Transcript Document
Pediatric Board Review
Endocrinology
Calcium
An otherwise healthy 6-week infant presents with a
generalized seizure. She is exclusively breast fed. The
child is somewhat sleepy with a non focal examination.
Glucose 88; Na 141, Ca 5.1, Phos 9.1, Mag 2.1
The most likely diagnosis is:
Pseudohypoparathyroidism
Hypoparathyroidism
Vitamin D deficiency
Albright’s hereditary
osteodystrophy
30%
20%
os
...
ita
’s
he
r
ed
D
in
Al
br
igh
t
m
Vi
ta
ry
de
fic
i
di
sm
at
hy
ro
i
di
sm
Hy
po
pa
r
th
yr
oi
ar
a
do
hy
po
p
30%
en
cy
20%
Ps
eu
1.
2.
3.
4.
10
Actions of PTH
Ca
1.
2.
3.
25 OH Vit D
1 hydroxylase
1,25 (OH)2 Vit D
Gut
NET EFFECT
PO4
This same 6-week infant with hypoparathyroidism
(Glucose 88; Na 141, Ca 5.1, Phos 9.1, Mag 2.1)
What is an important diagnostic consideration
(i.e. what is the underling disorder causing the
hypoparathyroidism)?
DiGeorge syndrome – thymic aplasia, congenital heart
disease, immune deficiency
Biochemical changes in rickets
Ca
Stage 1
Stage 2
PO4
N
N
Bone
Urine
Minimal
changes
Rickets
Aminoaciduria
Phosphaturia
Glycosuria
Bicarbonaturia
Initial
Ca:
PO4:
Alk Phos:
9.7
3.1
2514
2 ½ weeks
9.8
3.5
2185
4 months
10.5
6.5
518
Which is consistent with vitamin D
deficiency rickets?
Calcium
Phos
10
Alk Phos
A. Normal Normal
al
No
rm
No
rm
al
h
Lo
w
h
Lo
w
Hi
g
Lo
w
Lo
w
Lo
w
No
Hi
g
rm
al
Hi
gh
Lo
w
Lo
w
7%
al
E.
14%
No
rm
D.
21%
al
C.
29% 29%
No
rm
B.
Low
Low Low
Low
Low High
High
Low Normal Normal
Normal
Low
High
Choose correct answer
A. Vitamin D deficiency rickets
B. Renal osteodystrophy (renal rickets)
C. Both
D. Neither
1. Increased phosphate level
B
2. Increased PTH level
C
3. Increased creatinine level
B
THYROID
Baby A, born on 5/27/10. Newborn screening tests,
performed on 5/29/10 revealed:
Normal range
TSH
37 µIU/ml
< 20
T4
10.1 µg/dl
9-19
Which statement is most accurate:
d
te
re
al
A
by
Ba
Ba
by
A
ha
s
lik
el
y
w
A
h.
..
..
ha
do
e
sn
ot
m
ve
lo
p
de
ill
co
Ba
by
0%
an
...
lh
ng
en
it a
0%
en
t. .
0%
ha
s
D.
A
C.
100%
by
B.
Baby A has congenital
hypothyroidism warranting
urgent therapy
Baby A will develop
mental retardation if
untreated
Baby A likely does not
have any thyroid
abnormality
Baby A has an altered
hypothalamic set-point for
T4
Ba
A.
10
You are contacted by your state Neonatal Thyroid
Screening Program. Baby X was born on 1/4/10.
His newborn screening tests, performed on 1/6/10
revealed:
Initial filter paper
TSH
T4
Normal range
>200 IU/ml
< 20
2.1 g/dl
9-19
Venipuncture: (1/25/10)
TSH 488 IU/ml
T4
1.2 g/dl
Normal range
(0.3-5.5)
(4.5-12.5)
Congenital hypothyroidism
Thyroid dysgenesis/agenesis
Prevalence 1 in 4,000 [Whites 1 in 2,000; Blacks
1 in 32,000]
2:1 female to male ratio
Clinical features include:
hypotonia, enlarged posterior fontanelle,
umbilical hernia, indirect hyperbilirubinemia
Laboratory findings: Very high TSH and low T4
Therapy: Thyroxine – keep TSH in normal range
6 month female with
congenital hypothyroidism
..following 4 months
therapy
A baby with gastroschisis has the following TFTs on day 5
of life:
T4
2.1 μg/dL
(4.5-12.5)
TSH
2.3 μIU/mL (0.3-5.0)
The most likely diagnosis is:
10
20% 20%
20%
...
fu
nc
t io
n
c. .
