Panacea Journal of Medical Sciences 2022;12(2):260–266

Content available at: https://www.ipinnovative.com/open-access-journals

Panacea Journal of Medical Sciences

Journal homepage: http://www.pjms.in/  

 

Original Research Article

Outcome and complications of open reduction and internal fixation in ankle
fractures at a tertiary care center

Ritesh Jaiswal1, Venkata Sivaram G V1,*, S.V.L. Narasimha Reddy1,
Daruru Venkata Srinath1
1Dept. of Orthopaedics, Malla Reddy Institute of Medical Sciences, Suraram, Hyderabad, Telangana, India

 

 

A R T I C L E I N F O

Article history:
Received 22-02-2022
Accepted 03-06-2022
Available online 17-08-2022

Keywords:
Outcome
Complications
Open reduction
Internal fixation
Ankle fractures

A B S T R A C T

Background: Closed reduction used for management of ankle fractures usually result into delayed healing.
It inhibits the healing of the ankle fractures. On the contrary, open reduction and internal fixation helps to
preserve the supply of blood not only to soft tissues but also bones. This way it helps in proper and timely
healing.
Objective: To study outcome and complications of open reduction and internal fixation in ankle fractures
Materials and Methods: A hospital based prospective study was carried out among 40 cases of ankle
fractures. Detailed history, general examination were carried out as per the pre-tested, pre-designed study
questionnaire. Once patient was found to be eligible for present study, surgical profile and pre-anesthetic
check-up was done as per standard guidelines. All patients were treated with open reduction and internal
fixation method.
Results: Most commonly affected age group was 31-40 years (40%). Males were affected more than
females (4:1). Vehicular accident was most common cause (65%) of ankle fracture. 95% had closed
fracture. Most common injury pattern (57.5%) was Pronation external rotation. K-wire was most commonly
used (40%) operative technique. Among the variables, open type of fracture and other mode of injury were
significantly associated with painful gait. There were no other complications recorded. 70% had excellent
outcome and 25% had good outcome. Among all factors studied, only open type of fracture was found
associated with functional outcome that is not excellent.
Conclusion: Thus open reduction and internal fixation is the treatment of choice in case of fracture ankle
joint, with very less change of complications

This is an Open Access (OA) journal, and articles are distributed under the terms of the Creative Commons
Attribution-NonCommercial-ShareAlike 4.0 License, which allows others to remix, tweak, and build upon
the work non-commercially, as long as appropriate credit is given and the new creations are licensed under
the identical terms.

For reprints contact: reprint@ipinnovative.com

1. Introduction

In the United States, most commonly treated fracture is the
ankle fracture by the orthopedic surgeons. 1 Population -
based studies suggest that the incidence of ankle fractures
has increased dramatically since the early 1960s 2 as well
as there is increase in the severity of fractures, especially in
elderly individuals.

* Corresponding author.
E-mail address: gvvvsiva@gmail.com (Venkata Sivaram G V).

Ankle is the most congruous joint in the lower
extremity, bearing up to five times the body weight. It was
demonstrated by Ramsey and Hamilton that there can be
42% reduction in the articulation of tibiotalar if there is even
one millimeter lateral displacement. This will be enhanced
with further lateral displacement. In all fractures through the
articular surface of a major weight bearing joint, restoration
of the normal anatomy is required to prevent development
of secondary arthritis and ankle joint is no exception. 3

Despite the general perception that operative treatment
of ankle fracture yields better clinical results than closed

https://doi.org/10.18231/j.pjms.2022.050
2249-8176/© 2022 Innovative Publication, All rights reserved. 260



Jaiswal et al. / Panacea Journal of Medical Sciences 2022;12(2):260–266 261

treatment, this advantage has not been demonstrated
scientifically in most studies. 4 The primary difficulty in
evaluation of the literature in this regard is that, in most
clinical studies, the fractures have not been stratified by type
but, rather, have been evaluated as a heterogeneous group.

