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This column is dedicated to the memory of John R. O’Brien, Esq., who recently passed due to medical complications associated with multiple sclerosis (MS). John was a source of joy and inspiration for those fortunate to have known him. Twenty years ago, John hesitantly agreed to contribute to my column on MS with two requirements: one, if the column would be valuable to those affected by MS and two, he would remain anonymous. When speaking with his dedicated wife, Sally, it became very apparent that any discussion of John’s life would be diminished if it was defined by the disease because he was committed to turning his “DISABILITY INTO AN ABILITY!”

With the help of his loving wife, family, friends, and devices such as an electric scooter and adaptive car, John not only lived but thrived! He was a skilled lawyer, a respected member of the Bar, and an active member of the community. John served on the executive committee of the Lackawanna Bar Association and was recently honored by the Lackawanna Pro Bono. He also taught business law and healthcare law and coached Prep’s mock trial team.

John shared his thoughts with me about the challenges of redefining life… from Golf Club Champion to living with a physically disabling disease. Anyone who knew him would agree that he succeeded in doing so through his keen intellect and sharp wit and humor…his heart and brain overcompensated for his body! In addition to reading books in Latin and Greek, he had his crossword puzzles published in The New York Times and Los Angeles Times. In September 2023, John conducted an interview with presidential historian Doris Kearns Goodwin before a full house at the Scranton Cultural Center. Ms. Goodwin later reported that John was the most knowledgeable, effective and enjoyable interviewer she’s encountered.

John’s absence will be deeply felt and his legacy will continue to shape our community for years to come!

WHAT IS MS?

According to the National Multiple Sclerosis Society, Multiple Sclerosis affects approximately 400,000 people in the United States. Multiple Sclerosis is second only to trauma as the most common cause of neurological disability for those in early to middle adulthood. MS is almost three times as common in women. Multiple Sclerosis is very uncommon before adolescence or after 50. However, the risk increases from teen years to age 50.

Multiple sclerosis is considered to be an autoimmune disease. The immune system of the body does not work properly when it fails to attack and protect the body against substances foreign to the body such as bacteria. Instead, the system allows the body to attack normal tissues and create diseases such as MS, rheumatoid arthritis and lupus.

In MS, the immune system attacks the brain and spinal cord of the central nervous system. Each nerve has an outer covering of a fatty material (myelin) for insulation to improve the transmission and conductivity of impulses or messages to and from the brain. The damage to the myelin of the nervous system interrupts the ability of messages to travel to and from the brain, through the spinal cord and to other areas of the body such as the muscles in the arms and legs. Due to this “short circuiting” the brain becomes unable to send or receive messages. In multiple sclerosis, scar tissue or plaques (sclerosis) replaces the fatty myelin in “multiple” areas. This is also called demyelination.

SYMPTOMS

The symptoms associated with MS vary greatly from person to person. The amount, frequency and speed of the demyelination process vary greatly and are directly related to the loss of strength and function in daily activities. Some people are independent and ambulatory with mild and infrequent episodes of weakness and disability and live a relatively normal life. Others suffer from frequent and aggressive episodes that significantly weaken and disable. Some common symptoms in the early stages include: muscle weakness, loss of coordination, blurred vision, pain in the eyes, double vision. Some common symptoms as the disease progresses are: muscle stiffness with muscle spasms, pain, difficulty controlling urination, difficulty thinking clearly.

DIAGNOSIS

The diagnosis of MS can be very difficulty in the early stages because the symptoms are often vague and temporary. Also, MS symptoms are very similar to other neurological problems. A neurologist will run several tests to rule out other possible problems. However, an MRI showing demyelination of the nerves is a primary confirmation.

TREATMENT

Treatment for MS depends upon many factors and requires consultation with your physician. Some medications can control the frequency and severity of MS symptoms such as pain, weakness, and spasticity. Also, some drugs can slow the progression of certain types of MS. Additional treatments for MS include: diet, exercise, physical therapy, support groups, and counseling for the MS patient and their family. Part II of Multiple Sclerosis will discuss these options in further detail next week.

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 - NEXT WEEK: PART II OF II - MULTIPLE SCLEROSIS

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!

What is a myth?

A myth is a traditional story, idea, or belief, especially one concerning early history of a people or explaining a natural or social phenomenon. It is a widely held but false belief or idea. In medicine, health myths are also widely held beliefs about health issues such as medicines, herbs, treatments, cures, antidotes, etc. which are partially or totally false and unsubstantiated in the scientific literature. This is a partial list of the most common health myths:

