Approach to a child with limping

GAIT

• The pattern of how a person walks
• A dynamic & repetitive performance
• Occurs with a definite rhythmic sequence of events that takes during a gait cycle
• Normal walking is relatively effortless, performed with minimum expenditure of energy

GAIT CYCLE

• The walking sequence requires that the non weight bearing leg moves forward while weight is shifted smoothly from one leg to another
• The period of time from one heel-ground contact to the next heel-ground contact of the same foot is one gait cycle
• 2 phases
  • Stance phase
  • Swing phase
  

STANCE PHASE

• Normal gait begins with the stance phase
• The foot is in contact with the floor & the lower limb is bearing all or part of body weight.
• Begins when the heel strikes the floor & when the toes rise off the floor
• Occupies 60% of the duration of the cycle

SWING PHASE

• The foot is not touching the floor & body weight is borne by the opposite limb
• Begins immediately the toe leaves the ground until the heel contacts ground
• Occupies 40% of the gait cycle

LIMP

• Any deviation from a normal gait pattern for the child’s age
• Any asymmetric deviation from a normal gait pattern
• It is a common complaint in childhood, accounting for 4 per 1000 visits in one pediatric emergency department (literature review -August 2007- Mark C Clark)

POINTS TO CONSIDER

• Children complain of pain frequently, but limping is almost always in the context of true organicity
• The cause of a limp can range from a life-threatening bone tumor to a pebble in a shoe
• Plain radiographic assessment should be the initial study as 20% of children have unsuspected fractures

ORIGIN OF A LIMP

• CNS
• Spine
• Hip
• Knee
• Ankle
• Foot

• Mechanical defects affecting the pelvis, hips, or legs
• Pain in pelvis, any of the bones, joints, muscles, or other structures of the lower limbs
• Disorders of the pyramidal or peripheral nervous systems or muscle
• Disorders of the vestibular structures e.g. vertigo
• Psychological disturbances
• Miscellaneous
  • Foot conditions-plantar warts, pressure ulcers
  • Toxic reactions – alcohol, drug,
  • Neoplasms

CAUSES OF LIMP

• Trauma
  • Fracture
  • Stress fracture
  • Toddler’s fracture (minimally displaced spiral fracture of the tibia)
  • Soft tissue
  • Contusion
  • Ankle sprain
  • Child abuse
• Tumor
  • Spinal cord tumors
  • Tumors of bone
    Benign: osteoid osteoma, osteoblastoma
    Malignant: osteosarcoma, Ewing’s sarcoma
  • Lymphoma
  • Leukemia
• Inflammatory
  • Juvenile rheumatoid arthritis
  • Transient synovitis
  • Systemic lupus erythematosus
• Congenital
  • Developmental dysplasia of the hip
  • Sickle cell
  • Congenitally short femur
  • Clubfoot
• Developmental
  • Legg-Calvé-Perthes disease
  • Slipped capital femoral epiphysis
  • Tarsal coalitions
  • Osteochondritis dissecans (knee, talus)
• Neurologic
  • Cerebral palsy
  • Hemiparesis
  • Hereditary sensory motor neuropathies

HISTORY TAKING

• Age of Onset
  • Developmental dysplasia of the hip and congenital limb length discrepancy – children younger than 3 years
  • Toxic synovitis and Legg-Calvé- Perthes disease – 4 to 10 years of age
  • Adolescence – slipped capital femoral epiphysis

