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Torticollis (wry neck), coxa vara, observation hip, cervical rib, slipped capital femoral epiphysis

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Achintya Nayyar

miscellaneous regional diseases

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Torticollis (wry neck) This is the deformity of the neck where head and neck are turned and twisted to one side.
Torticollis  It may be permanent, temporary or spasmodic. Spasmodic torticollis is the commonest. Most often, torticollis is secondary to pain and reflex muscle spasm and recovers once the inflammatory process subsides. Congenital torticollis, a common cause of permanent torticollis, is of orthopaedic interest.
Causes of torticollis  Congenital sternocleidomastoid tumour  Infection tonsilitis atlantoaxial infections labyrinthis  Reflex spasm acute disc prolapse(cervical)  Neurogenic spasmodic condition paralytic condition  Ocular compensation for squint  Others rheumatoid arthritis spasmodic torticollis
Congenital torticollis (infantile torticollis, sterno- mastoid tumour)  The sterno-mastoid muscle on one side of the neck is fibrosed and fails to elongate as the child grows, and thus results in a progressive deformity.The causes of fibrosis is not known, but it is possibly a result of ischaemic necrosis of the sterno-mastoid muscle at birth. Evidence in favour of this theory is the presence of lump in the sterno-mastoid muscle in the first few weeks of life, probably a swollen ischaemic muscle.This is termed sterno-mastoid tumour. The lump disappears spontaneously within a few months, leaving a fibrosed muscle. Torticollis occurs more commonly in children with breech presentation.
Diagnosis  The child usually presents at 3-4 yrs of age, often as late as puberty.The head is tilted to one side so that the chin faces to the opposite side.The sterno-mastoid is prominent on the side the head tilts, and becomes more prominent on trying to passively correct the head tilt. In cases presenting in the first week of life, a lump may be felt in the sterno-mastoid muscle. Fascial asymmetry develops in cases who present later in life. Radiological examination is normal, and is carried out to rule out an underlying bone defect such as scoliosis.
Treatment  In a child presenting with sterno-mastoid tumour, progress to torticollis can be prevented by passive stretching and splinting.The same may also be sufficient for mild deformities in younger children. For severe deformities, especially in older children, release of the contracted sterno-mastoid muscle is required. It is usually released from its lower attachment, but sometimes both attachments need to be released. Following surgery, the neck is maintained in the corrected position in a callot’s cast.
Cervical rib  This is an additional rib which arises from the 7th cervical vertebra. It is usually attached to the first rib close to the insertion of the scalenus ant muscle, and is present in less than 0.5 percent of the population. It may be a complete rib, but more often it is present posteriorly for a short distance only; the ant part being just a fibrous band.The cervical rib is usually unilateral and is more common on the right side.
Clinical features  In 90% of cases, there are no symptoms; an extra rib is detected on an X-ray made for some other purpose. In others, it produces symptoms after the age of 30 yrs., probably because with declining youth the shoulders sag, increasing the angulation of the neurovascular structures of the upper limb as they come out of the neck. It is more often symptomatic in females. A patient may present with following symptoms: a) Neurological symptom b) Vascular symptom c) Local symptom
Neurological symptoms  Tingling and numbness along the distribution of the lowest part of brachial plexus (T1 dermatome), along the medial border of the forearm and hand, is the commonest complaint.There may be weakness and wasting of hand muscles and clumsiness in the use of the hand.
Vascular symptoms  These are uncommon. Compression of the subclavian artery may result in an aneurysm distal to constriction.This is a potential source of tiny emboli to the hand and may cause gangrege of the finger tips.There may be a history of pain in the upper limb on using the arm or elevating the hand (claudication).
Local symptoms  Occasionally, the patient presents with a tender supraclavicular lump (the ant. end of the cervical rib) which, on palpation, is bony hard and fixed.
Radiological examination  X-ray examination may show a well-formed rib articulating posteriorly with transverse process of C7 vertebra. It is attached anteriorly to the middle of the 1st rib. More often there is no fully developed cervical rib but merely an enlargement of the transverse process of the 7th cervical vertebra.
X-ray of the neck, AP view, showing a cervical rib
Differential diagnosis  A patient with cervical rib is to be differentiated from those presenting with pain radiating down the upper limb due to other causes. Some of these causes are:
Carpal tunnel syndrome  The symptoms are in the median nerve distribution. Nocturnal pain is characteristic.
Cervical spine lesions  In cases with cervical disc prolapse and spondylosis, pain radiates to outer side of the arm and forearm. Associated limitation of neck movt. and characterstic X-ray appearance may help in diagnosis.
Spinal cord lesions  Syringomyelia or other spinal cord lesions may cause wasting of the hand, but other neurological features help in reaching a diagnosis.
