| Description | Designed for femoral vascular access training, this simulator features two vertically branched veins (approx. 8 mm diameter, 20 mm deep) with simulated aneurysms. Lifelike echogenic material closely mimics human tissue, enabling realistic ultrasound-guided practice, probe control, and anatomy recognition in a safe, repeatable environment for both trainees and experienced clinicians. | Designed for realistic central venous access training, this simulator features two veins with simulated aneurysms (approx. 10 mm diameter) for accurate needle insertion and assessment. Lifelike echogenic material mimics human tissue, supporting probe control, anatomy recognition, and safe practice of ultrasound-guided invasive techniques in a controlled, repeatable learning environment. | Designed for realistic, repeatable ultrasound-guided vascular access training, this simulator features four central veins (8–10 mm) positioned 15 mm and 35 mm below the surface. Lifelike echogenic material mimics human tissue, enabling accurate needle insertion, vein occlusion assessment, and development of probe control, anatomy recognition, and invasive technique skills safely. | Designed for femoral vascular access training, this simulator features two vertically branched veins (approx. 8 mm diameter, 20 mm deep) with simulated aneurysms. Lifelike echogenic material closely mimics human tissue, enabling realistic ultrasound-guided practice, probe control, and anatomy recognition in a safe, repeatable environment for both trainees and experienced clinicians. | Designed for realistic practice of Seldinger and Midline techniques, this simulator includes extended veins for full procedure training. Two veins (8–10 mm) lie 25 mm below the surface within lifelike echogenic material, enabling accurate needle insertion, vein occlusion assessment, and development of probe control, anatomy recognition, and invasive technique skills safely. | Designed for realistic radial artery catheterisation practice, this simulator includes two arteries (2.5–4 mm) positioned 10 mm below the surface within lifelike echogenic material. Extended artery lengths allow complete procedural training, supporting accurate needle insertion, probe control, anatomy recognition, and vascular access skills safely in a controlled learning environment. | Designed for realistic practice of Seldinger and Midline techniques, this simulator includes extended veins for full procedure training. Two veins (8–10 mm) lie 25 mm below the surface within lifelike echogenic material, enabling accurate needle insertion, vein occlusion assessment, and development of probe control, anatomy recognition, and invasive technique skills safely. | Designed for realistic radial artery catheterisation practice, this simulator includes two arteries (2.5–4 mm) positioned 10 mm below the surface within lifelike echogenic material. Extended artery lengths allow complete procedural training, supporting accurate needle insertion, probe control, anatomy recognition, and vascular access skills safely in a controlled learning environment. | Designed for realistic, repeatable ultrasound-guided vascular access training, this simulator features four central veins (8–10 mm) positioned 15 mm and 35 mm below the surface. Lifelike echogenic material mimics human tissue, enabling accurate needle insertion, vein occlusion assessment, and development of probe control, anatomy recognition, and invasive technique skills safely. |