  1. 8 GLASSES OF WATER IS ESSENTIAL FOR GOOD HEALTH
    • You don’t need to search very long to find copious information purporting the value of water to maintain good health. Sources suggest between 8 and 15 cups of water per day! Despite the plethora of contradictory information, there is no research to support an exact amount. In fact, most scientifically validated research suggests that healthy adults do not need to count cups and those who drink water when thirsty receive adequate hydration for good health. Remember, there are many water-rich foods to provide hydration; soup, fruit, vegetables, juice, coffee, and tea. However, be aware that if your urine is dark yellow you need more hydration. And, if you are very physically active or live in a warm climate, you may require more water.
  2. EATING EGGS WILL LEAD TO HEART DISEASE
    • In the late 70’s, eggs received a bad reputation when high cholesterol in the blood could increase the risk of heart disease. The love-hate relationship with eggs and egg products has continued to grow since. However, recent findings suggest that eating an egg or two a day will not raise the risk of heart disease in healthy adults. While egg yolks do contain cholesterol, the amount is relatively small and is offset by the fact that eggs also have many nutrients such as omega-3’s, which are associated with lowering the risk of heart disease.
  3. ANTIPERSPIRANTS CAN LEAD TO BREAST CANCER
    • Some research attempted to link the preservatives (parabens) used in some deodorants and antiperspirants with the activity of estrogen in the body’s cells because these parabens are found in breast tumors. However, there is no scientific evidence that parabens cause breast cancer. So, don’t sweat it!
  4. SPENDING TOO MUCH TIME IN THE COLD AIR WILL LEAD TO A COLD
    • Sometimes “old wives tales” are true…but not this one! Grandparents and parents have been telling their grandchildren and children to button up and don’t spend too much time in the cold. In fact, one study found that healthy men who spent several hours a day in cold temperatures (just above freezing) had an increase in virus-fighting activity in their immune systems. Moreover, documentation supports that spending too much time indoors, especially during winter flu season, puts you at risk for getting the flu…so circulate fresh air or get outdoors!
  5. EVERYONE NEEDS A MULTIVITAMIN TO BE HEALTHY
    • Research does not support this theory that everyone needs a multivitamin to supplement for nutrients not in your diet. In fact, most medical experts agree that healthy adults receive all necessary nutrients and vitamins from a well-balanced diet including; fruits, vegetables, whole grains, nuts and healthy oils. However, if your physician recommends a vitamin, do so. It may be that you are insufficient or at risk due to other medical conditions. If you are pregnant, for example, you will need to take folic acid to lower the risk of birth defects. 
  6. EATING A GOOD BREAKFAST IS NECESSARY TO LOSE WEIGHT
    • Some diets purport that eating breakfast is necessary to stimulate your metabolism in order to lose weight. This theory is not confirmed, and for those who enjoy breakfast, it may limit hunger sensation and prevent unhealthy snacking. However, a study from Cornell University found that those who did not eat breakfast did not overeat at lunch and dinner and consumed approximately 400 fewer calories per day. So, for some healthy adults, eliminating breakfast can help lose weight…the premise of “intermittent fasting.”
  7. GREEN MUCUS IS A SURE SIGN OF INFECTION
    • Most would agree, the slimy green mucus in your tissue is disgusting. However, without a lab test, it is not a sure sign of an infection or need for antibiotics. Often, clear mucus indicates a sinus infection, while green mucus represents a common cold.
  8. TOO MUCH SUGAR MAKES KIDS HYPERACTIVE
    • Sugar making your kids hyper? Maybe it’s just kids being kids! It is widely accepted that sugar is not good for kids (unhealthy calories leading to obesity, etc). However, Research shows that it is not the cause of hyperactivity (caffeine or chocolate may). It may be that parents are so focused on their behavior after sugar intake that they expect their kids to be wired when it may just be attributed to the normal behavior of kids just being kids!
  9. A TOILET SEAT IS A COMMON AREA TO SPREAD DISEASE
    • Believe it or not, toilet seats are not the most unsanitary item in the bathroom. So, if you can’t cover it, don’t sweat it. Bugs such as E. coli, norovirus, and other flu viruses cover bathroom doors, door handles, and floors. Thorough hand washing is essential and use a paper towel for door handles.
  10. CRACKING YOUR KNUCKLES OR OTHER JOINTS WILL LEAD TO ARTHRITIS
    • One thing is certain…cracking your knuckles is annoying to everyone around you! But studies show that it is not harmful to your joints or causes arthritis. The popping noise is not because the bones are grinding together; it is due to movement of gas bubbles in the joint capsule.  
  11. ELIMINATING FAT FROM YOUR DIET WILL MAKE YOU HEALTHIER AND HELP YOU LOOSE WEIGHT
    • Total elimination of fat from your diet is not only unnecessary to be healthy and lose weight, but is unhealthy and harmful. Fat provides essential nutrients and is an important component of a healthy diet. Due to the fact that fats have more calories per gram than protein or carbohydrates, limiting fat intake is necessary to avoid extra calories. Instead, chose low fat dairy products (milk, yogurt, cheese) and consider eating small amounts of food with healthy fats, such as avocados, olives, or nuts. 
  12. CHILDHOOD VACCINES LEAD TO AUTISM
    • Vaccines do not cause autism. Despite much controversy, there is no scientific evidence that supports a connection between autism and childhood vaccines. In fact, the original study that started the debate years ago has been disproven and retracted. Fact: childhood vaccines protect children from a variety of serious or potentially fatal diseases.

SOURCES: WebMd; National Institutes of Health, 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 does not intend 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!

PEOPLE OFTEN ASK ME, “IS THERE SUCH A THING AS AN EXERCISE RUT?”. THEY WANT TO KNOW WHY THEY DO NOT SEEM TO BE IMPROVING WITH THEIR EXERCISE PROGRAM. They exercise 3-4 times a week for 30 to 45 minutes and they feel frustrated and STUCK in a rut.

The purpose of this column is to offer suggestions to improve or get more out of a “stale” exercise program. Last week’s column offered tips to improve a stale cardiovascular and strength program. We will discuss flexibility and functional training tips, including the components necessary for a healthy mind, body and spirit connection.

