Flat panel detector-CT with endovenous injection. Description of a novel technique for obtaining cerebral arteries imaging: Technical note


Romanian Neurosurgery  |  Volume XXXI  |  Number 2 |  2017  |  April-June 

 
Article 

 
 Efficacy of electromyography and nerve 

conduction velocity monitoring in surgical 

management of terminal lipoma in children  

 

Ashraf El Badry, Mohamed Elsaeed, Ahmed Abdel Khalek, Azza Abdelazeez  
EGYPT 

 

 

 

DOI: 10.1515/romneu-2017-0030 
 



 
 
 
 
 

Romanian Neurosurgery (2017) XXXI 2: 191 - 196 | 191 

 

 
 
 
 
 
 

DOI: 10.1515/romneu-2017-0030   

Efficacy of electromyography and nerve conduction 
velocity monitoring in surgical management of terminal 
lipoma in children 

Ashraf El Badry1, Mohamed Elsaeed2, Ahmed Abdel Khalek3,  
Azza Abdelazeez4 
1Assistant professor of Neurosurgery Department 
2Assistant professor of Neurology Department 
3Professor of Radiology Department 
4Assistant professor of Pathology Department  
Faculty of Medicine, Mansoura University Hospital, EGYPT 

 
Abstract: Background: the prognosis of Terminal lipomas is better than that of other sites 
and pathology especially their management nowadays became clearer with better 
surgical outcome due to advancement of surgical tools and neurophysiology study. 
Objective: to assess the outcome of excision of terminal lipomyelomeningocele and 
reconstruction of the neural tube. Methods: From 2002 to 2016, 32 cases of terminal 
lipomyelomeningocele in Mansoura university hospital, insurance hospital and El Ahrar 
specialized center, the age of the cases ranged between 10 days and 4,3 years underwent 
surgical management of total or near-total lipoma excision and neural tube reformation 
with minimum follow up of 6 months. Results: according to system which applied to 
show the success of the operations, Of the 32 patients, 9 cases represent (28.1%) showed 
total excision of the lipoma; 17 patients represent (53.1%) had 25 mm3 of lipoma or less 
and 6 patients represent (18.75%) had 26 mm3 of fat or more. The neurological and 
urological complications was about 25%, while other complications like cerebrospinal 
fluid leak, wound disruption and infection was 9.4%. The surgical morbidity was 
comparable with the published papers. Conclusion: the excision of terminal 
lipomyelomeningocele and recreation of the neural tube by monitoring throughout 
EMG & NCV with low surgical morbidity and better results than leaving them without 
management or surgical interference without neurophysiological monitoring. 
Key words: terminal lipomyelomeningocele, lipoma, Reconstruction of neural placode. 
Abbreviations: DREZ, dorsal root entry zone; MRI, magnetic resonance imaging, CSF, 
cerebrospinal fluid. 



 
 
 
 
 
192 | El Badry et al - Electromyography in surgery of terminal lipoma 

 

 
 
 
 
 
 

Patients and methods 
Patients 

The prognosis Terminal (caudal in 
Chapman 3) lipomas had better than that of 
other types and locations of spinal lipomas, 
their surgical management established with no 
debate of its benefit (1, 4, 5, 15, 21). The 
principle of its management includes 
total/gross total excision of the lipoma; with 
separation of neural placode from the dura 
and reformation of neural tube. 

 From 2002 to 2016, 32 cases of terminal 
lipomyelomeningocele in Mansoura 
university hospital , insurance hospital and El 
Ahrar specialized center included in the study  
their age varied from 10 days to 4,3 years with 
a mean age of 3.5 months had total or gross 
total excision guided microscopically and with 
nerve stimulator, with minimum follow up of 
6 months... There were 15 males and 17 
females.  

In the literature the lipomyelo – 
meningocele defined as a part of the distal 
conus and the fat protrudes outside through 
the dorsal bony defect,   with sac filled by 
cerebrospinal fluid (CSF).  (1, 15)   

 

 
Figure 1 - Lipomyelomeningocel A, B MRI 1 tisla 

sagittal and axial cuts T1 W show lipoma, 
cerebrospinal fluid surround part of the conus 

protrude out of the spinal canal through a dorsal 
defect 

Surgical Technique 

Embryological important notes 
In the literatures in embryology of the 

spinal cord, McLone and his colleagues 
suggested that the gap present due to defect 
between the cutaneous and neural ectoderms 
during early separation, which lead to the 
paramedian mesenchyme to fill the space 
between neural folds and invade the central 
canal. (15, 17, 18) 

As known the dorsal root ganglions 
generated from neural crest cells at the outer 
surface of the neural fold then its roots grow 
ventrolateraly but never traverse, the 
lipomatous stalk. (4, 8, 9) 

