Yelikbayev G. M, Tutayeva A. A. The Results of Clinical Examination of Children About One Year With Spinal Hernia. Biomed Pharmacol J 2015;8(2)
Manuscript received on :
Manuscript accepted on :
Published online on: --
How to Cite    |   Publication History
Views Views: (Visited 256 times, 1 visits today)   Downloads PDF Downloads: 1006

Galimzhan Mamirbekovich Yelikbayev and Aigerim Aitbayevna Tutayeva

Department of Surgical diseases, International Kazakh-Turkish University K..A.Yassawi, 161200 Turkestan, Kazakhstan, International Kazakh-Turkish University K..A.Yassawi, B. Sattarkhanov 29.

DOI : https://dx.doi.org/10.13005/bpj/857

Abstract

To study the main clinical symptom of spinal hernias with different variants of their location,shapes and combination of defects.Examination of 30 children with spinal hernias treated at the Department of Neurosurgery of the regional children’s hospital in Shymkent for 2013 - 2015. The age of patients ranged from 1 day to 1 year. The age of patients ranged from 1 day to 1 year. Of these, 12 were boys, girls - 18. Children from birth to 1 month amounted to - 17 (56.6%), from 1 month to 3 months - 8 (26.6%) from 3 months to 6 months - 3 (10.0%), from 6 months to 1 year - 2 (6.7%). Among patients with spinal hernias accounted for most of the children with myelomeningocele (63.3%). A number of children with spinal hernia on the periphery of herniation within healthy skin and pilosity observed vascular pattern (50%). Children under 1 year with spinal hernias observed neurological changes of the lower extremities (paraparesis - 63.3%, paraplegia - 16.6%), pelvic disorders (70.5%) and the combination with other anomalies and malformations (hydrocephalus - 93.3%, bilateral clubfoot - 30.0%, congenital dislocation of the hip joint -13.3%, exotropia - 10,0%).

Keywords

Spinal hernias; malformations; Children; Myelodysplasia; Congenital anomalies

Download this article as: 
Copy the following to cite this article:

Yelikbayev G. M, Tutayeva A. A. The Results of Clinical Examination of Children About One Year With Spinal Hernia. Biomed Pharmacol J 2015;8(2)

Copy the following to cite this URL:

Yelikbayev G. M, Tutayeva A. A. The Results of Clinical Examination of Children About One Year With Spinal Hernia. Biomed Pharmacol J 2015;8(2). Available from: http://biomedpharmajournal.org/?p=5859

Introduction

Spinal hernia is one of the difficult and poorly understood malformations of the central nervous system. The problem of diagnosis and surgical treatment of spinal hernias attracts the attention of pediatric surgeons, neurosurgeons, urologists, orthopedists, neurologists and other doctors, but far from being solved [1, 2].

The relatively high detection rate of spinal hernia, clinical severity and poor treatment outcomes of a number of its forms make the problem of diagnosis and treatment to date and today [3, 4]. Polymorphism defeats as different strain, most often, spine, and failure of segmental conductor unit of the spinal cord, motor, sensory, autonomic nerve roots of the spinal determine the clinical manifestations of the disease. The combination of various malformations are making significant changes in the course of disease and transform the clinical manifestations of spinal hernias, but the origin of these combined, their clinical value
requires further studies [5, 6].

Objective: to study the main clinical symptom of spinal hernias with different variants of their location, shapes and combination of defects.

Materials and Methods

The work is based on the results of clinical examination of 30 children with spinal hernias treated at the Department of Neurosurgery of the regional children’s hospital in Shymkent for 2013 – 2015. The age of patients ranged from 1 day to 1 year. Of these, 12 were boys, girls – 18. Children from birth to 1 month amounted to – 17 (56.6%), from 1 month to 3 months – 8 (26.6%) from 3 months to 6 months – 3 (10.0%), from 6 months to 1 year – 2 1044 (6.7%). Among patients with spinal hernias accounted for most of the children with myelomeningocele (63.3%). Patients with meningocoele was 4 (13.3%), with meningoradiculocele 3 (10.0%), with myeloschisis – 3 (10.0%), and a child with a terminal myelocystocele (3.4%).

By clinical and radiographic contrast studies were isolated and studied mainly meningocele, myelomeningocele and menigoradiculocele. It is these forms of great interest and are more promising in terms of postoperative recovery and rehabilitation. [7]

Methods of examination 

In children with congenital spinal hernias conducted physical and neurological examination, intraskopic diagnostic methods. Pluricausal, exceptional complexity of the pathogenesis and clinical severity of malformations put forward specific requirements for diagnostic procedures [8,9].

