2. INTRODUCTION
Hydrocephalus is a condition in which an accumulation of cerebrospinal fluid (CSF) occurs
within the brain. This typically causes increased pressure inside the skull. Older people may
have headaches, double vision, poor balance, urinary incontinence, personality changes, or
mental impairment. In babies, it may be seen as a rapid increase in head size. Other symptoms
may include vomiting, sleepiness, seizures, and downward pointing of the eyes.
3. DEFINATION
Definition : Hydrocephalus is the
abnormal accumulation of
cerebrospinal fluid(CSF)in the
intracranial spaces. It occurs due to
imbalance between production or
absorption of CSF or due to
obstruction of the CSF pathways. Its
results in the dilatation of the
cerebral ventricles and enlargement
of head.
4. CSF circulation and pathway
Cerebrospinal fluid is secreted at the choroid plexus within the cerebral ventricles by ultrafiltration
and active secretion .
From the lateral ventricles CSF passes to the third ventricle through the foramina of monro.
From the third ventricle, it passes through cerebral aqueduct to the fourth ventricle.
From the fourth ventricle to CSF passes to the basal cisterns and subarachnoid spaces through the
foramina Luschka and magendie.
CSF is absorbed via the arachnoid villi into the venous channel and sinuses.
5.
6. Incidence
The incidence of hydrocephalus varies depending on the geographic location.
Hydrocephalus associated with meningomyelocele is found in about 4 per
1000 live births in the parts of northern Ireland
In Japan is about 0.2 per 1000 live births.
Incidence equal in males and females
15-25% of neonates with open myelomeningocele(a form of spina bifida)
56-600 children and adolescents younger than age 18 years have a shunt in
place.
8. TYPES OF HYDROCEPHALUS
1. COMMUNICATING
In this type, there is no blockage
between ventricular system,
The basal cisterns and the spinal
subarachnoid space
There may be failure in the
absorption of CSF or excessive
production of CSF in choroid plexus
2. NON COMMUNICATING
In this type of hydrocephalus, there
is obstruction at any level in the
ventricular system, commonly at
the level of aqueduct or at foramina
Luschka and or magendie.
The obstruction maybe
1. Partial
2. Intermittent
3. Complete.
9. pathophysiology
COMMUNICATING HYDROCEPHALUS:
Communication between the ventricular and Subarachnoid space
There is an interference with the absorption of CSF caused by on occlusion of the subarachnoid cisterns
around the brain stem
Interference with absorption of CSF
10. Path…..
Occlusion of the subarachnoid cisterns around the brain stem may be due to
Subarachnoid haemorrhage
Meningitis
Toxoplasmosis
cytomegaly virus infection
communicating hydrocephalus
Atrophy and convulsions can occur
11. Non communicating hydrocephalus
PATHOPHYSIOLOGY
Non communicating or obstructive hydrocephalus
Blockage between the ventricular and subarachnoid systems
Interference with the circulation of CSF
Stenosis of aqueduct of syvius
12. PATHO….
Inflammation and compression of aqueduct
Lesion can occur in brain stem resulting in
Aneurysm
Subdural haemorrhage
Atresia of the foramina
Obstructive hydrocephalus
13. Signs and symptoms
The symptoms of hydrocephalus tend to vary greatly from person to person and across different age
groups. Infants and young children are more susceptible to symptoms from increased intracranial
pressure like vomiting and adults can experience loss of function like walking or thinking.
1. There is accumulation of CSF in ventricles leading enlargement of the skull
2. Sutures becomes of anterior fontanelle
3. Tense bulging fontanelle
4. A “cracked pot “ sound is heard on percussion of skull (macewen’s sign)
5. Scalp veins are prominent and scalp appears shiny
6. The eyes may have a wide bridge between them and visible sclera above the iris( sun-setting sign)
14. Signs and symptoms
7.Neurologically, the infant may be fussy, restless,irritable, apathetic or have an altered or diminished
level of consciousness accompanied by sluggish pupillary response to light, posturing and spasticity of
lower limbs.
