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Proceedings S.Z.M.C. Vol: 34(3): pp. 29-34, 2020.    PSZMC-758-34-3-2020 
 

Role of Prophylactic Dimenhydrinate Versus  
Ondansetron as an Adjunct to Dexamethasone on  
Post-Operative Nausea and Vomiting in Laparoscopic 
Abdominal Procedures 
1Sadaf Bukhari, 2Aaifa Khalid Niazi, 1Syed Mahmood Ali, 2Maria Arshad, 3Muhammad Taqi 
1Department of Anesthesia, Shaikh Zayed Medical Complex, Lahore 
2Department of Anesthesia, Jinnah Hospital, Lahore 
3Department of Anesthesia, Gulab Devi Hospital, Lahore 

 

ABSTRACT 

Introduction: Post-operative nausea and vomiting (PONV) is a common complication in patients undergoing 
surgery. Anti-emetic prophylaxis is recommended for all high risk patients. Combination therapy is 
considered superior to single dose prophylaxis however its efficacy in varied laparoscopic abdominal surgical 
situations has not been investigated. Aims & Objectives: To compare the post-operative nausea and vomiting 
with Dimenhydrinate plus Dexamethasone versus Ondansetron plus Dexamethasone in patients following 
laparoscopic abdominal procedures. Place and duration of study: Operation Theatre, Shaikh Zayed Hospital 
Lahore, for one year (1st April 2015 – 31st March 2016). Material & Methods: 464 patients were placed in 
two groups of 232 each. Group A received prophylaxis with Dexamethasone 8 mg I/V + Dimenhydrinate 
50mg I/V and Group B received prophylaxis with Dexamethasone 8 mg I/V + Ondansetron 4 mg I/V. 
Efficacy was judged with absence of nausea and vomiting in first 24 hours after surgery. Data was analyzed in 
SPSS version 27. Results: The frequency of nausea was 6% with Dimenhydrinate while was 9% with 
ondansetron. Similarly, vomiting was 18% vs. 24% respectively. The efficacy of Dimenhydrinate was 88% 
while and Ondansetron achieved efficacy in 65% cases, which was statistically significant (p<0.05). 
Conclusion: The combination Dexamethasone & Dimenhydrinate was more efficacious in preventing PONV 
than the combination Dexamethasone & Ondansetron. 
 
Key words: Post-operative nausea and vomiting, Antiemetic prophylaxis, Dexamethasone, Dimenhydrinate, 
Ondansetron 
 

INTRODUCTION 

Post-operative nausea and vomiting (PONV) is 
the most disturbing and a very commonest problem 
often after surgery due to anesthesia. PONV may 
lead to severe patient’s anxiety, requirement of 
nursing care increases, delay in ambulation, also 
increases pain and in few severe cases, it also badly 
effects the outcome of the surgery as well as 
disturb the hemodynamics of patients.1,2 It is a 
troublesome complication and has been the subject 
of interest of researchers for the past many years.3 
PONV is an unpleasant emotional experience that 
provokes both fear and anxiety in the patient. It 
might instill in the memory of patient for life time. 
In addition to the fear that it instills in patients, 
PONV can lead to serious medical complications.4  
PONV occurs in 20-30% of patients undergoing 
surgery.5 In high risk patients who receive no 
prophylaxis the incidence of PONV goes up to 70-

80%.6,7,8 Effective prevention of PONV improves 
patient satisfaction ratings. All these factors make 
the prevention and management of PONV a 
challenge for most anesthesiologists.9  
The optimal control of PONV is based on three 
steps. Firstly high risk patients at risk for PONV 
need to be identified. Secondly such an anesthetic 
technique should be employed which uses low 
emitogenic agents and favors use of 
antiemetogenic agents. Thirdly all patients at risk 
for PONV should receive antiemetic prophylaxis.6 
Antiemetic prophylaxis can be provided by 
pharmacological and non-pharmacological 
methods. Pharmacological methods include a 
variety of drugs from different classes.10,11,12  
Combination therapy of more than one drug is 
considered far more efficacious as compared to 
single drug therapy. Drugs with different 
mechanisms of action should be used in 
combination.13,14 This multi modal approach has 