Clinical examination in children with spinal hernias include: identification of complaints, anamnesis, external examination of the patient’s neurological examination data, evaluation results of the study of the musculoskeletal system, urinary system . For diagnosis it was necessary to collect a good history. Inspection of local changes, largely determined by the degree of urgency of the operation, the need for toilets, disinfection and surface treatment of a hernia. The facial expression, body position and the nature of the Movement is in itself important diagnostic indication. Skin pigmentation, hypertrichosis, nevi indicated meningocele or the presence of other malformations. A very important point is the correct assessment of the size of the head and its growth rate, as well as the state of physiological development.

Neurological examination in children differ from adults in connection with the anatomical and
physiological characteristics of the growing organism. Direct study of the nervous system evolved from the study of reflex activity, cranial nerves, motor activity, sensitivity. Neurological examination of the child was preceded by a general examination and the study of its physical development. Identify disparities parts of the body, changes in the size and shape of the skull, the detection of congenital anomalies indicative of current or adjourned disease of the nervous system.
A study of the musculoskeletal system consisted of the evaluation of motor deficit, identify deformities of the spine, extremities, clinical factors contractures and deformities.

Instrumental methods of research

The practice of child neurocasualty department implemented different methods of beam diagnostics of a pathology of the spine and spinal cord: ultra sound, spondylography, computed tomography, magnetic resonance imaging.

Results

Visually spinal hernia represented tumor protrusion, round or oval in shape, and dorsal midline. Hernias often have a wide base and a leg, so that they hung down and were as if suspended.

A number of children with spinal hernia on the periphery of herniation within healthy skin and pilosity observed vascular pattern (50%). Skin markers are present at open neural tube defects [10]. Half of patients with spina bifida occulta found
some form of the dermal embryopathy [11]. These symptoms are often the key to recognizing the spinal dysraphie. In this connection it is necessary to exercise great caution when examining a child who discovered lipomas, skin stigma dermal sinus,
hemangioma at the average line, hypertrichosis and asymmetric folds of the buttocks [12, 13].

With the growth of the child’s size increased herniation. And some children slowly (6), others more rapidly (24). Rapidly growing hernia is usually stretched and combined with hydrocephalus (93.3%).

Dimensions herniation were very different. Large size is achieved spinal herniation of the lumbar spine (36.6%). Consistency protrusions dependent on the contents of the hernial sac and preceding inflammatory processes which remained after scarring wall hernia (20%). As a result of the presence of the bone defect of the rear wall of the spinal canal under the influence of high pressure cerebrospinal fluid in the subarachnoid space to the spinal cord and membranes protrude roots, forming a mass lesion partially or completely covered with leather.

Skin herniation in 93.3% of cases were as thin as tissue paper, and had a tendency to break. Sometimes there is a maceration of the skin due to constant rubbing of clothing, joined inflammatory changes (26.6%). Especially difficult the infected spinal hernia lumbar, lumbosacral, and sacral localization. The lower localized hernia, the more happening inflammation of the skin, their maceration and create more conditions to break the hernia sac with subsequent formation of cerebrospinal fluid fistula.

Movement disorders ranged from flaccid paralysis to subtle disturbances. With involvement of the spinal cord and its roots in the hernial sac arose paraplegic. The basis of neurological disorders were the disorder mechanisms innervation of the lower extremities and was seen by us as a result of gross underdevelopment of the spinal cord (myelodysplasia). But not completely clear mechanisms responsible for progressive neurological disorders in patients with spinal hernias [14, 15]. In our study, lower flaccid paraparesis occurred in 63.3% of cases, and paraplegia occurred in 16.6% of cases.

Discussion

More than 70% of patients with myelomeningocele arose combined incontinence. Violations of urodynamics of the lower urinary tract, which arose at an early age, contribute to the development ureterohydronephrosis, vesicoureteral reflux, and often are the cause of severe kidney damage (renal disease, reflux nephropathy, etc..) Later in life. [7] Obstructive uropathy (vesicoureteral reflux, hydroureteronephrosis, pyelectasia) are observed in 30-50% of patients with spinal hernias [16, 17].

We have observed a combination of functional disorders of the spinal cord with other anomalies and malformations. Identified exotropia (3), bilateral clubfoot (9), congenital dislocation of the hip joint (4). Neuro-orthopedic syndromes manifest bone deformities and muscle atrophy in the lower limbs, unsteady gait, pain in the limbs and scoliosis [18, 19]. The anomalies of the spine occur in patients with spinal hernias include: spina bifida, sacred aplasia, segmentation violation and
can be detected in 75% – 95% of children [20, 21, 22].

