medical practitioners noticed a dramatic increase in reported cases of back pain among this group and decided to take action. In addition to the homework ban for grades one and two, Indian authorities have also implemented a limit of 10% of the student’s body weight.

Back pain in students seems to be universal. Each year, as students in the United States prepare to return to school from summer vacation, the subject of backpacks arises. The good news: when compared to purses, messenger bags, or shoulder bags, backpacks are the best option to prevent lower back pain. The bad news is, most of the 40 million students in the USA using backpacks, are doing so incorrectly.

Studies have found more than 33% of children had LBP that caused them to miss school, visit a doctor, or abstain from activity. Also, 55% of children surveyed carried backpacks heavier than the 10-15% of their body weight, which is the maximum weight recommended by experts. Additionally, the study noted that early onset of LBP leads to greater likelihood of recurrent or chronic problems. Backpacks that are too heavy are particularly harmful to the development of the musculoskeletal system of growing youngsters. It can lead to poor posture that may lead to chronic problems.

The following information on backpack safely is based, in part, by guidelines from The American Physical Therapy Association. Parents and teachers would be wise to observe the following warning signs of an overloaded and unsafe backpack:

WARNING SIGNS:

• Change in posture when wearing the backpack. The weight of the pack forces the child to tip forward to compensate. Weak or poorly fitted straps force the child to tip to the side to compensate
• Struggling when putting on or taking off the backpack due to a pack that is too heavy or straps that don’t fit properly.
• Pain when wearing or after wearing the backpack due to a that is too heavy or straps that don’t fit properly
• Tingling or numbness – in the arms or hands
• Red marks – under the armpits or on the back

Consider the following suggestions to promote backpack safely and prevent back injury:

12 SUGGESTIONS for Backpack Usage:      

1. Limit Weight of Pack to 10-15% of Body Weight (100lb child = 10-15lb pack)
2. Padded Adjustable Shoulder Straps - Use both straps to distribute weight evenly. Using one strap may look cool but it will lead to back pain.
3. Waist Belt – Proper Fit - An adjustable waist belt will distribute pack weight from back to hips and legs. Top of pack should be below the neck and bottom 2-3 inches above the waist
4. Pack Weight Distributed to Small of Back/Hips – using adjustable straps - Not all the weight on shoulders and upper back
5. Wheeled Backpack – if unable to make above adjustments - This is an option for some children; however, you may have problems     carrying/lifting it on the bus etc.
6. Purchase Extra Set of Books And Use Your Locker - Get list from teachers and use the internet to buy extra books to leave at home. Teachers and students might consider downloading text books on the iPads or electronic tablets. Also, put unnecessary books in your locker between classes
7. Remove Pack When Possible - While waiting for bus, hanging out between class, etc
8. Put Pack On/Off From Chair/Table/Bench – Not Floor - It is much easier to lift a pack up from a table and put it on your back than bending over to get it from the floor
9. Stand Erect and Arch Small of Back - The correct posture while carrying heavy items is to make a hollow or arch the small of your back
10. Perform Posture/Stretching Exercises - Pinch shoulder blades together and extend and arch your spine backwards intermittently throughout the day – especially every time you take your pack off
11. Consider a pack with multiple compartments - Use several compartments to carefully load your backpack and distribute the weight more evenly…and eliminate accumulated/unnecessary junk.
12. Use a back with reflective material to enhance visibility.

EVERY MONDAY – Read Dr. Paul J. Mackarey “Health & Exercise Forum!” via Blog

EVERY SUNDAY in "The Sunday Times" - Read Dr. Paul J. Mackarey “Health & Exercise Forum!” in hard copy

This article is not intended as a substitute for medical treatment. If you have questions related to your medical condition, please contact your family physician. For further inquires related to this topic email: drpmackarey@msn.com

Paul J. Mackarey PT, DHSc, OCS is a Doctor in Health Sciences specializing in orthopaedic and sports physical therapy in Scranton and Clarks Summit. Dr. Mackarey is in private practice and is an associate professor of clinical medicine at Geisinger Commonwealth School of Medicine. For all of Dr. Mackarey's articles, visit our exercise forum!

Gardeners and Computer Mouse Users Be Aware!

Tennis elbow, also called lateral epicondylitis, is an inflammation of the lateral (outside) bony protuberance at the elbow. It is at this protuberance that the tendon of the long muscles of the hand, wrist and forearm attach to the bone. As the muscles repeatedly and forcefully contract, they pull on the bone, causing inflammation. The trauma is irritating when working the muscles in an awkward position with poor leverage like hitting a backhand in tennis.