After 1970, ankle fractures are usually managed by
operative methods. 5 The goal of treatment is to restore
biomechanical stability to the ankle, therefore it is
imperative to have a clear definition of the altered
biomechanical status caused by a specific injury. 2

Many clinical studies of ankle fractures have proven that
good results depend upon an anatomic reduction of the
fracture, and there is a direct correlation between displaced
fractures and the occurrence of degenerative arthritis. 5

In ancient times injuries of the ankle were diagnosed
chiefly as “Luxation.” Not until the middle of the eighteenth
century were there attempts in the literature to clarify the
position of malleolar fractures in relation to “luxation”
of the ankle. Among the earliest observations on the
pathomechanics of ankle injuries were those by Sir Percival
Pott, who in an article entitled “Some Few General Remarks
on Fractures and Dislocation” published in 1768, attempted
to relate the clinical findings in a given case to the injuries
that caused them. After that most experimental studies on
the production of ankle fractures were done by the French. 6

The next significant advance in our understanding of
ankle fractures had to wait nearly 50 years before Baron
Guillaume Dupuytren’s described- Dupuytren’s fracture
dislocation of ankle in 1819 and commended Pott on his
powers of acute observation. Both Pott and Dupuytren were
the first to point out the type of ankle injury in which the
fracture of fibula occurs proximal to level of syndesmosis.
They indicated that mechanism of injury was abduction of
the foot in relation to the tibia, but they failed to recognize
that rupture of the ligaments of syndesmosis accompanied
the fracture. 6

Considering the fact that the original description was
in English, it is surprising how little has been written
in English language on the subject. The French on the
other hand have written extensively, beginning with Baron
Dupuytren’s description in 1819 of the fracture that
eponymous bears his name. According to Boning, the
period 1815- 1872 was dominated first by Dupuytren and
then by one of his pupil Maisonneuve, who described a
fracture dislocation after his name, experimentally produced
in 1840, but clinically described for the first time by hundred
an eight years later. 6

The most significant contribution was made by Lauge
Hansen in 1950 when based upon his cadaver experiments
and a careful study of both clinical and radiological points
of view a new classification was proposed – ‘Genetic
classification of ankle injuries. 7

By this time – the 1960s – the concept of internal fixation
in ankle fractures was fast gaining grounds. R.A. Denham &

C.L. Colton advocated internal fixation for unstable ankle
fractures and fracture dislocations. This was based on the
concept that perfect anatomical reduction was the crux of
the issue and absolutely essential for optimum functional
results. Yet, the concept of early mobilization had not gained
great popularity due to lack of sufficiently rigid fixation. 8

Management of ankle fractures by internal fixation
became popular after the work of “Muller, Allgower and
Willenegger (1970)”. 2 The motto was “Life is Movement,
Movement is Life”. However they utilized the classifications
introduced by Weber in 1964 –66, for analysis of ankle
fracture and making decision as to choice of implants. 3

Hughes (1980) reported a comparative study of ankle
fractures from three major centers. They reported that “open
reduction and internal fixation” of ankle fractures was
superior to closed method. 8,9

Closed reduction used for management of ankle fractures
usually result into delayed healing. It inhibits the healing
of the ankle fractures. On the contrary, open reduction
and internal fixation helps to preserve the supply of blood
not only to soft tissues but also bones. This way it helps
in proper and timely healing. Hence, present study was
carried out to analyze the outcomes & complications among
patients treated for ankle fractures with open reduction and
internal fixation method

2. Materials and Methods

A hospital based prospective study was carried out from
Aug 2016 to Aug 2018 among 40 cases of ankle fractures
at a tertiary care hospital. Institutional Ethics Committee
permission was taken and informed consent was taken from
all study participants.

During the study period, it was possible to include
40 cases of ankle fracture. Patients with ankle fracture
belonging to age group of 20 years and above of either
gender or consenting were included in the present study.
Those with complicated fracture and with severe co-
morbidities were excluded from the present study.

Detailed history, general examination were carried out as
per the pre tested, pre designed study questionnaire. Once
the patient was found to be eligible for the present study,
surgical profile and pre-anesthetic check-up was done as per
the standard guidelines. In the present study we have taken
three radiographs Anteroposterior, Lateral & Mortise view
of all clinically diagnosed ankle fractures. All patients were
treated with open reduction and internal fixation method.

First to start with, giving the priority to fibula, we
first fixed lateral malleolus followed by fixing the medial
malleolus. After every anatomical reduction, it is necessary
to carry out temporary stabilization. For provisional
stabilization of the lateral malleolus K wires are used
and similarly the medial malleolus is also provisionally
fixed. The internal fixation is then carried out, using a 4
mm cannulated cancellous screw, or a four – hole plate



262 Jaiswal et al. / Panacea Journal of Medical Sciences 2022;12(2):260–266

with/without interfragmentary screw. All Kirschner wires
are removed at the end, except when they provide additional
fixation.

