,

Anatomical model of the femur

Anatomical model of the femur of a dog  The model is made using 3D printing technology.  The model is intended for educational purposes and for practicing various bone fracture treatment techniques and can be used for preoperative plate contouring and for practicing fracture treatment techniques, as its material behaves similarly to natural bone during drilling and cutting. Models can be disinfected with alcohol-based products, but cannot be steam sterilized as this will damage the model. Model size - 156mm.

,

Anatomical model of the humerus bone

Anatomical model of the humerus of a dog The model is made using 3D printing technology.  The model is intended for educational purposes and for practicing various bone fracture treatment techniques and can be used for preoperative plate contouring and for practicing fracture treatment techniques, as its material behaves similarly to natural bone during drilling and cutting. Models can be disinfected with alcohol-based products, but cannot be steam sterilized as this will damage the model. Model size - 145mm.

,

Anatomical model of the pelvis

Anatomical model of the dog's pelvis The model is made using 3D printing technology.  The model is intended for educational purposes and for practicing various bone fracture treatment techniques and can be used for preoperative plate contouring and for practicing fracture treatment techniques, as its material behaves similarly to natural bone during drilling and cutting. Models can be disinfected with alcohol-based products, but cannot be steam sterilized as this will damage the model. Model size - 133mm.

,

Anatomical model of the pelvis with coccyx

Anatomical model of the pelvis with a dog's tailbone The model is made using 3D printing technology.  The model is intended for educational purposes and for practicing various bone fracture treatment techniques and can be used for preoperative plate contouring and for practicing fracture treatment techniques, as its material behaves similarly to natural bone during drilling and cutting. Models can be disinfected with alcohol-based products, but cannot be steam sterilized as this will damage the model. Model size - 133mm.

,

Anatomical model of the radius and ulna

Anatomical model of the radius and ulna of a dog The model is made using 3D printing technology.  The model is intended for educational purposes and for practicing various bone fracture treatment techniques and can be used for preoperative plate contouring and for practicing fracture treatment techniques, as its material behaves similarly to natural bone during drilling and cutting. Models can be disinfected with alcohol-based products, but cannot be steam sterilized as this will damage the model. Model size - 173mm.

,

Anatomical model of the radius bone

Dog Radius Anatomical Model The model is made using 3D printing technology.  The model is intended for educational purposes and for practicing various bone fracture treatment techniques and can be used for preoperative plate contouring and for practicing fracture treatment techniques, as its material behaves similarly to natural bone during drilling and cutting. Models can be disinfected with alcohol-based products, but cannot be steam sterilized as this will damage the model. Model size - 146mm.

,

Anatomical model of the scapula

Anatomical model of a dog's shoulder blade The model is made using 3D printing technology.  The model is intended for educational purposes and for practicing various bone fracture treatment techniques and can be used for preoperative plate contouring and for practicing fracture treatment techniques, as its material behaves similarly to natural bone during drilling and cutting. Models can be disinfected with alcohol-based products, but cannot be steam sterilized as this will damage the model. Model size - 122mm.

,

Anatomical model of the tarsus joint

Anatomical model of the hock joint The model is made using 3D printing technology.  The model is intended for educational purposes and for practicing various bone fracture treatment techniques and can be used for preoperative plate contouring and for practicing fracture treatment techniques, as its material behaves similarly to natural bone during drilling and cutting. Models can be disinfected with alcohol-based products, but cannot be steam sterilized as this will damage the model.

,

Anatomical model of the tibia and patellofemoral joint

Anatomical model of a dog's lower leg The model is made using 3D printing technology.  The model is intended for educational purposes and for practicing various bone fracture treatment techniques and can be used for preoperative plate contouring and for practicing fracture treatment techniques, as its material behaves similarly to natural bone during drilling and cutting. Models can be disinfected with alcohol-based products, but cannot be steam sterilized as this will damage the model.

