COLOUR PHOTOMICROGRAPHS

COLOUR PHOTOMICROGRAPHS

K 200

' •

f•

Fig. 1

,. • '

•

•

. ^{.. , .. ·-}

^.

^,

Menstrual phase

1 endometrial cells Cluster o

Early follicular phase

.. ,

Fig. 2

K 200

Fig. 3

X 200

Fig. 4

Late follicular phase

Eosinophilia, superficial squamous cells and pyknosis

X 200

Fig. 5

Early post-ovulatory phase

X 200

Fig. 6

X 200

Fig. 8

Luteal phase

Pregnancy smear Navicular cells

X 200

Fig. 7 Premenstrual phase

X 400

Fig. 9

X 200

Fig. 10

X 200

Fig. 12

Intermediate cells

Androgenic smear Intermediate and parabasal cells with pale

cyanophilic cytoplasm

Atrophic smear Parabasal cells

Postpartum cells

Cyanophilic para basal or intermediate cells with a prominent border

"200

Fig. 11

Fig. 13

)( 200

Fig. 14

)( 400

t •

I

l.

Fig. 16

Anucleated squame

Keratinization

, -

t '•

••

Karyorrhexis

Epithelial pearl

Benign

Karyolysis

)( 400

Fig. 15

)( 400

Fig. 17

X 800

Fig. 18

Endocervical columnar ciliated cells

X 800 X 800

Fig. 19 Fig. 20

Endocervical columnar ciliated cells

Arrows indicate sex chromatin bodies

X 800

Fig. 21

X 800

Fig. 23

Endocervical columnar cells, mucous type

(a) Isolated cells (b) Honeycomb cluster

Atrophic endocervical columnar cells

Menopause

X 250

Fig. 22

X 800

Fig. 24

X 400

Fig. 25

Endocervical reserve cells

Fig. 26

t

Endocervical reserve cells

Endocervical reserve cells Two layers

Endocervical reserve cell hyperplasia

X 50

X 400

• Fig. 29

X 400

Fig. 30

X 100

Fig. 31

Immature metaplastic squamous cells

Immature metaplastic squamous epithelium Alcian blue stain

-~ .. ..

•

·. '

X 100

Fig. 32

Immature metaplastic squamous cells

Maturing metaplastic squamous cells Spider cells

X 400

Fig. 33

X 400

Fig. 34

X 400

Mature metaplastic squamous cells

X 200 X 200

Fig. 36 Fig. 37

Mature metaplastic squamous epithelium

Alcian blue stain

Atypical metaplastic squamous cells

Atypical metaplastic squamous epithelium Alcian blue stain

X 800

Fig. 38

X 400

Fig. 39

X 400

•

X 800

Fig. 41

Follicular cervicitis

•

Cytology: lymphoid cells and reticulum cells

Follicular cervicitis Cytology: lymphoid cells and reticulum cells

Follicular cervicitis

Follicular cervicitis Histology

X 100

Fig. 42

X 800

Fig. 44 •

X 800

Fig. 45

"'

••

Multinucleated giant cells Histiocytic type

Multinucleated giant cells Syncytiotrophoblastic type

Multinucleated giant cellls Langhans type (tuberculosiu)

Tuberculous granuloma

X 800

Fig. 46

X 800 ^X 800

Fig. 48 Fig. 49

Histiocytes

X 800

I

Fig. 50

t

Plasma cells (solid arrows) and histiocytes (open arrows)

Phagocytosis (Engulfment)

Phagocytosis (arrows) of polymorphonuclear leucocytes

• 800

Fig. 51

X 400

Fig. 52

X 400

•

•

•

~

'

':Ill

•

Fig. 53

X 800

Fig. 54

·" •

' "'' ^{., . ..,} _{,._.}

- .. ^,.

"

• •

-

Regeneration of endocervical cells Arrows indicate cells in mitosis

•

. ^.,

·=·~ ••

~ ~

X 400

•

•

Fig. 55 Regeneration of endocervical cells

Note prominent nucleoli in regenerated cells. Arrow indicates cell in mitosis

X 500

Fig. 56 Regeneration of endocervical cells

X 400

Fig. 57

X 800

Fig. 59

Trichomonas vag ina lis Arrows indicate trichomonads

,

.l

Trichomonads (arrows) and squamous cells showing perinuclear halo

X 1600

Fig. 58

,

X 400

Fig. 60

.,

' - • ^....

Hyphae and conidia

. f

.. _...

