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Torsion and Angular Concerns: Treatment Options and When to be Concerned

Torsion and Angular Concerns: Treatment Options and When to be Concerned

by | Dec 28, 2020 | Spotlight

This article was recently published in the Pediatric Society of Greater Dallas newsletter. Committed to improving orthopedics care of pediatric patients in all settings, Scottish Rite for Children specialists are regular contributors to this publication for local pediatricians.

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Torsional and angular concerns are common in pediatrics and are often referred to a pediatric orthopedic surgeon for evaluation. An understanding of the normal physiologic changes in typically developing children will provide the practitioner some confidence in discussions with families. While many providers are willing to tell parents the concerns are “physiologic,” this “diagnosis” often leaves the family wondering what is causing the deformities. It is beneficial to demonstrate to parents the source of the difference, discuss the natural history and explain the timeline for improvement.

In-toeing, also known as an internal foot progression angle, is usually caused by metatarsus adductus, tibial torsion and/or femoral anteversion. Typically, metatarsus adductus is seen in infants and is a medial deviation of the midfoot and forefoot on the hindfoot. In most situations, this is a flexible deformity and can be managed by observation alone. Some providers choose to use reverse-last shoes to provide some stretch to the foot, but these are unnecessary in almost all children. More concerning foot positions may be characterized by a deep medial crease, inability to passively push the foot to neutral alignment or a deformity associated with equinus (limited ankle dorsiflexion). If there is worry that the foot position is relatively stiff, referral to a pediatric orthopedic surgeon is reasonable. Once ambulation and shoe wear begin, many of these flexible differences will have resolved.

Physiological internal tibial torsion (Fig. 1) becomes more clinically obvious when children begin walking. A cover-up test on examination (Fig. 3 and 4) will show the proximal tibia is in a neutral alignment with the femur and an obvious bow and rotation of the leg is seen below the knee. The tibial deformity is thought to be due to intrauterine positioning and therefore subtle differences between sides are common. Because of the tibial bow, the child will often appear to be bow-legged (knee varus) as he will widen his stance to reduce foot tripping during walking (Fig. 2). The family can be expected to see spontaneous physiologic improvement by the age of 6-7 years. Be careful when telling families to expect rapid improvement or resolution at preschool ages. Bracing, physical therapy, and other treatments are not indicated in most patients and have never been shown to definitively influence outcome. Should there be obvious asymmetrical torsion or asymmetrical resolution, referral for an evaluation of Blount’s disease would be warranted.

Increased femoral anteversion is normal in infants as physiologic changes are expected in typically developing children. This increased version becomes more clinically relevant as a source of intoeing in the older, preadolescent population. Typical development demonstrates a change in femoral anteversion that continues to improve until early teenage years. In normal femurs, there is 15-20 degrees of femoral anteversion in adults. Femoral anteversion is demonstrated in gait with an internal foot progression angle and families and patients will often notice internally rotated patellae or an ability to sit in the W position. Physical therapy and bracing have not been shown to be effective treatments. Rarely, for teenagers with significant residual femoral anteversion, osteotomies can be performed to improve alignment.

Bowlegged and knock-kneed appearances also may be of concern to families in growing children. In typical growth, children are often born with varus knees (bowlegs) that change to a neutral alignment at approximately 2 years of age and then naturally enter a knock knee (valgus) appearance that can be maximal at 4 years of age. It is advisable to tell families, if the child is seen before 4 years of age, to expect a worsening appearance prior to improvement. A concerned family could take a photograph of the child standing and compare images every six months or so to track changes. Typical adults have approximately seven degrees of valgus and children can be expected to have this appearance by age 7. For these coronal plane differences, asymmetry or failure to demonstrate physiologic improvement are indications to refer to a pediatric orthopedic surgeon.

Physiologic differences in lower extremity alignment are common sources of parental worry. Understanding normal development allows the provider to confidently assuage the concerned parent (and grandparent).