It is not unusual for a patient to come to my office with severe pain on the outside of their elbow. Especially, after intensifying their tennis workouts or changing the racquet string tension. Others come to me with pain on the inside of the elbow (“golfer’s elbow”) from wrist action that advanced golfer’s use at impact. However, this problem is not only for tennis players and golfers. Laborers working with wrenches or screwdrivers with an awkward or extended arm can also develop tennis elbow. Others who are vulnerable are: those working for hours at a computer using a mouse as well as those working hard maintaining their lawns and gardens.

In a more chronic problem, lateral elbow pain may arise by a degenerative condition of the tendon fibers on the bony prominence at the lateral elbow. Sporadic scar tissue forms from a poor attempt by the body to overcompensate and heal without eliminating the cause.

Common characteristics of persons who develop tennis elbow:

• Age: Any age but - risk increases in 30-50 year old age group
• Racquet Sports: 50% of all athletes playing racquet sports: tennis, racquet ball, squash, fencing
• Repetition: Any activity with repetitive use of the hand, wrist, elbow – not a specific trauma
• Occupation: Meat cutting, plumbing, painting, raking, weaving, brick laying
• Decondition: Poor fitness level and sudden increase in upper body activities

Symptoms:

While symptoms may vary, pain on the outside of the elbow is almost universal. Patients also report severe burning pain that begins slowly and worsens over time when lifting, gripping or using fingers repetitively. In more severe cases, pain can radiate down the forearm.

Treatment Options:

Conservative treatment is almost always the first option and is successful in 85-90 percent of patients with tennis elbow. Your physician may prescribe anti-inflammatory medication (over the counter or prescribed). Physical/Occupational therapy, rest, ice, and a tennis elbow brace to protect and rest may be advised. Ergonomic changes in equipment, tools, technique and work-station may be necessary. Improvement should occur in 4-6 weeks. If not, a corticosteroid injection may be needed to apply the medication directly to the inflamed area. Physical therapy, range of motion, and stretching exercises may be necessary prior to a gradual return to activity. Deep friction massage can assist healing.

Exercises performed in a particular manner to isometrically hold and eccentrically lengthen the muscle with contraction.

New Conservative Treatment: Platelet-Rich-Plasma (PRP) is a new treatment for the conservative management of degenerated soft tissues that has recently received great media attention. In great part, due to its success in several high profile athletes. According to the Journal of the American Academy of Orthopaedic Surgeons,(JAAOS), platelet-rich plasma (PRP) is autologous (self-donated) blood with an above normal concentration of platelets. Normal blood contains both red and white blood cells, platelets and plasma. Platelets promote the production and revitalization of connective tissue by way of various growth factors on both a chemical and cellular level.

The actual PRP injection requires the patient to donate a small amount of their own blood. The blood is placed into a centrifuge (a machine that spins the blood at a high velocity to separate the different components of blood such as plasma, white and red blood cells), for approximately 15 minutes. Once separated, the physician draws the platelet-rich plasma to be injected directly into the damaged tissue. In theory, the high concentration of platelets, with its inherent ability to stimulate growth and regeneration of connective tissue, will promote and expedite healing.  

Surgery for tennis elbow is only considered in patients with severe pain for longer than 6 months without improvement from conservative treatment. One surgical technique involves removing the degenerated portion of the tendon and reattaching the healthy tendon to bone. Recently, arthroscopic surgery developed to perform this technique. However, research does not support the value of one over the other at this point. Physical/occupational therapy is used after surgery. Return to work or athletics may require 4-6 months. More recently, a surgical technique using ultrasound to guide a needle to debride (clean) the area of scar tissue has been developed. If eligible for this procedure, the time required for healing, rehabilitation and return to activity is much shorter.

If you feel you suffer from tennis elbow, ask your family physician which of these treatment options are best for you.

Visit your doctor regularly and listen to your body.     

EVERY MONDAY – Read Dr. Paul J. Mackarey “Health & Exercise Forum!” via Blog

EVERY SUNDAY in "The Sunday Times" - Read Dr. Paul J. Mackarey “Health & Exercise Forum!” in hard copy

This article is not intended as a substitute for medical treatment. If you have questions related to your medical condition, please contact your family physician. For further inquires related to this topic email: drpmackarey@msn.com

Paul J. Mackarey PT, DHSc, OCS is a Doctor in Health Sciences specializing in orthopaedic and sports physical therapy in Scranton and Clarks Summit. Dr. Mackarey is in private practice and is an associate professor of clinical medicine at Geisinger Commonwealth School of Medicine. For all of Dr. Mackarey's articles, visit our exercise forum!