= _/ .. ^{· '~} _{· .. '}

/ /

-.o; • - ·

, '

Candida

' ..

;

Leptothrix

:

'

/

Conidia

I

J

X 800

Fig. 61

• 800

' ^•

: • 4

Fig. 62

X 800

Fig. 63

Lactobacillus vaginalis and cytolysis

X 800

• I

- ^•

Fig. 64

Haemophilus vaginalis with "clue cell" (arrow)

"400

•

Fig. 65

•

.... ..

Herpes simplex Primary infection

Herpes simplex Recurrent infection

" 800

Fig. 66

X 800

Fig. 67

X 800

Fig. 68

X 800

Fig. 69

Endometrial c'<!lls

Endometrial epithelial cells (endometrial aspiration)

Endometrial cells Endometrial epithelial cells (vaginal pool)

•

X 800

Fig. 70 Endometrial cells

Deep endometrial stromal cells (endomettrial aspiration)

X 800

Fig. 71 Endometrial cells

Superficial endometrial stromal cells (endormetrial aspiration)

Fig. 72

Dysplasia, miild

X 400 . .

• _• ^..

•

,

•

Fig. 73

Dysplasia, mild

•

Fig. 74 Dysplasia, mild

X 200 ^X 400

Fig. 75 Fig. 76

Dysplasia, mild

X 400

... I

Fig. 77

X 800

Fig. 78

~·· •

Dysplasia, modmate

Dysplasia, mode!rate

X 400

Fig. 79

X 400 X 400

..

•

Fig. 80

•

Dysplasia, moderate

X 300 X 300

Fig. 82 - • Fig. 83

Dysplasia, moderate

X 400

Fig. 84 ·

Dysplasia, sevme

Three cells showing severe dysplasia (arrow) on a background of moderately dysplastic cells

X 400

Fig. 85

Dysplasia, severe

Dysplasia, severe Borderline carcinoma in situ

Dysplasia, severe Borderline carcinoma in situ

X 800

Fig. 86

X 100

Fig. 87

X 200 X 400

Epidermoid carcinoma in situ

X 600

Fig. 90 ^{Fig. 91}

Epidermoid carcinoma in situ

X 400

X 800

•

Fig. 92

•

Epidermoid carcinoma in situ

X 400

Fig. 94 Epidermoid carcinoma in situ

X 400 ^X 800

Fig. 96

Fig. 95

Epidermoid carcinoma in situ

X 500

Fig. 97

Epidermoid carcinonna in situ

X 250 ^{X 400}

Fig. 98 Fig. 99

Epidermoid carcinoma in situ

X 200 X 400

Fig. 100 Fig. 101

Epidermoid carcinoma in situ

X 250 _X 250

Fig. 102 Fig. 103

Epidermoid carcinoma in situ

X 250

Fig. 104

Epidermoid carcinoma in situ

X 100

Fig. 106

. a in situ .d carcmom Epidermo•

,

X 800

Fig. 105

X 250

Fig. 107

X 500

Fig. 108

Epidermoid carcinoma in situ with microinvasion

X 500

Fig. 109

Epidermoid carcinoma in situ with microinvasion

Epidermoid carcinoma in situ with microinvasion

X 40 X 160

Fig. 111 Fig. 112

Epidermoid carcinoma in situ with microinvasion

X 250

Fig. 113

X 800

Fig.114

Epidermoid carcin1oma Keratinizing type

Epidermoid carcinoma Keratinizing type

Epidermoid carcinoma Keratinizing type

Epidermoid carcinoma Keratinizing type

X 200

Fig. 115

X 400

Fig. 116

X 800

Fig.117

• 600

Fig.119

Epidermoid carcinoma large-cell non-keratinizing type

Epidermoid carcinoma large-cell non-keratinizing type

• 800

Fig.118

X 800

Fig. 120

Epidermoid carcinoma Large-cell non-keratinizing type

Epidermoid carcinoma Large-cell non-keratinizing type

X 800

Fig. 123

Epidermoid carcinoma Small·cell non·keratinizing type

Epidermoid carcinoma Small-cell non·keratinizing type

X 400

Fig. 125

, t

II

..