Body, Mind, Sport: The Role of Wellness in Recovery and Injury Prevention

Body, Mind, Sport: The Role of Wellness in Recovery and Injury Prevention

by | Dec 15, 2020 | Sports Medicine

This is a summary of a presentation made as a part of the 2020 Coffee, Kids and Sports Medicine education series.

Watch the full lecture here.
Print the PDF

Young athletes are under a lot of pressure to perform. No matter where the pressure comes from, a coach, a parent or himself, an athlete needs support to balance the demands of the sport with the needs of the developing body and mind. Chung and Morrison teamed up to help medical professionals like you address this challenge for young athletes.

Finding the Right Balance

Effective training requires a balance of load and recovery. Here are some definitions that will help with this discussion:

Load is an inevitable result of athletic conditioning, training and competition. If safely managed, load may result in improved athletic capacity and performance as well as reduce risk of injury and illness.

  • External load is work completed by the athlete during training and competition. The load creates physical, physiological and psychosocial demands. For example, number of pitches thrown, distance run, hours training or amount of weight lifted.
  • Internal load is the individual physical, physiological and psychosocial characteristics that respond to an external load. For example, aerobic capacity, mood and muscle strength.

Overload is a load that is excessive or not well managed. This can result in anatomical, physiological and/or psychosocial conditions that will manifest as altered performance, injury and illness. It is important to identify and modify load to minimize overload. This helps with improving performance and contributes to injury and illness prevention.
Recovery is the process and period during which body responds to load.

  • Adequate Recovery = positive adaptations for athletic capacity, performance and injury/illness risk.
  • Inadequate Recovery = negative adaptations for athletic capacity, performance and injury/illness risk.

Balance is achieved when the load is enough to create progress and allow adequate recovery. When overload occurs with intensity or a sudden increase in training, there are consequences seen as a plateau or decline performance and medical issues.

Systems and Functions with Medical Issues Related to Overload

  • Sleep
  • Immune system
  • Cardiovascular
  • Respiratory
  • Hormonal, specifically in female athletes
  • Nutrition

Musculoskeletal Issues Related to Overload or Sudden Increases in Load

  • Bone stress injuries (stress reaction, stress fractures)
  • Physeal injury (skeletally immature athletes)
  • Muscle injury
  • Tendinopathy
  • Youth elbow and shoulder injuries

How Do We Support Young Athletes?

Medical professionals including team physicians, pediatricians, physical therapists, school nurses and athletic trainers, all have a responsibility to support young athletes as they progress through their sport and training. Here is a look at several categories to help with performance and injury prevention.

What is the Role of Nutrition in Recovery and Injury Prevention?

Optimal nutrition supports an athlete managing appropriate training load AND growth. Anything less can leave the athlete short, increasing risk of these and other conditions:

  • Hormone changes
  • Altered menstrual cycle
  • Increased injury and risk of injury
  • Decreased response to training
  • Delayed healing
  • Increased illness
  • Mood changes
  • Fatigue
  • Disordered eating

What is Optimal Nutrition?

  • ADEQUATE ENERGY AVAILABILITY provides enough calories to support training and growth.
  • VARIETY OF FOODS AND FOOD GROUPS ensures macronutrient and micronutrient balance to meet physiological demands of growth and performance.
  • OPTIMAL MEAL AND SNACK TIMING AND FREQUENCY supports training needs depending on each athlete’s schedule.
  • INDIVIDUALIZED HYDRATION PLAN is an important component to nutrition plan and supports the unique needs of each athlete.
  • POSITIVE “FOOD TALK” affects an overall healthy attitude toward food, especially for athletes in “aesthetic” or lean-focused sports.

Find and download sports nutrition resources for your patients here.

