It’s No Fish Tale – These Uncommon Hand & Upper Extremity Fishing Injuries Can Really Happen!

Located on the Gulf of Mexico and home to hundreds of lakes, it’s no wonder that the Texas coast is the playground to fishing enthusiasts far and wide.

Barracuda

unhook stingray2But even the seasoned sportsman can fall victim to some unlikely fishing injuries affecting the hand and upper extremity. In fact, fishermen (and women) put themselves in danger every time they come into contact with marine life – unpredictable behavior/aggressive and often forceful nature of a catch, prevalence of less commonly treated bacteria, unsanitary tools/equipment, poor wound care – all contributing to some common and not so common injuries that hand specialists see in a region like the Texas Gulf Coast.

Some common fishing injuries and conditions with which a Texas hand surgeon is all too familiar include:

fillet_2Many of these common injuries and conditions are treated non surgically and follow the same treatment protocol as any other patient with the same diagnosis – regardless of the cause.

Uncommon Hand & Upper Extremity Fishing Injuries and Conditions

Though there is very little that surprises a hand specialist practicing in “sportsman’s paradise,” an unusual injury associated with fishing will occasionally make its way to a Texas medical clinic.

Some of these uncommon injuries and conditions include:

  • Sting Ray Laceration
  • Fish Bite / Impalement
  • Fish Handler’s Disease / Bacterial Infection
  • Lodged Fish Bones, Fin Spine 

Unlike other injuries that break the skin, these types of fishing injuries are particularly concerning.  Fish and other marine life carry bacterial infections within their bodies, as well as on their skin, which can affect humans if certain precautions are not taken immediately. Some types of bacteria found in marine life are not commonly seen and do not respond to conventional antibiotics frequently used for infections.

Additionally, some marine life such as the Sting Ray utilize defense mechanisms that require special attention when used against a fisherman.

Sting Ray Laceration
While many sting ray injuries involve an inadvertent encounter between a foot or other lower extremity and a sting ray’s barb, some have occurred to the hand or wrist while trying to remove a sting ray from a fishing net or line.

These types of lacerations require more than bandaging.  Not only do sting ray barbs pierce like a weapon, all sting rays are armed with at least one serrated venomous spine at the base of their whip-like tail.  Short-tail sting rays have two tail spines: a slender spike in front of a large, jagged bayonet (1).

In addition to possible damage to muscle, tendons and nerves that can occur from the physical impalement of a sting ray barb, its venom is comprised of many different substances that can cause tissue to break down and die.
Some of the symptoms that Sting Ray venom can cause include:

 

  • Immediate and severe pain radiating up the affected limb
  • Bleeding and swelling in the affected area
  • Sweating
  • Faintness, dizziness and weakness
  • Low blood pressure
  • Salivation, nausea, vomiting, diarrhea
  • Headache
  • Shortness of breath (2)

 

Medical attention is recommended for all sting ray injuries.  Minimally, the wound will be cleaned with warm water to remove the venom and a tetanus booster given if it has been more than five years since the last tetanus booster. Tetanus prevention is required if the patient has never had a tetanus vaccination.  Antibiotics may also be required, and depending on the severity of the injury and amount of damage sustained (often the result of the delay in seeking treatment), surgical intervention to repair soft tissue damage and/or a period of rehabilitation may be required to restore strength to the injured limb (2).

Fish Bite and Impalement
While not every fish injury comes with a venomous double blow, the high risk of bacterial infection and soft tissue damage can be just as serious.  Many fish have sharp teeth, tails and pointed features that can easily break the skin.  Wrestling the unwilling catch onto the boat or beach can leave some sportsmen a bit worse for the wear.

 

Aside from the bacterial concerns that come with marine life, the forceful impact from a sharp feature of the fish can result in soft tissue damage that may require surgical repair and/or months of rehabilitation to restore hand and upper extremity function – as the hand alone is comprised of approximately 34 muscles, 120 known ligaments, and 50 nerves!

 

These types of deep puncture wounds or lacerations in the hand are also at high risk of infection and should be monitored closely.  A delay in the appropriate treatment can lead to complicated tenosynovitis and horseshoe abscess.  Additionally, marine life bacterial infections resulting from Mycobacterium marinum (M. marinum) do not respond to some conventional antibiotic treatment such as amoxicillin (3).

Fish Handler’s Disease
Not every fishing-related Mycobacterium marinum infection is the result of an obvious injury/wound.  A condition known as Fish Handler’s Disease can impact those frequently handling fish and generally affects the hands.  Any inconspicuous cut or small opening on the skin can allow the bacteria to enter the body.  The bacteria’s inability to proliferate in the warm body confines it to the affected area.

 

Common symptoms include swelling, tenderness, and bluish-purple spots. Fish Handler’s Disease is treated with special antibiotics used specifically for this type of bacterial infection.  Recovery can take months.

Lodged Fish Bones, Fin Spine
Occasionally in the handling of fish a fish bone or fin spine can lodge in the hand. Though this may not be painful or immediately worrisome to the injured party, these types of injuries are concerning.  Such injuries often leave residual fragments of foreign organic matter in the soft tissue, which can cause secondary infections such as Staphylococci and Streptococci (4).

 

Typically, x-rays are used first to try and identify a foreign body in the tissue, though are not always successful in doing so.  An MRI may be indicated to identify fine fin spines and tiny bones lodged in the body’s tissue. The surgical removal of the foreign body is important.  Failure to seek and remove the foreign body may lead to persistence of infection (4). Multiple surgical procedures may be required, and the patient is put on antibiotics to prevent infection. Physical therapy may be required after surgery to regain mobility of the hand.

 

If this type of injury goes untreated it can result in permanent disability and hospitalization for infection. Though the area may look as if it has healed, but is still tender, swollen, discolored, or abnormal in any way, individuals are urged to see a hand specialist.

 

Prevention and Precaution
Understanding the unique aspects of the marine life occupying the waters you’re sporting and utilizing protective gloves and garments while fishing can go a long way in injury prevention.  As the largest organ of the human body, our skin serves as a protective barrier.  When any area is compromised, our entire body is compromised. Individuals with other health conditions, such as diabetes or immune deficiency disorders should be particularly cautious and consult a hand specialist for proper wound care.