Epidermoid carcinoma Small-cell non-keratinizing type

Epidermoid carcinoma Small-eel non-keratinizing type

X 800

Fig. 126

X 500

Fig. 128

Well differentiated superficial aden,ocarcinoma of the cervix

X 40

Well differentiated superficial adenocarcinoma of the cervix

X 100 ^X 400

Fig. 130 Fig. 131

Well differentiated superficial adenocarcinoma of the cervix

X 800 ^X 600

Fig. 132 Fig. 133

Adenocarcinoma of the enclocervix

Cytology Histology

)( 600

Fig. 134

Adenocarcinoma of thE! endocervix

Fig. 135

Adenocarcinoma of the• endocervix

X 500

Fig. 136 Cervix: adenosquamous (mucoepidermoid) carcinoma

X 300 X 300

Fig. 137 Fig. 138

Cervix: adenosquamous (mucoepidermoid) carcinoma

X 400

Fig. 139 ·

X 250

Fig. 140

Cervix: adenosquamous (mucoepidermoid) carcinoma

Cervix: adenosquamous (mucoepidermoid) carcinoma Alcian blue stain

X 800

Fig. 141 Cervix: clear cell (mesonephric) carcinoma

X 200

' Fig. 142 Cervix: clear cell (mesonephric) carcinoma

Histology: Note tubular pattern and" hobnail·· cells with scanty vacuolated cytoplasm

X 500

Fig. 143

X 100

Fig. 145

•

,

Fig. 144 Endometrium: cystic glandular hyperplasia

Endometrium: cystic glandular hyperplasia

X 500 ^X 800

Fig. 146 Fig.147

Endometrium: atypical hyperplasia (carcinoma in situ?)

X 100

Fig. 148

Endometrium: atypical hyperplasia (c:arcinoma in situ?)

><500 X 400

Fig. 150 Fig. 151

Endometrium: atypical hyperplas:ia (carcinoma in situ 7)

Fig. 152

Endometrium: atypical hyperplasia (carcinoma in situ 7)

,.

....

.. .

'·

Endometrium: well differentiated adenocarcinoma

Endometrium: well differentiated adenocarcinoma

X 500

, .,

Fig. 153

X 400 ^X 800

Fig. 155

...

Endometrium: moderately differentiated adenocarcinoma

Fig.157

Endometrium: moderately differentiated adenocarcinoma

X 400 ^X 800

Fig. 158 Fig. 159

Endometrium: moderately differentiated adenocarcinoma

X 250

Fig. 160 Endometrium: moderately differentiated adenocarcinoma

X 400

·1'1 •• ••

, ^.... _.... ..

,..,o~

fit •

,

Fig. 161

~

~

X 200

Fig. 163

,. - ^• -

Endometrium: poorly differentiated adenocarcinoma

Endometrium: poorly differentiated adenocarcinoma

X 800

Fig. 162

X 500 ^X 500

Fig. 164 Fig. 165

Endometrium: adenosquamo1us carcinoma

X 70

Fig.167 Endometrium: adenosquamous. carcinoma

Corpus: leiomyosarcoma

Corpus: leiomyosmcoma

X 800

Fig. 170 Corpus: leiomyosarcoma

X 800

Fig. 171 Corpus: leiomyosarcoma

X 800

Fig. 172

X 100

Fig. 174

Corpus: mesodermal mixed tumour Striated muscle cell

Corpus: mesodermal mixed tumour

X 800

Fig. 173

X 400

Fig. 175

•

Fig. 176 Corpus: mesodermal mixed tumour

Fig. 177 Corpus: mesodermal mixed tumour

Note heterologous element (chondrosarcom;~) on upper right

"400

• •

\J· •

Fig. 178

"150

Fig. 180

•

· -

Trophoblast

Benign cytotrophoblastic cells (abortion)

Trophoblas1t Hydatidiform mole

Trophoblast Hydatidiform mole

"400

Fig. 179

t

Choriocarcinoma Malignant cytotrophoblastic cells

Choriocarcinoma Histology

X 400

Fig. 181

Fig. 182

X 400 ^X 400

•

Fig. 183 Fig. 184

Irradiation effect on malignant squamous cells

X 400

Fig. 185

Irradiation effect on malignant glandular cells

Fig. 186 Irradiation effect on benign squamous cells

Fig. 187 Folic acid deficiency

X 800,

Uterine tube: adenoearcinoma

Fig.189 • Fig. 190

Uterine tube: adenocarcinoma

X 800 "-;y X 800

~

Fig. 191 Fig. 192

Ovary: adenocarcinoma

Fig. 193 Ovary: adenocarcinoma

X 800

Fig. 194

Malignant melanoma

X 500

Fig. 195

Lymphosarcoma