l 2015
WO
601. SCAFFOLD-FREE TISSUE ENGINEERING USING FIELD INDUCED FORCES
Abstract
A system and method for providing tissue regeneration without the use of scaffolds. The system includes a vessel that contains a fluid suitable for enhancing...
A system and method for providing tissue regeneration without the use of scaffolds. The system includes a vessel that contains a fluid suitable for enhancing...
The invention relates to a method for preparing swimming bladder collagen powder. The method comprises the following steps: by taking dry swimming bladders as a...
The invention belongs to the technical field of biological materials in tissue engineering and particularly relates to artificial skin and a preparation method thereof. The...
The invention belongs to the field of biomedical engineering materials, and specifically relates to an injectable hydrogel with controlled release capacity and for tissue engineering,...
A hybrid tissue scaffold is provided which comprises a porous primary scaffold having a plurality of pores and a porous secondary scaffold having a plurality...
The invention discloses a preparation method, a product and application of polyurethane material capable of being self-assembled into a nano tube, aiming at solving the...
The invention discloses a preparation method of a shell-imitated structure laminar graphene oxide nano composite film. The preparation method comprises the followings steps: firstly, sufficiently...
The invention discloses a three dimensional printer for preparation of a nano-ceramic bone tissue engineering scaffold, the printer uses an optical fiber laser as energy,...
The utility model discloses a percutaneous rotator for a trachea incision operation. The percutaneous rotator is composed of a rotary handle and a percutaneous rotator...
Novel bioabsorbable polymeric porous tubes for tissue engineering nerve growth are disclosed. The tubes are made from a bioabsorbable polymeric foam material and have a...
The present invention relates to a method of manufacturing a porous polymer component 1 with structured and/or random pores 4 and/or channels 5. The method...
The present invention relates to a method for producing a porous support made of mineral components for reproducing bones, wherein the porous support can be...
The invention discloses a rat tail intervertebral disc in-vitro three-dimensional gel stereoscopic culture method which comprises the following steps: preparing a 2 wt% sepharose gel...
The invention discloses an aero-engine combustor with a variable-cross-section step-shaped multiple-inclined-hole cooling structure used. The aero-engine combustor comprises a combustor casing, a calotte, a cyclone,...
The invention discloses a high-purity natural collagenous fiber and a preparation method thereof. The collagenous fiber is characterized in that fresh traceable animal muscle tendon...
The invention relates to a multi-functional internal bone generator. The multi-functional internal bone generator comprises a carrying device, a connecting device, a locking device and...
The invention relates to a preparation method of an inorganic-organic compound hydrogel which has an excellent mechanical performance and can be used as a cartilage...
The invention discloses a titanium dioxide based composite thin film with a classified nano point structure. A titanium dioxide nano point layer and a photosensitive...
The utility model relates to a medical instrument and particularly relates to a lower jawbone detection device. The lower jawbone detection device comprises a computed...
The invention provides an injectable porous microcarrier material for in-vivo tissue regeneration and reconstruction and a preparation method thereof. The preparation method of the polypeptide...