OBS AND GYN MCQ PDF

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This document is a collection of multiple-choice questions (MCQs) on obstetrics and gynecology.

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OBS & GYN MCQ

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Following are the parts of external genitalia: b) The vault of the vagina is divided into three
a) Uterus. areas in relation to cevix.
b) Clitoris. c) Its lower part appears V shaped on
crosssection.
c) Labia majora.
d) It is lined by coloumnar epithelium.
d) Ovary.
e) The cells in the middle & superficial zone
e) Labia minora contain glycogen.
Ans. a) F, b) T, c) T, d) F, e) T. Ans. a) T, b) F, c) F, d) F, e) T.

Vagina develops from: The vagina:
a) Mullerian duct. a) Length of the anterior wall is more than the
b) Wolfian duct. length of posterior wall.
c) Sinovaginal bulb. b) It doesn't contain hair follicles, sweat &
sebaceous gland.
d) Genital ridge.
c) Glycogen presents at puberty.
e) Genital swelling.
d) p ranges between 4-5.5.
Ans. a) T, b) F, c) T, d) F, e) F.
e) Doderlein's bacillus is not normal flora.
Ans. a) F, b) T, c) T, d) T, e) F.
Regarding vagina:
a) Anterior vaginal wall is longer than the
posterior vaginal wall. The vagina:
b) Connects the cervix to the external genitalia. a)It is lined by transitional epithelium.
c) Bladder & urethra lies posterioly. b) Is a fibromuscular organ.
d) Lined by stratified squamous epithelum. c) Secretes alkaline mucus.
e) Forms birth canal during labour. d) Normally remains closed.
Ans. a) F, b) T, c) F, d) T, e) T. e) Gets shortened in menopause.
Ans. a) F, b) T, c) F, d) T, e) T.
The vagina:
a) Is lined with non keratinized stratify The vagina:
squamous epithelium. a) Is lined by columnar epithelium.
b) Is directed upwards & backwards. b) Is kept moist mainly by secretion of.
c) Normally has a p" of 4-5 during child bearing Bartholin gland.
age. c) Has its upper end above the pelvic floor.
d) Has abundant mucous secretory gland d) Is sorrounded by bulbospongious muscle at
e) Common site of fungal infection. its introitus.
Ans. a) T, b) T, c) T, d) F, e) T e) Has lateral walls lying in contact with each
other when collapsed.
Ans. a) F, b) T, c) F, d) T, e) F
Regarding vagina:
a) Is an elastic fibromuscular canal.
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Internal genitalia consists of: e) Ovarian ligament.
a) Uterus. Ans. a) T, b) F, c) T, d) T, e) F
b) Fallopian tubes
c) Vagina. Supports of the uterus are:
d) Clitoris. a) Endocervical ligament.
e) Labia minora. b) Round ligament.
Ans. a) T, b) T, c)T, d) F, e) F. c) Ovarian ligament.
d) Broad ligament.
Lymphatic drainage of uterus: e) Pelvic cellular tissue.
a) Para aortic. Ans. a) T, b) T, c) F, d) T, e) T.
b) Internal iliac.
c) Lumber group of lymph node. The uterus:
d) Obturator group. a) Develops from the paramesonephric ducts.
e) Aortic lymph node. b) In childhood the body of uterus is longer
Ans. a) F, b) T, c) T, d) F, e) T. than the cervix.
c) Support of uterus mainly from the broad
ligament.
Uterus is supplied by:
d) It is retroverted in 15% women.
a) Uterine artery.
e) Blood supply partly from ovarian artery.
b) Obturator artery.
Ans. a) F, b) T, c) F, d) T, e) T.
c) Ovarian artery.
d) Femoral artery.
The uterus:
e) Femoral pudendal artery.
a) Develops from the paramesonephric ducts.
b) In childhood the body of uterus is longer
Main supports of the uterus are: than the cervix.
a) Broad ligament. c) Derives most of its support from the broad
b) Ovarian ligament. ligament.

c) Round ligament. d) It is retroverted in 15% women.

d) Mackenrodt's ligament. e) Posteriorly it is related with pouch of
douglas.
e) Utero-sacral ligament.
Ans. a) F, b) T, c) F, d) T, e) T.
Ans. a) F, b) F, c) T, d) T, e) T.