The ideal time for the procedure is within the first 6 to 8
hours before any true swelling or fracture blisters develop.
The leg is then kept elevated to reduce the swelling before
the open reduction is undertaken.

Standard post-operative care was taken. All patients were
followed up for six months to study the functional outcome.
Regarding post-operative protocol in present study, all
patient were given Below Knee cast for at least 2 weeks
and then mobilized with Physiotherapy along with partial
weight bearing followed by full weight bearing after 6
weeks. Period of immobilization recommended in below
knee cast is for 2 weeks in monomalleolar, bimalleolar and
Trimalleolar fractures with additive and its 2 more weeks in
partial or complete diastasis fractures. Non-weight bearing
was however started two weeks after operation. Functional
results were assessed and graded at the end of plaster
immobilization and patient sent for partial weight bearing
and physiotherapy. At this time patient was also assessed for
painful gait, infection, instability and persistent subluxation.

2.1. Statistical analysis

The data was expressed as proportions. Chi square test was
applied to study the factors related to the outcome. P value
<0.05 was taken as statistically significant.

3. Results

Most commonly affected age group was 31-40 years (40%)
followed by 20-30 years (25%). Males were affected more
than females in the ratio of 4:1. Vehicular accident was the
most common cause of ankle fracture in 65% of the cases.
95% of the cases had closed fracture. Most common injury
pattern was Pronation external rotation in 57.5% of the
cases. K wire was most commonly used operative technique
in 40% cases (Table 1)

Among the variables, open type of fracture and other
mode of injury were significantly associated with the painful
gait. (Table 2)

Only one case (2.5%) had painful gait at the end
of six months follow-up period. There were no other
complications recorded (Table 3)

70% of the cases had excellent outcome and 25% had
good outcome. Fair outcome was recorded in only two cases
(Table 4)

Among all the factors studied, only open type of fracture
was found to be associated with functional outcome that is
not excellent (Table 5)

4. Discussion

Following the operation, a good or excellent result was
obtained in 95% of patients in the present study. Majority

of cases fall in age group of 31-40 years. Males were more
in number compared to females. As far as ankle fractures
are concerned sexual variation has no clinical significance.
The higher proportion of male cases could be because cases
were more of vehicular accidents and males are usually at
the wheel in most instances. Most common mode of injury
is vehicular accidents with Closed type of fractures which
are diagnosed as mono, bi, or Trimalleolar Fractures with
having pronation external rotation type of injury pattern in
among more than 50% of cases.

In the present study we have taken three radiographs
Anteroposterior, Lateral & Mortise view of all clinically
diagnosed ankle fractures. Anteroposterior, Lateral view
& Anteroposterior with slight medial rotation Views are
essential for appropriate classification of fracture and
their management. Several investigators have studied the
necessity for the use of three radiographs- Anteroposterior,
Lateral & Mortise view for classification of fracture and
their management. 10,11

Lauge - Hansen pointed out that little reliance can be
placed on patient’s interpretation of how ankle was injured
because he usually has little idea of the forces involved.
It is more satisfactory to take account only of information
obtained from radiology and clinical examination. 12

In our study the accurate anatomical reduction with
stable internal fixation preferably rigid is responsible for
superior result and early functional recovery with minimum
possibility of mal-union or non-union as compared to results
after conservative treatment.

We found that “open reduction and internal fixation using
the AO–ASIF method” gave very good results. Previous
studies also found the same., 11,12 that sometimes anatomical
reduction can give rise to fair/poor functional result but
fair / poor reduction always give poor functional result.
It requires serial manipulation and further immobilization
in cast which leads to further increase in duration in
hospital stay and delayed physiotherapy for the joint
and delay in rehabilitation. In any case, results from
closed treatment frequently reveal that the fractures were
inadequately reduced or inadequately maintained after an
original adequate reduction and, as would be expected, had
comparatively poor results. 13

In the study reported by Brounstein and Wade (1959)
of 57 patients whose ankle injuries had been treated by
close reduction, 28 required a second manipulation and 8
a third or fourth manipulation. 14 These authors comment
on difficulty in maintaining the position by plaster splintage
during the first few weeks as the edema subsides.