FLEXIBILITY TRAINING

Flexibility training involves the careful stretching of the muscles, tendons and joints to improve range of motion in order to safely perform daily activities and sports without injuring or tearing soft tissues. It is probably the most neglected part of the fitness program. However, while the amount of inherent flexibility varies for each person, a minimal range is necessary as it relates to daily activities and sports. For example, as you age it is important to have enough flexibility in your back, hips and knees to wash your feet, put shoes and socks on. After a warm –up activity, perform flexibility exercises slowly and gently. There are two types of flexibility exercises; dynamic and static. Perform dynamic stretching with movement such as pushing the ankle up and down like a gas pedal. Complete passive stretching using an outside force, such as a towel to pull the ankle up to stretch the calf. Dynamic should be performed before an activity (before running or playing tennis) and static performed after the activity is over in order to increase range of motion for future activities.

Improving a Flexibility Training Program:

Hamstring Wall Stretch
½ Cobra Lower Back Stretch

STEP TWO: Mind, Body, Spirit; Nutrition; Core Fitness; Functional/Sports Specific Training; Leisure Sports and Activities

In order to prevent an exercise program from getting stale, one must incorporate all aspects of wellness…a healthy mind, body and spirit!

Conclusion:

It is easy for fitness enthusiasts to get so focused on maintaining a routine that they allow their program to become stale and ineffective. It is essential to reassess and update your program to prevent stagnation.

Make sure the routine has all three fundamental components of a well-balanced exercise program; cardiovascular, strength and flexibility training. Moreover, to be truly healthy, one must work toward a “Healthy Mind, Body, and Spirit. Therefore, in addition to traditional exercise one must incorporate the following: nutrition; meditation, relaxation techniques, yoga, core fitness; functional/sports specific training; leisure sports and activities

In order to prevent an exercise program from getting stale, one must incorporate all aspects of wellness…a healthy mind, body and spirit!

While each component offers its own specific benefit, the combination of all three cooperatively provides unique value. Too often, fitness enthusiasts concentrate on the exercises they LIKE or are good at more than the ones they NEED.

Sources: National Institutes of Health; American Council on Exercise

Model: Lily Smith, Physical Therapy Student, University of Scranton, PT aide, Mackarey Physical Therapy

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!

Part I of II

PEOPLE WILL OFTEN ASK ME, “IS THERE SUCH A THING AS AN EXERCISE RUT?” THEY WANT TO KNOW WHY THEY DO NOT SEEM TO BE IMPROVING WITH THEIR EXERCISE PROGRAM…they exercise 3-4 times a week for 30 to 45 minutes and they feel frustrated and STUCK in a rut. While initially responding favorably to exercise, after 6 -9 months or more, they do not notice progress in weight loss, strength, tone, endurance or daily function.

The purpose of this column will be to offer suggestions on how to improve or get more out of a “stale” exercise program or an exercise rut. Step one is to build an exercise program that is grounded in the basics. Next step two, which begins after the basics have been mastered, includes the components necessary for a healthy mind, body and spirit connection and translates into functional activities of daily living including work and leisure sports.

STEP ONE: CARDIOVASCULAR; STRENGTH; FLEXIBILITY

Make sure your routine has all three fundamental components of a well-balanced exercise program; cardiovascular, strength and flexibility training. While each component offers its own specific benefit, the combination of all three cooperatively provides unique value. Too often, fitness enthusiasts concentrate on the exercises they LIKE or are good at more than the ones they NEED. A well-balanced program includes what you like and need! In fact, recent studies show that those performing all three components surpassed those performing one or any combination of two of the training types when tested for efficient oxygen uptake (VO2 Max), production of HDL (good cholesterol), lower body fat percentage, and lower blood glucose levels.

CARDIOVASCULAR TRAINING:

Cardiovascular exercise is any activity that raises your heart rate and respiratory rate. This type of exercise strengthens the heart muscle and the muscles that assist in breathing. When these muscles are stronger, they in turn work more efficiently to deliver oxygen to your muscles and other parts of the body. Ultimately, these oxygenated muscles can work harder and longer to burn fat during exercise and at rest.

Examples of Cardiovascular Exercises:  Running, Brisk Walking, Swimming, Biking, Rowing, Elliptical Training and Stepper Training. Most experts recommend at least 30 minutes of sustained cardio, 3-4 days per week. However, recent studies support the notion of performing 10-15 minutes, twice daily, 4 days per week. For those “stuck” in a fitness or exercise rut, to advance your program, cardio should be performed 5-6 days per week for 45-60 minutes.

Improving a Cardio Training Program:
STRENGTH TRAINING:

Strength training is an activity that provides any type of resistance to muscle contraction to build strength in the muscle. The resistance can be without movement against an immovable object such as pushing against a wall (isometric) or with movement such as lifting up or lowering a weight down against gravity (isotonic/dynamic). There are two types of isotonic muscle contraction; concentric, which involves raising the weight against gravity as the muscle shortens and eccentric which involves lowering a weight against gravity as the muscle lengthens. A standing biceps curl is an example that incorporates both concentric and eccentric contractions. A progressive strength training program includes all three types of muscle contraction. By using the classic bicep muscle curl these photos will demonstrate all three types of muscle contraction:

-Isometric Bicep Muscle Curl – pull up on door knob without allowing any movement of the arm.

-Concentric Bicep Muscle Curl – raise a dumbbell up against gravity as the muscle shortens.