.
al
No
rm
Hy
po
th
y
ro
i
th
yr
oi
d
di
sm
fro
m
ex
en
sm
TB
G
hy
ro
i
de
fic
i
di
...
to
lh
yp
ot
du
e
di
sm
cy
0%
Ce
nt
ra
E.
40%
ro
i
B.
C.
D.
Hypothyroidism due to
thyroid dysgenesis
Central hypothyroidism
TBG deficiency
Hypothyroidism from
excess iodine exposure
Normal thyroid function
(as the TSH is normal)
Hy
po
th
y
A.
Central hypothyroidism - rare
vs.
TBG deficiency
1:2800
Thyroxine (T4)
Major product secreted by the thyroid
Circulates bound to thyroid binding proteins
- thyroid binding globulin (TBG)
Only a tiny fraction (< 0.1%) is free and diffuses
into tissues
When we measure T4, we measure the T4 that is
bound to protein
The level of T4 is therefore largely dependent on
the amount of TBG
Changes in T4 may reflect TBG variation rather
than underlying pathology
Central
hypothyroidism
TBG
deficiency
Free T4
Low
Normal
TBG level
Normal
Low
T3RU
Low
High
Thyroid function in a 17 year old:
TSH:
3.7
µIU/ml
T4:
13.4 µg/dl
Normal range
0.3-5.5
4.5-12
Which of the following medication could explain the thyroid
function abnormality
10
A. INH
B. Retinoid acid
50%
50%
C. Ciprofloxacin
D. Ortho Tri-Cylen
E. Doxycycline
e
n
lin
Do
xy
cy
c
yle
i-C
Tr
th
o
Or
Ci
p
ro
flo
xa
c
ac
id
Re
t in
oi
0%
in
0%
d
IN
H
0%
Conditions that cause alterations in TBG
Increased TBG
Infancy
Estrogen
- OC Pill
- pregnancy
Familial excess
Hepatitis
Tamoxifen treatment
Decreased TBG
Familial deficiency
Androgenic steroid treatment
Glucocorticoids (large dose)
Nephrotic syndrome
Acromegaly
A 12-yr female has diffuse enlargement of the thyroid. She
is asymptomatic. Her disorder is most likely associated with
which of the following pathological processes
A. Infectious
10
B. Inflammatory
C. Autoimmune
50%
50%
D. Toxic (drug)
E. Neoplastic
op
l
Ne
To
xic
(d
m
un
ru
g
)
as
t ic
0%
e
0%
Au
to
im
m
m
In
fla
In
fe
c
tio
at
or
y
us
0%
Normal thyroid
Hashimoto thyroiditis
DC
16 year 7 month
Growth failure x 1 1/2 years
Labs:
TSH:
T4:
1008 µIU/ ml
<1.0 µg/dl
(0.3-5.0)
(4-12)
Antithyro Ab.
A-perox Ab.
232 U/ml
592 IU/ml
(0-1)
(<0.3)
Prolactin:
29
ng/ml
Cholesterol:
406 mg/dl
(2-18)
(100-170)
DC
Start of thyroxine
Hashimoto thyroiditis
Background:
Autoimmune destruction of the thyroid
Family history in 30-40%
Lymphocytic infiltration
Clinical:
Growth failure, constipation, goiter, dry skin, weight
gain, slow recoil of DTR
Laboratory:
High TSH
Anti-thyroglobulin and anti-peroxidase antibodies
Therapy:
Thyroxine
15 year old female with a history of easy fatigability.