Extent of immobilization is necessary after closed
reduction but that lead to osteoporosis, with more risk in
elderly females. 3 There is always risk of mal-union and
residual subluxation and non-union if there is soft tissue
interposition between fragments of medial malleolus. 15



Jaiswal et al. / Panacea Journal of Medical Sciences 2022;12(2):260–266 263

Table 1: Socio-demographic and clinicalcharacteristics
Variable Number %

Age (years)

20-30 10 25
31-40 16 40
41-50 7 17.5
51-60 4 10
> 60 3 7.5

Sex
Male 32 80
Female 8 20

Mode of injury
Fall from height 3 7.5
Vehicular accident 26 65
Other 11 27.5

Type of fracture
Open 2 5
Closed 38 95

Injury pattern

Supination adduction 8 20
Supination external rotation 2 5
Pronation abduction 4 10
Pronation external rotation 23 57.5
Pronation dorsiflexion 1 2.5
Other 2 5

Diagnosis
Monomalleolar 12 30
Bimalleolar 12 30
Trimalleolar 16 40

Operative technique

K wire as well 16 40
Only TP and cortical screw 12 30
Malleolar screw as well 10 25
CC screw as well 2 5

Table 2: Association betweensocio-demographic, clinical variables with painful gait

Variables
Painful gait

Chi square p
Yes No

Sex
Female 0 8 (100%)

0.256 0.613
Male 1 (3.1%) 31 (96.9%)

Mode of injury
Fall from height 0 3 (100%)

0.552 0.759Vehicular accident 1 (3.8%) 25 (96.2%)
Other 0 11 (100%)

Type of fracture
Open 1 (50%) 1 (50%)

19.487 < 0.0001
Closed 0 38 (100%)

Injury pattern

Supination adduction 0 8 (100%)

16.932 < 0.0001

Supination external rotation 0 2 (100%)
Pronation abduction 0 4 (100%)
Pronation external rotation 0 23 (100%)
Pronation dorsiflexion 0 1 (100%)
Other 1 (50%) 1 (50%)

Diagnosis
Monomalleolar 0 12 (100%)

1.538 0.463Bimalleolar 0 12 (100%)
Trimalleolar 1 (6.3%) 15 (93.8%)

Table 3: Complications among the cases at the end of six months
Complications Number %
Painful gait 1 2.5
no wound infection 40 100
No implant failure 40 100



264 Jaiswal et al. / Panacea Journal of Medical Sciences 2022;12(2):260–266

Table 4: Functional outcome at the end of six months
Functional outcome Number %
Excellent 28 70
Good 10 25
Fair 2 5
Total 40 100

Table 5: Association between socio-demographic, clinical variables with functional outcome at the end of six months.

Variable
Functional outcome at six months

X 2 p
Excellent Good Fair

Sex
Female 5 (62.5%) 3 (37.5%) 0

1.205 0.547
Male 23 (71.9%) 7 (21.9%) 2 (6.3%)

Mode of injury
Fall from height 3 (100%) 0 0

2.740 0.602Vehicular accident 19 (73.1%) 6 (23.1%) 1 (3.8%)
Other 6 (54.5%) 4 (36.4%) 1 (9.1%)

Type of fracture
Open 0 1 (50%) 1 (50%)

10.526 0.005
Closed 28 (73.7%) 9 (23.7%) 1 (2.6%)

Injury pattern

Supination adduction 6 (75%) 2 (25%) 0

17.848 0.058

Supination external rotation 2 (100%) 0 0
Pronation abduction 1 (25%) 3 (75%) 0
Pronation external rotation 18 (78.3%) 4 (17.4%) 1 (4.3%)
Pronation dorsiflexion 1 (100%) 0 0
Other 0 1 (50%) 1 (50%)

Diagnosis
Monomalleolar 10 (83.3%) 2 (16.7%) 0

4.119 0.390Bimalleolar 8 (66.7%) 4 (33.3%) 0
Trimalleolar 10 (62.5%) 4 (25%) 2 (5%)

By doing open reduction and internal fixation one
can achieve anatomical reduction by removing soft tissue
interposition if that is causing problems in reduction and end
result are likely to be excellent. In the present study, no any
soft tissue interposition interfering the reduction was found
or probably ORIF of medial and lateral malleolus caused a
fall of the soft tissues to their original anatomical positions.

In our study 2 cases came within 6-12 hour of injury
and got operated immediately. One case was 45 year
old male having compound grade II fracture of ankle
joint. Irrigation, debridement and ORIF with a malleolar
screw was performed for medial malleolus and one third
tubular plate with 3.5 mm cortical screws was used for
fracture of lateral malleolus. Tag sutures were taken in
view of compound wound. Later on STSG was performed.
Patient was initially maintained in BK slab. BK cast was
given after STSG took over for 8 weeks and mobilize
thereafter. Final outcome was fair functional end result in
view of painful gait, restricted movement and edema of
foot. Timothy J. Bray, in his study of 31 compound ankle
fractures treated with ORIF, concluded that it is better than
conservative management in view of speedy recovery and
rehabilitation. 16

In present study standard medial approach used for
fixation of medial malleolus. In some cases, 4mm
cannulated cancellous screws of proper length were used.
Large fragment required two screws. All patients had

complete union of medial malleolus.