CAUSES OF LIMP IN CHILDREN AT DIFFERENT AGES

• Birth to 3 years
  • Septic arthritis
  • Osteomyelitis
  • Fractures
  • Developmental dysplasia of the hip
  • Congenital limb length discrepancy
• Ages 4 to 10 years
  • Septic arthritis
  • Osteomyelitis
  • Transient synovitis
  • Fractures
  • Legg-Calvé-Perthes disease
  • Juvenile rheumatoid arthritis
  • Leukemia
• Ages 11 to 18 years
  • Slipped capital femoral epiphysis
  • Avascular necrosis of femoral head
  • Overuse syndromes
  • Tarsal coalitions
  • Gonococcal septic arthritis
• Sex
  • Developmental dysplasia of the hip -common in girls
  • Legg-Calvé- Perthes disease and slipped capital femoral epiphysis – common in boys
• Onset of the Limp
  • An acute onset – trauma or infection.
  • A gradual onset with progression of the limp – neuromuscular disorder, Legg-Calvé-Perthes disease, slipped capital femoral epiphysis, rheumatic disease, or malignancy.
  • A chronic limp – mechanical or psychogenic in nature.
• Recent Trauma or Strenuous Exercise
  • May be difficult to obtain in very young children
  • Obvious trauma in the absence of a consistent history raises the question of child abuse
  • Limping after strenuous activity suggests a musculoskeletal etiology
• Associated Symptoms- PAIN
  • Exact location and character; severity;localized – fractures, dislocations, osteomyelitis, and septic arthritis
  • Referred pain -hip pathology may present as knee pain and pain from the lower back can be referred to the lateral thigh
  • A painful limp without localization or with migratory bone pain – sickle cell disease or leukemia
  • Limping with bilateral leg pain localized to the calf muscles – myositis
• Associated Symptoms
  • Severe pain out of proportion to the history of injury – reflex sympathetic dystrophy
  • Painless limp- limb length discrepancy, developmental dysplasia of the hip, or a neuromuscular disease.
  • Muscle pain – more aching in nature
  • Nerve pain – burning or tingling in nature
  • Increasing pain with joint motion – joint problem
• • Fever – infection or inflammation
  • Recurrent fever, rash and joint pain- juvenile rheumatoid arthritis
  • Low grade fever, weight loss, and malaise- with occult malignancy
  • Unexplained bruising in the lower extremities, joint pain, and abdominal pain – Henoch-Schönlein purpura
  • A deterioration of gait or loss of acquired motor skills is suggestive of a neuromuscular disease
• Precipitating or Relieving Factors
  • Worse in the morning & morning stiffness -juvenile rheumatoid arthritis
  • Worsens with activity – soft tissue strain, stress fracture, overuse injury
  • Relieved by aspirin- osteoid osteoma
  • Pain that worsens throughout the day is typical of muscle fatigue
• Past History
  • juvenile rheumatoid arthritis,leukemia,TB
• Family History
  • hemophilia ,sickle cell disease
• Birth history
  • Prematurity & birth complications-hypoxic brain damage- cerebral palsy
  • Neurological impairment present since birth or early infancy-non progressive cerebral palsy

Type of Gait

• Dragging of foot- Hemiplegia, foot drop
• Dragging of both feet & scissor like gait-Cerebral diplegia

EXAMINATION

• Observation of gait
  • Without shoes or socks
  • Walk along a straight line
  • Walking on the balls of the feet, flat footed, or the heels & relative stability of pelvis
  • Associated movements of arms & hand-fingers & hands may flex associated with infolding of the thumbs—corticospinal tract dysfuction
• General examination
  • weight
  • Height
  • vital signs
• Poor growth -chronic disorder, neuromuscular disorder or rheumatic disease
• Fever – infection or inflammation
• Examination of shoes- for unusual wear, asymmetry, and point of initial foot strike
• Examination of foot for foreign bodies and calluses
• Ecchymosis and puncture –trauma
• Pallor, fever, an appearance of being ill, generalized lymphadenopathy, and hepatosplenomegaly -malignancy, chronic infection, or rheumatic disease
• A photosensitive rash – systemic lupus erythematosus or juvenile dermatomyositis
• Musculoskeletal Examination

  • Gait pattern
  • Skin- color, warmth, tenderness
  • Joint-Soft tissue/joint swelling, joint laxity, muscle strength, range of motion and symmetry: Hyperextensibile -benign hypermobility syndrome, Stiff- chronic joint inflammation
  • Measurement of limb lengths – from the patient’s anterior superior iliac spine to the medial malleolus
  • Point tenderness over a bone may indicate a fracture or osteomyelitis
  • Muscle atrophy suggests a neuromuscular disorder
  • A stiff, tender spine suggests diskitis
  • A positive FABER test-signifies sacroiliac joint pathology