If not addressed properly, even seemingly minor fishing injuries can result in serious infection, lingering weakness or permanent disability – inhibiting participation in the sport you love.

 

References

 

How Your “Musculoskeletal Mindset” Can Impact Injury Risk at Work

While the study of orthopedics has traditionally placed emphasis on the physical influencers impacting our bones, tendons, ligaments and other surrounding soft tissue comprising the musculoskeletal system, new research now spotlights the increasingly important role of workplace “psychosocial” factors on musculoskeletal disorders (MSD).Tired man being overloaded at work

According to the Canadian Centre for Occupational Health and Safety (CCOHS), a workplace psychosocial factor is defined as “a non-physical aspect of the workplace that is developed by the culture, policies, expectations and social attitude of the organization.” [1]

Basically, psychosocial factors umbrella the different emotional responses to the demands placed on workers while performing their job –  including frustration, dissatisfaction, depression and despair. The resulting stress induces physiological responses that can contribute to the development of musculoskeletal disorders.

New research reported by the CCOHS identifies some physiological responses to psychosocial factors, including:

  • Increased blood pressure, which in small joint spaces can increase pressure on tendons, ligaments and nerves.
  • Increased fluid pressure over a prolonged period of time can also increase pressure in joints and on surrounding soft tissue as well as the carpal tunnel.
  • Reduction of growth functions can reduce production of collagen and consequently the body’s ability to heal or recover after performing work functions.
  • Over time a decreased sensitivity to pain can prompt workers to work beyond their body’s physical capacity, predisposing it to injury.
  • Increased muscle tension can increase pressure on and around the joints and may cause excessive use of force during certain activities and movements.
  • The body’s heightened state of sensitivity may overburden the musculoskeletal system by prompting a person to lift more, work faster, etc.

It is difficult in our current healthcare environment to directly attribute “workplace psychosocial factors” as a cause of workplace MSD, because of the many other factors that contribute to such disorders/injuries (biomechanical, etc.). Increasingly, though, evidence and newly published scientific research studies are helping to spotlight the role that these factors play, and the link between “stress induced physiological changes” and musculoskeletal disorders.

Additionally, a growing number of research studies are reporting a link between emotional disorders (anxiety, depression) and medical and surgical complication rates, lower patient satisfaction scores and readmission risk in joint replacement patients. [2,3]

There will likely be much more research on these topics in the coming years.

This new information underscores the importance of identifying and addressing psychological stressors and our response to them, as they are proving to have a significant impact on not only the cardiovascular but also the musculoskeletal system – two vital contributors to overall health and well-being.

 

References

  • Canadian Centre for Occupational Health and Safety (CCOHS), cchos.ca , https://www.ccohs.ca/oshanswers/psychosocial/musculoskeletal.html .
  • Wood TJ, Thornley P, Petruccelli D, et al. Preoperative predictors of pain catastrophizing, anxiety and depression in patients undergoing total joint arthroplasty. J Arthroplasty. 2016 Dec;31(12):2750-2756.
  • Gold HT, Slover JD, Joo L, et al. Association of depression with 90-day hospital readmission after total joint arthroplasty. J Arthroplasty. 2016 Nov;31(11):2385-2388.

 

 

The Vitamin D Deficiency Dilemma and What It Means to Bones…and Our Health

Shedding some light on the high and low of it

Vitamin D deficiency has become a growing trend in the United States and is now prompting physicians in different areas of specialty to test Vitamin D levels in patients.Our Need for Vitamin D

While low Vitamin D levels have always played an important role in orthopedics, insufficient levels are now also linked to a wide range of other health issues – from Diabetes and Cardiovascular Disease to cancer (1).

Measuring Vitamin D status in blood levels of a form known as 25-hydroxyvitamin D [25(OH)D] has become an important part of health screenings.

While orthopedic specialists treating patients for a bone fracture today routinely test Vitamin D levels in patients, increasingly physicians in other areas of specialty are including such tests for their patients as well.

A Growing Trend in Vitamin D Deficiencies

A growing trend in low Vitamin D levels among a broad range of ages has prompted the National Institutes for Health (NIH) and Centers for Disease Control and Prevention (CDC) to assess possible causes, further exploring the link between Vitamin D in not only bone health but other diseases as well.  The growing trend, which is seen not only in the United States but worldwide, has been called a pandemic and prompted researchers to launch studies into the causes and the implications on overall health (2).

It is believed that lifestyle changes, growth in obesity, increase use of medication and changes in diet (reduction in nutrient rich foods and increase in processed, packaged nutrient deficient) are all contributors to this trend.

While some study results have caused daily intake recommendations to increase from 200 IU to 400 to 600 IU to address the deficiencies, many believe much higher amounts are required (4,000 to 10,000 IU daily) to reach optimal levels and achieve maximum health benefits.  Recommended daily intake and appropriate supplementation for those showing a deficiency continue to evolve. Recommendations established by the Institute of Medicine, 2011 are used as a general guideline. Ongoing research will continue to fuel this discussion.

Vitamin D and its Role in Bone Health

Vitamin D is a fat-soluble vitamin, which is essential for maintaining mineral balance in the body. Its most active form in humans is Vitamin D3 (cholecalciferol), which can be synthesized in the skin with exposure to ultraviolet-B (UVB) radiation from sunlight.

Vitamin D3 conversion and use within our body.

Vitamin D3 metabolism and use within our body.

Plants can synthesize ergosterol by ultraviolet light, which is converted to vitamin D2 (ergocalciferol), but is a less active form of vitamin D (less than 30% of Vitamin D3) (3).

Vitamin D is necessary for the proper absorption of calcium, which together have shown to reduce risk of osteoporosis, assist in the healing of bone fractures and decrease risk of future bone breaks. Vitamin D has other roles in the body as well, including modulation of cell growth, neuromuscular and immune function and reduction of inflammation (4).