The lateral malleolus is fixed by standard lateral
approach. The lateral malleolus has a key role to play in
achieving reduction and stability of ankle fractures. Yablon
IG et al from Boston University Medical Center produced
an important and interesting paper in 1976. Till then it had
been wrongly believed for a long time that if the medial
malleolus was reduced and fixed, the fibular fracture fell
into place. They provided evidence that in patients with
bimalleolar fracture cases, first it is necessary to reduce the
lateral malleolus so that we can reposition the talus. 17

In present study, the same principal described by Yablon
IG et al 17 was followed and lateral malleolus fixed
first in each bi-malleolar and tri-malleolar fracture and
anatomical reduction with excellent functional end results
was achieved.

Fixation of posterior malleolus is not always required.
Posterior malleolus fracture is first describe by Destol
1911 occurs primarily as a consequence of avulsion by
the posterior–inferior tibio–fibular ligament of because of
pressure from the externally rotating talus when associated
with medial and lateral malleolar fracture called as
trimalleolar fracture. Intra-articular fragment that are big
allowed to heal in the displaced position lead to intra
articular incongruity lead to post traumatic arthritis. In our
present study, 16 cases of posterior malleolus fractures were
found and ORIF was not done. All of these cases had



Jaiswal et al. / Panacea Journal of Medical Sciences 2022;12(2):260–266 265

excellent functional result. Mcdaniel WJ et al in their paper
concluded that when posterior fragment involved 25% of
the articular surface or more operative treatment of the
posterior malleolus was associated with better functional
result than of close treatment. 18 Harper MC et al concluded
that fracture of posterior malleolus is not at all required
to fix by ORIF if both malleoli reduced anatomically and
fixed with rigid internal fixation, the posterior malleolus got
reduced by its own and remain stable. 11

Finsen V et al in their study of 56 patients of fracture
ankle conclude that there is no added advantage of post-
op. Mobilization with or without BK cast, if the fixation is
stable. 19

In this study, patients were asked to use crape bandage
for 6 weeks after removal of the cast to prevent rebound
edema. Patients were assessed every two weeks in general.
The following criteria were adopted for rehabilitation. If the
patient is light and sedentary worker early rehabilitation at
about two weeks after the expected period of union. Heavy
manual worker requires walking and standing, had to wait
for two weeks to eight weeks after the period of union.

In present study there were no complications like
infection and implant failure except painful gait in one
patient till after end of one year. In our study there is
a significant association of painful gait complication with
open type of fractures.

A compound fractures of ankle joint which resulted in
fair function end result was found comparable with the study
published by Burwell HN et al. 14 Wilson FC in his paper
on fracture of the ankle joint- pathogenesis and treatment,
concludes that, bimalleolar fracture and posterior malleolar
fracture with fracture fragment more than 25% of the tibial
plafond should be fixed with ORIF for better result. 20

5. Conclusion

Maximum period required by majority of the patient
after operation to return back to work was 12-14 weeks;
however some were able to go back to work as early as 8
weeks. Successful results were seen in 95% of cases and
complications were observed only in 5% patients. The main
complication found was painful gait. Surgical intervention
with anatomical reduction and stable internal fixation yields
superior results with minimal complications and earlier
rehabilitation. It is essential to treat all ankle fractures by
accurate anatomical reduction and stable internal fixation.
Thus open reduction and internal fixation is the treatment of
choice in case of fracture ankle joint, with very less change
of complications.

6. Source of Funding

No financial support was received for the work within this
manuscript.

7. Conflict of Interest

The authors declare they have no conflict of interest.

References
1. Ahl T, Dalen N, Selvik G. Mobilization after operation of ankle

fractures. Good results of early motion and weight hearing. Acta
Orthop Scan. 1988;59(3):302–6. doi:10.3109/17453678809149368.

2. Ahl T, Dalen N, Selvik G. Ankle fractures. A clinical and
roentgenographic stereophotogrammetric study. Clin Orthop.
1989;(245):246–55.