This column is repeated every year at this time with the intent of raising the level of awareness to prevent death or serious illness from heat stroke in athletes and other active people in hot, humid weather.

It is the end of July and we have managed to survive two “heat waves” in NEPA. While it is important to have fun in the sun, please be mindful of how your body reacts to high humidity and heat and take appropriate precautions. Athletes are particularly vulnerable this time of year due to daytime practice sessions. (August 5 & 6, 2024, first day of acclimatization and August 12, 2024, first day of practice for fall sports according to PIAA). Visit www.piaa.org for more information. Keep in mind, you don’t have to be running a marathon or playing football in full uniform to suffer from heat stroke.

Heat stroke, one of the most serious heat-related illnesses, is the result of long term exposure to the sun to the point which a person cannot sweat enough to lower the body temperature. The elderly and infants are most susceptible and it can be fatal if not managed properly and immediately. Believe it or not, the exact cause of heatstroke is unclear. Prevention is the best treatment because it can strike suddenly and without warning. It can also occur in non athletes at outdoor concerts, outdoor carnivals, or backyard activities.

Hot Temps and Exercise

Some “old school” folks think that wearing extra clothing and “breaking a good sweat” is an optimal goal for exercise. However, it may be potentially very dangerous in hot and humid conditions. When exercising in hot weather, the body is under additional stress.  As the activity and the hot air increases your core temperature your body will to deliver more blood to your skin to cool it down. In doing so, your heart rate is increased and less blood is available for your muscles, which leads to cramping and other more serious problems. In humid conditions, problems are magnified as sweat cannot be evaporated from the skin to assist in cooling the body.

The American Academy of Pediatrics and The American College of Sports Medicine has the following recommendations which are appropriate for both the competitive athlete and weekend warrior:

Signs of Heatstroke:

• Heat Exhaustion – can be a precursor to heat stroke
• Signs: cramps, weakness, fatigue, nausa
• Treatment: rest in shade, cool down with cool (not cold) towels, and drink plenty of fluids.
• Core Body Temperature above 105 degrees Fahrenheit
• Hot, dry skin – flushed but not sweaty
• Lack of sweating *
  • *NOTE: athletes often have external heatstroke and they can sweat even with an increase core temperature
• Very rapid pulse
• Mental confusion, disorientation or hallucinations
• Physical clumsiness, sluggishness or fatigue
• Seizure
• Dizziness

Treatment of Heatstroke:

• CALL 911 – Remember this may be life-threatening
• Relocate  – to a cool shady place or air-conditioned indoors and lie down with slight elevation of feet
• Undress – Remove outer garments and roll onto side to expose as much skin as possible to the air
• Cool Down – spray or sponge with cool water (not cold) and fan the skin
• Ice – place ice packs to the groin, neck and armpits to cool down large blood vessels. No ice bath.
• Core Temperature – is the only accurate measurement so medical personnel may take rectal temp if necessary. Must get core temp to 102 degrees Fahrenheit ASAP.
• Begin CPR – if breathing stops
• No Aspirin or Acetaminophen – to decrease temp
• Administer Fluids – if person is alert enough to swallow give 32 to 64 oz over 1-2 hours

EVERY MONDAY – Read Dr. Paul J. Mackarey “Health & Exercise Forum!” via Blog

EVERY SUNDAY in "The Sunday Times" - Read Dr. Paul J. Mackarey “Health & Exercise Forum!” in hard copy

This article is not intended as a substitute for medical treatment. If you have questions related to your medical condition, please contact your family physician. For further inquires related to this topic email: drpmackarey@msn.com

Paul J. Mackarey PT, DHSc, OCS is a Doctor in Health Sciences specializing in orthopaedic and sports physical therapy in Scranton and Clarks Summit. Dr. Mackarey is in private practice and is an associate professor of clinical medicine at Geisinger Commonwealth School of Medicine. For all of Dr. Mackarey's articles, visit our exercise forum!