Ulnar neuritis  Ulnar neuritis may mimic this lesion but can be differentiated on clinical examination or by electrodiagnostic studies.
Treatment  Conservative treatment is usually rewarding. It consists of ‘shrugging the shoulder’ exercises to build up the muscles, and avoidance of carrying heavy objects like shopping bag, bucket full of water, suitcase etc. occasionally, surgical excision of the 1st rib may be required to relieve compression on the neurovascular bundle of the upper limb.
Observation hip (Transient synovitis)  This is a non-specific synovitis of the hip seen in children 4-8 yrs. Of age. It results in a painful stiffness of the hip which subsides after 2-3 weeks of rest and analgesics.X-ray examination and the ESR are normal. It is termed ‘observation hip’ because it must be ‘observed’ and differentiated from the following conditions:
Early infective arthritis  Some cases of early tuberculosis or septic arthritis may have features similar to observation hip.A high ESR, systemic symptoms, and persistent signs may necessitate a biopsy; especially in countries where tuberculosis is common.
Chronic synovitis  A mono-articular rheumatoid arthritis may resemble an observation hip.
Perthes disease  In its early stages, before X-ray findings appear, perthes disease may resemble a transient synovitis, but further follow up shows characterstic X-ray changes of the former.
Treatment  It consists of bed rest and analgesics. Recovery occurs within a few weeks.
Coxa vara  Coxa vara is a term used to describe a reduced angle between the neck and shaft of the femur. It may be congenital or acquired.
Infantile coxa vara  This is coxa vara resulting from some unknown growth anomaly at the upper femoral epiphysis. It is noticed as a painless limp in a child who has just started walking. In severe cases, shortening of the leg may be obvious. On examination, abduction and int rotation of the hip are limited and the leg is short. X-rays will show a reduction in neck-shaft angle.
X-ray of the pelvis, AP view, showing coxa vara of the hip (note reduction of neck-shaft angle of the femur)
The epiphyseal plate may be too vertical.There may be a separate triangle of bone in the inf. Portion of the metaphysis, called fairbank’s triangle.Treatment is by a subtrochanteric corrective anatomy. Coxa vara – fairbank’s triangle
Slipped capital femoral epiphysis  In this condition, the upper femoral epiphysis may get displaced at the growth plate, usually postero-medially, resulting in coxa vara. The slip occurs gradually in majority of cases, but in some it occurs suddenly.
Causes  Aetiology is not known but it is thought to be a result of trauma in the presence of some not yet understood underlying abnormality. It occurs more commonly in unduly fat and sexually underdeveloped; or tall, thin sexually normal children.
CLINICAL FEATURES  Following are the salient clinical features:  AGE: it occurs at puberty(12-14yrs)  It is commoner in boys.  SIDE : its occurs on both sides in 30% of cases.  There is a definite history of trauma in some cases.  It is commoner in patients with endocrine abnormalities.
PRESENTING SYMPTOMS  Pain in the groin, often radiating to the thigh and knee is the common complaint.Often in the initial stages, the symptoms are considered due to a sprain and are disregarded.They soon disappear only to recur. Limp occurs early and is more constant.
EXAMINATIO N  The leg is found to be externally rotated and 1-2cm short. Limitation of hip moments is characteristic – there is limited abduction and internal rotation, with a corresponding increase in adduction and external rotation.When the hip is flexed, the knee goes towards the ipsilateral axilla. Muscle bulk may be reduced. Trendelenburg’s sign may be positive.
Clinical examination in slipped capital femoral epiphysis.The knee points towards axilla.
Radiological features  X-ray changes are best seen on a lateral view of the hip.The following signs may be present: OnAP view: the growth plate is displaced towards the metaphyseal side. A line drawn along the sup. Surface of the neck remains superior to the head unlike in a normal hip where it passes bisecting the head – trethowan’s sign. On lateral view: the head is angulated on the neck.This can be detected early.
Trethowan’s sign
Treatment  It is based on the following considerations: a) Treatment of an acute slip: this is by closed reduction and pinning, as for a fracture of the neck of femur. b) Treatment of the gradual slip: this depends upon severity of the slip present. If it is less than 1/3 the diameter of the femoral neck, the epiphysis is fixed internally in situ. If the slip is more than 1/3, a corrective osteotomy is performed at the inter- trochanteric region. c) Treatment of the unaffected side: in unilateral cases: since the incidence of bilateral involvement is 30%, prophylactic pinning of the unaffected side in a case with unilateral slip is justified.

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Torticollis (wry neck), coxa vara, observation hip, cervical rib, slipped capital femoral epiphysis

  • 1. Torticollis (wry neck) This is the deformity of the neck where head and neck are turned and twisted to one side.