When exposure to UVB radiation is insufficient, adequate intake of vitamin D from the diet (Vitamin D-fortified foods and supplements) is essential for optimal health.

After Vitamin D is consumed in the diet or synthesized in the skin, the biologically inactive form then enters the circulation and is transported to the liver, where 25(OH)D is formed.  This is the major circulating form of vitamin D and the indicator of vitamin D status in the body. Increased exposure to sunlight or increased dietary intake of Vitamin D-enriched foods and/or Vitamin D3 supplements increases blood levels of 25(OH)D, making the blood 25(OH)D concentration an effective indicator of Vitamin D nutritional status.

Causes of Vitamin D Deficiency

While studies continue to explore possible causes of the widespread Vitamin D deficiency, a number have already been identified.  Some are the result of societal changes such as increased use of sun blocks/sun screens for fear of skin cancer (limiting unprotected sun exposure) and changes in our diet (processed, nutrient deficient foods versus nutrient and Vitamin D-rich foods). Both of which have gradually reduced the amount of Vitamin D intake we receive.

 Other possible causes of Vitamin D Deficiency include:

1.) Obesity

Some studies suggest that a higher BMI leads to lower 25(OH) D (4). Greater amounts of subcutaneous fat sequesters more of the vitamin and alter its release into circulation (5).

2.) Naturally dark-skinned individuals

Greater amounts of the pigment melanin in the epidermal layer (resulting in darker skin) reduces the skin’s ability to produce Vitamin D from sunlight.

3.) Certain Medications

Corticosteroid medications such as prednisone (often prescribed to reduce inflammation) can reduce calcium absorption and hinder Vitamin D metabolism. Other weight-loss, cholesterol-lowering and epileptic seizure medications have also been implicated in reduced calcium absorption and Vitamin D levels.

4.)  Age

As we age, our skin cannot synthesize Vitamin D as efficiently. The elderly are also likely to spend more time indoors, leading to inadequate intakes of the vitamin.

Increasing Vitamin D Levels

While it is difficult today to reach the recommended levels of Vitamin D without supplementation, below are some of the best sources that may reduce the quantity of supplements required.

Calcium and Vitamin D-rich foods can help support strong bones, decrease risk of disease.

Calcium and Vitamin D-rich foods can help support strong bones, decrease risk of disease.

  •  Unprotected sun exposure (10 – 20 minutes several times a week depending on skin color and geographical location).
  • Vitamin D-rich foods such as fatty fish (salmon, tuna, mackerel), beef liver, cheese and egg yolks.
  • Vitamin D-fortified foods such as milk, orange juice, margarine and butter.
  • Vitamin K2, which is linked toimproved use of Vitamin D3 and calcium (6).

 

References

  1. Holick MF. Vitamin D: importance in the preventioin of cancers, type 1 diabetes, heart disease, and osteoporosis.  Am J Clin Nutr. 2004;79(3):362-371.
  2. Holick MF. The vitamin D Deficiency pandemic and consequences for nonskeletal health: mechanisms of action. Mol Aspects Med. 2008;29(6):361-8.
  3. Armas LA, Hollis BW, Heaney RP. Vitamin D2 is much less effective than vitamin D3 in humans. J Clin Endocrinol Metab. 2004;89(11):5387-5391.
  4. Institutes of Health, Office of Dietary Supplements – https://ods.od.nih.gov/factsheets/VitaminD-HealthProfessional/ .
  5. Vimaleswaran KS, Berry DJ, Lu C et al. Causal relationship between obesity and Vitamin D status:  bi-directional Mendelian randomization analysis of multiple cohorts. 2013 – http://journals.plos.org/plosmedicine/article?id=10.1371/journal.pmed.1001383.
  6. National Institutes of Health, Office of Dietary Supplements – https://ods.od.nih.gov/factsheets/VitaminK-HealthProfessional/

 

Dr. Korsh Jafarnia is one of Houston’s leading board certified, fellowship trained hand and upper extremity specialists.  A member of UT Physicians, Dr. Jafarnia is affiliated with Memorial Hermann IRONMAN Sports Medicine Institute at Memorial City and the Texas Medical Center.  He also serves as an assistant professor in the Department of Orthopedic Surgery at McGovern Medical School. Call 713.486.1700 for an appointment, or go to www.korshjafarniamd.com to

Cowboy Casualties and the Rigors of Rodeo Life

While the Houston Livestock Show and Rodeo has come and gone, the rodeo athletes who kept us captivated as they rode, roped and wrangled their way across the arena for the duration are on to a new city – and not even half way through their rodeo season.

The life of a rodeo athlete, many true cowboys at heart, is one of unyielding dedication and physicality.

Those who have participated since youth in rodeo events have built both strengths and vulnerabilities to the ongoing rigors of rodeo life. Proper mental and physical conditioning are key in avoiding serious injury.Rodeo Quote

While many of the injuries commonly associated with these athletes include concussions and fractures, others are the result of ongoing strain placed on the same limbs, ligaments and joints day in and day out for months at a time.

Many rodeo athletes begin in their teens, tie-down roping calves before progressing to adult wrangler, bull or bare back rider.  The years of hand and upper extremity strain predisposes this athlete to tendonitis in the hand, wrist, elbow and shoulder. Known as a repetitive stress or overuse condition, without proper treatment it can cause chronic inflammation, joint instability and eventually the early onset of arthritis.

Recognizing early signs of tendinopathic injuries and conditions and establishing an effective treatment program is key.

Tendonitis

Tendonitis (also spelled Tendinitis) is the inflammation of the tendons and other soft tissue connecting muscle to bone.  It is most often caused by repetitive movement, placing strain on the tendon and negatively impacting the affected area over time.  It may also occur following a sudden more serious injury such as a fracture or dislocation.

Tendonitis can affect different parts of the body.  Some of the commonly diagnosed upper extremity tendinopathies include Tennis Elbow, Golfer’s Elbow, deQuervain’s Tenosynovitis, Pitcher’s Shoulder and Swimmer’s Shoulder – named after the repetitive motion and sport implicated.  Though, many other activities and types of sports can result in one of these types of tendinopathies as well.

