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Proceedings S.Z.M.C. Vol: 37(3): pp. 8-14, 2023.            PSZMC-889-37-3-2023 
 

Intraoperative Peritoneal Lavage in Peritonitis: Normal  
Saline vs Metronidazole 
1Hira Aslam, 2Muhammad Khurram Jameel, 2Pir Muneeb, 1Aneeqa Nasir Qureshi, 2Fawad  
Hameed, 3Muhammad Ammar, 2Maham Qazi, 4Abrar ul Hassan Pirzada 
1Department of Surgery, Mayo Hospital, KEMU, Lahore 
2Department of Surgery, ANMC / Chaudhary Muhammad Akram Hospital, Lahore 
3Department of Urology, Chaudhary Muhammad Akram Hospital, Lahore 
4Department of Plastic Surgery, ANMC / Chaudhary Muhammad Akram Hospital, Lahore, Pakistan 
 

ABSTRACT 

Introduction: Globally, acute generalized peritonitis ranks among the top surgical emergencies. Different studies have 
been conducted to show the amplitude of peritonitis worldwide eliciting a huge impact on overall patient morbidity and 
mortality. Largely peritonitis is caused by a gastrointestinal perforation or anastomotic leak. In peritonitis, anaerobes & 
gram-negative organisms are mostly responsible for sepsis and morbidity due to the overactive inflammatory cascade by 
endotoxins which is amenable to timely intervention. 
Aims & Objectives: The study's aim was to evaluate whether using normal saline or metronidazole solution during 
intraoperative peritoneal lavage (IOPL), results in a lower rate of postoperative wound infection. 
Place and Duration of Study: This study was undertaken at the South Surgical Ward, Mayo Hospital Lahore for 6 
months from February 2nd, 2021, to August 1st, 2021. 
Material & Methods: Consecutive sampling strategy followed by a randomized controlled trial were used to induct and 
provide intervention to 90 patients aged 15-65 years with peritonitis caused by hollow viscus perforation. The patients 
were subdivided into 2 groups A& B(n=45 each).Two liters of normal saline were used for peritoneal lavage in group A, 
while two liters of normal saline were combined with 200 mL of metronidazole solution and administered to group B. 
intraoperatively.Baseline physiological parameters such as age, sex, BMI , intra operative surgical parameters  as 
duration of operation and post-operative course were recorded till discharge. On 10th POD, patients returned to OPD for 
further monitoring. An infection was diagnosed if the patient had post-operative symptoms such as a high temperature, 
increased TLC, wound discharge, redness, or pain. Data was entered and analyzed using SPSS version 23. 
Results: A majority (54.44%) of the patients were young adults. Mean age of 37.33 ± 10.53 years of patients in the 
metronidazole group was comparable to mean age 40.04 ± 11.96 years in the saline group, difference was not 
significant (p=0.067). Male/female ratio in Metronidazole and Saline groups were 17/25 and 10/18, respectively. Patients 
who received intraperitoneal lavage with normal saline were more likely to develop wound infections (17/45) (37.78%), 
while only 3/45) (6.67% of those who received metronidazole solution did so (p 0.0001). 
Conclusion: Based on the results of this experiment, using metronidazole solution for intraoperative peritoneal lavage 
instead of normal saline reduces the occurrence of postoperative wound infection. 
  
Keywords: peritonitis, postoperative wound infection, intraoperative peritoneal lavage 
 

 
INTRODUCTION 

Globally, acute generalized peritonitis ranks among 
the top surgical emergencies1. It is more common in 
Third World nations. The prevalence of perforation 
is low (0.6% - 4.9%) in developed nations but high 
(33% - 63%) in West Africa2. 554 persons were 
discovered to have peritonitis in a study that took 
place over three years in India3. Researchers in 
Pakistan have conducted studies with similar 
methods, with one study reporting 650 cases in a 
just 9 months4. Most cases of peritonitis are caused 
by a gastrointestinal perforation or anastomotic 
leak5. In the case of peritonitis, anaerobes and gram-
negative organisms are mostly responsible for sepsis 