Found to have an elevated pulse rate at recent MD visit
Thyroid function:
TSH < 0.1 IU/ml
T4
14.8 g/dl
T3
580 ng/dl
Normal range
0.3-5.5
4.5-12
90-190
Eye changes
Restlessness,
poor attention span
Goiter
Tachycardia, wide pulse
pressure
Increased GFR
- polyuria
Menstrual
abnormalities
Myopathy
Diarrhea
Therapy for Graves disease:
Antithyroid medication (Methimazole or Propylthiouracil [PTU])
Pros : 25% remission rate every 2 years
Cons: Drug induced side effects
- skin rashes, agranulocytosis, lupus-like reaction
Radioactive iodine (131I)
Pros : Easy. Essentially free of side effects
Cons: Long term hypothyroidism
Surgery
Blockers if markedly hyperthyroid
Sexual differentiation
Ambiguous genitalia is found in a newborn. The baby is
noted to be hyperpigmented. Ultrasound demonstrates the
presence of a uterus. The most useful test to aid in the
diagnosis of this medical condition is:
10
A. Testosterone
B. 17-hydroxyprogesterone
C. Serum sodium and potassium
50% 50%
D. DHEAS
E. DHEAS/androstenedione
ratio
0%
0%
17
-h
yd
r
Te
st
os
te
o
ro
xy
Se
ne
pr
ru
og
m
e
so
st
di
er
um
on
e
an
d
po
ta
s..
DH
.
EA
S/
an
DH
dr
os
EA
te
S
ne
di
on
e.
..
0%
Cholesterol
Desmolase
Pregnenolone
17-OH
3--HSD
Progesterone
17 (OH) pregnenolone
3--HSD
17-OH
21-OH
DOCA
11-OH
Corticosterone
ALDOSTERONE
17 (OH) progesterone
DHEA
3--HSD
Androstenedione
21-OH
Compound S
11-OH
CORTISOL
TESTOSTERONE
If she has salt wasting congenital adrenal
hyperplasia, which abnormalities are likely to
develop. True or False for each
a)
b)
c)
d)
e)
Increased serum potassium
Decreased serum sodium
Decreased bicarbonate
Decreased plasma cortisol
Increased plasma renin activity
T
T
T
T
T
A 1-year male infant has non palpable testes.
Of the following, the most appropriate next step would be:
A. Re-examination in 18
it h
w
ra
py
pl
he
th
e
et
n
gi
Be
0%
te
st
o.
..
at
as
m
it h
an
0%
es
t..
.
LH
RH
0%
w
su
r
n
pa
th
er
ap
y
fo
r
nt
tie
Be
gi
M
ea
m
18
in
n
at
io
th
e
in
fe
r
Re
0%
.. .
o.
..
0%
xa
m
E.
-e
C.
D.
Re
B.
10
months
Refer the patient for an
exploratory laparotomy
Begin therapy with LHRH
Measure the plasma
testosterone after
stimulation with HCG
Begin therapy with
testosterone enanthate, 50
mg IM monthly for 3 months.
History
9 day old male infant
1 day history of decrease feeding, vomiting and lethargy.
Examination
Ill appearing infant with poor respiratory effort
Vital signs: T 99 F HR 100/min BP 61/40 RR 24/min
Resp:
Subcostal retractions but clear to auscultation
Cardiac:
Regular rate and rhythm. Normal S1 and S2
Abdomen: Soft, non distended. Non tender. No HSM
Neuro:
Lethargic. No focal deficit
Genitalia:
Normal male. Bilateral descended testes
Laboratory data:
WBC 16.7
Hb
16.4
Hct
49
Plt
537 K
CSF:
Chemistry: Protein 74
Microscopy: WBC 6
Na
K
Cl
CO2
Glucose
BUN/Creat
Glucose
RBC
82
100
121
9.3
83
6.7
163
33/0.2
Emergency therapy
Fluid resuscitation:
20 ml/kg Normal saline
Glucocorticoid
2 mg/kg Solucortef IV
Monitor EKG
Modes of presentation
Classical
Simple virilizing
Virilizing with salt loss
“Non classical” / Late onset
Therapy and evaluation of therapy
Glucocorticoid (Hydrocortisone)
Monitor growth, 17-OHP, urinary pregnanetriol
Fluorocortisol (Florinef 0.1 – 0.45 mg/day)
Blood pressure, plasma renin activity (PRA)
Supplemental salt
Until introduction of infant food
History
15 year female presents with primary amenorrhea
Breast development began at 10 years
Examination
Height: 5 ft 7 in Weight 130 lb
Tanner 5 breast development
Scant pubic hair
What is your diagnosis?