Among rodeo athletes, wrist tendonitis and tendon damage is particularly common, both as a result of the repetitive stress on the wrist and fractures and other trauma this athlearthritis_tendinitis_elbow_strainte sustains.

Symptoms

Symptoms of tendonitis may include;

  • Pain and swelling
  • A feeling of friction as the tendon moves
  • Warmth and redness about the affected area
  • A lump that develops along the tendon
  • Difficulty moving

A tendon rupture may result in a gap felt in the line of the tendon and would manifest with weakness or lack of function of that muscle.

 

Tendinosis

Tendinosis is often referred to as “chronic tendonitis” and is damage to a tendon at a cellular level.  In fact, “osis” represents a pathology of “chronic degeneration” without inflammation.  Key identifiers include disrupted collagen fibers within the tendon, increased cellularity and neovascularization.  This condition is thought to develop from micro tears, repeated injury and increases the risk of tendon rupture. While pain associated with this condition may be addressed similarly to that of tendonitis, emphasis is on stimulating collagen synthesis and breaking the cycle of tendon injury.

Extensor Carpi Ulnaris (ECU) InstabilityWrist Tendonitis

The ECU tendon of the wrist attaches the ECU muscle to the bone and is responsible for straightening and rotating as well as gripping and pulling movement in the wrist and hand. While this tendon normally slides over the forearm (near the little finger), held in place by the retinaculum (ligament-like structure), damage to the area can cause it to slip in and out of place (sublux) or dislocate completely.

Treatment

Treatment for and recovery from a tendinopathic condition will depend on the type and severity.  While minimally invasive corticosteroid injections have proven effective in relieving pain, rest from the repetitive activity contributing to the condition is also indicated.  Stretching and strengthening exercises are also proving effective.

In severe cases, or when the tendon becomes displaced and nonsurgical treatment fails to resolve the problem, surgical intervention may be indicated.  Surgical intervention may include repair of the retinaculum, tendon lining (tendon sheath), or tendon – or to replace the tendon if it is torn.

Prevention

While many injuries in the life of a rodeo athlete cannot be avoided, damage can be reduced by staying fit and strong overall.  Strength and flexibility, combined with periods of rest and other activities involving different muscle groups will help reduce risk of injury and the impact of a tendinopathic condition.

According to long time rodeo professional and bareback rider Cody Goodwin, “every ride is like getting in a car wreck.”

“You have to be in pretty darn good shape, which is why I jog four miles every other day and lift weights every other day – to develop lean muscle mass,” said Goodwin.

“I take good care of my body, so that I can, at my age, continue to compete with 20 and 25-year-old riders,” added the 41-year-old rodeo veteran.

Dr. Korsh Jafarnia is the hand and upper extremity specialist at UT Physicians / Memorial Hermann IRONMAN Sports Medicine Institute (Memorial City and Texas Medical Center locations), 713.486.1700.

Hoverboard Hazards

The exciting new phenomena of “hoverboarding” has made hoverboards one of the most popular technological “toys” on the market today.  Intended for agile adolescents, its appeal has also drawn parents and other adults nostalgic for those days gone by.

The technology of the hoverboard, known as a smartboard or balance board as well, doesn’t actually create a hover but rather a forward and backward motion on a sideways skateboard of sorts, with either a large single center wheel or two smaller ones at each end.  It is automated, can reach a formidable speed of 16 mph and relies on body movement for navigation. It is basically a hands free, self-balancing electric scooter.

Concern over hoverboard safety grows amid increase in injuries.

Concern over hoverboard safety grows amid increase in injuries.

They have become the vehicle of choice for students travelling around campus and preteens maneuvering around the house and down the street to visit friends.  They light up, are stealth quiet, move as fast as one’s imagination …. and leave hands free for any other activity desired on the fly.

Unfortunately, while the mainstream hoverboard never actually leaves the ground, its ability to send riders airborne is causing increasing concern.

In fact, the Consumer Product Safety Commission has reported receiving dozens of hoverboard-related injuries from across the United States.  Houston hospitals have also reported in a recent Associated Press article seeing a sharp increase in the number of hoverboard accidents sending adult and young riders alike to the ER and urgent care clinics.

Colleges are not only restricting their use on campus, as a result of the injury risk (to the user and passers by) but also the fire hazard their electrical system poses.  The hoverboard fire hazard is covered extensively in other hoverboard reports.

Among the most common musculoskeletal injuries seen from hoverboard use include concussions, fractures, contusions and abrasions.

Concussions

While most frequently seen in sports such as football and soccer, concussions are increasingly reported in hoverboard accidents.  With no recommended safety wear, the speed and maneuverability of the device is resulting in high impact falls and collisions – resulting in concussions. The primary symptoms of a concussion include:

  • Headache
  • Trouble concentrating, feeling “foggy”
  • Nausea
  • Delayed reaction times
  • Dizziness, lightheadedness
  • Sensitivity with bright lights or loud sounds
  • Irritability

 If a concussion is suspected, an evaluation should be conducted by a physician and hoverboard and other balancing activities should be avoided.

Fractures

Wrist fractures are among the most common types of fractures seen in hoverboard accidents – distal radius fractures among the most common type of wrist fracture.  This is often the result of breaking a fall or harsh impact with an outstretched arm. Other hoverboard fractures and dislocations have been seen in the fingers. Symptoms of a fracture or dislocation can be evident with extreme pain, swelling and slight disfigurement or subtle with only slight swelling and pain.

Most wrist fractures and finger fractures and dislocations can be treated nonsurgically, depending on the severity of the fracture or dislocation.  A splint or other bracing may be indicated, along with anti-inflammatory medication and rest/refrain from extracurricular activity.

Contusions and Abrasions

Collisions causing contusions and abrasions are frequently reported on hoverboards in the absence of safety gear. While most are minor cuts and scraps, some may result in open wounds requiring stiches, while potentially damaging nerves and other soft tissue.  Swollen, discolored injuries lasting more than a month should be further evaluated by a physician.