and morbidity due to the overactive inflammatory 
cascade brought on by the release of 
endotoxins5.Clinical evidence is used to identify 
peritonitis. Diagnosis can be achieved via upright 
plain x-ray of the abdomen, USG, or CT scan. This 
is often done through diagnostic laparoscopy 
nowadays6.Resuscitation, diagnosis, prompt 
exploration, treatment of the underlying cause, and 
extensive surgical peritoneal lavage have always 
been the cornerstones of peritonitis therapy 
regimens (IOPL)7,8. Regular IOPL is performed to 
lessen bacterial contamination and burden. Even 
though large volumes of normal saline are used in 
IOPL, the rates of sepsis, wound infection, and 
mortality remain alarmingly high. Another method 

 

6

1Department of Public Health, Health Services Academy, Islamabad.
2Department of Management Sciences, Riphah Int University, Islamabad. 
3Department of Medicine, IHITC, Islamabad. 
4Department of Rheumatology, PIMS, Islamabad. 
5Department of Medicine, Dow University of Health Sciences, Karachi. 
 

70

1Department of Orthopedics, THQ, Khanewal 
2Department of Orthopedics, LGH, Lahore 
3Department of Orthopedics, THQ, Ferozwala 
4Department of Orthopedics, CMH, Lahore 
5Department of Hand & Upper Limb Surgery, CMH, Lahore 
6Department of Orthopedics, Al-Rehmat Benevolent Trust 
 

1

 
1Department of Anatomy, UCMD, University of Lahore, Lahore 
2Department of Anatomy, Punjab Medical College, Faisalabad Medical University, Faisalabad 
3Department of Medical Education, Pak Red Crescent Medical and Dental College, Lahore 

p 



9

Intraoperative Peritoneal Lavage in Peritonitis: Normal Saline vs Metronidazole 

 

of reducing bacterial count and the associated risk of 
bacterial contamination and surgical site infection is 
intra-abdominal antibiotic lavage9.Antibiotic 
solutions like ampicillin, doxycycline, lincomycin, 
gentamycin, and many others have all been 
employed before for this function10. Metronidazole a 
synthetic antimicrobial drug has been infrequently 
used.  Working through diffusion of its nitro group 
into bacterial and protozoal cells it destabilizes 
DNA and electron transport chains to produce a 
bactericidal and antiprotozoal effect. This 
mechanism of action sets it apart as an effective 
weapon against anaerobes11. Metronidazole and 
sterile water solution is used in IOPL. This will 
specifically target anaerobes which alone 
normal saline cannot do. Indian research into post-
operative wound infections showed a significantly 
reduction in these employing metronidazole solution 
as IOPL. Lavage with normal saline resulted in a 
21% infection rate, while metronidazole solution 
resulted in a 15% infection rate7. Another study 
indicated that whereas 42% of wounds became 
infected after being lavaged with regular saline, only 
30% did so after being treated with a metronidazole 
solution. Also, the difference was not statistically 
significant (p>0.05)7. Even though normal saline has 
been used for IOPL for a long time, post-operative 
wound infection is still a problem .The use of 
antimicrbial and antibiotic lavage, has thus shown 
conflicting   scientific data regarding reduction of 
postoperative wound infection rates. Patients 
presenting within 72 hours of developing peritonitis 
will be the focus of this study, as opposed to all 
peritonitis patients in previous research. As a result 
of this research, our community will have local data 
for the use of metronidazole solution as IOPL, 
which will decrease chances of sepsis and wound 
infection and the length of time patients spend in the 
hospital in our setup. 

 

MATERIAL AND METHODS 
 

The study's goal was to evaluate the efficacy of 
intraoperative peritoneal lavage (IOPL) with either 
normal saline or metronidazole solution in reducing 
wound infection. The investigation employed a 
randomized controlled trial using consecutive 
sampling as its study strategy. This study was 
executed in the South Surgical Ward of the Surgery 
Department of Mayo Hospital in Lahore. The time 
frame for this study was from February 2nd, 2021, to 
August 1st, 2021. The sample size of this study was 
determined by calculating the expected proportion 
of wound infection in the normal saline group at 
6.53% and in the metronidazole group at 26.3%, 
using a significance threshold of 5% and 80% power 