-Eccentric Bicep Muscle Curl – lower a dumbbell slowly (4-6 seconds) against gravity as the muscle lengthens.

Improving a Strength Training Program:

Sources: National Institutes of Health; American Council on Exercise

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

NEXT WEEK! Read Stuck in an Exercise Rut…Part II of II:

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!

February is National Cancer Prevention Month and March is Colorectal Cancer Awareness Month. Unfortunately, according to a study conducted by Northeast Regional Cancer Institute (NRCI), our area has a higher rate of cancer compared to the rest of the United States. Residents of NEPA must be vigilant! While there is no fool-proof method for cancer prevention, scientific research does support the fact that healthy lifestyle choices are essential.

Important Tips to Reduce Your Risk of Cancer:

  1. AVOID SMOKE AND SMOKING! - Perhaps the most important thing one can do to prevent cancer is to avoid smoking…first hand or second hand. It has been directly linked to cancer of the lung, head and neck, bladder and pancreas and others. Smoking increases the risk of lung cancer by 20 to 30 times.
  2. Exercise, Exercise, Exercise - 30 -45 Minutes of moderate exercise or physical activity 4-5 days per week is recommended to reduce the risk of cancer. Walk, ride a bike, swim, or join a gym, just do something! However, individuals exercising for longer durations at higher intensities were shown to experience the greatest reduction in their risk cancer.
    • Why Exercise Works - Various biological mechanisms including hormonal changes have been suggested as possible reasons for the reduction in cancer through exercise. However, current research has demonstrated a strong link between cancer and stress. Stress, which reduces our body’s natural defense mechanisms, such as adrenal cortical or stress hormones, increases our susceptibility to disease including cancer. Exercise and physical activity has been shown to not only reduce stress, anxiety, and depression but also to elevate mood. These psychological improvements may be the reason why exercise and physical activity are effective in preventing cancer.
      • Obesity as a risk factor for cancer has been demonstrated in the scientific literature for years. Individuals that are more physically active are usually not overweight. Exercise increases basal metabolic rate, expends calories, and burns fat to help control your weight and to help maintain a more normal lean body mass. Physical activity and exercise prevent obesity.
    • Colorectal Cancer - Physical activity and exercise has been shown to have the greatest prevention against colorectal cancer. Colorectal cancer is the second leading cause of cancer death among American men and women combined. Physical activity reduced the risk of colorectal cancer up to 70% for both men and women.
    • Breast Cancer - Research has been able to establish a similar relationship between physical activity and breast cancer. Approximately one out of every eight women in the United States can develop breast cancer at some point in their lifetime. Exercise has been shown to reduce the risk of breast cancer up to 40%.
    • Prostate Cancer - Prostate cancer, the second most common cause of male death, will affect one in every five American males. However, the risk of prostate cancer can be reduced up to 30% through physical activity and exercise. Researchers hypothesize that exercise may have its greatest protective effect against prostate cancer when initiated early in a man’s life.
    • Cancer of the Lung/Uterus/Cervix - Lung cancer is the leading cause of cancer death in the United States. Cancers of the uterus and cervix will accounts for 7,400 deaths annually in the United States. Exercise and physical activity can reduce the risk of lung and uterine/cervical cancer up to 40% and 90%, respectively.
  3. Avoid Obesity and Stress - Both obesity and stress, as mentioned above, have been linked with cancer of various types. A healthy low-fat diet, limited in red meat, with moderate amounts of fish, rich in fruits, vegetables and nuts along with and regular exercise are essential components for prevention , especially for colorectal and prostate cancer.
  4. Use a Water Filter - The use of a good home water filter has many healthy benefits. It may reduce your exposure to carcinogens and other harmful chemicals. Also, using a steel or glass container to store drinking water is important to avoid chemicals such as BPA found in plastic bottles.
  5. Drink Plenty of Water - The American Cancer Society recommends drinking more than 8 cups of water per day to prevent bladder cancer by diluting the concentration of urine in the bladder. 
  6. Limit Consumption of Meat - Processed, charred, blackened, and well-done meats are associated with heterocyclic amines, which are cancer causing and formed when charcoal broiling meat. Marinating meat for an extended time prior to grilling has been recommended to improve safety according to some studies.
  7. Eat Green Vegetables - Some studies suggest that the really dark greens such as spinach, kale, collards and broccoli are valuable in cancer preventions. Endive, arugula, and romaine must be added to this list.
  8. Eat Nuts - Some studies show that snacking on Brazil nuts and other nuts high in antioxidants, lowers the risk of some cancers such as bladder, lung and colorectal.
  9. Limit Sun Exposure - Take time to use adequate sun block and proper clothing to protect your skin from the sun to prevent skin cancer, especially if you are light skinned. At all costs, avoid sunburn!
  10. Eat Organic and Natural Foods - When possible, buy fresh foods and meats free of antibiotic and hormones. Choose organic produce grown free of pesticides. Eat farm-raised fish and limit consumption of fish from waters high in mercury concentration
  11.  Visit Your Physician Regularly - Regular check-ups by your physician is essential to stay healthy and have early detection of disease. Many tests and vaccinations offer life saving information such as: PAP tests, mammograms, colonoscopies, PSA blood tests and others. Ask your physician about new vaccinations such as HPV, Human Papillomavirus. These are important for the prevention of cervical cancer in women and head and neck cancer in men.

Source: American Cancer Society

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!