30

Role of Prophylactic Dimenhydrinate Versus Ondansetron as an Adjunct to Dexamethasone 

shown better results when compared with single 
mode of action prophylaxis.14,15,16,17,18  
The novelty of our study is this, that it's been done 
in the face of many risk factors of PONV. Where 
laparoscopy itself is a risk factor for PONV and in 
the presence of other PONV risk factors (females, 
use of nitro oxide, use of opiods, use of volatiles). 
We have tried to demonstrate Dexamethasone plus 
Dimenhydrinate combinations' substantial 
effectiveness which is also very cost effective as per 
requirement in our country. Other studies are done 
on tonsillectomy, breast surgeries, and laparoscopic 
cholecystectomies but not on all types of 
laparoscopic abdominal procedures. This being 
another attribute of our study as we have conducted 
this study in various abdominal laparoscopic 
surgeries, not just one. So keeping in mind PONV 
and its challenging outcomes, an effective drug 
combination is the need of the hour particularly in 
high risk cases.  
 

MATERIAL AND METHODS 

After taking IRB permission no: 1371, informed 
consent of 464 patients, 18 years age and above, 
ASA I & II, undergoing abdominal laparoscopic 
surgery was obtained in pre-op area of Shaikh 
Zayed Hospital Lahore, over a period of one year. 
The patients were divided into two groups A & B 
by lottery method.  I/V lines were secured: group A 
patients were given injection Dexamethasone 8mg 
I/V and Inj Dimenhydrinate 50mg I/V. The patients 
in group B were given Inj. Dexamethasone 8mg 
and Inj Ondansetron 4mg I/V. 
In the operation theatre standard monitoring was 
done. Injection Ringer’s Lactate(R/L) was given by 
4,2,1 formula respective of their weights. All the 
patients were given standard general anesthesia. 
After pre-oxygenation using 100% Oxygen, 
anesthesia was given along with injection Fentanyl 
1-2mcg/kg body weight followed by injection 
propofol 1-2mg/kg body weight. Inj Atracurium 
was given 0.5mg/kg body weight, patient was 
ventilated for 3 minutes and endotracheal tube was 
inserted in all patients. Mechanical ventilation was 
done. Anesthesia was sustained with 50% oxygen 
and 50% nitrous with 1% isoflurane. Intra-
operatively, the muscle relaxation was attained by 
adding incremental doses of atracurium i.e. 
1mg/KG on SOS basis. After surgery, anesthesia 
was stopped and remaining neuromuscular 
blockade was provoked by applying neostigmine 
injection along with glycopyrrolate. 
To minimize the effects of confounders standardized 
dose of opioid was used. Also adequate, 
standardized hydration was done using ringer lactate 

with the 4,2,1 formula. Inj Fentanyl upto 50mcg I/V 
was permitted as need for management of post-op 
pain. After procedure Patients were shifted to Post 
Anesthesia Care Unit (PACU) where they were 
monitored for 2 hours and then to ward where they 
were monitored for 24 hrs by PACU Doctor and 
nurse on duty. 
 

Statistical analysis: 
Data was fed into SPSS version 17 and analyzed 
using this program. Chi Square test was used to 
compare the efficacy in both groups keeping P-
value 0.05 as significant. 
 

RESULTS 

The mean age was 45.65±9.37 years. In group A, 
mean age was 45±9 and in group B was 46±9 years. 
In group A, nausea was observed in 14 (6%) cases 
while in group B, nausea was present in 42 (18%) 
cases (p<0.05). Within first 2 hours, nausea was 
observed in 14 (6%) cases in group A while in 27 
(11%) cases in group B (p<0.05) while doing first 
24 hours, nausea was observed in 0 (0%)cases in 
group A while in 15 (6%) cases in group B 
(p<0.05). Similarly, in group A, vomiting was 
observed in 21 (9%) cases while in group B, 
vomiting was present in 55 (24%) cases (p<0.05). 
Within first 2 hours, vomiting was observed in 14 
(6%) cases in group A while in 25 (11%) cases in 
group B (p>0.05) while doing first 24 hours, 
vomiting was observed in 7 (3%) cases in group A 
while in 30 (12.9%) cases in group B (p<0.05). 
Efficacy was achieved in 204 (88%) cases in group 
A while in 152 (65%) cases in group B. The 
difference between both group was significant 
(p<0.05). (Table-1) 
 
