The pupil as a toxicological marker
Pupil size and reactivity are among the earliest and most reliable signs in poisoning. Quantitative measurement turns a qualitative observation into trackable data for treatment response monitoring.
Toxicological emergencies where the pupil matters
In toxicology, the pupil is a vital sign. Organophosphate poisoning causes miosis (constricted pupils) — and pupil size is used to titrate atropine therapy. Snake envenomation by neurotoxic species (kraits, cobras) causes ptosis and pupillary changes as early neurotoxicity markers.
India faces a disproportionate burden: an estimated 50,000 snake bite deaths per year, and organophosphate poisoning is the leading method of self-harm in rural areas. In these settings, quantitative pupil monitoring could guide treatment in district hospitals with limited specialist access.
Currently, pupil assessments in these cases are documented as 'pinpoint', 'dilated', or 'sluggish' — qualitative terms that provide no baseline for tracking treatment response over hours.
Track treatment response with objective measurements
PupiLUX quantifies pupil diameter and reactivity at each measurement, creating a trackable record of treatment response. A rural district hospital nurse can generate the same quantitative data as a tertiary toxicology unit.
- Baseline Pupil Diameter (BPD) quantifies miosis/mydriasis in millimeters
- Serial measurements track pupil size changes during atropine titration
- Constriction percentage detects subtle reactivity in constricted pupils
- Works offline — no network needed in rural settings
- PDF documentation for medico-legal records in poisoning cases
- Per-test pricing (from free) makes it accessible for district hospitals
Key Evidence
Pupil size monitoring provides an objective marker for OP poisoning severity and atropine titration response, reducing both under-treatment and atropine toxicity.
Aravinthan R, et al.. “Pupillary changes in organophosphate poisoning” Indian J Crit Care Med, 2020.
Ptosis and pupillary abnormalities are early signs of neurotoxic envenomation. Quantitative tracking of pupil reactivity could provide objective criteria for antivenom timing.
Warrell DA. “Snake bite” Lancet, 2010.
Pupil size is one of the key clinical parameters for monitoring atropinisation in OP poisoning. Objective measurement could standardize this assessment across skill levels.
Eddleston M, Buckley NA, Eyer P, Dawson AH. “Management of acute organophosphorus pesticide poisoning” Lancet, 2008.
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Frequently Asked Questions
Can PupiLUX measure very small (miotic) pupils?
PupiLUX measures pupils across a wide range of sizes. For very small pupils (< 2mm), the measurement precision may be reduced, but the quantitative data still provides more information than subjective assessment.
Is PupiLUX useful for drug screening?
PupiLUX measures the pupillary light reflex, which is affected by many drugs. It is a measurement tool — the clinical interpretation of findings in the context of suspected substance use is made by the treating clinician.
Can serial measurements be compared?
Each PupiLUX measurement produces a standalone PDF with quantitative values. Clinicians can compare values across serial measurements to track trends.
PupiLUX is not a diagnostic device. For informational and screening purposes only. All clinical decisions must be made by qualified healthcare professionals.