  • 2. Torticollis  It may be permanent, temporary or spasmodic. Spasmodic torticollis is the commonest. Most often, torticollis is secondary to pain and reflex muscle spasm and recovers once the inflammatory process subsides. Congenital torticollis, a common cause of permanent torticollis, is of orthopaedic interest.
  • 3. Causes of torticollis  Congenital sternocleidomastoid tumour  Infection tonsilitis atlantoaxial infections labyrinthis  Reflex spasm acute disc prolapse(cervical)  Neurogenic spasmodic condition paralytic condition  Ocular compensation for squint  Others rheumatoid arthritis spasmodic torticollis
  • 4. Congenital torticollis (infantile torticollis, sterno- mastoid tumour)  The sterno-mastoid muscle on one side of the neck is fibrosed and fails to elongate as the child grows, and thus results in a progressive deformity.The causes of fibrosis is not known, but it is possibly a result of ischaemic necrosis of the sterno-mastoid muscle at birth. Evidence in favour of this theory is the presence of lump in the sterno-mastoid muscle in the first few weeks of life, probably a swollen ischaemic muscle.This is termed sterno-mastoid tumour. The lump disappears spontaneously within a few months, leaving a fibrosed muscle. Torticollis occurs more commonly in children with breech presentation.
  • 5. Diagnosis  The child usually presents at 3-4 yrs of age, often as late as puberty.The head is tilted to one side so that the chin faces to the opposite side.The sterno-mastoid is prominent on the side the head tilts, and becomes more prominent on trying to passively correct the head tilt. In cases presenting in the first week of life, a lump may be felt in the sterno-mastoid muscle. Fascial asymmetry develops in cases who present later in life. Radiological examination is normal, and is carried out to rule out an underlying bone defect such as scoliosis.
  • 6. Treatment  In a child presenting with sterno-mastoid tumour, progress to torticollis can be prevented by passive stretching and splinting.The same may also be sufficient for mild deformities in younger children. For severe deformities, especially in older children, release of the contracted sterno-mastoid muscle is required. It is usually released from its lower attachment, but sometimes both attachments need to be released. Following surgery, the neck is maintained in the corrected position in a callot’s cast.
  • 7. Cervical rib  This is an additional rib which arises from the 7th cervical vertebra. It is usually attached to the first rib close to the insertion of the scalenus ant muscle, and is present in less than 0.5 percent of the population. It may be a complete rib, but more often it is present posteriorly for a short distance only; the ant part being just a fibrous band.The cervical rib is usually unilateral and is more common on the right side.
  • 8. Clinical features  In 90% of cases, there are no symptoms; an extra rib is detected on an X-ray made for some other purpose. In others, it produces symptoms after the age of 30 yrs., probably because with declining youth the shoulders sag, increasing the angulation of the neurovascular structures of the upper limb as they come out of the neck. It is more often symptomatic in females. A patient may present with following symptoms: a) Neurological symptom b) Vascular symptom c) Local symptom
  • 9. Neurological symptoms  Tingling and numbness along the distribution of the lowest part of brachial plexus (T1 dermatome), along the medial border of the forearm and hand, is the commonest complaint.There may be weakness and wasting of hand muscles and clumsiness in the use of the hand.
  • 10. Vascular symptoms  These are uncommon. Compression of the subclavian artery may result in an aneurysm distal to constriction.This is a potential source of tiny emboli to the hand and may cause gangrege of the finger tips.There may be a history of pain in the upper limb on using the arm or elevating the hand (claudication).
  • 11. Local symptoms  Occasionally, the patient presents with a tender supraclavicular lump (the ant. end of the cervical rib) which, on palpation, is bony hard and fixed.
  • 12. Radiological examination  X-ray examination may show a well-formed rib articulating posteriorly with transverse process of C7 vertebra. It is attached anteriorly to the middle of the 1st rib. More often there is no fully developed cervical rib but merely an enlargement of the transverse process of the 7th cervical vertebra.
  • 13. X-ray of the neck, AP view, showing a cervical rib
  • 14. Differential diagnosis  A patient with cervical rib is to be differentiated from those presenting with pain radiating down the upper limb due to other causes. Some of these causes are:
  • 15. Carpal tunnel syndrome  The symptoms are in the median nerve distribution. Nocturnal pain is characteristic.
  • 16. Cervical spine lesions  In cases with cervical disc prolapse and spondylosis, pain radiates to outer side of the arm and forearm. Associated limitation of neck movt. and characterstic X-ray appearance may help in diagnosis.
  • 17. Spinal cord lesions  Syringomyelia or other spinal cord lesions may cause wasting of the hand, but other neurological features help in reaching a diagnosis.