A Consequence of Suboptimal Nutrition: Female Athlete Triad

This occurs when energy intake does not adequately compensate for exercise related energy expenditure (under-fueling). Each component of triad exists on a spectrum between health and disease. The components are:

  • Energy Availability
  • Bone Mineral Density
  • Menstrual Function

Athletes who participate in sports that emphasize leanness, aesthetics, weight class sports and gravitational sports are at greater risk for this condition. The consequences of this condition can be irreversible and should be recognized and referred as soon as one or more components are present. When the body is in a negative calorie balance, normal growth and development and other normal physiologic functions are inadequate. Additionally, performance deficits can lead to frustration with training and increased risk of fatigue and injury.
Male athlete triad is becoming better understood and has similar causes and effects on young men. These include:

  • Energy deficiency
  • Impaired bone health
  • Reproductive suppression
  • Low testosterone
  • Oligospermia
  • Decreased libido

The International Olympic Committee has proposed “RED-S” (Relative energy deficiency in sport), consequences of low energy availability beyond the triad. Learn more at www.FemaleandMaleAthleteTriad.org.

What is the Role of Sleep in Recovery and Injury Prevention?

Sleep is important for physical, mental and cognitive well-being. It plays a key role in academic and athletic performance, injury and recovery. Insufficient sleep or poor sleep quality may increase risk for injury in adolescent athletes. Some studies show an increased risk of injury in athletes that sleep less than eight hours per night. Other studies show that recovery from a sport-related concussion is improved with better sleep quantity and quality.

Signs of poor sleep quality:

  • Decreased athletic performance
  • Recovery from exercise/training
  • Decreased reaction time
  • Impaired cognition
  • Changes in mood
  • Increased risk for injury
  • Reduced ability to tolerate load

How Can We Help Manage Stress and Address Mental Health in Young Athletes?

When an athlete is experiencing a training or stress overload, there are consequences that may show up on performance or health. These are often difficult to see but have a profound impact. These include:

  • Slowed reaction times
  • Decreased speed and agility
  • Decreased concentration
  • Mood changes
  • Disordered eating or an eating disorder
  • Sleep disturbances
  • Decreases in lean muscle or difficulty gaining lean muscle
  • Decreased academic performance
  • Relationship struggles

Since 1 in 5 youth meet the criteria for a mental health disorder, it is more important now than ever to recognize these signs and symptoms in young athletes and help connect them with an appropriate support system. Injuries can have psychosocial consequences as well as physical, including mood swings, depression and disconnection from peers.

Download the PDF to share with your patients.

Take Home Points

Athletes need guidance to understand how load, nutrition, sleep and mental health are interconnected. Together the appropriate balance of these can support improved performance and a reduction in injury and illness risk.

Nutrition

  • Three meals + needed snacks each day.
  • At least three food groups per meal..
  • Encourage fluids throughout the day and around/during games and practices.
  • Follow individualized hydration plan, if needed.
  • Positive food and body talk.
  • If a food group is eliminated, seek guidance to ensure nutrition needs still met.

Sleep

  • 8-10 hours of sleep each night for teenagers.
  • Establish a consistent sleep schedule (consistent sleep & wake time, even during the weekends).
  • Set a nighttime routine.
    • Read a book, meditation, take a warm bath.
    • 30-60 minutes prior to bedtime should be a time of relaxation.
  • Set a good sleep environment.
    • Quiet, dark, cool temp, comfortable/calming.
  • No electronics 1-2 hours prior to bedtime.
  • Avoid caffeine and large meals before bed.

Mental Health

  • Make mental health a priority with physical health.
  • Listen without judgement.
  • Question and remind athletes about effective ways of coping with stress, share you own experiences, initiate formal conversations about coping.
  • Early identification and action are important.

Resources for your patients

Ultrasound in Pediatric Sports Medicine

Ultrasound in Pediatric Sports Medicine

by | Dec 3, 2020 | Sports Medicine

This is a summary of a lecture provided by sports medicine physician Jacob C. Jones, M.D., RMSK, as part of the Coffee, Kids and Sports Medicine educational series.

Watch the full lecture.
Print the PDF.

Basic Ultrasound Physics
Most are aware that ultrasound uses sound waves to create an image, but that’s about where the knowledge stops. Here are a few key points to help with understanding the physics behind this technology:

  • The transducer probe delivers sound waves into the body to reveal a boundary between two types of tissue (e.g. ligament and fluid).
  • Some waves bounce back to the probe and some pass through the tissue to the next boundary.
  • The transducer calculates the distance and speed converts to volts (piezoelectric effect).
  • A 2-D, black and white image is produced on the screen based on a grayscale assigned to distances and intensities.