Surgical principle  
This technique guided by principles which 

described by Pang who was one of the leaders 
in management of spinal lipomas with its 
verities but modified according to facilities 
and learning curves (11, 12, 13), Longitudinal 
skin and soft-tissue incision then sharp 
dissection separating the subcutaneous lipoma 
from the skin and subcutaneous tissue till 
reaching the defect in the bony spinal canal 
and excision of the lipoma till the bony defect. 
The dissection begin one level above the 
rostral periphery  of the lipoma, to move from 
normal anatomy to disturbed one which gives 
us better orientation of the last normal nerve 
root and DREZ before starting excision of 
lipoma.  The lower extent not the same 
important like the upper one Then we made 
wide laminectomy to give full view till the 
lateral edges of the dura sac.  



 
 
 
 
 

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Then: excision of the Lipoma and 
separating it from the inner surface of the 
dura, opening the dura at upper end of the 
lipoma in the midline let us take better view 
and our dissection will be more skillful. The 
dural edges are retracted by sutures.  

Next, the white fibrous band between 
lipoma and the tethered cord is identified. The 
DREZ and dorsal nerve roots are lateral to this 
line. Then dissection according to this line and 
more in the side of lipoma guided also by 
position of The DREZ and the neural placode. 

We began excision of the lipoma at the 
proximal end where the normal anatomy 
present between lipoma, DREZ and nerve root 
then dissection along the white fibrous line. 
Cauterization usage is applied minimally to 
avoid injury to the DREZ and postoperative 
dysesthesia may appear. 

After total resection of the lipoma and 
detaching of the placode from the inner dura 
we rule the placode on itself by suture to 
decrease adhesion between it and inner dura 
by making the contact surfaces smooth. The 
closure was by interrupted 6–0 nylon sutures 
without force.  

 

 
Figure 2 - A surgical exposure of lumbosacral 

lipoma, B lateral dissection of the lipoma 

 
Figure 3 - Reconstruction of the placode and closure 

of the wound 

Results 
To achieve the success of the operations we 

must assess three elements: 1) the amount fat 
left 2) the state of reformation of neural tube 
and 3) presence of complications to these 
operations,  

According to the amount of fat left: The 
amount fat left was assessed by postoperative 
magnetic resonance imaging (MRI) or C.T 
sagittal reformatting at 3 months. The results 
of the 32 patients was as follow, 9 cases 
represent (28.1%) showed complete removal 
of the lipoma with no residual; 17 patients 
represent (53.1%) showed 25 mm3 or less of 
fat left postoperatively, these cases showed 
multiple nerve fibers entangled with fat; and 
last 6 patients represent (18.75%) showed the 
amount of fat left was more than 26 mm3 of fat 
left due to the lipoma on the ventral surface or 
entangled with the neural placode.  

The reformation of the neural tube and  
placode reconstruction is achieved the cord  
from the lipoma and inner dura with rolling it 
raw edges on itself to get smooth surface and 
the close the dura in water tight fashion. 

 



 
 
 
 
 
194 | El Badry et al - Electromyography in surgery of terminal lipoma 

 

 
 
 
 
 
 

 
Figure 4 - Postoperative (A) sagittal MRI T1 W and 

postoperative (B) sagittal reformat CT of a 
lipomyelomeningocele revealing a blunty stump of 

the terminal conus after excesion of the lipoma 
 

TABLE 1 

Show complications of total/gross total 
resection of lipomyelomeningocele 

Complication No. of 
cases 

% 

Loss of sensation 4 12.5 

New weakness 3 9.4 

voiding dysfunction 2 6.25 

CSF leak 2 6.25 

Pseudomeningocele 3 9.4 

Wound infection 2 6.25 

Overall complications 16 50.05 

 
With obeying this principle the cord-sac 

ratio, represent free movement of the placode 
inside the created dural pouch which approved 
untethering of the cord on postoperative axial 
MRI or CT at the widest portion of neural tube 
reformation. So the 32 cases grouped in three 
categories: lower than (<30%) in the widest 
reformatted dural sacs, medium (between 30% 
and 60%) medium category, and high (>60%) 
in most tight sacs. 20 cases represent (62.5%) 
had ratio between cord and the sac less than 

30%, 7 cases represent (21.9%) had ratios 
between 30% and 60%, and 5 cases represent 
(15.6%) had ratio more than 60%.  

Complications  
Table 1 showed nine cases represent 

(28.1%) experienced neurological 
complication from surgery. Only 3 patients 
(9.4%) developed motor weakness and 4 
patients (12.5%) suffered sensory loss. 2 
patients with had bladder dysfunction beside 
motor weakness. CSF leak or 
pseudomeningocele were seen in five cases, we 
reoperated in 3 cases of them. So overall 
surgical complication rate for our surgeries 
represent 50.5%. 

