DOI: 10.33962/roneuro-2023-011 

Common peroneal neuroma in 
continuity with complete foot drop 

secondary to a bullet fragment injury. A 
case report demonstrating end-to-end 

nerve repair 

Adnan Khaliq, 
Ahtesham Khizar 



Romanian Neurosurgery (2023) XXXVII (1): pp. 71-74  
DOI: 10.33962/roneuro-2023-011  
www.journals.lapub.co.uk/index.php/roneurosurgery 

 
 

 

Common peroneal neuroma in continuity 
with complete foot drop secondary to a 
bullet fragment injury. A case report 
demonstrating end-to-end nerve repair  
 

 
Adnan Khaliq1, Ahtesham Khizar2 
 
1 Saidu Teaching Hospital, Swat, PAKISTAN 
2 Punjab Institute of Neurosciences, Lahore, PAKISTAN 

 

 
 

ABSTRACT 
Background. Common peroneal nerve (CPN) injuries are generally common but they 

are uncommon due to gunshot injuries and are associated with poor motor 

outcomes. Managing neuroma-in-continuity is still challenging because there are 

currently no accepted standards for deciding on the most effective course of 

treatment or estimating the time needed for repair. Treatment options for a 

neuroma-in-continuity include neurolysis, neuroma resection with interposition, end-

to-side nerve grafting, and bypass grafting. 

Case presentation. A 40-year-old man presented with findings of complete right foot 

drop due to an 8-month-old firearm injury to his right distal thigh. Following baseline 

investigations, imaging, and anaesthesia fitness, he underwent surgical exploration 

under general anaesthesia. A neuroma-in-continuity was found in the CPN, resected, 

and an end-to-end nerve repair was performed. Along with the neuroma-in-

continuity, a bullet fragment was also removed. The neurological status remained 

unchanged postoperatively. 

Conclusion. Regardless of the cause of the lesion, patients should be urged to seek 

surgical therapy if there is no spontaneous recovery within four months after the CPN 

injury. Sharp injuries and knee dislocations have a better chance of recovery than 

crush injuries and gunshot wounds. 

 

 

INTRODUCTION 

Sciatic nerve splits into common peroneal nerve (CPN) and tibial nerve 

in the mid to distal third of the thigh. From the apex of the popliteal 

fossa to the lateral popliteal fossa, the CPN descends obliquely across 

the plantaris muscle and curves around the proximal peroneus longus 

muscle. It then makes its way to the anterior lower leg, where it splits 

into deep and superficial branches.1 CPN injuries are generally common 

but they are uncommon due to gunshot injuries and they are associated 

with poor motor outcomes. So far, it is believed that nerve 

reconstruction is a reasonable option and it is recommended up to 6 

months after the primary injury.2 

Managing neuroma-in-continuity is still challenging because there 

Keywords 
peripheral nerves, 

peripheral nerve injuries, 
peroneal neuropathies, 

neuroma, 
foot drop, 

firearms    

 
 

 
 

Corresponding author: 
Ahtesham Khizar 

 
Punjab Institute of Neurosciences, 

Lahore, Pakistan 
 

arwain.6n2@gmail.com 
 
 

 
 

Copyright and usage. This is an Open Access 
article, distributed under the terms of the Creative 
Commons Attribution Non–Commercial No 
Derivatives License (https://creativecommons 
.org/licenses/by-nc-nd/4.0/) which permits non-
commercial re-use, distribution, and reproduction 
in any medium, provided the original work is 
unaltered and is properly cited. 
The written permission of the Romanian Society of 
Neurosurgery must be obtained for commercial 
re-use or in order to create a derivative work. 
 

 
ISSN online 2344-4959 
© Romanian Society of 

Neurosurgery 
 

 
 

First published 
March 2023 by 

London Academic Publishing 
www.lapub.co.uk 

 

http://www.lapub.co.uk/


 72 
Adnan Khaliq, Ahtesham Khizar 

are currently no accepted standards for deciding 
on the most effective course of treatment or 
estimating the time needed for repair. Neurolysis, 
neuroma resection with interposition, end-to-side 
nerve grafting, and bypass grafting are all 
treatment options for a neuroma-in-continuity. 
The issue with complete neuroma resection is that 
it separates and sections not only the disorganised 
fibro-neural tissue mass that forms the neuroma, 
but also all potentially still viable nerve fibers 
passing through the damaged nerve part, removing 
the possibility of spontaneous recovery. 
Simultaneously, there is a limited time frame for 
axonal regrowth before motor endplates 
degenerate and muscles are irreversibly paralyzed. 
It is possible that with a neuroma-in-continuity, 
enough trophic factors have been transported to 
the motor endplates to preserve some 
mechanisms, such as enhanced synchronization of 
motor unit actuating, muscle fiber hypertrophy, 
and distal motor fiber sprouting, resulting in 
doubly innervated muscle fibers and allowing 
functional recovery. This may allow recovery to 
extend beyond the traditional one year limit after 
injury.2 The following case report demonstrates 
neuroma-in-continuity resection and end-to-end 
nerve repair in a patient with a CPN neuroma-in-
continuity secondary to a bullet fragment injury. 

 

CASE PRESENTATION 

A 40-year-old man presented to us as an outpatient 

with findings of complete right foot drop due to an 8-

month-old firearm injury to his right distal thigh. On 

examination, he had plegia of the ankle dorsiflexors 

and extensors of the great toe, as well as hypesthesia 

in the right peroneal nerve supply area. He 

underwent surgical exploration under general 

anaesthesia after baseline investigations, imaging, 

and anaesthesia fitness. Nerve conduction study was 

not performed because the patient was very poor 

and non-affording. Anteroposterior (AP) and lateral 

X-rays of his right distal thigh and knee revealed a 

bullet fragment (Figure. 1). The patient was 

positioned prone, with padding beneath the knee 

and ankle. A vertical S-shaped incision was made in 

the lower thigh, medial to the short head of the 

biceps femoris muscle, after cleaning and draping. 