The 27^th Steamtown Marathon is three months away and, despite the warm weather, many local runners are deep into training. With serious heat waves of summer, any prolonged endurance activity in minimal to moderate heat can be dangerous if not prepared. Adequate hydration is critically important, not only to those training for a marathon but also for other outdoor endurance activities such as cycling, hiking, long distance power walking, etc

Next to oxygen, water is the nutrient most needed for life. A person can live without food for a month, but most can survive only three to four days without water. Even though proper hydration is essential for health, water gets overlooked as one of the six basic nutrients. Dehydration occurs when the amount of water taken into the body is less than the amount that is being lost. Dehydration can happen very rapidly (i.e. in less than eight hours); the consequences can be life threatening and the symptoms can be alarmingly swift.

In the body, water is needed to regulate body temperature, carry nutrients, remove toxins and waste materials, and provide the medium in which all cellular chemical reactions take place. Fluid balance is vital for body functions. A significant decrease in the total amount of body fluids leads to dehydration. Fluids can be lost through the urine, skin, or lungs. Along with fluids, essential electrolytes, such as sodium and potassium, are also perilously depleted in a dehydrated individual.

The risk of dehydration is not limited to endurance athletes and outdoor enthusiasts. Dehydration is the most common fluid and electrolyte disorder of frail elders, both in long term care facilities and in the community! Elders aged 85 to 99 years are six times more likely to be hospitalized for dehydration than those aged 65 to 69 years.

Is water adequate to prevent dehydration? Will a sports drink improve my performance? While some answers to these questions apply generally to all, others vary according to the temperature, humidity, length of time and intensity of the activity and condition of the athlete. 

Proper hydration is essential for the comfort and safety of the recreational and serious athlete. Hydration is critical to maintain cardiovascular function, body temperature and muscle performance. As temperature, humidity, intensity, and duration of exercise increase, so too does the importance of proper hydration. Excessive sweating can lead to a loss of blood volume which requires the heart to work much harder to circulate you blood through your body.

Dehydration is a major cause of fatigue, loss of coordination, and muscle cramping leading to poor performance. Prehydration, (drinking before exercise) is the first step in preventing dehydration. Marathon runners, other long-distance runners, and cyclists often prehydrate1-2 days before a big event. Rehydration, (drinking during or after exercise) is the second step in preventing dehydration. While athletes may be more vulnerable to dehydration, all persons engaging in exercise would benefit from increased performance, delayed muscle fatigue and pain by maintaining adequate hydration. Proper prehydration would include drinking 12-16 ounces of water 1-2 hours before exercise.  Athletes with other health issues should consult their family physician before engaging in long distance endurance sports.

American College of Sports Medicine Hydration Recommendations:

• Eat foods high in carbohydrates and low in fat. Drink plenty of fluids between exercise sessions. The best fluids are plain water or fluids without sugar, caffeine or alcohol.
• Drink 17 oz or 2+ cups of fluid 2 hours before exercise
• Drink every 15 minutes during exercise.
• Keep drinks cooler than the air temperature. Drinks should be readily available.
• If you exercise more than 60 minutes, you may benefit from a sports drink containing a carbohydrate. The carbohydrate drink should not exceed 8% solution
• If you exercise more than 60 minutes, take 30-60 grams of carbohydrate per hour to delay fatigue and fuel muscle contractions.
• If you exercise more than 60 minutes, include (.5-.7 g per gallon) sodium in your drink of choice. This will also encourage additional drinking.
• Drink 24 ounces of water for every 2 pounds you lose after your workout. This is based on pre and post exercise weight.
• If you exercise more than 90 minutes, sports drinks may be helpful. 60 to 100 calories per 8 ounces of drink will help supply the needed calories for performance.
• Avoid caffeine. While the energy is good, it acts as a diuretic to rid the body of fluid. This is counterproductive for the high-level athlete.

EVERY MONDAY – Read Dr. Paul J. Mackarey “Health & Exercise Forum!” via Blog

EVERY SUNDAY in "The Sunday Times" - Read Dr. Paul J. Mackarey “Health & Exercise Forum!” in hard copy

This article is not intended as a substitute for medical treatment. If you have questions related to your medical condition, please contact your family physician. For further inquires related to this topic email: drpmackarey@msn.com

Paul J. Mackarey PT, DHSc, OCS is a Doctor in Health Sciences specializing in orthopaedic and sports physical therapy in Scranton and Clarks Summit. Dr. Mackarey is in private practice and is an associate professor of clinical medicine at Geisinger Commonwealth School of Medicine. For all of Dr. Mackarey's articles, visit our exercise forum!