of test, respectively. This yielded a total of 90 
patients (45 in each group). Patients between the 
ages of 15 and 65 years of both sexes, and those 
diagnosed with peritonitis related to hollow viscous 
perforation (from trauma or any other cause) met the 
inclusion criteria used in the sample strategy. 
Patients with primary or spontaneous peritonitis 
(based on clinical examination and history), and 
patients with peritonitis related to solid organ injury 
(on clinical examination) were not eligible for this 
study.  
Ninety (90) patients meeting the aforementioned 
criteria were enrolled after obtaining Ethics Board 
approval vide 756 /RC/KEMU dated 4/1/2021 for 
the data collection process. Before the operation, 
everyone gave their informed consent. 
Characteristics such as age, gender, body mass 
index, and time since peritonitis diagnosis were 
considered. Patients were equally divided into two 
equal groups by random lottery method. Two (2) 
liters of normal saline were used for peritoneal 
lavage in group A, while two liters of normal saline 
were combined with 200 mL of metronidazole 
solution for group B. Using general anesthesia; a 
single surgical team performed all procedures with 
the help of the assisting researcher. All the time 
spent during operation was recorded. Patients were 
monitored in the operating rooms and released from 
the facility after a period of 72 hours following 
surgery. After 10 days, patients returned to OPD for 
further monitoring. Patients were diagnosed with 
wound infection if they experienced post-operative 
complications such as fever, increased TLC, wound 
discharge, redness, and pain (as per operational 
definition). Proformas were used to record all of this 
data. Infections that developed in patients' surgical 
wounds after surgery were treated according to 
accepted medical practice. 
Statistical Analysis: 
All the information was entered into SPSS 23. Age, 
body mass index, length of peritonitis, and surgical 
time were some of the quantitative factors provided 
as means +/- standard deviations. Qualitative factors 
such as gender and postoperative wound infection 
were given in the form of frequency and percentage. 
The Chi-square test was used to examine the 
difference in rates of infection after surgery between 
the two groups. The cutoff for significance was set 
at a 0.05 probability level. The information was 
separated into groups based on variables such as 
age, gender, body mass index, length of peritonitis, 
and length of surgery. After the groups were divided 
into strata, the chi-square test was used to compare 
them based on the presence of postoperative wound 



10

Intraoperative Peritoneal Lavage in Peritonitis: Normal Saline vs Metronidazole

infection. The cutoff for significance was a P value 
of 0.05.

RESULTS
Patients included in the study were between 15 to 65 
years with overall mean age of 38.67 ± 12.31 
years.The mean age of group A was 40.04 ± 11.96 
years and 37.33 ± 10.53 years in group B. Out of 90 
patients 32 (35.56%) were males and 58 (64.44%) 
were females with male to female ratio of 1:1.8. 
Mean duration of peritonitis was 42.24 ± 12.01 
hours. In Table-1 Mean BMI was 28.48 ± 2.92 
kg/m2. Mean operative time being 62.34 ± 11.56 
minutes.
Frequency of postoperative wound infection with 
normal saline was found in 17/45 (37.78%) and in 
metronidazole solution in intraoperative peritoneal 
lavage was found to be 03/45 (6.67%) patients (p-
value = 0.0001).

Age  
di str i b uti

on for  
both 

gr oup s 
(n=90)

Age

Group A 
(n=45) Group B (n=45) Total (n=90)

No. 
of 

patie
nts

%age
No. of 
patient

s
%age

No. 
of 

patie
nts

%age

15-40 24 53.33 25 55.56 49 54.44

41-65 21 46.67 20 44.44 41 45.56

Mea
n ± 
SD

40.04 ± 
11.96 37.33 ± 10. 53 38.67 ± 12. 31

Di str i b uti
on of 

pati e nt s 
ac c or di ng 

to 
dur ati o n 

of 
pe r i toni ti

s

Durat
ion 

(hr’s)

Group A 
(n=45) Group B (n=45) Total (n=90)

