Exemplary embodiments of the inventive concept are directed to devices for facilitating the creation of pathology cell blocks and to methods for creating such cell blocks using said devices. Various cell block preparation devices are described, which cell blocks may be comprised of various media and may be provided with one or multiple wells for receiving and retaining tissue/cell specimens, such as cytology specimens. The tissue/cell specimen laden cell block preparation devices are treated with fixative to produce cell block specimens that are highly amenable to sectioning and subsequent analysis according to known methods. A marker may be integrated into any of the cell block preparation devices to guide a technologist during sectioning and subsequent application of cell block sections to slides for proper orientation of the cell block sections.

An assembly including a cassette having a support layer. At least a portion of the support layer is embedded in a recipient block formed from an agarose gel for securing the recipient block to the cassette. The recipient block has a surface spaced from the support layer and is provided with at least one bore extending from the surface into the recipient block that is adapted to receive a biological sample material. A method for forming an assembly is provided.

A method for making a microarray block with a recipient block having at least one bore therein. A mold having a cylindrical bore with a cross-sectional shape approximating the cross-sectional shape of the at least one bore of the recipient block can be provided. The first end of the mold can have an opening that communicates with a cylindrical bore of the mold. A biological sample and a liquid carrier medium can be introduced through the opening and solidified in the mold to form a core. The core can be removed from the mold and at least a portion of the core can be inserted into the at least one bore of the recipient block. Related methods and assemblies are provided.

A flag, or marker for identifying the locations of a plurality of tissue cassettes containing mounted Formalin Fixed Paraffin Embedded (FFPE) tissue specimens once removed from a tissue cassette/block storage system. The invention comprises a rectangular cuboid body member having front, rear, left, right, top, and bottom surfaces which substantially approximates the shape of a predefined number of tissue cassette/blocks, with a recessed area with grooves to accept one tissue index marker card for recording the patient's case information, or other relevant information. When multiples of the present invention are used within a tissue cassette/block storage system, they point to locations where pluralities of tissue cassette/blocks should be returned, and provides a support structure for neighboring tissue cassette/blocks within the storage location from becoming askew or damaged within the tissue cassette/block storage system.

An exemplary tissue array, and a method for producing the same, can be provided which can include providing an accepter biological structure(s), providing a donor tissue(s), removing a portion(s) of the donor tissue(s), and removing a portion(s) of the accepter biological structure(s). The removed portion(s) of the accepter biological structure(s) can have a size that is substantially similar to a size of the removed portion(s) of the donor tissue(s). The removed portion(s) of the donor tissue(s) can be inserted into the accepter biological structure(s) at a location substantially corresponding to the removed portion(s) of the accepter biological structure(s).

Systems and methods for producing and using polymer based fixed targets for hydrated, room temperature, high-throughput serial protein crystallography with minimal background and minimal sample consumption are provided. The fixed targets can also be used with non-protein samples such as nanoparticle inorganic crystals. The targets maintain full crystal hydration that allows for on-chip crystallization as well as maintaining long term stability of the sample within the chip. The target chips are optimized to minimize background by controlling the sample thickness in the beam to match crystal size, enabling fast raster scanning at lower fidelity and high hit rates that facilitate dynamic measurements. The targets provide an inexpensive, flexible substrate for on-chip, micro-batch or vapor diffusion crystallization facilitated by polymer brushes for sample concentration and surface initiated crystallization thereby eliminating damaging crystal sample transfer.

The present invention describes a flag, or marker for identifying the locations of a plurality of FFPE tissue blocks once removed from their storage locations within a tissue cassette/block storage system. The invention comprises a molded polymer rectangular cuboid body member with rectangular front, rear, top, left, right, and bottom surface, which follows the shape of a tissue cassette with an attached paraffin embedded medical tissue sample. The flag body member has a recessed groove to accept one tissue block index marker card for recording the patient's case information, or other relevant information, and offers hard surfaces for recording additional identification modalities, which additionally provides a support structure for the neighboring tissue blocks contained within said storage location.

A sectionable tissue sample support structure including a gel compound formed into a self supporting geometric shape for retention and orientation of at least one tissue sample during a histopathology process including processing, embedding and microtome slicing of the tissue sample. A method of orienting, processing, embedding and microtome slicing a tissue sample using a gel compound preformed into a self supporting geometric shape. A combination including the sectionable tissue sample support structure and a package containing the sectionable tissue sample support structure.

A sectionable tissue sample support structure including a gel compound formed into a self supporting geometric shape for retention and orientation of at least one tissue sample during a histopathology process including processing, embedding and microtome slicing of the tissue sample. A method of orienting, processing, embedding and microtome slicing a tissue sample using a gel compound preformed into a self supporting geometric shape. A combination including the sectionable tissue sample support structure and a package containing the sectionable tissue sample support structure.

A sectionable tissue sample support structure including a gel compound formed into a self supporting geometric shape for retention and orientation of at least one tissue sample during a histopathology process including processing, embedding and microtome slicing of the tissue sample. A method of orienting, processing, embedding and microtome slicing a tissue sample using a gel compound preformed into a self supporting geometric shape. A combination including the sectionable tissue sample support structure and a package containing the sectionable tissue sample support structure.