8.Feeding difficulty and high pitch cry
9. Increased intracranial pressure
10.Physical and mental retardation
15. Infants symptoms
1. Unusually large head size
2. Rapidly increasing head circumference
3. Bulging and tense fontanelle or soft spot
4. Prominent scalp veins
5. Downward deviation of eyes or sunset sign
6. Vomiting
7. Sleepiness
8. Irritability
9. Seizures
16. Children and Adolescents
1. Nausea and vomiting
2. Swelling of the optic disc or papilledema
3. Blurred or double vision
4. Balance and gait abnormalities
5. Slowing or loss of developmental progress
6. Changes in personality
7. Inability to concentrate
8. Seizures
9. Poor appetite
10. Urinary incontinence
17.
18. Adults
1. Headache
2. Nausea and vomiting
3. Difficulty walking or gait disturbances
4. Loss of balance or coordination
5. Lethargy
6. Bladder incontinence
7. Impaired vision
8. Impaired cognitive skills
9. Memory loss
10. Mild dementia
22. Medical management
1. Administer isosorbide pre operatively
2. Postoperatively administer: Acetazolamide dose 50mg/kg/day to diminishes CSF production
3. Frusemide
4. Antibiotics
5. Anticonvulsant
6. Oral glycerol: has also been used for the similar purpose
23. SURGICAL MANAGEMENT
AIMS: Medicine provide temporary relief but the main management is surgery for removal of
any space –occupying lesion and insertion of a shunt.
1. Ventriculoperitoneal shunt
2. Ventriculoatrial shunt (from ventricles to left atrium)
3. Ventriculopleural shunt (from ventricles to the pleural cavity )
4. Ventriculoureteric shunt ( from ventricles to the ureter)
25. Ventriculoperitoneal shunting
Ventriculoperitoneal shunting is surgery to
treat excess cerebrospinal fluid (CSF) in the
cavities (ventricles) of the brain
(hydrocephalus).
A tube (catheter) is passed from the cavities
of the head to the abdomen to drain the
excess cerebrospinal fluid (CSF).
A pressure valve and an anti-syphon device
ensure that just the right amount of fluid is
drained
26. Ventriculoatrial shunt
Ventricular shunts are used to drain
cerebrospinal fluid into extra-
cranial spaces. Ventriculoatrial (VA)
shunts are provided to transfer
cerebrospinal fluid from the
cerebral ventricle into the right
atrium of the heart.
27. Ventriculopleural shunt
The peritoneum is the preferred distal
terminus of a cerebrospinal fluid
(CSF) shunt. However, other anatomic
locations must be considered when the
peritoneum is not suitable, such as in
patients with infection or enough
adhesions to prevent effective CSF
absorption. Other potential distal sites
include the pleural space, gallbladder,
and cardiac atrium.
28.
29. Nursing management
Pre-operative nursing care:
1. Measure the head circumference of the child daily
2. Palpate the fontanelle for evidence of increased intracranial pressure.
3. the anterior fontanelle is bulging and tense.
4. The sutures are widely separated
5. Assess the pupillary response and level of consciousness
6. Monitor vital signs regularly
7. Provide calm and quiet environment ,and provide adequate rest
8. Position the body with neck adequately supported
30. Continues…
9.Provide water pillow or lamb’s wool may be used to keep head over it
10.Change the infant’s position frequently
11.The infant is prone to vomiting provide small ,frequent feeding with intermittent burping
12.Keep the infant clean and dry.
31. Postoperative care
1. Place the infant in flat position to prevent rapid CSF drainage
2. Check the vital signs every 15-30 minutes
3. Assess the neurological status and level of consciousness frequently
4. Regularly assess head circumference
5. Monitor the intake and out put chart
6. Restrict the fluid intake for first 24 hours
7. Provide regular skin care
8. If the fontanelle become sunken, notify the physician immediately, Aslo
immediately lower the head end of the bed to decrease the outflow of CSF
through the shunt
32. Continues....
9. Administer prophylactic antibiotic therapy to prevent infection
10.Home care :
While feeding positing the child
Recognizing the signs of increased intracranial pressure and
malfunctioning or blockage of shunt
Constipation can be prevented if the child has ventriculoperitoneal
shunt
Follow up care.
33. Nursing diagnosis
1.Imbalance cerebral tissue perfusion related to increased ICP
2.Imbalance nutrition, less than body requirement related to reduced oral intake
and vomiting
3.Risk for impaired skin integrity related to enlarged head
4.Anxiety related to the abnormal condition and surgical interventions
5.Risk for infection related to introduction of infecting organism through the
shunt
6.Risk for fluid volume deficit related to CSF drainage
7.Ineffective family coping related to life threatening problem of infant