A glass slide having a top surface and a bottom surface. The slide has at least one marking surface which has a first visual appearance when viewed from the top, and a second visual appearance when viewed from the bottom so as to allow the surface to be easily distinguished.

A microscope slide having a raised marking surface formed of pigmented resinous material, such as an epoxy resin, which dries to a matte finish which is absorptive and retentive of marking ink.

A microscope slide having a raised marking surface formed of pigmented resinous material, such as an epoxy resin, which dries to a matte finish which is absorptive and retentive of marking ink.

Cells are automatically classified and analyzed by staining a measured amount of a specimen with a material which is adapted to fluoresce when illuminated; preparing a slide containing the stained specimen; illuminating the slide with light of successively changing wavelengths to measure the presence of the fluorescent response at each of the predetermined wavelengths to determine the constituents of the specimen. The detected constituents are automatically focused and scanned by a microscope having a capability of locating the constituent of interest, determining its size, shape and texture to thereby provide information as to the type, count and the like to enable a detailed analysis of the specimen.

A microscope slide and read-write system whereby the slide has a pathology specimen thereon and machine readable high density recording media in the form of a magnetic strip, optical reading strip or the like. The read-write system accommodates initial writing of slide and patient identification information on the recording media. The read-write system further embodies elements for operative connection to a microscope system whereby a computer generated representation of the screening history of pathology specimen is recorded and maintained during pathology analysis of the slide showing the mode and parameters of the analysis as well as position related events of interest. The computer generated screening representation is written to the recording media by the read-write system, for constant proximate availability with the slide. The recording media comprises sufficient capacity for encodation with patient identification and medical history information, and slide diagnostic information and analysis for pathological review of the particular pathology specimen on the slide. Compatible read-write systems permit reading and editing of recording media encodation for slide analysis at any time or place without requirements of correlative external files.