46

Journal of the Ceylon College of Physicians

Rathnayaka R M M K N,Wijekoon C N, Sugathapala A G H, Ranathunga P E A N

Indoxacarb – a rare cause of poisoning
Rathnayaka R M M K N1, Wijekoon C N2, Sugathapala A G H3, Ranathunga P E A N4

Journal of the Ceylon College of Physicians, 2016, 47, 46-47

Case report

1 Trainee in Medical Toxicology, Medical Officer-
Intensive Care Unit, Anaesthesia, Provincial General
Hospital, Ratnapura, Sri Lanka.

2 Senior Lecturer, Department of Pharmacology, Faculty
of Medicine, University of Kelaniya, Sri Lanka.

3 Consultant Physician, Provincial General Hospital,
Ratnapura, Sri Lanka.

4 Medical Officer, Emergency Treatment Unit, Provincial
General Hospital, Ratnapura, Sri Lanka.

Key words: indoxacarb, methaemoglobin, methaemoglobinemia, methylene blue

Introduction
Indoxacarb is a non-organophosphorus oxadiazine

insecticide that is considered a safe substitute for
organophosphate insecticides.1 It acts by blocking
sodium channels in the nervous system of insects.
However, there is limited data concerning human
toxicity. A literature survey revealed only eight case
reports and one case series of ten patients worldwide
and there were none from Sri Lanka.

Case report
A 32-year-old male tea cultivator was transferred

to Provincial General Hospital, Ratnapura from a local
hospital with a history of deliberate ingestion of  ‘Avaunt’
(Indoxacarb 150g/L EC). He has ingested about 50 ml
of indoxacarb around 10 pm the previous day and had
received gastric lavage and activated charcoal at the
local hospital. He had no significant past medical
problems. On admission he was restless. Glasgow
Coma Score (GCS) was 15/15. Pupils were dilated
but were equally reacting to light. He was cyanosed.
His respiratory rate was 30/min and SpO2 was 88%
on room air. Crepitations were found in both lung fields.
His blood pressure was 120/80mmHg and pulse rate
was 110/min. While sampling blood for routine
investigations it was noted that the blood color was
brownish. Possibility of methaemoglobinemia was
considered. As resources were not available to measure
blood methaemoglobin (MetHb) level it was assessed

Corresponding author: R M M K N R,
E-mail: namalrath10@yahoo.com

at bedside using the standard colour chart.2 As
immediate management oxygen 10 L/min was given
via face mask, a normal saline infusion was started
and vital functions were monitored. As MetHb level was
50% according to the colour chart a bolus dose of
methylene blue 50mg (1mg/kg) was given immediately.
Subsequently the patient was transferred to Intensive
Care Unit (ICU) for further management.

On admission to ICU, he was still cyanosed and
irritable. Arterial blood gas (ABG) analysis with 60% O2
showed pH 7.488, pCO2 27.5mmHg, pO2 379.7mmHg,
HCO3 21.1mmol/L and base excess 2.5mmol/L. Chest
x-ray was normal. After reassessing MetHb level he
was treated with methylene blue 50mg (1mg/kg) as a
bolus followed by another 50mg in 100 ml of normal
saline infused over one hour. This regimen was repeated
8 hourly while monitoring MetHb level using the colour
chart. He was also given oral ascorbic acid (vitamin C)
500mg. After 24 hours MetHb level reduced to 10%,
cyanosis disappeared and he was transferred back to
the ward.

On admission random blood glucose, serum
creatinine, serum electrolytes, full blood count and 12-
lead ECG were normal. Liver profile was also normal
except a mild elevation of aspartate transaminase
(74U/L). Blood picture done on the 4th day showed
compensated mild haemolysis.  His renal function was
not affected. He recovered over a week. After
assessment by the psychiatrist he was started on
imipramine and discharged home with follow up plans.

Discussion
 The reported complications of indoxacarb

poisoning include methaemoglobinemia, acute kidney
injury and rhabdommyolysis.3,4 The main problem
observed in this patient was methaemoglobinemia.
MetHb is generated by oxidation of ferrous (Fe+2) in
haem iron to the ferric (Fe+3) state which causes
characteristic bluish colour resembling cyanosis.
MetHb has a high affinity to oxygen resulting in impaired
delivery of oxygen to tissues. In a patient who appears
cyanotic with low SpO2 on pulse oximetry and normal
PaO2 on ABG, methaemoglobinaemia should be
suspected.5 This patient had cyanosis and low SpO2
on pulse oximetry. ABG could not be performed on



47

Vol. 47, No. 1, 2016

Indoxacarb – a rare cause of poisoning

admission but ABG at ICU showed extremely high
PaO2 while patient was clinically cyanosed. Methemo-
globinaemia can also be suspected if the fresh drawn
blood has characteristic chocolate brown appearance.5

Normally blood MetHb level is less than 1%. Cyanosis
usually manifests at a level between 10-20%. Levels
>60% are considered to be lethal. Antidote is indicated
when MetHb level is >20%.5

Unavailability of resources to measure blood
MetHb level poses a challenge in managing such
patients in developing countries like Sri Lanka. The
alternative is assessing the MetHb level using the
standard colour charts developed by Shihana F. et al.2
This patient received the antidote as the MetHb level
was estimated to be 50%. Intravenous methylene blue
is the antidote for methaemoglobinemia. The recom-
mended dose is 1-2mg/kg which could be repeated
depending on the patient’s response and MetHb level.
The recommended maximum daily dose is 7mg/kg/
day. When the dose is too high it can worsen methae-
moglobinemia paradoxically.5 The main side effect of
methylene blue is haemolytic anaemia and a mild
haemolysis was observed in this patient on the 4th day.

This is the first reported case of indoxacarb
poisoning in Sri Lanka. He was successfully managed

in spite of resource limitations. This case also illustrates
the general approach to the management of methae-
moglobinemia.

References

1. McKinley N, Kijima S, Cook G, Sherrod D. Avaunt
(indoxacarb): A new mode of action insecticide for control
of several key orchard pests. Proceedings of the 76th Annual
Western Orchard Pest and Disease Management
Conference 9-11 January 2002 published by Washington
State Univ., Pullman, Washington. http://entomology.
tfrec.wsu.edu/wopdmc/2002PDFs/Rep02%20 Chemical
%20McKinley.pdf (cited 1st December 2014)

2. Shihana F, Dissanayake D., Buckley NA, Dawson AH. A
Simple Quantitative Bedside Test to Determine Methe-
moglobin. Annals of Emergency Medicine  2010;  55
(2-13): 184-9.

3. Prasanna L, Rao SM, Singh V, et al.. Indoxacarb poisoning:
An unusual presentation as methemoglobinemia. Indian
Journal of Critical Care Medicine 2008; 12(4): 198-200.

4. Kyubok Jin. Rhabdomyolysis, methaemoglobinemia and acute
kidney injury after indoxacarb poisoning. Clinical Toxicology
2012; 50(3): 227.

5. Wikitox.http://curriculum.toxicology.wikispaces.net/
Methemoglobin (cited 1st December 2014)