SAFE RETURN TO DRIVING AFTER INJURY OR SURGERY

I enjoy the privilege of working with people recovering from a wide variety of medical conditions. Many of these conditions can directly affect activities of daily living, particularly, the ability to drive safely: orthopedic and sports injuries, fractures, sprains and strains, joint replacements, hip fractures, shoulder and elbow surgeries and spinal fusions. Despite the many different types of problems, there is one question that is invariably asked, “When can I return to driving?” Unfortunately, the answer is not as simple as the question because it depends on many factors. Furthermore, the implications, such as a serious accident causing further damage to the injury or surgical site or harm to someone else, are significant and possibly critical. So, the next time you ask your physician this question, please follow instructions and be patient…remember, it could be your child or grandchild running into traffic to chase a ball and you would want the driver to be at optimal function to apply the brakes!

Impact of Not Driving

In our culture, the inability to drive has a significant impact on lifestyle and livelihood. A study published in the Journal of Bone and Joint Surgery, found that 74% of those unable to drive due to injury or surgery are dependent on family and most of the remainder depend on friends. 4% of those unable to drive have no help at all and more than 25% suffer major financial hardship.

The report also found that family physicians, orthopedic surgeons, podiatrists, and physical therapists are keenly aware of this dilemma but often fail to communicate effectively to patients about driving. Most medical professionals express serious concerns about liability regarding return to driving following an injury or surgery. They feel that there is a lack of data to support decisions and inadequate communication among each other. They agree that they must do a better job communicating with patients and their families so they can better prepare for a period of time during their recovery in which they cannot drive.

Recent studies published in the Journal of the American Academy of Orthopaedic Surgeons (JAAOS) and the Journal of Foot and Ankle Surgery (JFAS),determined that there are two significant components in the decision of safely returning to driving after an injury or surgery; the time required for healing and the time required for a return of function. Additionally, it was found that those wearing a surgical shoe or walking boot demonstrated a significantly slower braking response time even in healthy/non-injured individuals wearing the shoe/boot.

Time for Adequate Healing

During the time required for healing, in addition to the fear of an additional trauma from a motor vehicle accident to the healing body part, there is a general concern about the potential damage that may come from over using the body part to drive before it is adequately healed. For example, a healing fracture in the right lower leg might be compromised or delayed if one must suddenly and forcefully apply the brakes. Also, during this time, it is not unusual for post-injury or post-surgery patients to use pain medications, including narcotics. This will also compromise judgment and reaction time while driving.  

Time for Adequate Function

Most orthopedic conditions heal in 6 to 8 weeks. However, as many of you may fully know, once a cast or splint is removed, you are not ready to run or jump. Depending on the severity of the injury, it may take many weeks of aggressive physical therapy to regain strength, range-of-motion, agility and dexterity to function at a safe level for a full return to daily activities, including driving.

Driving Requires the Whole Body

The current research reinforces the fact that driving safely requires good function of the entire body. For example, just because you broke your shoulder bone but did not fracture your right leg does not mean that you are able to drive safely. Wearing a sling after arm surgery also compromises driving. First, you need a stabilized and healed injury prior to driving. Then, you must work in rehab to make modifications to return to safe driving. Apply the same scenario to injuries or surgery to the spine (neck and lower back).

GENERAL GUIDELINES: RETURN TO NORMAL BRAKING REACTION TIME AFTER SURGERY (JAAOS)

Type of Surgery:

  1. Knee Arthroscopy
  2. Right Total Hip Replacement
  3. Right Total Knee Replacement
  4. Lower Leg Fracture
  5. Ankle Fracture
  6. Right Lower Leg Cast/Brace
  7. Ankle/Foot Tendonitis/Fasciitis (non-surgical)

Time Until Normal Braking*:

  1. 4 Weeks
  2. 4-6 Weeks
  3. 4-6 Weeks
  4. 6 Weeks after initial weight bearing
  5. 9 Weeks
  6. Full weight bearing after removal of cast/brace
  7. Surgical shoe/boot can be removed for 50-75% weight bearing

*Based on research using driving simulators

7 TIPS TO KNOW WHEN YOU ARE READY TO DRIVE:

  1. You have physician’s approval that you are healed enough not to do any damage to the injury.
  2. You can use your arms to touch your forehead and opposite shoulder without significant pain.
  3. You can walk with minimal pain and minimal limp.
  4. You can put 50% of your total weight on the involved leg (especially the right).
  5. You have adequate range of motion at the hip and knee (bend the hip 70-90 degrees, extend your knee to -10/-5 degrees and bend your knee to 80-90 degrees without pain).
  6. You can drive in empty parking lot and practice without difficulty.
  7. You are wearing a surgical shoe or boot that does not involve surgery or fracture healing (tendonitis or plantar fasciitis) and with your physician or podiatrists approval, the device can be removed without causing pain upon seated weight-bearing and gas/brake simulation.

Remember, every case is unique and there is no substitute for communication with your orthopedic surgeon, podiatrist, family physician and physical therapist.

Visit your doctor regularly and listen to your body.     

Keep moving, eat healthy foods, exercise regularly, and live long and well!

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!

February is American Heart Month!

American Heart Month is not just for lovers. Long after the Valentine’s roses wilt, our hearts will require special attention for a long healthy life. It is the goal of The National Heart, Lung, and Blood Institute to motivate Americans to adopt healthy lifestyles to prevent heart disease.