 Dimenhydrinate Ondansetron p-value 
Age (years) 45±9 46±9  
Nausea 
Yes 14(6%) 42(18%) <0.001 
No  218 (94%) 190(82%)  

Nausea at 2 hrs 14(6%) 27 (11%) 0.033 
Nausea at 2-
24 hrs. 0(0%) 15(6%) 0.0001 

Vomiting 
Yes 21(9%) 55(24%) <0.001 
No 211 (91%) 177(76%)  
Vomiting in 
first 2 hrs. 14(6%) 25(11%) 0.066 

Vomiting in 
2-24 hrs. 7 (3%) 30 (12.9%) 0.0001 

Efficacy achieved 
Yes 204(88%) 152(65%) <0.001 
No 28(12%) 80(35%)  

Table-1: Characteristics of patients 



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Role of Prophylactic Dimenhydrinate Versus Ondansetron as an Adjunct to Dexamethasone 

DISCUSSION 

PONV is one of the most common, heavy on the 
pocket and debilitating complication of general 
anesthesia. PONV occurs in 20-30% of patients 
undergoing surgery.19 In high risk patients for 
PONV who receive no prophylaxis the incidence of 
PONV goes up to 70-80%.4,8 Although PONV is 
typically self-limiting, lasting less than 24 hours, 
the sequences are grave. It can lead to dehydration, 
electrolyte imbalance, metabolic alkalosis, gastric 
erosions and aspiration of GI contents with 
subsequent respiratory problems.20 It can also delay 
oral nutrition and oral drug intake. PONV, thereby 
delays convalescence and increases hospital stay 
and cost.21  
The incidence of PONV depends upon the presence 
or absence of certain risk factors. Factors that may 
play a role in development of PONV include sex, 
age, previous history of PONV, motion sickness 
and migraines, smoking status, type of surgery, 
duration of surgery, type of anesthesia, use of 
opioid analgesics and hydration during surgery.22,23 
These factors can be broadly categorized to 
“patient factors” which includes females, people 
who do not smoke, past history of PONV/motion 
sickness, “Anesthetic Factors” like volatile 
anesthetic gases, nitrous oxide and use of 
perioperative opioid analgesics and lastly “Surgical 
Factors” that include type of surgery and duration 
of surgery.10  
The optimal control of PONV is based on three 
steps. Firstly high risk patients at risk for PONV 
need to be identified. Secondly such an anesthetic 
technique should be employed which uses low 
emitogenic agents and favors use of 
antiemetogenic agents. Thirdly all patients at risk 
for PONV should receive antiemetic prophylaxis.6  
PONV must be controlled effectively especially in 
high risk patients. Combination therapy of more 
than one drug is considered far more efficacious as 
compared to single drug therapy due to its multi-
factorial origin. Therefore, drug combinations 
should be used which comprise of drugs that have 
different mechanisms of action.24,25 This multi 
modal approach has shown better results when 
compared with single mode of action prophylaxis. 
The combinations widely used include 5HT-3 
receptor antagonist + Dexamethasone, 5HT-3 
receptor antagonist + Droperidol, Droperidol + 
Dexamethasone, Dimenhydrinate + 
Dexamethasone.26,27,28  
Despite the presence of a plethora of publications 
on PONV only little is known on how to treat it. 