Uterus:
Main supports of the uterus are:
a) Forms the posterior wall of the uterovesical
a) Mackenrodt's ligament. pouch.
b) Broad ligament. b) Forms the anterior wall of the pouch of
c) Utero-sacral ligament. Douglas.
d) Pubo-cervical ligament. c) Contains ampullary part of Fallopian tube.
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d) Developed from Wolffian duct.
e) After menopause atrophies. The support of the uterus is provided by:
Ans. a) T, b) F, c) F, d) F, e) T. a) Cardinal ligament.
b) Uterosacral ligament.
Supports of the uterus includes: c) Sigmoid colon
a) Transverse cervical ligament. d) Round ligament.
b) Uterosacral ligament. e) Integrity of the perineal body.
c) Ovarian ligament. Ans. a) T, b) T, c) F, d) T. e) T.
d) Root of mesentry.
e) Pubocervical ligament. Major supports of the uter
Ans. a) T, b) T, c) F, d) F, e) T. a) The levator ani muscle.
b) The uterosacral ligament.
Which of the following structures lie within the c) The round ligament.
broad ligament: d) Mackenrodt's ligament.
a) The fallopian tube. e) Broad ligament
b) The ureter. Ans. a) F. b) T, c) F, d) T. e) F.
c) The uterine artery.
d) The ovarian artery. Normal postion of uterus:
e) The inguinal lymphnodes. a) Anteverted,
Ans. a) T, b) F, c) T, d) T, e) F. b) Retroverted.
c) Anteflex.
Major supports of the uterus are: d) Retroflex.
a) The levator ani muscle. e) None of the above
b) The uterosacral ligament. Ans. a) T, b) F, c) T, d) F, e) F.
c) The round ligament.
d) The Mackenrodt's ligament. Regarding uterine support
e) The infundibulo-pelvic ligament. a) Broad ligament is main support.
Ans. a) F, b) T, c) F, d) T, e) F. b) Position of uterus may be changed with
condition of urinary bladder.
Adult uterus: c) Retroversion is a pathologicai condition.
a) About 7.5 cm in length. d) Forceps delivery may damage uterine
b) It may enlarge in ovarian tumour. support.
c) Having three layers. e) Cardinal ligament is the main support.
d) Developed from wolfian duct. Ans. a) F, b) T, c) T, d) T, e) T.
e) Lining epithelium is stratified squamous.
Ans. a) T, b) F, c) T, d) F, e) F. Uterus:

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a) Broad ligament is the main support. a) The fallopian tube.
b) Develops from yolk sac. b) The ureter.
c) Blood supply derived fom external iliac c) The uterine artery.
arteries. d) The ovarian artery.
d) Ratio of body of uterus to cervix varies with e) The superior vesical artery.
the age of the individual.
Ans. a) T, b) F, c) T, d) T, e) F.
e) Retroversion is not pathological condition
Ans. a) F, b) F, c) F, d) T, e) F.
Position of uterus:
a) Usually retroflexed.
Supports of the uterus is provided by:
b) When cervix makes an angle of 75 degree
a) The cardinal ligaments. with vagina called anteversion.
b) The round ligament. c) It is not mobile. d) The most fixed part is
C) The uterosacral ligament. supravaginal cervix.
d) The integrity of the perineal body. e) When bladder is full, rotation of uterus
e) The broad ligament. doesnot occurs.
Ans. a) T, b) T, c) T, d) T, e) T. Ans. a) F, b) F,c) F, d) T, e) F.

Main snpport of uterus includes: Lymphatic drainage of cervix:
a) Round ligament. a) Common iliac nodes.
b) Transverse cervical ligament. b) Aortic nodes.
c) Levator ani muscle. c) Paracervical nodes.
d) Broad ligament.
e) Transverse perineal ligament.
Ans. a) F, b) T, c) F, d) F, e) F. d) Obturator nodes.
e) Inguinal lymphnodes.
Regarding uterus: Ans. a) T, b) F, c) F, d) T, e) F.
a) is not thick walled muscular organ.
b) Cavity of the uterus is triangular in shape. Lymphatics from the cervix drains into:
c) Endometrium not varies according to the a) Internal iliac group.
phase of menstrual cycle.
b) Inguinal group.
d) The isthmus is not part of uterus.
c) Obturator group.
e) The isthmus becomes lower uterine
segment duing pregnancy. d) Para aortic group.

Ans. a) F, b) T, c) F, d) F, e) T. e) External iliac group.
Ans. a) T, b) F, c) T, d) F, e) T.

