May Brown Leather Medical Alert ID Bracelet - Personalised
May Brown Leather Medical Alert ID Bracelet - Personalised
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This striking modern chunky bracelet is made in gorgeous 2.2mm thick brown genuine leather. It is secured with a stud fastener and adjustable up to 8 inches/20.5cm. The stainless steel engraving plate has a large medical alert symbol and it is firmly secured with waxed cord.
All our bracelets include:
- FREE PERSONALISED ENGRAVING
- FREE VELVET TRAVEL POUCH
- FREE UK SHIPPING
- FREE GIFT BOX
- FREE MEDICAL CARD X 2
The medical cards are useful if you have multiple conditions or want to add further details such as your GP, NHS number, full list of meds.
Bracelet Size
The width of the leather is 20mm - adjustable with three studs up to a wrist size of 8 inches/20.5cm
Can my item be engraved?
Yes. We engrave on the reverse of the steel medical alert plate.
Up to 3 lines with maximum of 25 characters per line
The engraving plate is there for the essential, critical information paramedics, first responders and potentially even members of the public or schools need in an emergency. In the event of an emergency, the universal medical alert symbol on the front of your bracelet will alert medics to vital information. The plate is easily flipped over to reveal the engraving.
We suggest you include:
- Your name
- Any CRITICAL medical conditions, allergies or drugs that might affect how you are treated in an emergency (such as blood thinners)
- An ICE contact number - preferably a mobile
ICE stands for 'In Case of Emergency'. Emergency Services are also trained to look for ICE contacts in your phone so make sure it's in there too. Both android and iPhones will allow access to ICE contacts even when the phones are locked.
Specification
- METAL TYPE: STAINLESS STEEL
- STYLE: WRISTBAND, STUD FASTENER
- MATERIAL: HIGH-QUALITY GENUINE LEATHER
Who is my bracelet named after?
May-Britt Moser (Born Jan. 4, 1963)
A Norwegian neuroscientist, May-Britt Moser was awarded the 2014 Nobel Prize in physiology and medicine. She and her co-researchers discovered cells close to the hippocampus that help determine spatial representation or position. The work has been applied to neurological diseases including Alzheimer's.