Not So Young at Heart!

A recent study by the Center for Disease Control (CDC) found that while many Americans believe that they are “young at heart”, it turns out that many have hearts older than their actual age. For example, the study found that the average American male heart is eight years older and the average American female heart is five years older than their chronological age.

What does this mean?

The CDC’s findings may offer some explanation for the fact that many Americans die from heart attacks, strokes, and heart failure when compared to other people around the globe. Furthermore, while more Americans use heart medications more than other people in the world, heart attack and stroke continue to be the leading cause of death in the US, killing more than 80,000 each year.

What Can You Do?

The CDC has developed a new test to determine “Heart Age,” which has been found to be a much more reliable indicator of a person’s risk for heart disease. The heart age test will determine if your heart is older, younger or average for your age, which can be much more important for longevity than chronological age.

The CDC is encouraging people to take matters into their own hands …be proactive. In addition to calculating your Body Mass Index ((BMI), the CDC is asking people to use an online calculator to determine their heart age. The calculator will give a person a more accurate percentage of risk for heart attack or stroke. Based on the outcome, one must see their family physician or cardiologist to discuss the results and implement a plan.    

The Calculator - For Example:

Heart Age is very easy to use: You just need to enter your age, sex, blood pressure, whether you are treated for high blood pressure, whether you smoke or have diabetes, and your body mass index (BMI), with a handy calculator if you don’t know it. The tool gives you your risk for heart disease in the next ten years, compared with normal.

The CDC “Heart Age Test” is simple:

Visit: www.framinghamheartstudy.org or www.heartfoundation.org

Enter: sex, blood pressure, (list if controlled), diabetes (list if controlled), smoking history, and body mass index (BMI), a simple height/weight calculation found on-line at www.bmicalculator.cc

Example: A 53 year old women with an acceptable BMI, may actually find that she is at great risk for suffering a heart attack or stroke because she smokes cigarettes and has uncontrolled high blood pressure. The calculator includes all the significant factors proven by science to affect a person’s risk of heart attack or stroke. These include: blood pressure, weight, BMI, blood sugar, cholesterol, age, sex and smoking history.

Example: 50 year old male smoker has uncontrolled high blood pressure of 140/96, no history of diabetes, and a BMI of 30 has a predicted heart age of 72 years. A female with a similar profile would have a heart age of 74 years.

The Solution

To some, the solution may be obvious and for others it may be impossible. In the previous example of the 50 year old smoker, if he quit smoking for one year, he would halve reduced his heart age by 14 years (15 years for a woman). If he would reduce his blood pressure to 120, he would reduce his heart age by 6 years (10 years for a woman). And, if both risk factors were removed, he would reduce his heart age by 19 years (23 for a woman).

In the above examples, the 53 year old man does not have to take his 72 year old heart age as a death sentence.

What Individuals can do…

What Public Health Policy Can do…

BY THE WAY…I took the test:

Male: 65

Systolic Blood Pressure: 110

No high blood pressure or diabetes; non smoker

BMI: 22.5

HEART AGE: 62

SOURCES: WWW.CDC.GOV

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!

Antibiotic resistance occurs when bacteria no longer respond to the drugs designed to kill them. For more than a decade, the Centers for Disease Control along with other national and international agencies has supported an initiative called “Antibiotic Stewardship” the hallmark of which is the judicious, appropriate use of antimicrobials.

What’s The Problem?

It’s told in some sobering statistics from the CDC, World Health Organization, and Food and Drug Administration:

Patients and providers must take equal responsibility. When we get sick, we often feel we need an antibiotic right away. In fact, we often demand one. A study published in the New England Journal of Medicine in 2018 found that to achieve a patient satisfaction rating in the 90th percentile physicians needed to prescribe antibiotics 75% of the time. Is this the correct approach to therapy? Are we using antibiotics too readily? What are the consequences of profuse antibiotic use?

Here's a pop quiz:

In which of the following situations are antibiotics warranted?

A. Cold symptoms (runny nose, sore throat, headache) with a fever of 101F for 2 days

B. Cold symptoms lasting 12 days with persistent stuffiness and headache

C. Cold symptoms for 3 days with yellow-green mucous discharge

D. all of the above

The correct answer is B. Let’s discuss the reasons. Symptoms experienced as part of the common cold can include green/yellow sputum, cough, runny nose, stuffiness, sore throat, headache, fever, and mild muscle aches. This illness is caused by a virus, most likely a rhinovirus. Currently, 160 identified strains of rhinovirus are know.

Antibiotics work to destroy bacteria, not viruses since they have no activity against viruses. Antibiotics target specific bacterial structures or functions. Common bacterial targets for antibiotics include the cell wall (amoxicillin), ribosome activity (azithromycin), and bacterial DNA (levofloxacin). All of those are lacking in the very primitive structure of a virus. So, you could sit in a bathtub full of penicillin and not cure your cold with an antibiotic because there is simply nothing for the antibiotic to destroy in the viral structure.

Why are antibiotics appropriate after 10 days with cold symptoms? The typical common cold lasts between five and ten days with symptoms peaking around three or four days and waning at day six. If symptoms are consistent or regress and then become worse it is likely a sign of bacterial superinfections (super = on top of).

How Does This Happen?