Preventing Hoverboard Injuries

The lack of safety standards and recommended safety gear/wear is a concern among hoverboard retailers and healthcare providers alike.  But, parents do not have to wait until such recommendations are established.  If a hoverboard is in your family’s future, take the proper precautions. As with any sport, safety gear recommended or not, will provide a bit of assurance.

Cyclists travelling at much less speeds not only have both hands and legs navigating a two-wheeled structure designed for the road, but also helmets, gloves, shoes and other gear designed for safety and the sport. This is also true of rollerbladers and skateboarders. Invest in the safety of your hoverboard rider and purchase protective safety gear.

Help young riders understand the potential risks for injury and encourage that they err on the side of caution to avoid the ER.

Have fun and be safe!

Read a hoverboard article from a young contributing writer.

 

Ring Avulsion, a Traumatic Finger Injury

Recently talk show host Jimmy Fallon explained to his audience how a seemingly minor fall nearly cost him a finger – shedding light on a rare yet serious finger trauma known as a Ring Avulsion injury.

Ring avulsion results from the mechanism of crushing, shearing and avulsion, inducing severe macroscopic and microscopic damage. This type of injury often occurs when a ring that an individual is wearing is caught on an object, usually during a fall or jump.  It can also occur when caught on fast moving equipment or just simply in a “freak” accident.

Damage from the abrupt and often harsh tug of the caught ring can range from a simple contusion to “degloving” of soft tissue – pulling the skin off circumferentially and stripping away the nerves, tendons and bone. Severe accidents may result in traumatic amputation of the finger.

Ring avulsion can be among one of the most devastating traumatic finger injuries, as often replantation following severe soft tissue damage is not possible – requiring revision amputation.

Fortunately, advances in microsurgery and interposition graft techniques have improved results with ring avulsion replantation.  Patients should see a hand specialist immediately after the injury is identified.

Symptoms of Ring Avulsion

While Fallon knew he had severely injured his finger in his fall, the extent of the damage and seriousness of the injury was not completely revealed until his examination and x-ray.  Prompt attention and surgical care from a specialized hand team fortunately saved his finger.

The severe damage that can occur in a ring avulsion case is not always evident to a patient. Immediate examination and x-ray assessment are necessary.

Symptoms may include:

  • Pain
  • Bleeding
  • Lack of sensation at the tip
  • Disfigurement
  • Finger discoloration or whitening

In severe cases, part of the finger is removed from the bone or completely severed (traumatic amputation).

Diagnosing and Treating Ring Avulsion

When a patient presents with this type of finger trauma, the wound is cleaned and inspected for visible avulsed vessel, nerve, and tendon.  Damaged skin edges are also assessed.  An x-ray may also be indicated before determining the type of avulsion a patient has incurred.  If a portion of the finger is separated, an x-ray is performed on both the amputated part and the remaining digit to fully asses damage and likelihood of replantation.

If there is a separated part, it is wrapped in a saline gauze and placed in a bag with ice water.  The patient is given antibiotics and tetanus prophylaxis.

The injury is then classified using one of several ring avulsion classification systems that exist.  Most commonly used is the Urbaniak Classification system.  The class of ring avulsion (Class 1, 2, or 3) will help determine treatment.

The goal of the hand surgeon is to salvage, maintain function and, if possible, provide an esthetic appearance.

Commonly used classification chart for Ring Avulsion injuries.

Commonly used classification charts for Ring Avulsion injuries.

Avoiding Risk of Ring Avulsion

It is difficult for patients to understand how otherwise inconsequential stumbles or movements can result in the damage or loss of a digit when a ring is involved.  We often forget that the bones and joints of the hand and wrist are small and capable of sustaining just so much force. Skin is the finger’s strongest part.  Once the skin tears, the remaining tissue quickly degloves. Though rare, the potential harm that a ring can pose should be considered – particularly when performing certain extracurricular or sports activities, or when working with machinery. Unfortunately many accidents resulting in a ring avulsion are not anticipated nor could be imagined.  Prompt attention is key to a successful outcome.

References

Flagg SV, Finseth FJ, Krizek TJ. Ring avulsion injury. Plast Reconstr Surg. 1977;59:241–8.

Brooks D, et al. Ring avulsion: injury pattern, treatment, and outcome. Clinics in Plastic Surgery April 2007 ;34(2):187-95, viii.

Fejjal N, Belmir R, Mazouz S El, Gharib NE, et al. Finger avulsion injuries:  A report of four cases.  Indian J Orthop. 2008 Apr-Jun; 42(2): 208–211.

Sears ED, Chung KC.  Replantation of finger avulsion injuries:  A systematic review of survival and functional outcomes.  J Hand Surg Am. 2011;36(4):686-94.

 

Baseball Fit – Preventive Exercises for a Winning Season

As weather warms and winter sports wind down, attention turns to the promise of a new baseball season and the championships ahead.

Now is the time to begin preparing.High School baseball

At the core of a successful team are strong players – physically strong, well rested and well conditioned.

Baseball is one of the few sports played almost daily throughout the entire season.  For young players beginning in little league, this amounts to a lot of plays by high school.  The frequency of repetitive stress injuries in youth baseball have increased over the years, particularly with the rise in special “elite” teams and extended seasons. This is most evident in young pitchers, on which much research has focused and for which Pitch Count guidelines have been developed.

Although baseball is not considered a contact sport, injuries can result from contact with the ball and other players, as well as poor form/technique, or an awkward movement during a play.

Some of the most common baseball injuries include:

  • Injuries in the shoulder and elbow (Little Leaguer’s Shoulder, Little Leaguer’s Elbow)
  • Knee injuries
  • Muscle pulls
  • Ligament injuries
  • Fractures (Finger, Distal Radius/Wrist)
  • Concussions 

While some injuries resulting from collision with another player are getting hit by the ball cannot be avoided, exercise can aid in reducing risks or preventing many repetitive stress related injuries.

