||7.5 x 8.7 x 4.3cm
|Single Package size:
||Individually packed in an opp bag
Estimate Package Details:
|Carton dimension:||50.5 x 47 x 27cm|
|Gross weight:||13.05 kgs|
|Certification:||ISO13485, FDA, SGS|
|Payment Term:||30% deposit paid by TT before production, 70% balance before shipment.|
|Payment Methods:||Bank TT, Western Union, Paypal|
➤ Eco-friendly materials: The BSE model is made of eco-friendly, safe, high-quality, and washable PVC material.
➤ Anatomically accurate: Made in natural life size. Embedded lumps simulate the fibrocystic mass, a typical tumor, and a lactiferous duct.
Note: The educational card that comes with it outlines key information about the irregular masses and their locations within the breast.
➤ Realistic to touch: The BSE model is a very realistic natural casting of a female breast model with irregular mass. Displays the skin in the finest detail, very realistic and soft to the touch.
➤ Easy to preserve and transport: The breast self examination model and introductions card can be put away and preserved in a box and then taken to anywhere.
This female breast model is designed as an anatomy learning aid for students in colleges & universities, a teacher's accessory for classroom demonstrations or a perfect display for patients in doctors' offices to find irregular masses in the human breast for early detection of breast cancer.
The main focus of this breast model is on prioritizing customer education. Whether you need a pathological or healthy model of the human heart, brain, skull, skeleton bones, spine, or eye, we could find it for you.
Do you offer samples?
What's your lead time?
For a standard breast examination model, our lead time is 1-3 days. If you're going to customize or wholesale the BSE model for education, it will take about 10-20 days to complete the order.
Pro-Health Product Ltd. specializes in providing different kinds of medical educational models, such as human body parts models, dental teeth models, muscle & fat replicas, and injection & suture training models, and pathological models.