Which of the following structures lie within the
broad ligament: The Fallopian tube:

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a) Each tube is 10 cm in length. a) Mullerian agenesis.
b) Narrowst part of the tube is isthmus. b) Transverse vaginal septum.
c) Is lined entirely by ciliated columner c) Didelphys uterus.
epithelium. d) Bicornuate uterus.
d) Has two ostiums. e) Fibroid uterus.
e) Blood supply by the ovarian vessel only. Ans. a) T, b) F, c) T, d) T, e) F.
Ans. a) T, b) T, c) T, d) T, e) F.
Gonads develops from:
Developmental anomaly of mulleruian a) Coelom.
duct,includes:
b) Primordial germ cell.
a) Bicornuate uterus.
c) Genital ridge.
b) Labial fusion.
d) Dorsal mesentery.
c) Absent uterus.
e) Mesenchymal cells.
d) Arcuate uterus.
Ans. a) T, b) F, c) F, d) F, e) T.
e) Imperforate hymen.
Ans. a) T, b) F,c) F, d) T, e) F.
Malformations of Mullerian ducts are:
a) Unicornuate uterus.
Genital organs developed from Mullarian duct:
b) Bicornuate uterus.
a) Fallopian tube.
c) Uterus didelphys.
b) Uterus.
d) Septate uterus
c) Cervix.
e) Imperforated uterus.
d) Whole vagina.
Ans. a) T, b) T, c)T, d) T, e) F.
e) Ovary.
Ans. a) T, b) T, c) T. d) F. e) F.

Genital organs developed from Mullarian duct:
a) Uterus.
b) Ovary.
Uterine anomalies are: c) Vas deferens.
a) Imperforate hymen. d) Fallopian tube.
b) Transverse vaginal septum. e) Vulva.
c) Didelphys uterus. Ans. a) T, b) F, c) F, d) T, e) F.
d) Fibroid uterus.
e) Adenomyosis. Genital organs developed from Mullarian duct:
Ans. a) F, b) F, c) T, d) F, e) F. a) Uterus.
b) Ovary.
Uterine anomalies are: c) Fallopian tube.
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d) Part of vagina.
e) Vulva. Following structures developed from Mullerian
Ans. a) T, b) F, c) T, d) T, e) F. duct
a) Uterus.
Following are the Mullerian anomaly b) Ovary.
a) Streak gonad. c) Whole of vagina.
b) Bicornuate uterus. d) Urethra.
c) Absence of fallopian tube. e) Fallopian tube.
d) Ovotestis. Ans. a) T, b) F, c) F, d) F, e) T.
e) Fusion of labia majora.
Ans. a) F, b) T, c) F, d) F, e) F. The principle hormones secreted from ovaries:
a) FSH.
Bicomuate uterus may cause: b) Estrogen.
a) Dysmenorrhoea. c) Progesterone.
b) Menorrhagia. d) Prolactin.
c) Infertilty. e) Oxytocin.
d) STD. Ans. a) F, b) T, c) T, d) F, e) F.
e) CIN.
Ans. a) T, b) T, c)T, d) F, e) F. Which of the followings are gonadotrophin
a) FSH & LH.
Regarding uterine anomalies: b) Prolactin.
a) Mullerian duct abnormalities associated with c) Oxytocin.
it. d) Progesterone.
b) Menstrual abnormalities is associated with it. e) Estradiol.
c) May causes infertility. Ans. a) T, b) F, c) F, d) F, e) F.
d) May cause abnormal labour.
e) Never cause dysmenorrhoea. Functions of ovary are:
Ans. a) T, b) T, c) T, d) T, e) F. a) Production of sperm.
b) Production of ova.
Following are the Mullerian anomaly: c) Synthesis of oestrogen.
a) Streak gonad. d) Synthesis of progesterone.
b) Bicornuate uterus. e) Synthesis of prolactin.
c) Absence of fallopian tube. Ans. a) F, b) T, c) T, d) T, e) F.
d) Ovotestis.
e) Arcuate uterus. Ovary produce
Ans. a) F, b) T, c) F, d) F, e) T. a) Androgen.

