A sample loading mechanism and method applicable to a smear apparatus, and a smear apparatus are provided. The sample loading mechanism includes: a blood dripping needle, a transfer device and a control device. The blood dripping needle is connected with the transfer device which is configured to drive the blood dripping needle to move relative to a slide. When the blood dripping needle is in contact with the slide, the control device is configured to control the transfer device to stop the blood dripping needle from moving towards the slide, and to control the blood dripping needle to drip a blood sample onto the slide.

A cell extraction method includes providing a mixed-cell sample having both target cells and non-target cells slurried in a trailing-electrolyte solution. A leading electrolyte solution is provided to contact the trailing electrolyte solution via a capillary and a pressure control device. Focusing of the target cells at an interface between the leading- and trailing-electrolyte solutions occurs by applying pressure to the capillary and concurrently applying an electric potential via electrodes. The target cells are extracted into the capillary by applying a negative pressure and transferred to a receptacle. A cell extraction system for use with a gradient elution isotachophoresis method includes a trailing electrolyte solution adapted to migrate slower than the target cells and a leading electrolyte solution adapted to migrate faster than the target cells. A mixed-cell sample containing the target and non-target cells is slurried in the trailing electrolyte solution prior to cell extraction.

A cell extraction method includes providing a mixed-cell sample having both target cells and non-target cells slurried in a trailing-electrolyte solution. A leading electrolyte solution is provided to contact the trailing electrolyte solution via a capillary and a pressure control device. Focusing of the target cells at an interface between the leading- and trailing-electrolyte solutions occurs by applying pressure to the capillary and concurrently applying an electric potential via electrodes. The target cells are extracted into the capillary by applying a negative pressure and transferred to a receptacle. A cell extraction system for use with a gradient elution isotachophoresis method includes a trailing electrolyte solution adapted to migrate slower than the target cells and a leading electrolyte solution adapted to migrate faster than the target cells. A mixed-cell sample containing the target and non-target cells is slurried in the trailing electrolyte solution prior to cell extraction.

A microdeposition pin having a contact surface with at least one concave edge for creating microarrays and the like. The microdeposition pin may be used either alone or with a plurality of microdeposition pins in conjunction with a holder. The concave edge of the pin is especially adapted for helping to control the spreading of a deposited material. By selectively controlling the spread of the reagent composition from the microdeposition pin, the flow of the reagent composition from the deposition target area may be reduced. Sensor strips having raised substrate features with limited or no spreading of the reagent composition beyond the target area are disclosed.