Spinal hernia, especially in children under one year, is often associated with disorders of the flow of cerebrospinal fluid, which result in hydrocephalus (93.3%). Postoperatively, these patients in 60% of cases, there is an increase hydrocephalic syndrome, cerebrospinal fluid fistula occurred, liquorrhea discrepancy cranial sutures with the accession of inflammatory complications.
The success of the combination treatment of spinal hernias with hydrocephalus is largely dependent on the nature of the anatomical and functional disorders, and early diagnosis of shunting operations.

Hydrocephalus is one of the constituent elements of the classic symptom complex congenital spinal hernias (dysfunction of the lower extremities, pelvic disorders, orthopedic manifestations). Hydrocephalus occurs mainly in open forms dysraphie (spina bifida aperta) and before the introduction of shunting operations are the leading cause of death and poor intellectual
development of children [23]. Surgical correction (shunting operations) require 80-95% of patients with spina bifida aperta [24, 25]. According Tulipan N. et al. (2003), the frequency shunting operations within a year of life of these patients is 93% of the patients [26].

We have conducted 18 operations for progressive hydrocephalus after excision of spinal hernias. Our research has shown that babies with severe and progressive hydrocephalus require emergency surgery, while moderately expressed and not expressed ventriñulodilatation signs of increased intracranial pressure allow intervention to delay or even postpone it. When the primary bypass surgery efficiency was quite low (30%), which is consistent with the world literature [27]. This is due mainly to the peculiarities of the anatomical structure of III ventricle at meningomyelocele – ventricle less it extended its bottom denser and elastic. Therefore, urgent interventions we did not use tactics of simultaneous or prior shunting operations. On the one hand, sought to minimize the duration of the operation, and on the other side – there was no expressed intracranial hypertension in the presence of cerebrospinal fluid.

Postpartum hydrocephalus stated approximately 15-25% of cases of children with meningomyelocele [28, 23]. Therefore, congenital hydrocephalus congenital spinal hernias often not diagnosed. Most hydrocephalus developed after the “closing” of the spinal defect. The need for shunting interventions occurred in 10 of 15 infants (75%) operated on urgent indications, operations were carried out in 1-3 months after the initial intervention.

According to the literature of shunt dysfunction occurs in 51-86% of children with myelomeningocele who underwent shunt surgery for hydrocephalus. Most complications develop during the first year after bypass surgery [29, 30]. According to our data of 18 operated in 8 cases was the dysfunction of the shunt system, and all the cases developed within the first year after bypass surgery.

Conclusions

  1. The clinical picture of the disease in children with spinal hernia depends on the location, and the progression of the depth of the lesion of the spinal cord and roots, the presence and severity of associated malformations, the child’s age.
  2. Children under 1 year with spinal hernias observed neurological changes of the lower extremities (paraparesis – 63.3%, paraplegia – 16.6%), pelvic disorders (70.5%) and the combination with other anomalies and malformations (hydrocephalus – 93.3%, bilateral clubfoot – 30.0%, congenital dislocation of the hip joint -13.3%, exotropia – 10,0%).
  3. Disability of patients with spinal hernia is mainly determined by the degree of involvement in the pathological process of the spinal cord and its roots (myelomeningocele – 63.3%).
  4. Hydrocephalus is a common and lifethreatening brain injury combined with the congenital malformations of the central nervous system.
  5. Better results of treatment of hydrocephalus was the determining factor in long-term positive results of treatment of spinal hernias in children.