Repetitive injuries are the result of repetitive use, stress and trauma to the soft tissues of the body (muscles, tendons, bones and joints), which are not given adequate time for proper healing. They are sometimes called cumulative trauma, repetitive stress or overuse injuries.

To avoid such repetitive stress conditions and muscle fatigue, players should have a dedicated fitness program – ideally one that is also specific to the position they play.  This should include overall strengthening and endurance, along with specific exercises to equally strengthen the muscles of the limb(s) most used. Such fitness programs should also include stretching and rest between play.

Exercise programs should also be age appropriate. Young, developing players are encouraged to build strength through resistance rather than weights. Involvement in other seasonal sports such as swimming and running can also provide excellent overall strengthening and endurance.

Strength and Conditioning Exercises – Upper Body

As a throwing sport, exercises for baseball concentrate heavily on the upper body – arms and shoulder. Core strength is also essential for pitching velocity, hitting power and running speed.

The key to any exercise program is the balanced/equal strengthening of muscle groups. For the upper body, this includes triceps/biceps, trapezius, rotator group, and deltoids.

Some Effective Arm, Shoulder and Core Exercises Include:

  • Resistance bands – These can be effective in building arm and shoulder strength. (View video on how these bands are used in exercise programs.)
  • Push ups – Traditional push ups are very effective in building upper body strength (arms, shoulders, back and core/abdominal muscles).
  • Pull ups – Using your own body weight/strength these work on the biceps, upper shoulder and back, upper abdominals and obliques.
  • The Plank – strengthens the core, lower back and oblique muscles. (View video demonstration of the Plank.)

Exercises to Improve Leg Strength

Lower body strength and conditioning is as important as upper body training for young athletes. Leg strength impacts throwing velocity, bat speed/force and running speed.

Squats, lunges and running are among the most effective ways to strengthen the lower body.

Stretching

Stretching is a very important part of an exercise program for athletes in any sport. During exercise and play muscles contract. When muscles contract, they produce tension at the point where the muscle is connected to the tendon. Stretching helps lengthen, relax and restore muscles to their natural state.

Stretching following activity is as important as stretching while warming up before practice and play.

Some easy, yet effective stretches include:

  • Elbow Pulls – Raise the right arm as though asking a question and drop the forearm behind the head though leaving the elbow in the air. Pull the elbow to the left with the left arm until you feel the stretch, hold briefly then repeat several times. Do the same on the opposite side.
  • Cross Body Arm Pulls – Straighten your right arm and pull it across the front of your body, cradling the forearm and elbow with the left hand, pull the arm towards the left across the body until you feel the stretch. Hold the stretch briefly, then repeat on the opposite side.
  • Shoulder Stretch – Lay face down on a floor mat and stretch arms overhead to form a “Y,” with palms facing down on the floor. With forehead on the ground, retract shoulder blades while lifting arms off the ground (still outstretched). Hold for a couple of seconds while squeezing the shoulder blades together. Be careful not to “shrug” the shoulders up. Return to starting position and perform several sets of 10 repetitions. To work the back a little differently, perform this same exercise with the arms straight out to your sides, forming the shape of a “T.”
  • Runner’s Lunge – Position into a deep lunge on your right leg, drop the knee of your left leg and lean forward over the right quad until you feel the stretch, hold for several seconds. Repeat on opposite leg.
  • Hamstring Stretch – Stand flat on the floor with feet a little less than hip width apart. Lean forward and place palm of your hands flat on the floor just in front of your feet, hold for several seconds.

TOP PREVENTION TIP

Resting is as important as any of the components in a successful training program.

Track and Field Hand & Upper Extremity Injuries and Conditions

As track season sprints past, we begin to see some common overuse injuries and conditions in these athletes.  While the vast majority of those seen in track and field affect the lower body, there are several common hand and upper extremity injuries and conditions seen in throwing events such as the javelin, shot put, hammer and discus.

Between weekly practices and weekend competitions, overuse injuries and conditions in throwing events account for most upper extremity injuries in track and field. These overuse conditions often affect the rotator cuff and shoulder labrum. Overuse conditions are those resulting from the repetitive use of a particular limb/joint(s) and are frequently seen in baseball, swim and tennis as well.

Other track and field injuries include ulnar collateral ligament (UCL) tears of the elbow (also known as a Tommy John injury) and thumb.  Also metacarpal (hand) fractures are seen resulting from repeated stress on the small bones of the hand.

Rotator Cuff Injury

There are four tendons and muscles that make up what is known as the “rotator cuff,” providing coverage around the shoulder joint at the top of the humerus. The rotator cuff holds the arm in place and allows it to move with the broad range of motion we demand not only in everyday activity but also in many throwing sports. This broad range of motion, though, predisposes the shoulder to injury.  Repetitive stress on the rotator cuff can cause partial tears and swelling in the tendons.  A “high impact” stress, such as the powerful force required in these track and field throwing events, may cause one of the tendons to pull away from the bone or tear.rotator cuff injuries cropped

Rotator Cuff Injury Symptoms and Diagnosis

While most rotator cuff injuries can be slow to develop – producing nagging pain in the shoulder and arm, shoulder weakness and difficulty lifting the arm overhead – sometimes they can be quite sudden. In this case, athletes may feel a “pop,” followed by strong pain and a weakened arm.  An orthopedic specialist will assess the injury initially with a physical examination and review of the activity leading up to the injury.  This may be followed by a shoulder x-ray, MRI and/or arthrogram.  Treatment depends on the severity of the condition and will include a period of rehabilitation therapy. Conservative, nonsurgical treatment is often considered initially.  Surgery may be indicated if shoulder instability persists or there is a complete rotator cuff tear.

