L Pitta

Publications (9)4.29 Total impact

• Article: Lumbar nerve root "walled" by a calcified herniated mass in a young patient.

  L Aulisa, L Pitta, A G Aulisa, G Mastantuoni, E Pola, A Leone
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  ABSTRACT: Discal calcification in childhood is rare. Calcifications are occasionally discovered during routine examinations, especially in the cervical spine. Generally, the calcification process is confined to the nucleus pulposus of the intervertebral disc. In this report, we describe the case of a 16-year-old girl who presented with acute low back pain, right S1 radiculopathy and a history of increasing paresthesia. The patient underwent a CT scan, which demonstrated a postero-lateral calcified disc hernia at the L5-S1 level. The surgical decompression of the lumbar nerve root was carried out; at the operation it was observed that the nerve root was "walled" into the calcified hernia. Only a few cases with evidence of calcification of the herniated portion of the disc have been previously described. In none of them was the phenomenon was so pronounced that it sealed the nerve root completely.
  Child s Nervous System 07/2003; 19(5-6):384-6. · 1.54 Impact Factor
• Article: A statistical analysis of the familial incidence of Idiopathic Scoliosis.

  A Merolli, R Padua, L Pitta, A G Aulisa, E Ceccarelli, L Aulisa
  Studies in health technology and informatics 02/2002; 88:37.
• Article: Outcome of Harrington surgery for idiopathic scoliosis. SF-36 and Roland questionnaires assessment.

  R Padua, E Ceccarelli, A G Aulisa, L Pitta, L Aulisa
  Studies in health technology and informatics 02/2002; 88:404.
• Article: Biomechanics of the conservative treatment in idiopathic scoliotic curves in surgical "grey-area".

  L Aulisa, S Lupparelli, E Pola, A G Aulisa, G Mastantuoni, L Pitta
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  ABSTRACT: The biomechanical behaviour of the spine significantly varies in relation to the age of the spine. Particularly, the elastic behaviour of the intervertebral discs has been proved to change during the spine growth, which changes the disc reaction to externally imparted forces. The biomechanical analysis of the G modulus of torsion rigidity of the intervertebral disc shows that the G values progressively increase through growth, which favours the progression of early scoliotic curves. At the same time, however, early structural scoliosis is more amenable to conservative treatment owing to the residual growth potential of the spine. Whereas indications to surgical treatment of scoliotic curves has been based upon the magnitude of the curves as measured according to the Cobb method, two additional factors affect the chance of correcting a scoliotic curve, The first is the residual growth potential of the vertebrae. In fact, a longer residual growth allows for external forces to be applied so as to change the growth model of the scoliotic spine, which ensures a stable correction of the deformity when these external forces are removed. The second is the magnitude of the elastic deformation of the intervertebral discs. It has been suggested that a deformation beyond the disc elastic behaviour, by producing hysteresis of the disc, renders the disc less susceptible to transferring the load to the neighbouring vertebral bodies, thus impairing remodelling. It ensues that both the age and the magnitude of rotation affects the success of conservative treatment and not only the magnitude in Cobb degrees. The curve localization adds to these two parameters, thoracic curves being stiffer than thoracolumbar and lumbar curves.
  Studies in health technology and informatics 02/2002; 91:412-8.
• Article: Biomechanical factors affecting progression of structural scoliotic curves of the spine.

  S Lupparelli, E Pola, L Pitta, O Mazza, V De Santis, L Aulisa
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  ABSTRACT: The development of the spine is affected by both biological and mechanical factors. As the geometry of the motion segment changes throughout growth, so does the mechanical behaviour of the spine owing to changing vectors acting on a variable geometry system. The biomechanical analysis of the growing spine enables the assessment of the role played by biological and mechanical factors in the pathogenesis of progressive scoliosis to be assessed and its comparison with factors acting on an adult scoliotic spine. The knowledge of these principles is instrumental to setting the right parameters for treatment and to design braces that may be capable of obtaining correction of the deformity. The elastic behaviour of child and adult spine differs because of both physiologic and pathologic conditions. In child scoliosis an abnormal geometry causes a persistent stress concentration in crucial areas of the motion segment. This induces a progressive elasto-plastic strain which modifies the geometry of the motion segment, thus worsening the stress concentration and the excessive strain through a vicious cycle. In adult scoliosis, on the other hand, deformation primarily affects the viscous-elastic structures, namely the intervertebral disc and the capsulo-ligamentous structures. This produces instabilty of the motion segments and slow deformation of the vertebrae through remodelling. It therefore ensues that the aim of the treatment differs in both conditions. In the child spine the aim is to prevent the motion segment deformity by means of braces which adequately modifies the stress distribution acting on the spine, thus enabling the spine to grow according to a quasi-physiological model. In adult scoliosis a stable equilibrium is required in order to prevent further deformation of the motion segment.
  Studies in health technology and informatics 02/2002; 91:81-5.
• Article: Spondylolysis and spondylolisthesis in the pediatric and adolescent population.