Dissection was carried out. The sciatic nerve 

bifurcation, the tibial nerve, and the common 

peroneal nerve were discovered (Figure. 2A). A 

neuroma-in-continuity of the CPN was identified, 

resected, and an end-to-end nerve repair was 

performed using Ethicon Prolene 10.0 suture (Figure. 

2B). Exploration also turned up the bullet fragment, 

which was also removed along with the neuroma-in-

continuity (Figure. 3A&B). The surgical wound was 

thoroughly washed with saline before being closed. 

The postoperative neurological status remained 

unchanged. Hematoxylin and Eosin (HE) stains 

revealed a random and convoluted arrangement of 

nerve bundles within a fibrous connective tissue 

stroma (Figure. 4). 

 

 
 

Figure 1. X-rays right distal thigh and knee AP and lateral views 

showing a bullet fragment (marked by white arrows). 

 

 
 

Figure 2. A; 1 (black arrow) Sciatic nerve bifurcation, 2 (yellow 

arrow) Tibial nerve, 3 (blue arrow) Common peroneal nerve, 4 

(white arrow) Neuroma-in-continuity. B; 1 (black arrow) Sciatic 

nerve bifurcation, 2 (yellow arrow) Tibial nerve, 3 (blue arrow) 

Common peroneal nerve, 4 (white arrow) End-to-end nerve 

repair after neuroma in-continuity resection. 

 

DISCUSSION 

The CPN has been shown to be the most vulnerable 

and frequently injured nerve of the lower extremity3 

due to its superficial anatomical location1,4 and 



 73 
Common peroneal neuroma in continuity with complete foot drop secondary to a bullet fragment injury 

fixation at the sciatic notch and the peroneus longus 

muscle, as opposed to the less vulnerable location of 

the tibial nerve.1,2,4,5 At the same time, CPN injuries 

have a poorer recovery rate when compared to other 

lower extremity nerve injuries. The reasons for this 

are a poorer neural blood supply, a "lower force-

absorbing fascicle or connective tissue count," and a 

greater demand for innervation of peroneal nerve 

supplied muscles.2,4 

Aside from the injured nerve, factors influencing 

the outcome after nerve reconstruction include the 

trauma mechanism such as laceration, compression, 

traction, and focal ischemia, the graft length, and the 

time between grafting and intervention. Sharp 

trauma, shorter grafts, and early reconstruction or 

neurolysis have all been linked to a better 

prognosis.6,7 The main limiting factor in the optimal 

treatment of peroneal nerve lesions associated with 

foot drop is time. It is well known that nerve 

regeneration occurs at a rate of 1 mm per day,7,8 that 

motor endplates die 12-16 months after 

denervation,7 and that innervated muscles remain 

viable 18-24 months after the injury.9 When the rate 

of regeneration and the distance to cover are 

disproportionate, it leads to irreversible 

degeneration and fibrosis, as well as permanent 

paralysis of the denervated muscles.10 

The CPN nerve transfer or reconstruction has 

been said to be reasonable for motor recovery up to 

6 months, by no means later than 12 months after 

denervation, and denervation longer than 12 

months has been said to be an absolute 

contraindication.8,11,12 On the other hand, in patients 

grafted 13 and 18 months after the injury, 

simultaneous CPN reconstruction and tibialis 

posterior tendon transfer results in satisfactory 

functional recovery, indicating the importance of 

rebalancing ankle movement forces to enhance 

neural regeneration.13 

Neurolysis has been shown to be an effective 

method for improving nerve function in the context 

of neuroma-in-continuity,4,14,15 for up to 8 months 

after the injury.6 However, this method has been 

linked to microvascular damage and the formation 

of intraneural scars.16 A few months after the injury, 

intraoperative nerve action potentials have been 

proposed as a crucial tool for reevaluating the 

reason for resection and nerve grafting against 

neurolysis in the CPN lesions.1 CPN injuries in open 

wounds should undergo exploration in an 

emergency room. Patients should be urged to seek 

surgical treatment if a close injury fails to recover on 

its own within four months of the damage, 

regardless of the cause of the lesion. Sharp injuries 

and knee dislocations have got a good recovery 

compared to crush injuries and gunshot wounds 

which have a poor recovery. 

 

 
 

Figure 3. A: Removed bullet fragment. B: Resected neuroma. 

 

 
 

Figure 4. Hematoxylin and Eosin (HE) stains reveal a random 

and convoluted arrangement of nerve bundles inside a fibrous 

connective tissue stroma. 

 

 

CONCLUSION 

CPN is the most vulnerable and frequently injured 

nerve in the lower extremity but gunshot injuries are 

a less common cause. Time is the most important 

limiting factor in the optimal treatment of peroneal 

nerve lesions associated with foot drop. CPN injuries 

in open wounds should be explored in the 

emergency room. Patients should be advised to seek 

surgical treatment if there is no spontaneous 

recovery within four months of the injury, regardless 

of the causative mechanism of the lesion. Sharp 

injuries and knee dislocations have a better chance 

of recovery than crush injuries and gunshot wounds. 



 74 
Adnan Khaliq, Ahtesham Khizar 

List of Abbreviations 

CPN: Common Peroneal Nerve 

AP: Anteroposterior 

 

 

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