No. 
of 

pati
ent
s

%age
No. of 
patient

s

%a
ge

No. 
of 

pati
ents

%age

36 19 42.22 18 40.0 37 41.11

>36 26 57.78 27 60.0 53 58.89

Mean 
± SD 41.40 ± 12. 21 43.44 ± 11. 28 42.24 ± 12. 01

Di str i b
uti on of 
pati e nt s 
ac c or di

ng to 
BM I

BMI 
(kg/
m 2)

Group A 
(n=45) Group B (n=45) Total (n=90)

No. 
of 

pati
ent
s

%age

No. 
of 

patie
nts

%age

No. 
of 

pati
ents

%age

27 15 33.33 17 37.78 32 35.56

>27 30 66.67 28 62.22 58 64.44

Mean 
± SD 28.98 ± 3.21 28.04 ± 2.67 28.48 ± 2.92

Di str i b
uti on of 
pati e nt s 
ac c or di

ng to 
ope r ati
ve  ti me

Opera
tion 

(min)

Group A 
(n=45) Group B (n=45) Total (n=90)

No. 
of 

patie
%age

No. of 
patient

s
%age

No. 
of 

patie
%age

nts nts

60 16 35.56 18 40.0 34 37.78

>60 29 64.44 27 60.0 56 62.22

Mean 
± SD 63.84 ± 11. 94 61.89 ± 11. 39 62.34 ± 11. 56

Table-1: Different Parameters of Patients and their 
Results

Table-2 shows the ratio of wound infection with 
respect to various parameters. The stratification of 
postoperative wound infection with respect to age 
groups has significant P value (0.002) in group A 
patients with younger population between 15-40 
years.Similarly statistically significant difference 
was found in postoperative wound infection among 
both genders having female predominance in group 
A. Postoperative wound infection according to 
duration of peritonitis is more common among  36 
hours of Group A, while it is nil in Group B.The 
impact of higher BMI ( 27) on postoperative wound 
infection in group A is statistically important with 
significant P value (0.0001), while it is nil in 
metronidazole group (B). Lastly, the postoperative 
wound infection again was significantly reduced in 
patients of metronidazole group irrespective of 
duration of surgery with P value (0.005& 0.018).
In Fig-1 Comparison of the frequency of 
postoperative wound infection with normal saline 
versus metronidazole solution in intraoperative 
peritoneal lavage is shown.

Fig-1:  Comparison of the frequency of 
postoperative wound infection with 
normalsaline (A) versus metronidazole 
solution (B) in IOPL

0

5

10

15

20

25

30

35

40

45

Group A Group B

17

3

28

42

po
st

-o
pe

ra
tiv

e 
w

ou
nd

 in
fe

ct
io

n



11

Intraoperative Peritoneal Lavage in Peritonitis: Normal Saline vs Metronidazole 

 

ound infection 
with res pect to 

age 

 
Age of 
patient 

(yrs) 

Group A 
(n=45) 

Group B 
(n=45) 

 
P-value  

Post-
operative 

wound 
infection 

Post-
operative 

wound 
infection 

Yes  No Yes  No 

15-40 12 13 02 22 0.002 

41-65 05 15 01 20 0.067 

wound infection 
with res pect to 

gender  

 
Gender  

Group A 
(n=45) 

Group B 
(n=45) 

 
P-value  

Post-
operative 

wound 
infection 

Post-
operative 

wound 
infection 

Yes  No Yes  No 

Male  05 10 00 17 0.010 

Fem ale  12 18 03 25 0.011 

wound infection 
with res pect to 

duration 

 
Duration 

(hrs ) 

Group A 
(n=45) 

Group B 
(n=45) 

 
P-value  

Post-
operative 

wound 
infection 

Post-
operative 

wound 
infection 

Yes  No Yes  No 

36 04 14 03 16 0.618  

>36 13 14 00 26 0.022 

wound infection 
with res pect to 

BMI 

 
BMI 

(kg/m 2) 

Group A 
(n=45) 

Group B 
(n=45) 

 
P-value  

Post-
operative 

wound 
infection 

Post-
operative 

wound 
infection 

Yes  No Yes  No 

27 04 13 03 12 0.810 

>27 13 15 00 30 0.0001 

wound infection 
with res pect to 
operative tim e  

 
Operativ

e tim e 
(min) 

Group A 
(n=45) 

Group B 
(n=45) 

 
P-value  

Post-
operative 

wound 
infection 

Post-
operative 

wound 
infection 

Yes  No Yes  No 

60 07 11 00 16 0.005 

>60 10 17 03 26 0.018 

Table-2: Ratio of Wound Infection with respect to 
Various Stratified Parameters of Patients. 