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b) Estrogen.
c) Progesterone. Female urethra:
d) Oxytocin. a) 4 cm in length.
e) TSH. b) Posteriorly related to vagina.
Ans. a) T, b) T, c) T, d) F, e) F. c) Passes downwards & backwards from the
bladder base.
Functions of ovary are: d) Opens into the vestibule.
a) Production of ova. e) Developed from the Wolfian duct.
b) Production of hormone. Ans. a) T, b) T, c) F, d) T, e) F.
c) Implantation
d) Fertilization. Regarding menstruation:
e) All are true. a) Amount is more then 100 ml.
Ans. a) T, b) T, c) F, d) F, e) F. b) Always associated with pain.
c) Proliferative phase is fixed.
In regards to the human ovary: d) Bleeding can be controlled by drugs.
a) The primordial follicles are embedded in the e) Contains endometrial debris.
medulla. Ans. a) F, b) F,c) T, d) T, e) T.
b) Ovulation doesnot occur in utero.
c) Similar to testis the ovary originates from Menstrual cycle:
gonadal ridge. a) May be defined as periodic & cyclical
4) Usually only one follicle develop every cycle. shedding of progestational endometrium
e) Ovulation occurs 24-36 hour post LH surge. accompanied by loss of blood.
Ans. a) F, b) T, c) T. d) F, e) F. b) Superficial one third of the endometrium
usually sheds with each cycle.
c) Consist of proliferative phase and secretory
phase.
d) Secretory phase is under the influence of
oestrogen.
e) May be ovulatory or anovulatory.

Pelvic course of ureter: Ans. a) T, b) T, c) T, d) F, e) T.

a) Can be traced by IVU.
b) Crosses the bifurcation of common iliac During normal menstruation:
artery. a) Progesterone is predominant during
c) Is in close association with ovarian artery. proliferative phase.

d) Can be injured during salpingectomy. b) Oestrogen is predominant during secretory
phase.
e) Crosses the uterine artery at the level of
internal os. c) Average blood loss 250 ml.

Ans. a) F, b) T, c) T, d) T, e) T.
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d) Cervical mucus is more viscus during a) Ovarian hormone is not responsible for
ovulation. menstruation.
e) Is often followed by fluid retention b) Amount of blood loss 35 ml.
Ans. a) F, b) F, c) F, d) F, e) F. c) Proliferative phase is fixed.
d) Menstrual pain and blood flow.
Cyclical changes of menstruation occur in: e) Contains fragment of endometrium and
bacteria.
a) Uterus.
Ans. a) F, b) T, c) F, d) T, e) T.
b) Ovary.
Menstruation:
c) Vagina.
a) Cyclical uterine bleeding.
d) Urinary bladder.
b) Due to degeneration of corpus luteum.
e) Fallopian tube.
c) Normal duration is about 10 days.
Ans. a) T, b) F,c) F, d) F, e) F.
d) Amount of blood loss is about 20-80 ml.
e) Prostaglandin is responsible for stopping
Menstruation & ovulation: bleeding.
a) Oestrogen is predominant during secretory Ans. a) T, b) T, c) F, d) T, e) F.
phase.
b) Prolactin is predominant during proliferative
phase. The endometrium:
c) Oestrogen is low during menstruation. a) Is supplied with blood by radial & spiral
arteries.
d) Cervical mucous is more viscus during
ovulation. b) Shows subnuclear vaculation of the
glandular epithelial cells before ovulation.
e) OCP can change the thickness of of cervical
mucus. c) Shows tortuous lengthened glands in the
secretory phase.
Ans. a) F, b) F,c) T, d) F, e) T.
d) Shows declining glandular secretion after
the 22nd day of the cycle if pregnancy fails
During normal menstrual cycle: to occur.
a) Oestrogen is predominant during the e) Divided into a superficial compact and deep
proliferative phase. spongy layer in the functional zone
b) Average blood loss 150 ml. between the 25th & 28h day of the cycle.
c) Cervical mucus is more viscus during Ans. a) F, b) F. c) T. d) T, e) T.
ovulation.
d) Menstruation preceded by a rise in plasma
progesterone level.
e) Oestrogen low during menstruation. Ovulation can be confirmed by:
Ans. a) T, b) F, c) F, d) F, e) T. a) Serum progesterone level on day 22 of
menstruation.
Regarding menstruation: b) Secretory change of endometrium.
c) Tracking of the grafian follicle by USG.
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d) Hysteroscopy. Ans. a) T, b) T, c) T, d) T, e) F.
e) Colposcopy.
Ans. a) T, b) T, c) T, d) F, e) F. Ovulation:
a) Is controlled by hypothalamus pituitary
Ovulation: ovarian axis.
a) Occurs at 14th day of menstrual cycle. b) Occur before LH surge.
b) Is associated with LH surge. c) Inhibited by OCP.
c) Is diagnosed by serum progesterone only. d) Induced by Aromatase inhibitor.
d) Is marked by rise in basal body temperature e) Raised Day-21 progesterone confirm
of 2-3°F. diagnosis.
e) May be associated with mid-cycle pain. Ans. a) T, b) F, c) F, d) F, e) T.
Ans. a) T, b) T, c) F, d) F, e) T.
The ovarian cycle consists of:
Evidence of ovulation are: a) Recruitment of groups of ovum.
a) Uniphasic Basal body temperature chart. b) Selection of dominant follicle.
b) Positive spinbarkiet thread test. c) Ovulation.
c) Regular menstruation. d) Corpus luteum formation.
d) Corpus luteum by laparoscopy. e) Demise of corpus luteum.
e) Rise of oestrogen level in luteal phase. Ans. a) T, b) T, c) T, d) T, e) T.
Ans. a) F, b) F, c) T, d) T, e) F.
The tests for the diagnosis of ovulation on the
The following are evidences of regular 21 in a 28 days menstrual cycle:
ovulaiton: a) Estrogen.
a) Premenstrual mastalgia. b) FSH.
b) Ovulation cascade. c) Progesterone.
c) Raised progesterone level in luteal phase. d) LH.
d) Biphasic rise of basal body temperature. e) Histology of endometrium.
e) Oligomenorrhoea. Ans. a) F, b) F, c)T, d) F, e) F.
Ans. a) T, b) T, c) T, d) T, e) F.
Ovulation:
The ovarian cycle consists of: a) Can be diagnosed by 21 day progesterone.
a) Recruitment of groups of ovum. b) Can be induced by drugs.
b) Selection of dominant follicle. c) Occurs within 24-48 hours of LH surge.
c) Ovulation. d) Is essential for menstruation.
d) Corpus luteum formation. e) Is the periodic discharge of ovum in the form
of primary oocyte.
e) Pregnancy loss.
Ans. a) T, b) T, c) F, d) F, e) F.
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 Ans. a) T, b) F, c) T, d) F, e) F.
Ovulation:
a) Is a pre-requisite for pregnancy. Ovulation:
b) Occurs prior to LH surge. a) The luteal phase is of constant length.
c) Can be diagnosed by measuring 21 day b) Average menstrual blood loss is 100 ml.
progesterone. c) Menstruation coincides with ovulation.
d) Occurs after menopause. d) Anovular cycles are mostly painless.
e) Can be induced by drugs. e) Increased day 21 progesterone is the surest.
Ans. a) T, b) F, c) T, d) F, e) T. Ans. a) T, b) F, c) T, d) T, e) F.