NEUROLOGICAL EXAMINATION

• Sensation
• Deep tendon reflexes
• Tone
• Hyperreflexia and spasticity – cerebral palsy
• Tightness of the hamstring muscles with a limited straight-leg raise – spinal problem

INVESTIGATIONS

• TLC,DLC ,ESR, Platelet (Platelet count may be low, or the white cell count elevated in the child with leukemia)
• CRP (elevated earlier than the ESR and is considered more sensitive for an infectious process; a baseline ESR and CRP helps monitor clinical improvement during antibiotic treatment)
• Peripheral blood film
• Blood cultures
• RA factor, ANA, HLA typing
• When examined together, the combination of an ESR greater than 20 and a temperature above 37.5°C (99.5°F) identified septic arthritis of the hip in 97 percent of patients presenting with a limp (Del Beccaro MA, Champoux AN, Bockers T, Mendelman PM. Septic arthritis versus transient synovitis of the hip: the value of screening laboratory tests. Ann Emerg Med 1992;21:1418-22)
• Septic Arthritis- joint aspirate
  • White cell count
  • Gram stain
  • Anaerobic and aerobic cultures
  • Protein and glucose analyses
• Significant overlap of synovial white cell counts in infection and inflammatory conditions, a white blood cell count above 50,000 per mm3 (50 3 109 per L) should be presumed to be an infection.
• A septic joint partially treated with antibiotics may have a lower-than-expected white cell count
• A negative culture does not rule out a septic joint, in about 33 percent of cases, the joint aspirate does not recover an organism (Herndon WA, Knauer S, Sullivan JA, Gross RH. Management of septic arthritis in children. J Pediatr Orthop 1986;6:576-8)
• If the joint in question is the knee in a sexually active patient, the fluid should be cultured for gonorrhea (Renshaw TS. The child who has a limp. Pediatr Rev 1995;16:458-65)

RADIOGRAPHIC ANALYSIS

• Plain films of the affected area
• In the nonverbal patient, presenting with a limp- a screening of antero-posterior film from hips to feet identifies a fracture in one fifth of patients (Oudjhane K, Newman B, Oh KS, Young LW, Girdany BR. Occult fractures in preschool children. J Trauma 1998;28:858-60)

IMAGING

• Plain X-rays
  • At least 2 views
  • Oblique, AP, Lateral views for minimally displaced tibial (Toddler’s) fracture
  • AP & frog lateral view of the pelvis for hip patholgy
• USG
  • Joint effusion or abscess
  • developmental dysplasia of the hip
  • more sensitive than plain films- identify an effusion in two thirds of a series of 500 children with normal plain films (Miralles M, Gonzalez G, Pulpeiro JR, Millan JM, Gordillo I, Serrano C, et al. Sonography of the painful hip in children: 500 consecutive cases. AJR Am J Roentgenol 1989;152:579-82)
• Radioisotope uptake scan
  • When the cause of a child’s limp cannot be localized by history or physical examination, a bone scan is an excellent way to help localize pathology (Aronson J, Garvin K, Seibert J, Glasier C, Tursky EA. Efficiency of bone scan for occult limping toddlers. J Pediatr Orthop 1992;12:38-44)
  • Perthe’s disease, septic arthritis & osteomyelitis, chronic recurrent multifocal osteomyelitis, stress fracture & osteoid osteoma
• CT
  • Bone – to demonstrate tarsal coalition, spondylolisthesis/ spondylolisis & osteoid osteoma
• MRI
  • If soft tissue malignancy or infection is suspected
  • Spinal cord
  • Early diagnosis of Perthe’s disease
  • CT best delineates bone structure, whereas MRI best highlights areas of pathology in the soft tissues, as well as inflammation of bone If soft tissue malignancy or infection is suspected
  • Spinal cord
  • Early diagnosis of Perthe’s disease
  • CT best delineates bone structure, whereas MRI best highlights areas of pathology in the soft tissues, as well as inflammation

MANAGEMENT

• Depends on the specific cause
• Besides medical & surgical management, acute & long term rehabilitation are also important.