To improve the images produced, different transducers, also called probes, are available and are chosen based on size of field area, tissue depth and other variables.

Indications, Advantages and Disadvantages for Ultrasound in Pediatric Sports Medicine
Pediatric orthopedists have leaned on ultrasound in diagnosing conditions in the infant hip for many years. With a continued evolution of the subspecialty of pediatric sports medicine, there is a recognition that some conditions can be diagnosed safely and effectively with ultrasound.

Indications include:
Diagnostics 

  • Tendons
    • Tendinopathy
    • Strains
    • Tears
  • Muscles
    • Strains
    • Contusions
    • Tears
  • Nerves
    • Entrapment
  • Ligaments
    • Sprains
    • Tears
  • Joints
    • Effusion (swelling in the joint)

Interventional

  • Guided Injections
  • Tenotomies (procedure to a selected tendon)
  • Aspirations/lavage
  • Tendon/ligament releases
  • Biopsies

Advantages Over Traditional Imaging 

  • Real-time imaging that is also dynamic.
  • Needle guidance for procedures.
  • Allows interaction with patient and family during imaging.
    • Visual feedback can help patient commit to treatment.
  • Less metal artifact compared to MRI in some cases.
  • Contralateral limb can safely and easily be used as a control.
  • Easily used in exam rooms and on the sidelines.
  • Relatively inexpensive with reduced resource dependence.
  • No radiation.
  • Painless.
  • Sonopalpation (palpation during ultrasound) and active or passive range of motion can be performed to enhance exam.

A Few Disadvantages to Consider When Using Ultrasound

  • Limited field of view.
  • Incomplete evaluation of bones and joints.
  • Limited penetration.
  • Operator-dependent.
  • Evolving certification/accreditation standards.
  • Equipment cost and variable quality
  • Anisotropy – a type of artifact in which changing the angle at which the ultrasound wave interact with a tendon or muscle can affect the brightness of the image. Non-perpendicular images will cause hypoechoic (darker) images.
  • Artifacts -causes unclear images.
  • Excessive or disruptive pressure from sonopalpation.

Watch the full lecture to hear case examples of how ultrasound augments musculoskeletal evaluations and interventions:

  • Knee: 11-year-old female soccer player with posterior knee popping and pain.
    • Observe hamstring tendons as patient volitionally caused popping.
  • Shoulder: Young baseball player, pain in cocking phase of throwing.
    • Visualize posterior labral pathology with shoulder active movement.
  • Hip: 17-year-old dancer with ongoing right hip pain.
    • Measure femoral head protrusion in various positions.
  • Calf: 18-year-old tennis player that felt some right calf pain while doing sprints.
    • Compare to normal side and use sonopalpation help to confirm diagnosis.
  • Humerus: Young baseball pitcher/catcher with pain in shoulder when throwing.
    • Quantify physeal asymmetries side-to-side.
  • Wrist: 9-year-old male tripped over opposing soccer player and landed on wrist.
    • Quickly determine need to seek further care or return to play.
  • Hip: 13-year-old male basketball player with chronic right hip pain and h/o a “pop” two years ago.
    • Ultrasound-guided procedure followed by second round of physical therapy.
  • Thigh: 16-year-old male sustained blow to thigh two months ago.
    • Multi-planar view to evaluate.

Changing Your Practice
This information does not necessarily need to change your practice. Ultrasound is a complement to many other evaluation tools and imaging resources.

For practitioners interested in learning more about ultrasound, Jones recommends looking for local workshops to get a feel for using a device before purchasing one. The learning curve is steep, but the flexibility and benefits over time make it a great option for some providers.

Musculoskeletal Ultrasound at Scottish Rite for Children
In addition to Jones use of ultrasound in his sports medicine practice, radiology staff and pediatric radiologists also provide ultrasound for sport-related conditions, hip dysplasia as well as other conditions. Patients referred to Scottish Rite for Children providers all have access to this resource.