  G Logroscino, O Mazza, G Aulisa, L Pitta, E Pola, L Aulisa
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  ABSTRACT: This article is a review of spondylolysis and spondylolisthesis in younger age groups. Since Herbinaux first described the pathology (1782), many classifications and theories of etiopathogenesis have been proposed. The congenital and isthmic types, as classified by Wiltse, are the most frequent in younger age groups, but the postsurgical progressive forms (3-5%) have been described as increasing in frequency secondary to neoplastic surgery in children. The general incidence is 4-5% at the age of 6 years, and in 30-50% of cases these types do not progress to spondylolisthesis. Most cases are asymptomatic (80%). Standard radiographic examinations (A-P, L, Oblique) are helpful in diagnosis and can suggest what the prognosis will be in terms of the evolution, and also what treatment is indicated (degree of slippage, slip angle, lumbar and lumbosacral index, SPTI). A bone scan (PBS and SPECT) is useful in the early stages of spondylolysis (pre-spondylosis). Although the CT scan is the most accurate examination, MRI is becoming important for diagnosis because of the frequency with which it is used as a primary investigation method. Depending on patient age, progression, degree of slippage, and symptoms, different therapeutic approaches have been proposed and are described in this paper.
  Child s Nervous System 12/2001; 17(11):644-55. · 1.54 Impact Factor
• Article: A rare cause of lumbar radiculopathy: spinal gas collection.

  F Tamburrelli, A Leone, L Pitta
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  ABSTRACT: The presence of gas in the intervertebral disk space, known as the vacuum phenomenon, is a relatively common radiologic finding, especially on computed tomographic investigation. In a few cases, the gas can be collected into the lumbar spinal canal and can also compress the nerve root. To date only seven cases of symptomatic lumbar radiculopathy caused by a bubble of gas are reported in the literature. The presence of gas inside a narrowed disk and the collection of gas in the spinal canal suggest a communication between the two structures. A case of lumbar radiculopathy caused by a collection of gas in the spinal canal provided the authors the opportunity to study this rare condition by magnetic resonance imaging. Magnetic resonance imaging had not been used before in the referred cases and proved conclusively the discal origin of the gas.
  Journal of Spinal Disorders 11/2000; 13(5):451-4. · 1.21 Impact Factor
• Article: Biomechanics of the spine.

  L Aulisa, L Pitta, R Padua, E Ceccarelli, A Aulisa, A Leone
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  ABSTRACT: Instability is one of the pathologic conditions of the spine for which surgical treatment is increasingly indicated, even if to-date the definition of instability is controversial. Some aspects of the biomechanics of the spine with particular reference to the viscoelastic characteristics of its elements and the involved loads, are reported. The elasticity of the spine is analyzed with an in-depth consideration of the concept of stability and instability from the biomechanical, clinical and radiographic viewpoint.
  Rays 25(1):11-8.
• Article: Surgical management of instability of the lumbar spine.

  L Aulisa, F Di Segni, F Tamburrelli, L Pitta, V De Santis
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  ABSTRACT: The surgical management of clinical spinal instability is for many aspects controversial since the lack of a precise clinical and instrumental definition of instability complicates the implementation of a therapeutic protocol. Both the indications and the surgical procedure are not always well defined. Some of the most common surgical techniques used in the most frequent causes of instability of the lumbar spine: fractures, degenerative disease and spondylolisthesis, are described.
  Rays 25(1):105-14.