In what can alter the course of cancer treatment in the near future, researchers have found a compound that appears to pinpoint all of the malignant cells in a patient’s body.
The twist is that the compound’s main ingredient is a molecule that is found in the sting of a deadly scorpion.
The compound called chlorotoxin is found in the venom of the death stalker scorpion known as leiurus quinquestriatus.
- Varun Gandhi Under Attack Over Defence Deals: Here’s How
- This Diwali, Let Blind Students Brighten Up your Homes With Candles & Diyas
- CBI Files Supplementary Chargesheet In Sheena Bora Murder Case
- Soha Ali Khan And Vir Das Starrer 31st October Audience Reaction
- Sahara Chief Subrata Roy’s Parole Extended Till November 28
- Simple Tips To Secure Your Debit Card From Fraudsters
- New Zealand & India Team Being Welcomed In Chandigarh
- Mumbai Call Centre Scam: All You Need To Know
- Jammu Kashmir Chief Minister Mehbooba Mufti Appeals To Police: Here’s What She Said
- Shocker From Ahmedabad: Find Out What Happened
- Bigg Boss 10 Day 3 Review: Celebs Fail To Do Well in First Task
- Airtel Offers 10GB Data At Rs 259 For New 4G Smartphone Users
- Aamir Khan Starrer Dangal’s Trailer Launched: First Impressions
- TMC Supporters Attack BJP Leader Babul Supriyo
- Sri Lankan Navy Apprehends 20 Indian Fishermen
It gives malignant cells a bright fluorescent sheen so surgeons can easily spot them, wired.com reported.
“A scorpion-venom concoction that makes tumours glow sounded almost too outlandish to be true in the beginning. But with generous donations from individuals, the fluorescent scorpion toxin is now in Phase I clinical trials,” informed Jim Olson from the renowned Seattle-based Fred Hutchinson Cancer Research Centre that developed the technique, called “Tumour Paint”.
Scorpion venoms are cocktails of numerous individual toxins that attack different targets within a victim’s body.
Olson and his team found that chlorotoxin did not attach just to brain tumours — it grabbed onto all sorts of cancers, from those that affect the skin to those that destroy the lungs.
In lab experiments, Olson began to inject fluorescent-tipped chlorotoxin into mice — the compound lit up cancer cells that no other technology could identify.
In one instance, the chlorotoxin illuminated a clump of just 200 malignant cells that were burrowed deep within a wad of fat.
“That was the point we learned that the technology was far more sensitive than an MRI,” Olson was quoted as saying.