3. Ahl T, Dalen N, Lundberg A, Bylund C. Early mobilization
of operated on ankle fractures. Prospective, controlled study of
40 bimalleolar cases. Acta Orthop Scand. 1993;64(1):95–9.
doi:10.3109/17453679308994541.

4. Ali MS, Mclaren CA, Rouholamin E, O’Connor BT. Ankle fractures
in the elderly: non-operative or operative treatment. J Orthop Trauma.
1987;1(4):275–80. doi:10.1097/00005131-198701040-00002.

5. Bauer M, Jonsson K, Nilsson B. Thirty-year follow-up
of ankle fractures. Acta Orthop Scand. 1985;56(2):103–6.
doi:10.3109/17453678508994329.

6. Amendola A. Controversies in diagnosis and management of
syndesmosis injuries of the ankle. Foot and Ankle. 1992;13(1):44–50.
doi:10.1177/107110079201300108.

7. Baird RA, Jackson S. Fractures of the distal part of the fibula with
associated disruption of the deltoid ligament. Treatment without repair
of the deltoid ligament. J Bone Joint Surg. 1987;69(9):1346–52.

8. Bauer M, Bengnér U, Johnell O, Redlund-Johnell I.
Supination-eversion fractures of the ankle joint: changes
in incidence over 30 years. Foot Ankle. 1987;8(1):26–8.
doi:10.1177/107110078700800107.

9. Bauer M, Bergstrom B, Hemborg A, Sandegard J. Malleolar fractures:
non-operative versus operative treatment. A controlled study. Clin
Orthop. 1985;(199):17–27.

10. Goergen TG, Danzig LA, Resnick D, Owen CA. Roentgenographic
evaluation of the tibiotalar joint. J Bone Joint Surg. 1977;59(7):874–
7.

11. Harper MC. The deltoid ligament. An evaluation of need for surgical
repair. Clin Orthop Relat Res. 1988;(226):156–68.

12. Lauge-Hansen N. Combined experimental-surgical and experimental-
roentgenologic investigations. Arch Surg (1920). 1950;605:957–85.

13. Joy G, Patzakis MJ, Harvey JP. Precise evaluation of the reduction of
severe ankle fractures. J Bone and Joint Surg. 1974;56(5):979–93.

14. Burwell HN, Charnley AD. The treatment of displaced fractures at the
ankle by rigid internal fixation and early joint movement. J Bone and
Joint Surg. 1965;47(4):634–60.

15. Boden SD, Labropoulos PA, Mccowin P, Lestini WF, Hurwitz SR.
Mechanical considerations for the syndesniosis screw. A cadaver
study. J Bone Joint Surg Am. 1989;71(10):1548–55.

16. Bray TJ, Endicott M, Capra SE. Treatment of open ankle fractures.
Immediate internal fixation versus closed immobilization and delayed
fixation. Clin Orthop Relat Res. 1989;(240):47–52.

17. Yablon IG. The key role of the lateral malleolus in displaced fractures
of the ankle. J Bone Joint Surg. 1977;59(2):169–73.

18. Mcdaniel WJ, Wilson FC. Trimalleolar fractures of the ankle. An end
result study. Clin Orthop. 1977;(122):37–45.

19. Finsen V, Saetermo R, Kibsgaard L, Farran K, Engebretsen L, Bolz
KD, et al. Early postoperative weight-bearing and muscle activity
in patients who have a fracture of the ankle. J Bone Joint Surg.
1989;71(1):23–7.

20. Wilson FC. The pathogenesis and treatment of ankle fractures :
historical studies. Instr Course Lect. 1990;39:73–7.

Author biography

Ritesh Jaiswal, Assistant Professor

http://dx.doi.org/10.3109/17453678809149368
http://dx.doi.org/10.3109/17453679308994541
http://dx.doi.org/10.1097/00005131-198701040-00002
http://dx.doi.org/10.3109/17453678508994329
http://dx.doi.org/10.1177/107110079201300108
http://dx.doi.org/10.1177/107110078700800107


266 Jaiswal et al. / Panacea Journal of Medical Sciences 2022;12(2):260–266

Venkata Sivaram G V, Associate Professor

S.V.L. Narasimha Reddy, Associate Professor

Daruru Venkata Srinath, Assistant Professor

Cite this article: Jaiswal R, Venkata Sivaram G V, Reddy SVLN,
Srinath DV. Outcome and complications of open reduction and internal
fixation in ankle fractures at a tertiary care center. Panacea J Med Sci
2022;12(2):260-266.