Histology Lecture 1 PDF
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Uploaded by FreshestChalcedony5435
Faculty of Medicine
Spider Medicine
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This document is a lecture notes on histology that covers various types of microscopes including light, electron, confocal, and polarizing microscopes. They used in cell biology or microbiology and relate to different units.
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Lecture: 1 Histology Types of Microscope “Micro” = very small “Scope” = to look at Scientists use microscopes to visualize cells that are too small with the naked eye. Magnification: degree of...
Lecture: 1 Histology Types of Microscope “Micro” = very small “Scope” = to look at Scientists use microscopes to visualize cells that are too small with the naked eye. Magnification: degree of Resolution: power to show enlargement. details clearly. N.B: The critical factor in obtaining a good and detailed image with a light microscope is resolving power. The most important units of measurements used in histology are: One centimeter (cm) = 10 millimeters (mm). One millimeter (mm) = 1000 micrometer = 1000(μ). One micrometer (μm) = 1000 nanometer (nm). One nanometer (nm) = 10 Angstrom = 10 Ao. Old Microscope By Spider Medicine Page |1 Lecture: 1 Histology Types Of Microscope Light Electron Bright field microscopy ,as well as It is a type of microscope in which more special types all are based a beam of electrons is used to on the interaction of light with describe the fine structures of the tissue components. examined specimen. Simple Student Optical. Transmission. Phase Contrast. Scanning. Fluoresence. Polarizing. CARRY A MICROSCOPE CORRECTLY Carry it with 2 HANDS: one on the arm. the other on the base Make sure it’s on a flat surface. By Spider Medicine Page |2 Lecture: 1 Histology Components Of Light Microscope 1- The frame: ( base, arm and stage) 2- The magnifying system: ( lenses system) 3- Illumination system: source of light may be mirror to reflect day light or an electric lamp The optical lens system of light microscope 1- Condenser: Present under the stage, Collects and focuses a cone of light that illuminate the tissue slide on the stage. 2- The objective lense: Enlarge and project the illuminated image of the object in the direction of the ocular lens (eye pieces). 3- The ocular lens (eye pieces): Further magnifies this image and projects it onto the viewer’s eye. By Spider Medicine Page |3 Lecture: 1 Histology N.B : Objective lenses providing higher magnification &high resolving power. The eyepiece lens only enlarges the image obtained by the objectives and doesn’t improve resolution. What’s my power? To calculate the power of magnification: multiply the power of the ocular lens by the power of the objective. Ocular lense Objectives lenses By Spider Medicine Page |4 Lecture: 1 Histology Objective Ocular lens: Total lens: magnification: Low power (for observing 4x 10x 40x large area) medium ( for medium 10x 10x 100x magnification High ( for more detailed 40x 10x 400x area) Higher magnification (oil x100 10x x1000 immersion) Other specialized types of light microscopes: 1- Phase contrast microscope & Interference microscope. 2- Fluorecence microscope (will be discussed by microbiology depaertment). 3- Polarizing micorscope. 4- Confocal microscope. Phase Contrast Microscopy Study the unstained cells (transparent &colorless). Because they allow the examination of cells without fixation or staining, phasecontrast microscopes are prominent tool in studying living cultured cells. By Spider Medicine Page |5 Lecture: 1 Histology Polarizing Microscope Study crystals & substances with repeated arranged molecules ex: collagen, microtubules & microfilaments). features without such structures are not seen. By Spider Medicine Page |6 Lecture: 1 Histology Confocal microscopy Achieve high resolution and sharpness by using a small high intensity light from a laser. It Produces specimen with 3D image. Electron Microscope Used to observe very small objects which is can’t be seen by light microscope. Uses beams of electrons rather than light. Much more powerful and give greater magnification. Types of electron microscope: A. Transmission Electron Microscope (TEM). B. Scanning Electron Microscope (SEM). By Spider Medicine Page |7 Lecture: 1 Histology Transmission EM 1- The resolution power around 0.2nm. 2- The magnification power up to 400,000 times 3- ultrathin sections (40-90nm) are needed. 4- Principles: a beam of electron focused using electromagnetic lenses instead of glass lens used in light micrscope. This electron emitted from heating of tungesten filament (cathod). 5- The final color of image is: black (electron dense) and white (electron lucent) shades. 6- Electron lucent mean that the electrons passed easily through the tissue (sites of electron penetration) -----while electron dense mean the (sites of electron absorption or deflection). 7- To see the final image, a fluorescent screen is needed to convert the energy of electrons into light By Spider Medicine Page |8 Lecture: 1 Histology Scanning electron microscopy (SEM). Preparation: 1- Coating of specimen surface with a heavy metal (gold). 2- When the beam electron exposed to the its surface, some electron are reflected then collected by a detector to form the black & white 3D image showed on tv screen. 3- So the image will show the surface of a specimen only , the electron beam doesn't pass through the specimen. E.M Differs from L.M in: 1- An electron beam is used instead of light rays. 2- Electromagnetic coils are used instead of glass lenses. 3- The final image is visualized on a fluorescent screen By Spider Medicine Page |9 Lecture: 1 Histology By Spider Medicine P a g e | 10