Abstract: An implant includes an implant body and a distraction membrane. The distraction membrane is connected to the implant by a connection element. The connection element is arranged movably at least over a portion of a longitudinal axis of the implant body such that the distraction membrane is slidable along at least a portion of the longitudinal axis of the implant body.

Abstract: The present invention relates to an arched membrane and/or a membrane having rounded edges for regenerating a bone, in particular a distraction membrane, suitable for callus distraction, notably in the jaw region, to the use of the membrane for callus distraction, and to methods for callus distraction.

Abstract: An implant includes an implant body and a distraction membrane. The distraction membrane is connected to the implant by a connection element. The connection element is arranged movably at least over a portion of a longitudinal axis of the implant body such that the distraction membrane is slidable along at least a portion of the longitudinal axis of the implant body.

Abstract: The present invention relates to devices for the regeneration of bone by three-dimensional callus distraction. The invention further relates to the use of such devices and to methods for three-dimensional callus distraction.

Abstract: A granulate mixture suitable for regenerating a bone contains at least one expandable particle and at least one nondeformable particle. The at least one expandable particle contains a swelling agent. The swelling is enclosed by a biodegradable sheathing or be a biodegradable casing. Three-dimensional callus distraction may be accomplished by introducing the granulated mixture into a bone defect.

Abstract: The present invention relates to a granulated material mixture for regenerating bone, in particular by way of three-dimensional callus distraction, and to uses of said granulated material mixture. The granulated material mixture comprises rigid and deformable granulated materials.

Abstract: A granulate mixture suitable for regenerating a bone contains at least one expandable particle and at least one nondeformable particle. The at least one expandable particle contains a swelling agent. The swelling is enclosed by a biodegradable sheathing or be a biodegradable casing. Three-dimensional callus distraction may be accomplished by introducing the granulated mixture into a bone defect.

Abstract: The present invention relates to an arched membrane and/or a membrane having rounded edges for regenerating a bone, in particular a distraction membrane, suitable for callus distraction, notably in the jaw region, to the use of the membrane for callus distraction, and to methods for callus distraction.

Abstract: The present invention relates to a distraction device for bone regeneration, especially in the jaw region, to the use of the distraction device for callus distraction, and to methods for callus distraction.

Abstract: The present invention relates to bone screws, membranes and devices for regenerating a bone, in particular by way of callus distraction, notably in the jaw region, to the use of the bone screws, membranes and devices for callus distraction, and to methods for callus distraction.

Abstract: A granulate mixture suitable for regenerating a bone contains at least one expandable particle and at least one nondeformable particle. The at least one expandable particle contains a swelling agent. The swelling is enclosed by a biodegradable sheathing or be a biodegradable casing. Three-dimensional callus distraction may be accomplished by introducing the granulated mixture into a bone defect.

Abstract: The device incorporates a structurally stable membrane (4, 4?, 34, 35) that incorporates a surface (15) to be bonded to a tissue to be regenerated, specifically a vital bone (2, 22, 38, 39). Means (9, 5, 6, 25, 36) are additionally provided whereby the membrane (4, 4?, 24, 35) is movable for the regeneration with a certain pulling force and speed. According to the invention the membrane (4, 4?, 24, 35) has, on its surface facing the tissue or bone, means (16) for the biological anchoring and adhesion for tissue or bone cells. These means (16) for the biological anchoring of tissue cells are specifically bone cells, protein molecules and/or osteoblasts (17), as well as indentations (45, 46, 48) and surface peaks (50) of the membrane.

Abstract: The present invention relates to devices for the regeneration of bone by three-dimensional callus distraction. The invention further relates to the use of such devices and to methods for three-dimensional callus distraction.