Ovulation: Ovulation:
a) Occurs as a resultlof mid cycle LH surge a) Is associated with a surge of luteinizing
b) Occurs 14 days before the onset of the hormone.
menstrual flow. b) Followed by development of secretory
c) Release oocyte surrounded by granulosa endometrium.
cells. c) Associated with an increase in motility of
d) Can be detected by appearanceof fern fallopian tube.
pattern in the cervical mucus on 22nd of d) Is associated with a sustained fall in basal
cycle. body temperature.
e) Related to Biphasic variation of basal e) Is followed by rise in urinary pregnan
temperature. Ans. a) T, b) T, c) F, d) F, e) T.
Ans. a) T, b) T, c) T, d) F, e) T.
Ovulation: Evidences of ovulation are:
a) Causes expulsion of secondary of a) Regular menstruation.
secondary oocyte.
b) Menorrhagia.
b) Commonly occur during menopause
c) Pregnancy.
c) Inducted by LH surge.
d) Excessive cervical discharge.
d) Follicular fluid escapes.
e) Biphasic basal body temperature.
e) Diagnosed by 21 days progesterone.
Ans. a) T, b) F, c) T, d) T, e) T.
Ans. a) T, b) F,c) T, d) T, e) T.

Ovulation can be diagnosed by
a) Regular menstrual cycle.
b) Monophasic temperature chart. Evidences of ovulation are:
c) Secretory phase in endometrial biopsy a) Regular menstruation.
d) Plasma progesterone level 180 /min. e) H/O previous stillbirth.
c) Meconium stained liquor. Ans. a) T, b) T, c)T, d) F, €, T.
d) Early deceleration.
e) Scalp pH > 8. Common causes of IUFD:
Ans. a) T, b) F, c) T, d), e)F. a) Hypertensive disorders in
b) Maternal infection.
Anencephaly is commonly associated with: c) Fetal infection.
a) Face presentation. d) APH.
b) Oligohydramnios. e) External cephalic version
c) Risk of shoulder dystocia in labour. Ans. a) T, b) T, c) T, d) T, e) T.
d) Folic acid deficiency. 0: TRU-15Jul ders in pregnancy
e) Normal serum a-feto protein level.
Ans. a) T, b) F, e) T, d) T, e) F. Complications of premature
a) Asphyxia.

