L2- Examining Cells and Tissue

Question 1

standard measurement of cell size

Answer 1

um

Question 2

what is used for sizing of cells under microscope

Answer 2

graticule

Question 3

enlarged red bloods cells

Answer 3

indication for some forms of vasculitis

Question 4

resolution definition

Answer 4

The smallest distance by which two objects can be separated and still be distinguishable as two separate objects.

Question 5

the higher the resolving power

Answer 5

the more easily two objects can be distinguished

Question 6

lens of eye has

Answer 6

low resolution

Question 7

resolving power increase with

Answer 7

increasing magnifying class

Question 8

smallest human cell seen by naked eye

Answer 8

Oocyte

Question 9

name 2 main types of microscopy

Answer 9

light and electron

Question 10

smallest organelle seen with light microscopy

Answer 10

mitochondria

Question 11

smallest organelle seen with electron microscopy

Answer 11

ribosome

Question 12

light microscopy uses

Answer 12

a visible light source and glass lenses to look at specimens up to 1500X magnification and 0.2um resolving power

Question 13

electron microscopy uses

Answer 13

a beam of charged electrons and electromagnetic lenses to look at specimens at up to 500,000X magnification and 0.5nm resolution.

Question 14

when is electron microscopy used

Answer 14

technique for obtaining high resolution of biological specimens. Used to investigate detailed structure of tissues, cells, organelles and macromolecular complexes.
- High resolution= due to use of electrons

Question 15

why does electron microscopy give higher resolution

Answer 15

uses lectern beam- shorter wavelength than light

Question 16

advantages of light microscpy

Answer 16

• can view images in natural colours
• large field of view
• cheap and easy prep
• can view living and moving objects

Question 17

disadvantages of light microscope

Answer 17

lower magnification (x600)
Lower resolution 0.25um

Question 18

advantages of electron microscopy

Answer 18

• higher magnification (x500,000)

- higher resolution (0.25nm)

Question 19

disadvantages of electron microscopy

Answer 19

• can only view dead objects
• difficult and epxsneiv to prep
• limited field of view
• only monochrome images can be seen

Question 20

types of light microscopy

Answer 20

1) Phase contrast
2) Dark field
3) Confocal microscopy

Question 21

phase contrast

Answer 21

combines interference of 2 light waves

- enhances images of use unstained cells

Question 22

dark field

Answer 22

• Very specialised technique used with living cells
• Illuminates the sample with light that will not be collected by the objective lens and thus will not form part of the image
• This produces the classic appearance of a dark, almost black background with bright objects on it
• Can be used in EM images

Question 23

confocal microscopy

Answer 23

captures multiple 2D images at different depths to reconstruct 3D structures
- use with Immunofluorescence

Question 24

type sof elektron microscopy

Answer 24

Tranmission

Scanning

Question 25

TEM

Answer 25

o Used to view thin specimens through which electrons can pass through (same principles as a light microscope)
o 2 dimensional
o Used to image the interior of cells, structure of protein molecules and organisation of molecules in viruses and cytoskeletal filaments etc.
o Small amount of sample can be analysed at a time

Question 26

SEM

Answer 26

o Depends on the emission of secondary electrons from the surface of a specimen
–> sample can be thick
o Provides detailed images of the surfaces of cells and whole organisms not possible by TEM
o 3-dimensional
o Large amount of sample can be analysed at a time
o Images can be colourised

Question 27

how many micrometers (um) in a millimetre

Answer 27

1000

Question 28

how many micrometers in a nanometer (nm)

Answer 28

1000

Question 29

histology is important in order to

Answer 29

visualise content and architecture of the cells

to distinguish between certain pathologies e..g benign or maligant

Question 30

Sample preparation steps

Answer 30

1) Tissue procurement
2) Tissue fixation
3) Embedding
4) Staining

Question 31

procurement means

Answer 31

biopsy- removal of a small piece of tissue from an organ or tissue for microscopic examination

Question 32

examples of tissue procurement methods

Answer 32

• Curettage (endometrium)
• Transvascular
• Needle aspiration

Question 33

Curettage

Answer 33

scraping method for uterine tissue

Question 34

Needle aspiration

Answer 34

bone marrow, synovial fluid, thyroid tissue

Question 35

transvascular

Answer 35

venepuncture e.g. ABG analyst

Question 36

two ways of tissue fixing

Answer 36

1) Paraffin- embedded tissue section

2) Frozen section

Question 37

Paraffin- embedded tissue section

Answer 37

also involves embedding

• formalin used to kill sample and prevent putrefaction
• melted paraffin wax- to embed tissue for slicing
• microtome- slice tissue into v thin slice
• staining: H&E