Usually, we carry certain bacteria with us as part of our “normal flora”. The mouth, nasal passages, large intestines, and skin host the most bacteria in the body. These bacteria work with our body and provide various “services” including protection against other more dangerous bacteria, digestion of food, and production of vitamins. A viral infection disturbs the normal balance of bacteria, allowing for proliferation and subsequent bacterial infection.

Side Effects:

Why should we be careful about antibiotic use?

Antibiotics are not innocuous substances. They have significant side effect profiles. Adverse drug reactions associated with antibiotics can be less severe and consist of mild rash or nausea. More serious reactions include heart arrhythmias, tendon rupture, Stevens Johnson Syndrome (severe skin rash resembling thermal burns), and liver and kidney damage. Remember – every drug – not only antibiotics – has the potential to cause unpredictable adverse reactions

Resistance:

The most compelling reason to be careful about antibiotic use is resistance. Each time bacteria are exposed to an antibiotic, some are destroyed but others adapt to resist the antibiotic and live to see another day (remember Darwin’s Survival of the Fittest?). Antibiotics are unique in that the more they are used, the less effective they become. When antibiotics are used inappropriately – not taking them on schedule, for the right duration, taking them for a viral illness – bacteria have a chance to adapt to overcome the antibiotic activity. The resistant bacteria may go on to set up a resistant infection in you or that bacteria may be transmitted to others.

Limiting Risk:

There are several ways we can combat this problem according to the Joint Commission on Healthcare Accreditation 2020 Standards. It is important to identify the causative agent if possible.

For example, a sore throat should not be treated with antibiotics until a throat culture or rapid strep test is obtained and a bacterial cause is identified. According to the Infectious Disease Society of America, 90 percent of adult sore throats have a viral cause, not bacterial. Avoid unneeded clinic or urgent care visits and utilize OTC and non-drug measures to manage non-bacterial infection symptoms.

Re-evaluate drug allergies:

Mislabeled allergy status leads to more expensive, less optimal antibiotic choices, more complex administration, increased resistance rates, and more treatment failures. The most common listed drug allergy in the US is Penicillin. According to the CDC, 10% percent of patients reports an allergy, however, < 1% of patients have a true allergy precluding penicillin or penicillin-like agents (the biggest class of antibiotic agents).

Vaccination:

Vaccines may prevent bacterial infections or prevent viral infections which will avert a bacterial superinfection. Here are two examples of where vaccines can lower antibiotic use. The pneumococcal “pneumonia” vaccine protects against the bacterium Streptococcus pneumoniae. Following the current guidelines for vaccination during childhood and adulthood decreases pneumococcal infections. According to the CDC, this vaccine has reduced pneumococcal infections by more than 90% in children. In addition, antibiotic-resistant pneumococcal infections have decreased in the United States since the pneumococcal vaccine was introduced.

The shingles vaccine also minimizes antibiotic use. The shingles vaccine “Shingrix”, is currently approved for individuals 50 years old (and older) as a two-dose series. Not only does it effectively prevent the occurrence of shingles, a painful, debilitating re-emergence of the chickenpox virus, but also reduces the risk of a potential secondary bacterial skin superinfection. Vaccine prevention of viral illness may subsequently eliminate antibiotic use.

Education:

Educating patients and prescribers will lead to the proper use of antibiotics to curb antibiotic resistance.

Guest Author: Dr. Gretchen Welby, PharmD, MHA

Dr. Welby received degrees from Keystone College and Philadelphia College of Pharmacy and Science. She received a Master of Health Administration Degree from the University of Scranton and a Doctor of Pharmacy degree from Temple University. She is currently the Academic Director of the Physician Assistant Program at Marywood University where she teaches Anatomy, Physiology, Pathophysiology, and Pharmacology.

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!

What is an Ice Bath?

Ice baths have become a new trend or fad in health and fitness, especially among elite athletes and some celebrities. However, it is far from a new treatment modality. In fact, the Ancient Greeks employed cold-water immersion for fever, pain relief, relaxation and socialization. In addition, Hippocrates documented the use of cold for medicinal purposes for its analgesic benefits. 

Ice baths, a type of cryotherapy, is also referred to as cold water immersion (CWI) or cold water therapy. This involves immersing your body in ice water for approximately 5-15 minutes from the neck down at 50-59 degrees. The ice baths are commonly used for pain, delayed-onset muscle soreness (DOMS), and inflammation and mood elevation. 

In theory, the cold water lowers the temperature of your skin and body by vasoconstriction (narrow) of the blood vessels. When you get out of the cold, water the vasodilatation (widen) of the blood vessels. Immediately, this brings fresh oxygen and nutrient-rich blood back to the tissues to warm the body and in the process, reduce pain, inflammation and promote healing.

Types of Cold Water Therapy

Purported Ice Bath Benefits

Potential Side Effects of Ice Baths

If you have the following health conditions, ice baths may not be the best therapeutic modality for you. Before you consider trying an ice bath, consult with your physician to avoid potentially serious problems:

In Conclusion: What the Science Says

While some studies have shown that subjects report less muscle soreness following CWI when compared  to rest, most studies suggest that the reported effects are placebo. Also, reports of improved circulation, reduced inflammation and improved recovery or performance has not been scientifically validated. In view of this, it is recommended that those considering the use of CWI for pain and inflammation management, reduced muscle soreness, and mood elevation, should consult their physician to determine if the potential risks are worth the purported benefits.

SOURCES: nih; health.com; health.clevelandclinic.org; prevention.com

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!