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b) Hyperglycaemia. d) Congenital anomaly.
c) Hypothermia. e) Multiparity.
d) Infection. Ans. a) T, b) F, c) T, d) T, e) F.
e) Jaundice.
Ans. a) T, b) F, c) T, d) T, e) T. Causes of IUD are:
a) Uncontrolled DM.
Causes of IUGR include: b) Severe PE /eclampsia.
a) Smoking c) Gross IUGR.
b) Hypertension. d) External cephalic version.
c) Multiple pregnancy. e) Caesarean section.
d) GDM. Ans. a) T, b) T, c) T, d) T, e) F.
e) Chorioamnionitis.
Ans. a) T, b) T, c) T, d) F, e) F.

Early evidence of IUD is:
a) Absence of FHS. The component APGAR score are:
b) Spalding sign. a) Appearance.
c) Hyper-flexion of fetal spine. b) Reflex.
d) Absence of fetal movement. c) Temperature.
e) Appearance of gas shadows in chambers of d) Respiratory rate.
heart. e) Heart rate.
Ans. a) T, b) F, c) F, d) T, e) F. Ans. a) T, b) F, c) F, d) T, e) T.

Mode of delivery in IUD: Regarding physiological jaundice of newborn:
a) Induction of labour by oxytocin. a) Usually appears on 4th day.
b) By prostaglandin. b) Disappears by the 7th-10th days.
C) By caesarean section. c) Unconjugated serum bilirubin level rises.
d) Expected management for spontaneous d) Phototherapy is the only treatment.
onset of labour.
e) Exchange transfusion is commonly required.
e) By ARM. Ans.
Ans. a) T, b) T, c) T, d) F, e) F.
a) T, b) T, c) F, d) T, e) F.

Causes of neonatal jaundice are:
Causes of IUD are:
a) Rh-incompatibility.
a) Post-maturity.
b) Hypoglycaemia.
b) Malpresentation.
c) Neonatal sepsis.
c) PROM.
d) Prematurity.
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e) Maternal diabetes.
Ans. a) T, b) F, c) T, d) F, e) F. The following structures are cut during
episiotomy:
Prerequisites for application of forceps a) Posterior vaginal wall.
delivery: b) Anal sphincter.
a) Patient must be multiparous. c) Part of levator ani muscle.
b) Presentation must be cephalic. d) Transverse perineal muscle.
Cervix must be fully dilated. e) Pudendal nerve.
d) Membrane should be intact. Ans. a) T, b) F, c)T, d) T, e) F.
e) Bladder should be empty.
Ans. a) F, b) T, c) T, d) F, e) T. Common causes of maternal death are:
a) PPH.
Absolute indications of C/S are: b) Twin pregnancy.
a) Breech presentation. c) Eclampsia.
b) Gross CPD. d) Preterm labour.
c) Central placenta praevia. e) Obstructed labour.
d) Bad obstetric history. Ans. a) T, b) F, c) T, d) F, e) T.Followings are
e) H/O previous one C/S. the direct causes of maternal death:
Ans. a) F, b) T, c) T, d) F, e) F. a) Heart disease.
b) PPH.
Indications of forceps delivery are: c) Anaemia.
a) Prolong second stage labour. d) Eclampsia.
b) Fetal distress in first stage of labour. e) Septic abortion.
c) Obstructed labour. Ans. a) F, b) T, c)F, d) T, e) T.
d) Delivery in Rh-negative mother.
e) Arrest in after-coming head of breech. Rh negative women:
Ans. a) T, b) F, c) F, d) T, e) T. a) Should deliver in hospital.
b) Anti-D should be given if baby is Rh -ve.
Common indication of LSCS: c) No need of cord blood collection.
a) Cephalopelvic disproportion. d) Should deliver her baby before crossing her
EDD.
b) Placenta praevia type-1.
e) Hydrops fetalis occur in case Rh
c) Obstructed labour with dead fetus. isoimmunisation.
d) Transverse lie. Ans. a) T, b) F, c) F, d) T, e) T.
e) Fetal distress at 1st stage of labour.
Ans. a) T, b) T, c)F, d) F, e) T.

66 | P a g e Step-up to BMDC