Bioactive, ceramic medical cements and methods for its use in treatment of bones and teeth in mammals are disclosed. This cement is non-exothermic and non-toxic, based upon setting of hydraulic ceramic compounds containing calcia, alumina, and silica phases. The self-hardening cement sets in vivo and in high humidity environments, and can be used in vivo without being easily washed out of the site. It also has dimensional stability, is resistant to acids present in an infection site or supragingivally, and has biocompatibility advantages of low inflammation and the formation of calcification layers in direct apposition to body tissue. Options include the addition of various radiopaque materials, and a variety of delivery systems including powder and liquid, capsule or pouch delivery, multiple pastes, or a unitary paste.

Bioactive, ceramic medical cements and methods for its use in treatment of bones and teeth in mammals are disclosed. This cement is non-exothermic and non-toxic, based upon setting of hydraulic ceramic compounds containing calcia, alumina, and silica phases. The self-hardening cement sets in vivo and in high humidity environments, and can be used in vivo without being easily washed out of the site. It also has dimensional stability, is resistant to acids present in an infection site or supragingivally, and has biocompatibility advantages of low inflammation and the formation of calcification layers in direct apposition to body tissue. Options include the addition of various radiopaque materials, and a variety of delivery systems including powder and liquid, capsule or pouch delivery, multiple pastes, or a unitary paste.

Described is a method for the production of substantially spherical calcium phosphate particles that involves subjecting a composition comprising calcium phosphate to dual asymmetric centrifugation (DAC). Also described are products of the method.

Described is a method for the production of substantially spherical calcium phosphate particles that involves subjecting a composition comprising calcium phosphate to dual asymmetric centrifugation (DAC). Also described are products of the method.

A gallium silica glass composition is described. The glass can be used in variety of biomedical applications

A gallium silica glass composition is described. The glass can be used in variety of biomedical applications

Provided is a conformable composition for skin application having good formability into a predetermined shape, good conformability to skin, and shape retention after the contact with water such as excretion without loss of its shape. The conformable composition for skin application includes a reinforcing component, a rubber adhesive component, and a hydrophilic polymer compound, or the conformable composition for skin application at least includes 1 to 20 wt % a reinforcing component, 40 to 90 wt % a rubber adhesive component, and 2 to 40 wt % a hydrophilic polymer compound.

Provided is a conformable composition for skin application having good formability into a predetermined shape, good conformability to skin, and shape retention after the contact with water such as excretion without loss of its shape. The conformable composition for skin application includes a reinforcing component, a rubber adhesive component, and a hydrophilic polymer compound, or the conformable composition for skin application at least includes 1 to 20 wt % a reinforcing component, 40 to 90 wt % a rubber adhesive component, and 2 to 40 wt % a hydrophilic polymer compound.

The present invention relates to a biodegradable injectable composition for bone augmentation comprising fibrin, a contrast agent and calcium salt-containing particles, as well as a method for bone augmentation in a patient suffering from a bone disorder comprising injecting said composition into a non-mineralized or hollow portion of said bone.

The present invention relates to a biodegradable injectable composition for bone augmentation comprising fibrin, a contrast agent and calcium salt-containing particles, as well as a method for bone augmentation in a patient suffering from a bone disorder comprising injecting said composition into a non-mineralized or hollow portion of said bone.