Question 38

Frozen section

Answer 38

• surgical specimens frozen to -20 and -30
• cryostat- slice tissue
• staining: H&E

Question 39

paraffin wax formalin and frozen section are methods which

Answer 39

samples stay true to their original form

- preservation of biological tissue from decay due to autolysis and putrefaction

Question 40

paraffin wax formalin fixed sample stay true to their original form due to

Answer 40

cross bridges formign the sample

Question 41

paraffin wax embedding method (after fixation)

Answer 41

1. Dehydrated in different concentrations of alcohols
2. Immersed in dissolved paraffin wax (hot) overnight
3. Tissue orientated in a mould and more wax added
4. Allowed to cool to room temperature
5. Gently eased out of mould

Question 42

both paraffin embedded and frozen section samples can be stained with

Answer 42

Haematoxylin and Eosin

Question 43

Haematoxylin and Eosin

Answer 43

principle tissue stain in medical diagnosis

Question 44

haemtoxylin stains

Answer 44

nucleic acid- (acid- negative) blue

Question 45

Eosin stains

Answer 45

proteins in the cytoplasm and extracellular - pink

Question 46

name two other routine staining methods

Answer 46

massons trichome

periodic acid-schiff stain

Question 47

In massons trichome what colour does keratin and muscle fibre go

Answer 47

red

Question 48

In massons trichome what colour does collagen dn bone go

Answer 48

blue or green

Question 49

In massons trichome what colour does cytoplasm go

Answer 49

red or pink

Question 50

In massons trichome what colour does nuclei go

Answer 50

dark brown to black

Question 51

period acid-schiff stains

Answer 51

anything with a sugar attached

Question 52

embedding the tissue

Answer 52

allows the sample to be sliced very thinly e.g. melted paraffin wxx sets hard when cooled

Question 53

what is used to fix/ preserve a sample

Answer 53

formalin

Question 54

why do we stain a tissue

Answer 54

to see cell components

Question 55

what is quicker to do paraffin-embedded tissue section or frozen section

Answer 55

paraffin-embedded tissue section: 24-48h

frozen section: 10 -20 mins

Question 56

morphology of paraffin-embedded tissue section and frozen section under a microscope

Answer 56

paraffin-embedded tissue section- clarity

frozen section- opaque

Question 57

application of paraffin-embedded tissue section

Answer 57

pathological diagnosis

Question 58

application of frozen section

Answer 58

intraoperative

Question 59

how long can a paraffin-embedded tissue section be kept

Answer 59

permanant

Question 60

how long can a frozen section be kept

Answer 60

months

Question 61

RBC and H&E

Answer 61

pink and white int he middle- no DNA or protein where the nuclei is meant to be

Question 62

fat and H&E

Answer 62

cannot be visualised

Question 63

preparation of live cells

Answer 63

-	‘cutting and ‘dicing’
o	collagenase and DNAse
	centrifugation steps on basis of cell density
o	Put cells in appropriate growth medium
o	Culture enzymes
	View under phase contrast microscope

Question 64

what needs to be maintained constant in the internal environment when preparing live cells

Answer 64

 Conc of oxygen, CO2, salt and other electrolytes
 Conc of nutrients and waste products
 pH
 Temp
 Volume and pressure of fluid and cell compartments equalised

Question 65

cells in culture allow

Answer 65

experiments to determine cells and thus tissue function e.g. endothelial cells induced to die through programmed cell death

Question 66

advantage of cell culture

Answer 66

• Absolute control over the physical environment
• Homogeneity of sample
• Less need for animal models

Question 67

disadvantage of cell culture

Answer 67

• Hard to maintain
• Only grow small amount of tissue at high cost
• Dedifferentiation
• Instability, aneuploidy
• 3 dimension architecture lost
• influence of other cells/ tissue not maintained.

Question 68

immunohistochemsitry

Answer 68

antibody labelled with enzyme

Question 69

immunofluorescence

Answer 69

antibody labelled with fluorescent markers

• antibody bind to antigen
• fluorophore emits visible light