 

DISCUSSION 
 

Acute widespread peritonitis is a surgical 
emergency that poses significant treatment 
challenges. It is crucial to identify and treat sepsis as 
soon as possible so that the underlying cause can be 
addressed14.In the past, since laparotomy on purpose 

had not yet been achieved in the operating room; 
early treatment of peritonitis had to rely on medical 
interventions. Rest, purgatives (particularly 
magnesium sulphate), fasting, lemon juice, cold 
therapy, and very limited opium use were all 
recommended for treating peritonitis15. In a later 
presentation, Mikulicz argued in favor of abdominal 
opening. He also popularized the use of drainage 
tubes and a 2% thymol solution for "toilet of the 
peritoneum," in which the unclean intestines are 
sponged clean. In another Study of Tait, the solution 
of blood and warm water was introduced in the 
abdomen and all internal organs washed until the 
water ran clear. Amniotic fluid, 25% glucose, water, 
saline, and different antibiotics were some of the 
fluids utilized in peritoneal lavage and aspiration in 
the past16. Peritoneal lavage can lessen the number 
of germs in the body by dilution, which in turn 
decreases the risk of infection and septic shock at 
the wound site. Saline lavage significantly decreases 
the numbers of aerobic and anaerobic bacteria in 
peritoneal fluid and provides an estimate of the 
debris load in the wash fluid17. This research was 
carried out to evaluate the efficacy of intraoperative 
peritoneal lavage with either normal saline or 
metronidazole (Nitroimidazoles) solution on the 
incidence of wound infection following perforated 
hollow viscus peritonitis surgery.  
To compare, our study found that 17/45 (37.78%) 
patients who had intraoperative peritoneal lavage 
with normal saline developed postoperative wound 
infections, while only 3/45 (6.67%) received 
intraoperative peritoneal lavage with metronidazole 
solution (p 0.0001).  
In contrast, a  trial indicated that  the Metronidazole 
lavage group had a lower rate of wound infection 
than the saline lavage group, the difference was 
statistically significant (p0.05)12. A further 
investigation found a 26.3 percent infection rate in 
the Metronidazole lavage group compared to 6.5 
percent in the saline lavage group (p0.05)13. 
Harpreet Singh, Malika Agrawal, Naveen Singh18 
reported that incidence of 50% (21 out of 42) of 
wound infection when no local drug was used as 
compared to 30% when metronidazole was used. 
Dalvi et al19 reported 20% reduction in incidence of 
wound infection with use of intraoperative topical 
metronidazole. Similarly, Khan et al20 reported 20% 
reduction in incidence of wound infection, when 
superoxide solution was used for IOPL. On 
contrary, Schein et al did not find any difference in 
incidence of wound infection when chloramphenicol 
was used for IOPL21. 
The etiology of postoperative wound infection is 
complicated by the heterogeneous nature of these 



12

Intraoperative Peritoneal Lavage in Peritonitis: Normal Saline vs Metronidazole 

 