Our study is another effort to know how to control 
this distressing PONV, best. 
In our study a clinically relevant question about the 
efficacy of two combination drug regimens was 
asked. With the knowledge that all these drugs 
(among them dexamethasone and ondanstron 
which are considered as gold standard for PONV 
and a relatively newer drug, dimenhydrinate, which 
is more widely available and very cost effective)  
reduce PONV with similar efficacy in patients at 
high risk, the better of two combinations was 
sought out. Multimodal interventions are required 
to control PONV in high risk patients. 
Dexamethasone is a good drug for combination 
therapy. It effectively reduces PONV of delayed 
onset that occurs after 12 hours. When combined 
with a short acting agent which reduces PONV in 
the short term (0-12 hrs.) the risk of PONV is 
reduced both in the short term (0-12 hrs.) and in the 
long term (12-24 hrs).  
The combination Dexamethasone plus 
Ondansetron is a popular one which has been 
studied extensively and has shown very good 
results. Ondansetron is effective in early PONV 
while Dexamethasone controls late PONV.  
However there are not many studies that have 
compared it with other combination. 
Dimenhydrinate is a cheap and widely available 
drug. It has been shown to be effective in the 
management of PONV. It hasn’t gained as much 
popularity due to its side effects, sedation, and dry 
mouth. In theory it should make a good 
combination with Dexamethasone for the same 
reasons as Ondansetron. Both of them are effective 
in prevention of early PONV.  
Voight et al.,18 tried the combination and found 
results which are equivalent to the combination of 
dexamethasone plus Ondansetron similar to our 
study. However no studies have proved superiority 
of one combination to another which our study 
hoped to do, in a PONV prone environment. All 
patients received a standardized anesthetic 
protocol. Nitrous oxide was used as an analgesic. 
Although nitrous oxide is a risk factor itself for 
PONV, it reduced the intraoperative usage of 
opioids which are a stronger risk factor for PONV. 
Hydration and opioid doses were standardized to 
minimize confounding. 
Aftab et al.,29 conducted a study of risk factor 
assessment for PONV in DOW Medical University 
Karachi, Pakistan. They concluded that PONV was 
significantly higher in females, patients with h/o 
PONV or motion sickness and patients undergoing 
laparoscopic and eye surgery. Our study has 
addressed two of these risk factors among others 



32

Role of Prophylactic Dimenhydrinate Versus Ondansetron as an Adjunct to Dexamethasone 

and observed the effects of anti-emetics in the high 
risk population. 
In India, in year 2014, Bendre and associates, in 
accordance to our study determined incidence 
nausea/vomiting, early and delayed with 
Ondansetron and Dexamethasone. Their results 
demonstrated for early nausea 26.7% vs our study 
11%. For delayed nausea their result was 23.3% vs 
our 6%. For early vomiting they calculated incident 
of 10% vs our 24% and for delayed vomiting their 
6.7% vs our 18%.30 
Voigt and associates (2011) carried out a 
randomized, double blinded, placebo controlled 
trial. Their results are almost same as of our study. 
One of their study group received Dimenhydrinate 
and Dexamethasone, half of this groups' patients 
received Total intravenous anaesthesia (TIVA) and 
half of them received volatile anesthesia. They 
recorded incidence of nausea, emesis or both, in 
early 0-2 hours and late 2-24 hours post 
operatively, similar to us.  Their result showed 
significant reduction of PONV 11.4% with 
volatiles. Our results showed that the combination 
of dexamethasone and Dimenhydrinate was 
significantly better in preventing nausea and 
vomiting than the Ondansetron and 
Dexamethasone combination. We observed that 
Dexamethasone and Dimenhydrinate showed an 
efficacy of 88% which is consistent to Voight et 
al.18  
Like us Dabbous and fellows (2010) did a 
randomized study on elective laparoscopic 
surgeries where they compared efficacy of the 
combination of Dexamethason and Ondanstron in 
prevention of PONV. During 24 hours post 
operatively Dabbous et al observed that no patient 
had vomiting (100%) compared to our 97.6%.31 
Imam et al studied the effects of Ondansetron 4 mg 
plus Dexamethasone with Ondansetron 4 mg alone 
and placebo in patients undergoing general 
anesthesia for cesarean section. Episodes of nausea 
and vomiting were observed in the first 24 hours of 
extubation. In the combination group 5% of the 
patients had PONV. In Ondansetron alone group 
22.5% of the patients had PONV and in the 
placebo group 52.5% of patients required anti-
emetics. The study showed that Ondansetron and 
Dexamethasone is more effective in preventing 
PONV with minimal adverse effects,32 which is 
comparable to our study. 
Bano and associates studied the effects of 
Dexamethasone plus Ondansetron with 
Dexamethasone alone in patients undergoing 
laparoscopic cholecystectomy. They found that the 
combination of Dexamethasone plus Ondansetron 