  • 18. Ulnar neuritis  Ulnar neuritis may mimic this lesion but can be differentiated on clinical examination or by electrodiagnostic studies.
  • 19. Treatment  Conservative treatment is usually rewarding. It consists of ‘shrugging the shoulder’ exercises to build up the muscles, and avoidance of carrying heavy objects like shopping bag, bucket full of water, suitcase etc. occasionally, surgical excision of the 1st rib may be required to relieve compression on the neurovascular bundle of the upper limb.
  • 20. Observation hip (Transient synovitis)  This is a non-specific synovitis of the hip seen in children 4-8 yrs. Of age. It results in a painful stiffness of the hip which subsides after 2-3 weeks of rest and analgesics.X-ray examination and the ESR are normal. It is termed ‘observation hip’ because it must be ‘observed’ and differentiated from the following conditions:
  • 21. Early infective arthritis  Some cases of early tuberculosis or septic arthritis may have features similar to observation hip.A high ESR, systemic symptoms, and persistent signs may necessitate a biopsy; especially in countries where tuberculosis is common.
  • 22. Chronic synovitis  A mono-articular rheumatoid arthritis may resemble an observation hip.
  • 23. Perthes disease  In its early stages, before X-ray findings appear, perthes disease may resemble a transient synovitis, but further follow up shows characterstic X-ray changes of the former.
  • 24. Treatment  It consists of bed rest and analgesics. Recovery occurs within a few weeks.
  • 25. Coxa vara  Coxa vara is a term used to describe a reduced angle between the neck and shaft of the femur. It may be congenital or acquired.
  • 26. Infantile coxa vara  This is coxa vara resulting from some unknown growth anomaly at the upper femoral epiphysis. It is noticed as a painless limp in a child who has just started walking. In severe cases, shortening of the leg may be obvious. On examination, abduction and int rotation of the hip are limited and the leg is short. X-rays will show a reduction in neck-shaft angle.
  • 27. X-ray of the pelvis, AP view, showing coxa vara of the hip (note reduction of neck-shaft angle of the femur)
  • 28. The epiphyseal plate may be too vertical.There may be a separate triangle of bone in the inf. Portion of the metaphysis, called fairbank’s triangle.Treatment is by a subtrochanteric corrective anatomy. Coxa vara – fairbank’s triangle
  • 29. Slipped capital femoral epiphysis  In this condition, the upper femoral epiphysis may get displaced at the growth plate, usually postero-medially, resulting in coxa vara. The slip occurs gradually in majority of cases, but in some it occurs suddenly.
  • 30. Causes  Aetiology is not known but it is thought to be a result of trauma in the presence of some not yet understood underlying abnormality. It occurs more commonly in unduly fat and sexually underdeveloped; or tall, thin sexually normal children.
  • 31. CLINICAL FEATURES  Following are the salient clinical features:  AGE: it occurs at puberty(12-14yrs)  It is commoner in boys.  SIDE : its occurs on both sides in 30% of cases.  There is a definite history of trauma in some cases.  It is commoner in patients with endocrine abnormalities.
  • 32. PRESENTING SYMPTOMS  Pain in the groin, often radiating to the thigh and knee is the common complaint.Often in the initial stages, the symptoms are considered due to a sprain and are disregarded.They soon disappear only to recur. Limp occurs early and is more constant.
  • 33. EXAMINATIO N  The leg is found to be externally rotated and 1-2cm short. Limitation of hip moments is characteristic – there is limited abduction and internal rotation, with a corresponding increase in adduction and external rotation.When the hip is flexed, the knee goes towards the ipsilateral axilla. Muscle bulk may be reduced. Trendelenburg’s sign may be positive.
  • 34. Clinical examination in slipped capital femoral epiphysis.The knee points towards axilla.
  • 35. Radiological features  X-ray changes are best seen on a lateral view of the hip.The following signs may be present: OnAP view: the growth plate is displaced towards the metaphyseal side. A line drawn along the sup. Surface of the neck remains superior to the head unlike in a normal hip where it passes bisecting the head – trethowan’s sign. On lateral view: the head is angulated on the neck.This can be detected early.
  • 37. Treatment  It is based on the following considerations: a) Treatment of an acute slip: this is by closed reduction and pinning, as for a fracture of the neck of femur. b) Treatment of the gradual slip: this depends upon severity of the slip present. If it is less than 1/3 the diameter of the femoral neck, the epiphysis is fixed internally in situ. If the slip is more than 1/3, a corrective osteotomy is performed at the inter- trochanteric region. c) Treatment of the unaffected side: in unilateral cases: since the incidence of bilateral involvement is 30%, prophylactic pinning of the unaffected side in a case with unilateral slip is justified.