Shoulder Labrum Tear 

Another common track and field throwing injury is a shoulder labrum injury.  Among the most commonly diagnosed shoulder labrum condition in athletes involved in throwing sports is known as a SLAP (superior labrum, anterior to posterior) tear. The labrum works to keep the arm bone in the shoulder socket. When the ring of firm tissue that helps to make the shoulder more stable becomes stressed, it can result in a SLAP tear, compromising shoulder stability.    Often damage to the labrum occurs in those athletes who are also suffering from rotator cuff injury or weakness.slap-tear-1

SLAP Tear Symptoms and Diagnosis

Some of the common symptoms associated with SLAP disorders include a popping, clicking or catching in the shoulder during throwing activity, aching pain and feeling of weakness.  Beyond a physical examination, a diagnosis may include an MRI and/or an arthrogram.  Occasionally minimally invasive arthroscopy may be used to confirm a tear.  If a tear is confirmed, the surgeon may choose to repair it at the same time.

UCL (Ulnar Collateral Ligament) Injury

Ulnar Collateral Ligament (UCL) injuries of the elbow frequently occur in javelin as a result of the throwing motion and stress on the elbow.  Also known as a Tommy John injury, it is similar to the stress placed on the elbow in baseball.

The elbow is basically a “hinge” joint allowing not only bending and straightening but also rotation from palm up to palm down.  Several important ligaments in the elbow joint facilitate this range of motion, connecting the bones (ulna, radius, humerus) and forming part of a lubricating joint capsule.UCL of elbow

Two of the key ligaments for elbow joint stability  include the lateral collateral ligament and the UCL, which is also known as the medial collateral ligament because of its location on the elbow (inside).

When overuse of the joint (force on the soft tissue exceeds that of the structure’s tensile strength), such as in a throwing sport like javelin, places stress on the UCL, tears can develop.  The ligament stretches and lengthens to the point that it can no longer hold the bones tightly enough during throwing activities.

UCL Injury Symptoms and Diagnosis

Athletes suffering from this type of overuse condition may experience pain along the inside of the elbow, which is worse during the “acceleration phase” of throwing.  There may also be swelling, reduced range of motion and feeling of instability in the elbow.  Throwers may also have tingling or numbness in the “pinky” and ring fingers and experience difficulty throwing.

Diagnosis includes a physical examination, x-ray and an MRI.  Treatment is initially conservative and may include rest, ice and anti-inflammatory medications, along with physical therapy to strengthen surrounding muscles and compensate for the injured UCL.  Following this, or in more severe cases, a UCL reconstruction may be indicated. Also known as Tommy John surgery (named for the Los Angeles Dodgers’ pitcher who first underwent the surgery), the procedure entails taking a tendon from another area of the patient’s body and replacing the injured UCL with it.

Metacarpal (Hand) Fracture

While less common than overuse injuries and conditions, hand fractures can result from the repetitive stress and force placed on the small bones of the hand.

With a total of 27 bones in the hand (14 phalanges, five metacarpal, eight carpal), more than half of the bones making up the entire upper extremity,metacarpals fractures are inevitable in sports placing extreme and repeated stress on the hands.

One such fracture is known as a metacarpal fracture, which affects the bone at the base of the finger closest to the wrist.

Metacarpal Fracture Symptoms and Diagnosis

Metacarpal fractures will cause immediate pain and possibly visible deformity. The injured finger(s) may swell, and there may be some bruising.

A physical examination and an x-ray Metacarpal hand fracture repairwill identify the location and severity of the fracture.  Treatment is determined based on whether the fracture is “stable” or “unstable” and the extent of injury.  More severe cases may require surgery and internal fixation (K-wires or plates and screws), followed by a period of splinting and hand therapy.

Prevention and Treatment

Understanding that adequate rest between practices and events is as important as the training will help reduce the likelihood that an overuse condition will result in a tear or stress fracture. Maintaining balanced strength and conditioning of opposing muscle groups is also an important prevention component.

When symptoms are addressed early, the injury often responds well to conservative treatment.

Protecting Fingers in Fall Sports

Behind the catches, interceptions, tips, tackles and returns are some of the most commonly reported sports injuries in football, as well as other fall and winter sports – finger injuries.Football Finger Injuries

Finger injuries actually represent one of the most common body injuries in sports in general and include sprains, dislocations, tendon damage and fractures. They are very common in football, basketball and volleyball.

Rarely does a finger injury go unnoticed.  They can be very painful and more challenging to heal, as our hands are constantly in use in everyday activity.Basketball Finger Injuries

Some of the most common causes of a finger sports injury include:

  • Struggle to maintain (as well as strip) a football
  • Clashes with teammates and opponents
  • Awkward and sudden impact with a ball
  • Catching or pulling on a jersey
  • Falls onto a hard surface

Sprains and DislocationsVolley Ball Finger Injuries

Finger sprains generally represent damage to the collateral ligaments, which are band-like structures that stabilize the finger and prevent side to side movement. It most frequently occurs in the mid finger. The little finger, middle finger and thumb are the fingers most affected in such injuries.

A finger sprain can vary in severity and is graded on a scale of 1-3. Grade 1 represents the mildest type of sprain, a stretched ligament.  Grade 2 is a partially torn ligament, and Grade 3 represents one that is completely torn.  When a Grade 3 finger sprain is sustained and bones are also out of place, altering joint surface contact, it is diagnosed as a finger dislocation.

A finger dislocation may be identified as an MCP (metacarpophalangeal), DIP (distal interphalangeal) or PIP (proximal interphalangeal) dislocation depending on the finger joint and bone it affects.

Finger sprains are also often referred to as a “jammed finger.”

Depending on the severity of a “jammed finger,” symptoms may include:

Finger Anatomy

 

  • Pain and immediate swelling
  • Bruising and pain during activity
  • Impaired function
  • Deformity
  • Stiffness and difficulty during gripping activity

Tendon Injuries

Tendons in the hand are tissues connecting muscle to bone, which when contracted pull on bones causing fingers to move. These muscles moving the fingers and thumb are located in the forearm – long tendons extending through the wrist and attaching to the small bones of the fingers and thumb.

The tendons on the top of the hand straighten the fingers and are known as extensor tendons. Those on the palm side bend the fingers and are known as the flexor tendons.

When fingers are bent or straightened, the flexor tendons slide through snug tunnels, called tendon sheaths, keeping the tendons in place next to the bones.  A tendon rupture disrupts this natural flow.

