Embodiments of the invention can sample particulates, aerosols, vapors, and/or biological components of ambient air utilizing spherical air-sampling filters. Components of the embodiments may include a hopper for holding spherical air-sampling filters, an air-sampling manifold configured to deliver an air-sampling filter from the hopper to a sampling location, and an air compressor to perform an air sampling operation and to transport a used air-sampling filter away from the sampling location. Operation of some embodiments may begin by rotating a slotted drum within the air-sampling manifold to deliver an air-sampling filter from the hopper to the sampling position. Operation may continue by using the air compressor to draw air from an ambient environment through the air-sampling filter. After sampling is complete, the air compressor may be utilized to pneumatically transport the used air-sampling filter away from the sampling position to a filter retrieval location via an output tube.

A system for analysis of biopsy samples includes a tissue sample transport mechanism linking a biopsy sample excision tool to a tissue sample holder disposed in a staging area of an analysis unit. The tissue sample is automatically transported from the excision tool to the specimen holder, where the tissue sample is analyzed in the staging area of the analysis unit. The transport mechanism may include tubing and a vacuum source. The tissue sample holder may be configured to slow or temporarily stop a tissue sample for individual analysis, or collect multiple tissue samples for analysis as a group. A tissue sample sorting mechanism may be employed that allows separation of specimens that can be correlated to the analysis.

A method of transporting blood samples without using a capsule, in a tube system with an internal diameter that is greater than the external diameter of the applied blood samples and lesser than the lengths of the applied blood samples, the method including at least the following steps: A: a blood sample (8) with an external diameter in the range 12 mm to 18 mm and with a length in the range from 80 mm to 110 mm is introduced in a tube system (1) that includes a dispatch station (3) and a receiver station (4), A1: the physical dimensions of the blood sample (8) is checked and it is ensured that the blood sample (8) fits the tube system, B: the blood sample (8) is dispatched from the dispatch station (3) by means of dispatching air.

A system for analysis of biopsy samples includes a tissue sample transport mechanism linking a biopsy sample excision tool to a tissue sample holder disposed in a staging area of an analysis unit. The tissue sample is automatically transported from the excision tool to the specimen holder, where the tissue sample is analyzed in the staging area of the analysis unit. The transport mechanism may include tubing and a vacuum source. The tissue sample holder may be configured to slow or temporarily stop a tissue sample for individual analysis, or collect multiple tissue samples for analysis as a group. A tissue sample sorting mechanism may be employed that allows separation of specimens that can be correlated to the analysis.

The method of conveying samples using a continuous flow of pressurized air for conveying elongated items holding samples along a path in a tube system from at least one dispatch station, at which the elongated items are dispatched into the path, to at least one receiver station in the direction of the flow of pressurized air along the path. Individual items are sent in succession by means of pressurized air supplied to the tube system via the dispatch station and via a by-pass duct that extends around the at least one dispatch station from an upstream to a downstream side thereof. A constant flow of pressurized air is conducted via the by-pass around the at least one dispatch station into said path by which items already underway along the path in the tube system remain moving during dispatching of an item into the path.

A system for analysis of biopsy samples includes a tissue sample transport mechanism linking a biopsy sample excision tool to a tissue sample holder disposed in a staging area of an analysis unit. The tissue sample is automatically transported from the excision tool to the specimen holder, where the tissue sample is analyzed in the staging area of the analysis unit. The transport mechanism may include tubing and a vacuum source. The tissue sample holder may be configured to slow or temporarily stop a tissue sample for individual analysis, or collect multiple tissue samples for analysis as a group. A tissue sample sorting mechanism may be employed that allows separation of specimens that can be correlated to the analysis.

A system for handling sample vials includes a vault for receiving a series of storage cartridges. Inside the cartridges are one or more discs providing vial recesses. In multidisc cartridges, through passages are provided to place and retrieve vials into and from the subjacent discs. A pick up device is moved until it aligns with a selected vial and the vial is pneumatically removed. A device is provided to reverse orientation of a vial moving through the system. A venturi operated system is provided including symmetrical bleed off ports to propel vials through the system without inducing excessive spinning of the vials. A piping system from a central bank to a multiplicity of analytical instruments includes a minimum number of through conduits and a diverter at each instrument location for sending the vial either to the instrument or downstream toward another diverter and instrument.

A system for analysis of biopsy samples includes a tissue sample transport mechanism linking a biopsy sample excision tool to a tissue sample holder disposed in a staging area of an analysis unit. The tissue sample is automatically transported from the excision tool to the specimen holder, where the tissue sample is analyzed in the staging area of the analysis unit. The transport mechanism may include tubing and a vacuum source. The tissue sample holder may be configured to slow or temporarily stop a tissue sample for individual analysis, or collect multiple tissue samples for analysis as a group. A tissue sample sorting mechanism may be employed that allows separation of specimens that can be correlated to the analysis.

A process and system for handling biological tissue samples through work stations in which at least one work station includes a plurality of independent work locations. The handling system includes a main transport apparatus operatively connected to input and output stations and to the work stations for moving bidirectionally the samples among these; a plurality of secondary transport apparatuses operatively connected to the main transport apparatus and each respectively operatively connected to independent work locations of one of the work stations and configured to move bidirectionally the samples among these; and a control arrangement of the transport apparatuses for managing routing and handling of the samples in the work stations according to a work protocol associated with the samples and for managing routing and handling of the samples in the work locations according to a workload of the work locations and the work protocol associated with the samples.