About the Expert
Jacob C. Jones, M.D., RMSK, is a sports medicine physician caring for young athletes at Scottish Rite for Children Orthopedic and Sports Medicine Center in Frisco. After a pediatric sports medicine fellowship, he completed intensive training in a musculoskeletal ultrasound fellowship.

Juvenile Bunion Deformities

Juvenile Bunion Deformities

by | Sep 28, 2020 | Clubfoot & Foot Disorders

This article was recently published in the Pediatric Society of Greater Dallas newsletter. Committed to improving orthopedics care of pediatric patients in all settings, Scottish Rite for Children specialists are regular contributors to this publication for local pediatricians.

Print the PDF

What are Juvenile Bunions?
Juvenile bunions, a deformity of the foot, are a common cause of frustration for patients, their parents and medical providers. Fortunately, the vast majority of bunion deformities in children and adolescents are asymptomatic and therefore require no intervention aside from parental reassurance. For those deformities that cause difficulty with shoe wear and pain refractory to conservative treatment modalities, surgical correction is a reasonable option. It cannot be overstated, however, that appropriate surgical management mandates an in-depth understanding of the component deformities to avoid the historically high rate of recurrence and failure following operative treatment.

How Do Adult Juvenile Bunions Differ From Adult Bunions?
Clinically, adult and juvenile bunions appear very similar with lateral deviation of the great toe and a medial eminence at the metatarsophalangeal (MTP) joint resulting from uncoverage of the medial metatarsal head. These are, however, very different deformities. Adult bunions are
most commonly acquired deformities from tight shoe wear which leads to attenuation of the medial sided soft tissues at the MTP joint, lateral deviation of the hallux and usually pronation of the toe as well.

What Causes Bunions?
The cause of juvenile bunions is neither completely understood nor agreed upon. Hypermobility of the first ray, an associated flatfoot and obliquity of the lateral cuneiform have all been postulated as causative factors. However, the deformity is most likely congenital and results from external orientation of the articular surface of the metatarsal head.

How Do Bunions Appear in Radiographs?
Radiographically, both adult and juvenile bunions are characterized by angulation between the first metatarsal and the proximal phalanx (hallux valgus angle or HVA) as well as an increase in the angle subtended by the axes of the first and second metatarsals (intermetatarsal angle or IMA). The distinguishing characteristic of the juvenile deformity is a more lateral orientation of the distal metatarsal articular surface. Whereas in adult bunions, the articular surface is usually perpendicular to the metatarsal shaft. In younger patients, the angle between the shaft and the articular surface (distal metatarsal articular angle or DMAA) is elevated. This results in lateral deviation of the toe with maintained congruency of the MTP joint. In contrast, adult bunions usually demonstrate varying degrees of joint incongruency between the base of the proximal phalanx and the metatarsal head.

Can Bunions Be Prevented?
Because juvenile bunions are congenitally acquired, there are no means by which the deformity can be prevented. Moreover, once noticed, no well-accepted means of stopping deformity progression are available. Commercially available toe spacers, bunion straps and physical therapy cannot alter the abnormal anatomy of the distal metatarsal articular surface and therefore have no role in the management of this clinical entity. Straps and spacers that force the great toe more medially and the give the outward appearance of a straighter hallux do so by creating incongruity at the MTP joint which can alter range of motion and oftentimes cause discomfort.

What Shoes and Pads Help with Juvenile Bunions?
As mentioned above, in the absence of pain or difficulty with shoe wear, parental reassurance is the best course of action. In the presence of symptomatic deformities, nonoperative measures are all that is usually required to keep children active and happy. Shoe wear modifications are the simplest and oftentimes most effective course of action. Adolescents and their parents should be encouraged to find a well cushioned stability shoe with a wide toe box and flexible uppers. For those children required to wear leather shoes, boots or cleats due to school uniform requirements or recreational desires, most cobblers can create extra space in the region of the medial eminence using a “ball and ring” shoe stretcher. Should shoe modifications fail to provide complete relief, silicone bunion pads placed over the medial eminence can also be helpful. In children with flexible flatfoot deformities and symptomatic bunions, using a soft shoe insert to elevate the medial half of the heel and support the arch can offload any plantar-medial pressure by elevating the medial column of the foot.

