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
·" •
' "'' ., . .., ,._.
- .. ,.
"
• •
-
Inflammation Changes in parabasal cellsRegeneration 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 . .
• • ..
•
i,
•
Fig. 73
Dysplasia, mild
•
X 400Fig. 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
•
Fig. 81Dysplasia, 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
•
Fig. 93Epidermoid 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
•
,
X 800Fig. 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)
,.
....
.~.. .
'·
f\Endometrium: well differentiated adenocarcinoma
Endometrium: well differentiated adenocarcinoma
X 500
, .,
Fig. 153
X 400 X 800
Fig. 155
...
Fig. 156Endometrium: 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
•
X 800Fig. 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