Complete androgen insensitivity
XY Genotype
Testosterone
Estradiol
Androgen
Receptor
Estrogen
Receptor
15 yr female presents with primary amenorrhea.
Breast development began at 10 y
Tanner 5 breasts, scant pubic hair
Which of the following clinical features is the most likely to
10
give you the correct diagnosis
0%
0%
0%
itu
sv
al
gu
sa
nd
od
sh
i
el
...
p.
..
at
io
Cu
b
su
r
em
en
to
fb
lo
in
xa
. ..
ex
am
ce
ct
al
sc
op
i
Re
M
ea
ef
ul
fu
nd
o
ei
n
al
l4
ex
.. .
n
0%
es
su
r
E.
pr
D.
Ca
r
C.
100%
od
B.
Blood pressure in all 4
extremities
Careful fundoscopic examination
Rectal examination
Measurement of blood pressure
with postural change
Cubitus valgus and shield
shaped chest
Bl
o
A.
Gonadal Primordia
Female
No SRY
TESTIS
OVARY
No AMH
No testosterone
nor DHT
Mullerian Wolfian duct
regression
ducts
Fallopian tubes
Uterus
Upper vagina
Sertoli
cells
Leydig
cells
Testosterone
No AMH
Mullerian duct
regression
Wolfian ducts
DHT
Normal female
external genitalia
Epidymus
Normal male
Vas deferens
Seminal vesicles ext. genitalia
Gonadal Primordia
Y
Chromosome
No AMH
SRY
TESTIS
Sertoli
cells
No testosterone
nor DHT
AMH
Mullerian Wolfian duct
regression
ducts
Fallopian tubes
Uterus
Upper vagina
Mullerian duct
regression
Normal female
external genitalia
Leydig
cells
Testosterone
Wolfian ducts
DHT
Epidymus
Normal male
Vas deferens
Seminal vesicles ext. genitalia
Gonadal Primordia
Y
Chromosome
No AMH
SRY
TESTIS
Sertoli
cells
No testosterone
nor DHT
AMH
Mullerian Wolfian duct
regression
ducts
Fallopian tubes
Uterus
Upper vagina
Mullerian duct
regression
Normal female
external genitalia
Leydig
cells
Testosterone
Wolfian ducts
DHT
Epidymus
Normal male
Vas deferens
Seminal vesicles ext. genitalia
Early Puberty
The earliest sign of puberty in a male is:
A. Enlargement of
8%
th
ro
w
ha
i
rg
th
Ax
ill
ar
y
rg
ro
w
io
n
ch
ai
Pu
bi
Gr
o
wt
h
ac
ce
le
ra
t
st
e
te
ft
he
en
to
rg
em
en
to
ft
he
pe
ni
s
s
0%
En
la
D.
E.
17%
rg
em
C.
33%
En
la
B.
the penis
Enlargement of
the testes
Growth
acceleration
Pubic hair growth
Axillary hair
growth
5
42%
2 year old girl with breast development. No growth
acceleration. No bone age advancement
No detectable estradiol, LH or FSH
The most likely diagnosis is:
2 year old girl with breast development. No growth
acceleration. No bone age advancement
No detectable estradiol, LH or FSH
The most likely diagnosis is:
10
m
e
e
gh
t
Sy
nd
ro
th
e
la
rc
h
ch
e
A
lb
ri
at
cC
un
e
M
Pr
em
ur
e
0%
ur
e
ad
re
pu
us
Pr
em
at
oc
io
0%
na
r
be
r
’..
.
he
r
ot
Pr
ec
rm
0%
ty
0%
he
E.
of
D.
n
C.
100%
tio
B.
Ingestion of her
mother’s OCPs
Precocious puberty
Premature adrenarche
Premature thelarche
McCune Albright
Syndrome
In
ge
s
A.