Is Surgery Necessary for Bunions?
When prolonged conservative treatments fail to provide relief, surgical intervention is a reasonable option. Though recommendations vary with regard to the timing of surgery, due to historically poor results following the surgical treatment of juvenile bunions, many advocate to delay surgery until adolescents are within one or two years of skeletal maturity.

Females typically reach skeletal maturity at age 14 while males reach skeletal maturity at age 16. Better understanding of the congenital nature of the juvenile bunion and the importance of correcting the DMAA during operative treatment will likely lead to a dramatic reduction in recurrence and surgical failure, ultimately driving down the age at which operative intervention can be successfully undertaken.

Who is Qualified to Perform Surgery to Correct Juvenile Bunions?
As such, surgery should be performed only by those with a clear understanding of this specific deformity such as a fellowship-trained pediatric orthopedic surgeon or a fellowship-trained orthopedic foot and ankle specialist who is comfortable caring for pediatric patients.

Anthony I. Riccio, M.D., is a pediatric orthopedic surgeon caring for children and adolescents at Scottish Rite for Children. He is the director for the Center for Excellence for Foot.

In-toeing, Out-toeing and Crooked Legs: Treatment Options and When to be Concerned

In-toeing, Out-toeing and Crooked Legs: Treatment Options and When to be Concerned

by | Jun 22, 2020 | Spotlight

The following is a summary of a presentation on rotational and angular alignment conditions in the lower extremity. Corey S. Gill, M.D., pediatric orthopedic surgeon addresses when to be concerned and when to make a referral. The lecture was given as part of the Coffee, Kids and Sports Medicine series and is available in our on-demand learning offerings.

Watch the full lecture I Print the PDF

Physical Exam

Tips for Infant and Toddler Exam

  • Set up the environment for a relaxed exam: evaluate on the caregiver’s lap, dim the lights and play music.
  • Screening for other conditions is important.
    • Measure height, weight, and head circumference.
    • Evaluate the hip to rule out developmental hip dysplasia.
  • Toddlers are more likely to walk away from you than toward you.

Tips for School Age Children Exam

  • Must be able to see the legs. Provide or ask the child to wear shorts.
  • Leave the exam room to observe walking and running if space allows.
  • Talk to the child directly to help him or her relax.

Rotational Deformities

Structural abnormalities that cause rotational alignment issues can be measured with these tests:

  • Foot progression angle
  • Hip internal and external rotation in prone position
  • Thigh-foot angle
  • Forefoot alignment

Watch the full lecture to learn these tests.

In-toeing

This is likely the most common condition referred to pediatric orthopedics. In a study at Scottish Rite, only one percent of referrals had a diagnosis other than “benign in-toeing.” It is important to educate families that there is wide range of normal in all of these measures and it changes over time. Parents may feel that this condition will lead to long-term problems without surgery or bracing, which is inaccurate.

Common misperceptions include:

  • “My toddler falls all of the time because of in-toeing.”
  • “My child’s feet will be stuck this way forever without treatment.”
  • “The in-toeing is going to cause my child to have arthritis and joint problems.”
  • “In-toeing will prevent my child from being a high-level athlete.”

Metatarsus adductus
Most commonly identified in infants, congenital adductus of the forefoot on the midfoot may be related to intrauterine positioning. Check the contralateral foot (bilateral metatarsus adductus), hips (developmental hip dysplasia) and neck (torticollis). Studies suggest 4% of children with metatarsus adductus have hip dysplasia. Treatment is focused on observation. Stretching may help and gives the parent something to offer the child. Casting may be used if the condition persists for 6-12 months. Surgery is extremely rare. The condition commonly resolves within the first one to three years of life.