During a recent “lunch-and-learn” meeting at our office, several younger staff members were discussing the use of supplements to compliment their fitness routines. One such staff member, Lily Smith, a physical therapy student aid at our clinic from the University of Scranton, is also a serious weight training and fitness enthusiast and shared her experience with creatine supplements with the hope of educating others, especially those preparing to “get fit” in 2024!

A National Health Interview survey found the creatine use among adolescents and young adults to be 34%. It is also very popular in the military with 27% average usage. While athletes and exercise enthusiasts use protein shakes and creatine supplements with hopes to improve size, strength and performance, it appears that most users do not have a full understanding of the risks and benefits. In view of this, today address the use of creatine in strength training and make recommendations based on the literature.

Introduction

As long as I can remember, young athletes would take or do anything that they believed would improve their speed, strength, agility and athletic edge in order to succeed in sports. Running with weights wrapped around the ankles, drinking raw eggs and whole milk, and consuming copious amounts of beef, pork, and chicken were not unusual. Today, it may not be much different. However, the products do not come from our kitchen cabinet and tremendous misinformation is associated with it. Creatine is one example that was purported to enhance performance as early as the 1970’s but only gained popularity in the 1990’s. 40% of all college athletes and 50% of professional athletes admit to using creatine at some point, despite a lack of scientific evidence to support its effectiveness or safety.

Creatine

This supplement is a natural substance that turns into creatine phosphate in the body. Creatine phosphate helps produce adenosine triphosphate (ATP), which provides energy for muscles to contract. While the body produces some creatine, it can also be found in foods rich in protein such as meat and fish. Manufacturers claim that creatine use will improve strength, increase lean muscle mass and aide in the recovery from exercise induced fatigue.

Research

While creatine is popular among young people due in part to its availability, very little research has been done in people under 18 years of age.  Even in the few studies conducted on adults, the results regarding efficacy are mixed. Some studies show that creatine may improve strength performance due to the recovery cycle of ATP. In theory, the use of creatine is purported to allow one to recover more quickly from exercise. For example, shortly after lifting heavy weights to failure, a quick recovery might allow the weight lifter to lift an additional set of repetitions to increase the duration of intensive training. Therefore, based on this theory, one must work out to complete failure during training to benefit from creatine. However, it is important to remember, there is no evidence that this purported benefit is realized in performance improvement in weight training or endurance sports.

Furthermore, no studies support the notion that it improves performance in endurance sports. Also, research does show that not all users are affected by creatine the same way. Most users fail to find any benefit at all. More concerning to this author is the fact that there are no guidelines for safety or disclosure of side-effects from long term use. Make no mistake, based on the research and current wisdom, CREATINE IS AN UNPROVEN TREATMENT SUPPLEMENT!

Manufacturers Recommended Usage

If one decides that creatine is a product they would like to use, despite the lack of evidence for its effectiveness, there are recommendations that one should follow for proper use. But there is no consistently established dose. Some studies have found 25 grams daily for 14 days as a “kickstart” dose or “loading” phase followed by 4-5 grams (or 0.1 g/kg of bodyweight) daily for 18 months with few side effects such as: muscle cramps, dehydration, upset stomach, water retention/bloating with weight gain. It is important to remember when establishing a dosage that many weight training supplements already contain creatine and in high doses excess creatine is excreted by the kidneys. It is also recommended that creatine users “wean off” the product when they decide to discontinue use.

Remember, an average adult in the United States receives 1 to 2 grams of creatine each day from a normal, well-balanced diet. Creatine is naturally found in meat, poultry and fish and theoretically, one could increase their creatine intake through dietary changes. Some manufacturers recommend 10 to 30 grams per day with a maintenance dose of 2 to 5 grams per day for athletic performance. Creatine is available in many forms; tablets, capsules and powder. It should be kept in a cool, dry place out of direct sunlight.

Side Effects

Creatine use is not recommended if you are pregnant, breast feeding, have kidney disease or bipolar disorder. There are many reported side effects associated with creatine use such as; water retention, nausea, diarrhea, cramping, muscle pain and high blood pressure. It is recommended that users consume large quantities of water when taking creatine to prevent dehydration. It may be very dangerous to use creatine when dehydration or weight loss is associated with an activity such as wrestling or summer sessions during football. 

Furthermore, some studies show that large amounts of carbohydrates may increase the effects of creatine and caffeine may decrease the effects. Users are warned that using creatine with stimulants such as caffeine and guarana (a Brazilian plant extract similar to caffeine found in energy drinks) can lead to serious cardiac problems. The effects of creatine supplements on the many organ systems of the body are unknown. High doses may cause kidney damage. Although no cases have been reported in the literature, it is not known how it may interact with other supplements, over-the-counter medications and prescription drugs.

Conclusion

In conclusion, despite the lack of scientific evidence that creatine is more effective than proper nutrition and effective weight training, it remains a popular, easily available supplement purported to improve strength, endurance and performance in athletes. While relatively safe if taken as directed, it is always wise to consult your physician, especially if you have a history or risk of kidney problems. And, by the way, Lily did not feel that creatine supplements made any significant difference, positively or negatively. She no longer uses it due to the expense, inconvenience and lack of scientific evidence to support its efficacy.

Sources: University of New England; Medicine & Science in Sports & Exercise; NIH and Lily Smith, PT student, University of Scranton, Student PT aide, Mackarey Physicla Therapy

.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!