A relatively common tendon injury of the hand diagnosed in fall sports is a tendon rupture, also called a “Jersey Finger.”  This occurs in a “tear-away” type of activity, such as grasping a jersey with finger(s) in a flexed position – and then forced straight as the player quickly moves in another direction.  The result is loss of flexion at the DIP joint because of damage to the flexor tendon.

An injury to the tip of the finger may result in extensor tendon damage, which is also known as a “Mallet Finger.”

Symptoms of a flexor or extensor tendon rupture may include:

Flexor

  • An inability to bend one or more joints of your finger
  • Pain when your finger is bent
  • Tenderness along your finger on the palm side of your hand
  • Swelling of the finger

Extensor

  • Inability to open or extend the hand or fingers
  • Pain
  • Swelling or weakness of the finger
  • Cut to the back of the hand or fingers

Finger Fractures

Among the more severe finger injuries occurring in sports are finger fractures.  This is a break in one of the small bones of the finger.  Finger fractures may be stable or unstable.  Among the most common finger fractures include; distal phalanx (also known as a Tuft Fracture and associated with “crush” injuries), mallet, flexor digitorum profundus avulsion, and middle and proximal phalanx fractures (non-displaced, unstable, or displaced – which are usually more complex fractures to treat).

The correct diagnoses and treatment of a finger fracture, which can often mimic a finger sprain or dislocation in pain and symptoms, is imperative in ensuring optimal long-term function.

DIAGNOSIS

While many finger injuries can be diagnosed with a physical examination, an x-ray is indicated to more thoroughly assess the injured area or possible fracture – and severity of the injury. A CT scan may also be used to evaluate complex fractures. An MRI is often used when the soft tissues are involved (such as with tendon ruptures).

TREATMENT

Treatment for most finger injuries is nonsurgical, conservative approach that may involve RICE (rest, ice, compression, elevation), splinting, anti inflammatory medications for swelling/pain, and rehabilitation exercises.  Reduction may be performed on some simple fractures and supported with splinting or “buddy taping” (practice of taping the injured finger to a nearby uninjured finger to limit mobility and provide splint-like support).

More serious injuries and those unresponsive to conservative treatment may require surgical repair and an aggressive post-surgical hand and upper extremity therapy program.

PREVENTING INJURY

Injury prevention is always preferable for athletes wanting to give it their all during the sports season.  There are some things you can do to reduce risk of injury during sports this fall and the seasons to come:

  • Avoid wearing rings or other jewelry when playing.
  • Opt for closed fist rather than open hand approaches in volleyball and blocking in football.
  • Buddy taping (as mentioned above) can also be effective in preventing finger injury in a number of different sports.
  • Finger bracing should be worn in both practice and games until symptoms of a mildly injured/painful finger resolves, to avoid more serious injury/damage.
  • Finger and hand strengthening exercises can be beneficial.

Little Leaguer’s Elbow

With baseball season in full swing we begin to see an increase in upper extremity injuries in young athletes. One of the most common injuries we treat is a throwing injury known as medial apophysitis, or “Little Leaguer’s Elbow.”

This condition occurs when the repetitive stress of frequent throwing places excessive strain on the tendons, ligaments and cartilage of the elbow joint.  In the young player and immature elbow this is particularly concerning because of the damage it can cause to the growth plate.

The two “phases” of throwing which impact the elbow joint include the early acceleration phase (a pulling force on the growth plate of the inner elbow) and the throwing/release phase (strong inward and downward snap of the wrist).  A hinge and pivot joint, the elbow allows a broad range of motion.  The growth plate in the elbow, though, is comprised of growth cartilage – a soft substance that is not as strong as bone.  With repetitive stress, this growth cartilage can weaken, develop small fissures and in more severe cases pull apart from the bone. The repeated pulling can also tear ligaments and tendons away from the bone – possibly pulling tiny bone fragments with it.  In a young player, this could potentially disrupt normal bone growth and result in deformity.

Another less common though more serious throwing injury, known as Osteochondritis Dissecans, can occur in young athletes and involves the loosening and fragmenting of immature bone and cartilage. The pain associated with this condition is usually felt on the outside of the elbow.

Both prevention and early treatment of Little Leaguer’s Elbow are key for young players.

Symptoms of Little Leaguer’s Elbow

The most common symptom associated with Little Leaguer’s Elbow is pain on the inside of the elbow, which may be severe and occur abruptly, or mild – increasing in intensity, gradually over time.  Other symptoms may include swelling, redness and warmth over the inner elbow.  Range of motion may be restricted in some players, with an inability to straighten the elbow.

Diagnosis and Treatment

A physical examination and pain assessment will help diagnose Little Leaguer’s Elbow.  An X-ray or MRI may be indicated to assess irregularities in the elbow joint and growth plate damage.

When diagnosed early, nonsurgical treatment can effectively resolve the problem and may entail rest (refraining from throwing activity), as well as icing to reduce swelling.  Sports rehabilitation specialists may also be able to help young players refine their throwing technique to reduce stress on the elbow joint.

In more severe cases, surgery may be required to reattach a ligament and/or the bone or growth plate  – stabilizing the elbow joint.

Preventing Throwing Injuries in Little League Baseball

Understanding the impact of throwing injuries on the immature elbow is key for coaches, parents and players.  Risk of injury can be reduced by properly warming up and ensuring proper throwing technique.  And adequate rest is as equally important as practice for optimal performance.

The American Academy of Orthopaedic Surgeons (AAOS) recommends that young pitchers play no more than three to four innings each game, to prevent throwing injuries.

Pitch Count Guidelines and Little League Regulations

As competition in youth sports intensify and seasons extend to include tournaments and World Series games, we are seeing an alarming increase in throwing injuries in the young player.  This has prompted the American Sports Medicine Institute, together with USA Baseball, Little League Baseball and Major League Baseball to examine the impact of excessive throwing on the young, skeletally immature athlete.  Their findings have translated into new regulations, pitch count guidelines and educational initiatives in Little League Baseball.

Next month we’ll talk about pitch count guidelines and its role in protecting young baseball players.