,

Anatomical model of the tibia bone

Anatomical model of the velo-humeral and fibular bones of a dog The model is made using 3D printing technology.  The model is intended for educational purposes and for practicing various bone fracture treatment techniques and can be used for preoperative plate contouring and for practicing fracture treatment techniques, as its material behaves similarly to natural bone during drilling and cutting. Models can be disinfected with alcohol-based products, but cannot be steam sterilized as this will damage the model. Model size - 163mm.

,

Anatomical model of the ulna

Anatomical model of the dog's ulna The model is made using 3D printing technology.  The model is intended for educational purposes and for practicing various bone fracture treatment techniques and can be used for preoperative plate contouring and for practicing fracture treatment techniques, as its material behaves similarly to natural bone during drilling and cutting. Models can be disinfected with alcohol-based products, but cannot be steam sterilized as this will damage the model. Model size - 173mm.

,

Anatomical model of the wrist joint

Anatomical model of the wrist joint of a dog The model is made using 3D printing technology.  The model is intended for educational purposes and for practicing various bone fracture treatment techniques and can be used for preoperative plate contouring and for practicing fracture treatment techniques, as its material behaves similarly to natural bone during drilling and cutting. Models can be disinfected with alcohol-based products, but cannot be steam sterilized as this will damage the model.

,

Anatomical skull model - French Bulldog

French Bulldog Skull Model prepared from a CT scan of a healthy dog.  Ideal for educational purposes - both for veterinary students and for visual demonstration when communicating with clients

,

Anatomical skull model - Pug

Anatomical model of the Pug skull Model prepared from a CT scan of a healthy dog.  Ideal for educational purposes - both for veterinary students and for visual demonstration when communicating with clients

,

Dismountable model. Anatomical model of the cervical spine of a dog

The model consists of 2 parts of interconnected vertebrae. Both parts are connected to each other thanks to magnets installed in the model. The model was prepared based on a CT scan of a healthy dog. Ideal for educational purposes - both for veterinary students and for doctors to explain in detail the issues of a clinical case to patient owners. The model can be subjected to cold sterilization and disinfection with special tools.

,

Dismountable model. Anatomical model of the lumbar spine of a dog with pelvis

The model consists of 2 parts of interconnected vertebrae. Both parts are connected to each other thanks to magnets installed in the model. The model was prepared based on a CT scan of a healthy dog. Ideal for educational purposes - both for veterinary students and for doctors to explain in detail the issues of a clinical case to patient owners. The model can be subjected to cold sterilization and disinfection with special tools.

,

Dismountable model. Anatomical model of the thoracic spine of a dog

The model consists of 2 parts of interconnected vertebrae. Both parts are connected to each other thanks to magnets installed in the model. The model was prepared based on a CT scan of a healthy dog. Ideal for educational purposes - both for veterinary students and for doctors to explain in detail the issues of a clinical case to patient owners. The model can be subjected to cold sterilization and disinfection with special tools.

,

Solid model. Anatomical model of the cervical spine of a dog

Solid model of the cervical spine of a dog (Labrador). The model was prepared based on a CT scan of a healthy dog. Ideal for educational purposes - both for veterinary students and for doctors to explain in detail the issues of a clinical case to patient owners. The model can be subjected to cold sterilization and disinfection with special tools.

,

Solid model. Anatomical model of the lumbar spine of a dog with pelvis

Solid model of the cervical spine of a dog (Labrador). The model was prepared based on a CT scan of a healthy dog. Ideal for educational purposes - both for veterinary students and for doctors to explain in detail the issues of a clinical case to patient owners. The model can be subjected to cold sterilization and disinfection with special tools.

,

Solid model. Anatomical model of the thoracic spine of a dog

Solid model of the cervical spine of a dog (Labrador). The model was prepared based on a CT scan of a healthy dog. Ideal for educational purposes - both for veterinary students and for doctors to explain in detail the issues of a clinical case to patient owners. The model can be subjected to cold sterilization and disinfection with special tools.