References

  1. Au K.S, Ashley-Koch A, Northrup H. Epidemiologic and genetic aspects of spina
    bifida and other neural tube defects. Dev Disabil Res Rev. ; 16(1):6-15 (2010). doi: 10.1002/ddrr.93 .
  2. Northrup H, Volcik K.A. Spina bifida and other neural tube defects. Curr Probl Pediatr.; 30(10):313-32 (2000 ).
  3. Anthony J. Raimondi. Pediatric Neurosurgery Theoretic principles art of surgical techniques. Springer-Verlag. 446-449 (1987).
  4. Sin A.H., Mahmoud Rashidi M., Caldito G., Nanda A. Surgical treatment of myelomeningocele: year 2000 hospitalization, outcome, and cost analysis in the US. Childs Nerv. Syst; 23: 1125–1127 (2007).
  5. McLone D., Naidich T. Myelomeningocele: Outcome and late complication: Pediatric Neurosurgery:; 53-70 (1989).
  6. Dias M.S. Myelomeningocele. Pediatric neurosurgery; 33-59 (1999).
  7. McGuire E. J., Bloom D. A., Ritchey M. L. Myelodysplasia. Prob. Urol.; 7: 7-11 (1993).
  8. Vogl D., Ring-Mrozik E., Baierl P. Magnetic resonance imaging in children suffering spina bifida. Z. Kinderchir.; 42(I): 60-64 (1987).
  9. Eggink A.J. Foetal therapy for spina bifida. Ned Tijdschr Geneeskd.; 156(38):A4924 (2012).
  10. Humpreys R.P. Clinical evaluation of 1047 cutaneous lesions of the back: spinal signatures that do not go away. Clin. Neurosurg.; 43: 175-187 (1996).
  11. Kumar Raj, Singhal Namit. Spinal dysraphism: trends in Northern India. Pediatr. Neurosurg.; 38: 133-145(2003).
  12. Drolet B.A., Boudreau C. When good is not good enough: the predictive value of cutaneous lesions of the lumbosacral region for occult spinal dysraphism. Arch. Dermatol.; 140: 1153-1155 (2004).
  13. Piatt J.H. Skin hemangiomas and occult spinal dysraphism. J. Neurosurg. 100: 81-82 (2004).
  14. Michelson D.J., Ashwal S. Tethered cord syndrome in childhood: diagnostic features and relationship to congenital anomalies. Neurol. Res. 26: 745-753 (2004).
  15. Raicevic M, Abramovic D, Mihajlovic M, Petronic I, Vidosavljevic M. Occult spinal dysraphia (abstract). Srp. Arh Celok Lek. 132(2): 111-114 (2004).
  16. Fone P.D., Vapnek J.M., Litwiller S.E. Urodynamic findings in the tethered spinal cord syndrome: does surgical release improve bladder function. J. Urol. 157: 604– 609 (1997).
  17. Keshtgar A. S., Rickwood A. M. Urological consequences of incomplete cord lesions in patients with myelomeningocele. Br J Urol.; 82: 258 (1998).
  18. Swearingen B. Spinal dysraphism. http:otsl.narod. Ru/oxford/part/spinal dysraphism.htm. (2002)
  19. Shurtleff D.B., Menelaus M.B., Staheli L.T. Natural history of flexion deformity of the hip in myelodysplasia. J. Pediatr. Orthop.; 6: 666- 673 (1986).
  20. Adzick N.S, Melchionne J, Pasquariello P.S, Sutton L.N, Whitehead A.S. Mitchell L.E. Spina bifida., Lancet.; 364(9448):1885-95 (2004).
  21. McLone D.G., Choix M., Di Rocco C, Hockley A. Occult dysraphism and the tethered spinal cord lipomas. Pediatric. Neurosurg.; 61-78 (1999).
  22. Warder D.E., Oakes W.J. Tethered cord syndrome: the low – lying and normally positioned conus. Neurosurgery. 34: 597- 600 (1994).
  23. Sgouros S. Hydrocephalus with myelomeningocele. Pediatric hydrocephalus. Springer-Verlag, Milano.; 133-144 (2004).
  24. Mirzai H., Erahin Y., Mutluer S., Kayahan A. Outcome of patients with meningomyelocele:
    The Ege University experience. Childs Nerv. Syst.14: 120-123 (1998).
  25. Rintoul N.E., Sutton L.N., Hubbard A.M. A new look at myelomeningoceles: functional level, vertebral level, shunting, and the implications for fetal intervention. Pediatrics. 109: 409-413 (2002).
  26. Tuiipan N., Sutton L., Bruner J.P. The effect of intrauterine myelomeningocele repair on the incidence of shunt dependent hydrocephalus. Pediatr. Neurosurg. 38: 27- 33 (2003).
  27. Teo C., Jones R. Management of hydrocephalus by endoscopic third ventriculostomy in patients with myelomeningocele. Pediatr. Neurosurg. ; 25: 57-63 (1996).
  28. Dias M.S., McLone D.G. Hydrocephalus in the child with dysraphism. Neurosurg. Clin. N. Am.; 4: 715-726 (1993).
  29. Caldarelli M., Di Rocco C., La Marca F. Shunt complications in the first postoperative year in children with meningomyelocele. Childs Nerv. Syst. 12: 748-754 (1996).
  30. Tuli S., Drake J, Lamberti-Pasculli M. Longterm outcome of hydrocephalus management in myelomeningoceles. Childs Nerv Syst. 19: 286-291 (2003).
Share Button
(Visited 256 times, 1 visits today)

Creative Commons License
This work is licensed under a Creative Commons Attribution 4.0 International License.