parameters which include both patient factors (age, 
gender, BMI) and procedural factors (duration of 
surgery, prior infection due to long peritonitis 
timing)29.Reviewing published data, shows that 
most researchers have not reported different 
parameters of patients like age, gender, BMI, time 
of peritonitis and duration of surgery in developing 
postoperative wound infection. In our study 
however parameters like higher BMI and increasing 
duration of surgery had statistically proportionate P 
values 0.0001, .018, 0.005 respectively in 
metronidazole group (B).Which may infer that 
increasing operative time and higher BMI are 
possibly  factors for greater peritoneal infection 
which responds significantly better to metronidazole 
than normal saline. Moreover, metronidazole was 
significantly more effective in reducing peritonitis 
linked postoperative wound infection between the 
ages of 15-40 and in all genders. Increasing age 
above 40 however did not respond significantly 
better to metronidazole versus normal saline (p.067) 
probably due to the presence of likely comorbidities 
such as diabetes. An important point noted was that 
metronidazole was substantially more effective in 
eliminating prolonged peritonitis linked wound 
infection than normal saline (p value 0.0001) 
because of its specific antigram-ve bacterial action11  
Peritoneal lavage was found to be therapeutically 
effective in a study conducted by Nathens and 
colleagues22.Similarly positive findings were seen in 
a trial using peritoneal irrigation and local 
antibiotics by Hau T et al. and colleagues. Lavage 
with antibiotics for irrigation has been found in 
experimental tests to significantly reduce mortality 
in cases of peritonitis23. Some studies have failed to 
show any advantage of peritoneal lavage over 
simple systemic antibiotics24. It has been proposed 
that peritoneal dialysis fluid is an appropriate lavage 
agent since it is gentler on the mesothelial cells than 
regular saline (0.9% sodium chloride)25. 
Metronidazole, gentamicin, cephalosporin, 
lincomycin, ampicillin, kanamycin and doxycycline 
and the antiseptics povidine iodine and 
chlorhexidine have all been studied with conflicting 
results.26In a review of 15 studies by Josie 
Chundamala J et al, and James G et al. Wright 
showed a definite reduction of surgical site infection 
(SSI) with povidine iodine when compared to saline 
or no irrigation26.  
In all above studies, we can conclude that surgical 
wound infections after laparotomy of peritonitis are 
the leading cause of morbidity, poor quality of life 
and increase length of hospital stay. Thus creating 
the physically, financially and mentally impact on 
patient’s family27. This necessitates thinking the 

ways to reduce SSI after laparotomy not only in 
infected abdomen but also in other laparotomy for 
any reason. Metronidazole is  thus an effective drug 
to use in SSI  against  gram-positive and gram-
negative anaerobic bacteria, as well as gram-
positive anaerobic bacteria that produce spores . It 
has been used both alone and in conjunction with 
other antibiotics in peritoneal lavage, and both 
methods have been shown to be safe and effective28. 
Limitations 
This was a single center study having a relatively 
small sample size and mostly 3,4 surgeons 
performed all operations. Future larger clinical trials 
at more centers are necessary for comprehensive 
information on the use of metronidazole for IOPL in 
peritonitis.  
 

CONCLUSION 
 

This study concludes that the frequency of 
postoperative wound infection is less using 
metronidazole solution in intraoperative peritoneal 
lavage as compared to normal saline use. So, we 
recommended that metronidazole solution should be 
used routinely in intraoperative peritoneal lavage in 
order to prevent the post-operative wound infection. 
 

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The Authors: 

Dr. Hira Aslam, 
Senior Registrar,  
Department of Surgery, 
Mayo Hospital KEMU, Lahore. 
 
 

Dr. Muhammad Khurram Jameel, 
Assistant Professor, 
Department of Surgery, 
ANMC/CMA Hospital, Lahore. 
 
 

Dr. Pir Muneeb, 
Assistant Professor, 
Department of Surgery, 
ANMC/CMA Hospital, Lahore. 
 

 
Dr. Aneeqa Nasir Qureshi, 
Senior Registrar,  
Department of Surgery, 
Mayo Hospital KEMU, Lahore. 
 

 
Dr. Fawad Hameed, 
Associate Professor, 
Department of Surgery, 
ANMC/CMA Hospital, Lahore. 
 

 
Dr. Muhammad Ammar, 
Senior Registrar, 
Department of Urology, 
ANMC/CMA Hospital, Lahore. 
 



14

Intraoperative Peritoneal Lavage in Peritonitis: Normal Saline vs Metronidazole 

 

Dr. Maham Qazi, 
Senior Registrar, 
Department of Surgery, 
ANMC/CMA Hospital, Lahore. 
 
Dr. Abrar Ul Hassan Pirzada, 
Associate Professor, 
Department of Plastic Surgery, 
ANMC/CMA Hospital, Lahore. 
 
Corresponding Author: 

Dr. Muhammad Khurram Jameel, 
Assistant Professor, 
Department of Surgery, 
ANMC/CMA Hospital, Lahore. 
Email: khurramjameel999@gmail.com