Discussion 
The study by Kulkarni from Necker-

Enfants Malades, Paris In 2004,  showed 
without any  doubt that asymptomatic lipomas 
will be deteriorating by  43% in 10 years follow 
up 10-year (11).  

The white plane which  compact collagen 
fibers between the lipoma and neural placode 
is the crucial point in excision of terminal 
lipoma through it we can do dissection safe 
with aid of microscope and micro scissors.  

Inspite of Arai and his colleagues (1) and 
Chapman (4), postulated that lipo - myelo 
meningocele carry  poor prognosis, on the 
other hand we found it carry better prognosis 
if we dissect carefully and along the white line 
from the extra spinal lipoma extended to the 
intra spinal part guided by nerve stimulator to 
separate the lipoma form the cord.  

One of the most important goals in this 
surgery is untethering of the cord from inner 



 
 
 
 
 

Romanian Neurosurgery (2017) XXXI 2: 191 - 196 | 195 

 

 
 
 
 
 
 

dural surface with failure to accomplish this 
goal lead to recurrence of symptoms (4, 5, 14). 
Pierre-Kahn and his colleagues. 14 and Xenos 
and his colleagues (5) were pioneers in 
surgically managing the 
lipomyelomeningocele reported failure of 
untethering the cord in 20% of their cases 
which lead to worse neurological condition of 
the cases as nerve roots entangled with fat but 
we overcome this obstacle by stressing on 
following the white line between fat and the 
cord and the nerve stimulation which let us 
know the good functioning roots from non-
function one which we can cut it without 
worry about increase neurological deficit. 

Reformation of the neural tube and 
reconstruction of the Neural Placode as done 
by McLone and his colleagues (15) we realized 
the presence of smooth surface of the placode 
by rolling its raw edges on itself making 
smooth surface between the cord and the inner 
dura made the untethering was accomplished 
and decrease the rate of recurrence. 

In literature of Pierre-Kahn and his 
colleagues (4) showed only neurulation in 17% 
of the cases due to failure of total excision of 
the lipoma in most cases, and others (16) also 
had same results. In our partial resection 
group, we cannot made complete neurulation 
due to failure of getting raw edges of the neural 
placode on itself as consequence of incomplete 
excision  of the lipoma. On the other hand, we 
were able reformation of neural placode and 
neural tube in 81.6% of our case due to 
complete or near complete lipoma excision. 
We found autologous fascia graft good 
alternative if needed, as Pierre-Kahn and his 
colleagues (15) did. The result also less 

successive than described by Pang who spent 
more than 20 years in this subject (11, 13) may 
be due to less experience of using nerve 
stimulator and less experience with this 
surgical approach which built up from case to 
another.  

In discussing the complications, most of 
papers in this subject showed partial excision 
as the safest policy to decrease the neurological 
complication which reported as 4% who had 
weakness; but most common was neuropathic 
pain by heat from electrical cautery near the 
DREZ and dorsal roots. We saw to decrease 
this complication by controlling the minor 
bleeding by oxidized cellulose or gel foam 
which worked as tamponade and lastly by low 
currant electro cautery if needed in very 
limited situation. 

CSF leaks (6.25%) and wound 
complications (6.25%) in our series  was  
comparable with  those in the published papers 
of the same issue  which verified  CSF leak range 
from  2% to 47%  (4, 5, 6, 15, 16, 17, 18) and 
wound dehiscence  and infection represented  
from  2% to 26%  (5, 6, 7, 8, 15, 16), our strong 
point to decrease these complication was: good  
bony exposure cephalic and caudal so we could 
dissect from normal to abnormal anatomy with 
preservation of the dura to close the sac water 
tight then good anatomical closure with muscle 
flap if needed to strengthen the closure of the 
defect, fibrin glue was used in some cases but 
because it was not standardized in all cases we 
did not represent  it as one of the main  factors 
in decrease wound disruption and CSF leak. 

 
 



 
 
 
 
 
196 | El Badry et al - Electromyography in surgery of terminal lipoma 

 

 
 
 
 
 
 

Conclusion 
The excision of terminal 

lipomyelomeningocele and recreation of the 
neural tube by monitoring throughout EMG & 
NCV with low surgical morbidity and better 
results than leaving them without 
management or surgical interference without 
neurophysiological monitoring. 
 
Correspondence 
Ashraf El Badry, M.D., IFAANS  
Address: Department of neurological surgery 
Mansoura university hospital, EGYPT 
Email address:  ashrafbadry@hotmail.com or 
ashrafbadry@mans.edu.eg  
Phone: +201111300033 or +201223477444 

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