Internal Tibial Torsion
Most commonly identified in toddlers, internal tibial torsion does not require treatment, often resolving on its own. Historically, bracing was commonly used, but this is not recommended for this condition. In cases with significant torsion that causes functional problems, surgery may be discussed after the age of ten. This condition is often associated with infantile Blount disease or genu varum which is more likely to cause functional problems than the torsion.

Femoral Anteversion
Most femoral anteversion decreases and resolves around age 8-9 years (elementary school age). These children may prefer to “w” sit because it is comfortable, but there is no clear data supporting “w” sitting causing worsening femoral anteversion. This condition is typically not related to long-term problems like arthritis or other functional disability. In cases of severe functional or cosmetic deformity, surgery can be successful, but can have significant risks. Our multidisciplinary team for these complex cases includes a psychological evaluation.

Out-toeing

Though slightly more functionally limiting than typical in-toeing, out-toeing rarely causes long-term problems or requires surgical intervention.

Femoral Retroversion
This condition rarely causes long-term problems, however, in some, it may predispose to slipped capital femoral epiphysis (SCFE). Osteotomy to correct the alignment is rarely needed.

External Tibial Torsion
Much like internal tibial torsion, this condition improves in most children before or around the age of 10. In patients with suspected external tibial torsion, checking the foot for tarsal coalition or a rigid flatfoot is important. The foot may turn out causing a stance and gait that mimics external tibial torsion. In cases where the deformity causes functional limitations, typically with excessive torsion greater than 40 degrees, surgical corrective osteotomy may be indicated.

Slipped Capital Femoral Epiphysis (SCFE)
With increased obesity in growing adolescents, the nation continues to see a dramatic rise in the incidence of SCFE. If a child presents to a health care provider with hip or knee pain, especially if he or she is an overweight adolescent with an out-toeing gait, ruling out SCFE is essential. These patients present with hip and sometimes knee pain and in about 25% the condition occurs bilaterally. Referral for unstable SCFE’s needs to be made immediately (talk to an orthopedic doctor on the phone or send patient to the ER). Treatment is to surgically stabilize and prevent worsening position and avascular necrosis in the hip.

Gill emphasizes that the factors that make this population at high risk of SCFE also makes them at high risk of poor long-term outcomes. Counseling these patients to manage weight and co-morbidities is a multidisciplinary concern. He encourages the audience to “not miss” this diagnosis so it can be treated early.

Angular Deformities
Babies have a natural progression of genu varum (bow-legged) as an early walker to genu valgum (knock-kneed) in the first few years of life. Counseling parents regarding typical development can provide reassurance. However, there are some conditions that may need to be referred.

Genu Varum – “Bow-Legs”
Pre-existing conditions such as infection, trauma, metabolic bone diseases and skeletal dysplasia’s that cause growth plate disruptions, may cause genu varum. These are typically already known conditions and are not the focus of this discussion.

Physiologic Genu Varum (PGV)
This is a condition that will get better on its own without treatment. The varus may be dramatic, but will resolve without treatment. It is important to distinguish between PGV and Blount’s disease.

Blount’s Disease
Unlike PGV, this will not improve on its own. By age 2, varum should resolve. If it doesn’t, radiologic evaluation may reveal proximal tibia growth deformity. Historically, bracing or osteotomy were provided to improve the alignment. Currently, growth modulation, a less involved procedure, is offered if bracing is not effective by the age of three. In some, the condition does not develop until a later age and may be bilateral. Referral for pain, swelling or unilateral genu varum is appropriate.

Genu Valgum – “Knock-Knees”
Other systemic conditions like rickets, trauma or osteochondromatosis may cause this positioning and need to be addressed directly. Treatment for the genu valgum may be necessary, however, these causes are not the focus of this discussion.

Genu valgum is most noticeable around age 3 in normal children, and then gradually improves until the age of 8 or 9. The structural condition may be minor and cause a cosmetic concern or a many contribute to significant orthopedic problems such as patellar instability and osteochondritis dissecans.

Treatment, when indicated, is surgical. In children who have open growth plates, growth modulation by temporarily tethering the growth plate with a plate and screws is effective. In older children, an osteotomy to remove or add a wedge of the bone realigns the lower extremity.