is more effective in preventing postoperative 
nausea and vomiting (P 0.035), close to our 
<0.05.17  
Kothari at al., results are contrasting to ours. They 
conducted a randomized trial, in patients 
undergoing laparoscopic cholecystectomy. They 
observed anti-emetic efficacy of Dimenhydrinate 
vs Ondansetron. Of the patients receiving 
Ondansetron post-op vomiting occurred in 6% 
versus our 24% and nausea in 42% vs our 24% of 
the patients. While of the patients who received 
Dimenhydrinate 29% vs our 9% of them vomited 
and 34% vs our 42% of them had nausea. 
Concluding that ondansetron was superior in 
controlling vomiting than Dimenhydrinate, in 
contrast to our results. The discrepancy probably 
due to our use of these drugs in combination with 
dexamethasone while Kothari gave them alone.33  
Contrary to our results Piwko C & associates 
showed that for vomiting the Ondansetron group 
had an efficacy of 45.3% vs the Dimenhydrinate 
group's 38.2% while ours was 75% for 
Ondansetron vs a 91% in Dimenhydrinate group. 
Piwko evaluated prevention of vomiting only in 
children whereas our study population were adults. 
Another factor leading to this dis-similarity in 
result could be due to the difference of surgical 
procedure, Piwko chose strabismus surgery while 
our interest was in abdominal laparoscopic 
surgeries.34  
 

CONCLUSION 

Our research suggests the combination of 
Dexamethasone and Dimenhydrinate is more 
efficacious and also more cost effective than the 
combination of Dexamethason and Ondansterone. 
This study can be done on a much larger scale 
including all kinds of surgeries and ASA 
categories. In light of its promising results 
Dexamethasone and Dimenhydrinate combination 
seems to be an excellent arsenal for an anesthetic 
for better patient care against PONV. 
 
 Limitations: PONV was considered as equivalent 
condition regardless of the surgical procedure 
duration, or length of anesthesia. Therefore, future 
studies can be done by standardizing the dose and 
checking its efficacy on different anesthesia 
lengths. A further limitation was that although we 
recorded side effects of the drugs used but we did 
not include them in our studies. In future we can do 
the same study but instead of PONV we can 
observe side effects of these drugs. 
 



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Role of Prophylactic Dimenhydrinate Versus Ondansetron as an Adjunct to Dexamethasone 

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The Authors: 
Dr. Sadaf Bukhari 
Senior Registrar, 
Department of Anaesthesia, 
Shaikh Zayed Hospital, Lahore. 
 
Dr. Aaifa Khalid, 
Senior Registrar,  
Department of Anaesthesia, 
Jinnah Hospital, Lahore. 
 
Dr. Syed Mahmood Ali 
Associate Professor, 
Department of Anaesthesia, 
Shaikh Zayed Hospital Lahore 
 
Maria Arshad 
Senior Registrar,  
Department of Anaesthesia, 
Jinnah Hospital, Lahore. 
 
Dr. Muhammad Taqi 
Senior Registrar,  
Department of Anaesthesia, 
Gulab Devi Hospital, Lahore. 
 
Corresponding Author: 
Dr. Sadaf Bukhari 
Senior Registrar, 
Department of Anaesthesia, 
Shaikh Zayed Hospital, Lahore. 
E-mail: dr.sadaf.bukhari@gmail.com