Benign Premature Thelarche
Isolated breast development
– 80% before age 2
– Rarely after age 4
Not associated with other signs of puberty
(growth acceleration, advancement of bone age)
Children go on to normal timing of puberty and
normal fertility
Benign process
Routine follow-up
5 year female with 6 months of pubic hair growth. Very fine
axillary hair as well as adult odor to sweat.
No breast development, no growth spurt
The most likely diagnosis is:
5 year female with 6 months of pubic hair growth. Very fine
axillary hair as well as adult odor to sweat.
No breast development, no growth spurt
The most likely diagnosis is:
10
0%
0%
ad
re
n.
..
on
ge
ni
ta
l.
..
Ad
re
na
lt
um
or
Pi
ne
al
om
a
No
n-
ss
ic a
lc
cla
pr
em
at
u
re
us
p
ub
er
ty
0%
oc
io
E.
gn
D.
50% 50%
Pr
ec
C.
ni
B.
Precocious puberty
Benign premature
adrenarche
Non-classical congenital
adrenal hyperplasia
Adrenal tumor
Pinealoma
Be
A.
Benign Premature Adrenarche
Production of adrenal androgens before true
pubertal development begins
Presents as isolated pubic hair in mid childhood
– No growth acceleration
– No testicular enlargement in boys
If normal growth rate, routine follow-up
If accelerated growth and/or bone age
advancement, screen for
– CAH
– Virilizing tumor (adrenal/gonadal)
Choose correct answer
A. Premature theralche
B. Premature adrenarche
C. Both
D. Neither
1. Growth acceleration
D
2. Normal adolescent sexual development
C
3. Onset of gonadal function usually in 3-4 years
B
You suspect a 16 year female has Turner syndrome. The
most definitive diagnostic test is
50%
E.
25%
0%
0%
ls
om
m
ea
o
so
M
r
ea
m
e
su
an
r in
al
gh
ys
is
er
De
FS
te
H
rm
an
in
d
in
LH
g
De
he
te
rb
rm
on
in
e
in
ag
g
e
he
rt
es
to
s..
.
D.
cc
a
C.
25%
Ch
r
B.
Buccal smear
Chromosome analysis
Measuring her FSH and
LH
Determining her bone
age
Determining her
testosterone level
Bu
A.
5
5 year old girl with pubic hair and rapid growth.
She has no breast development
Possible sources of androgens:
1.Liver
F
2.Adrenal
T
3.Ovary
T
4.Pituitary
F
5.Pineal
F
5 year old girl with pubic hair and rapid growth.
She has no breast development
Which of the following should be considered
Answer T or F for each:
a) Central precocious puberty
F
b) Congenital adrenal hyperplasia
T
c) McCune Albright syndrome
F
d) Benign premature adrenarche
F
e) Adrenal tumor
T
When does puberty occur?
Classic teaching
– 8 -13 in girls
(menarche ~ 2 years
after onset of puberty)
– 9 -14 in boys
Case:
Breast development:
Mother had menarche:
6 years
9.5 years
Why
Reactivation of
hypothalamic –
pituitary –gonadal
axis
Gonadatropin dependent
(central) precocious puberty
Clock turns on early
Idiopathic
> 95 % girls
~ 50 % boys
– Hypothalamic hamartoma (Gelastic seizures)
– NF (optic glioma)
– Head trauma
– Neurosurgery
– Anoxic injury
– Hydrocephalus
Treatment
Why
– Psychosocial
– Height
What
– GnRH agonist
Gonadotropin independent
precocious puberty
7 year male presents with 6 month history of pubic
and axillary hair growth as well as adult body odor.
Mother thinks he is growing faster than his peers
No exposure to androgens
PM&SH – nil of note
Mother had menarche at 12 yr
Father had normal timing of his puberty
Medications – none
Height 50th percentile (last height at 25th)
Weight 40th percentile
No café au lait macules
No goiter
Heart and lungs: normal
Abdomen: Firm hepatomegaly with irregular border
Prepubertal
Adrenal source
Asymmetric
Enlarged testicle
Pubertal
Precocious puberty
Height 50th percentile (last height at 25th)
Weight 40th percentile
No café au lait macules
No goiter
Heart and lungs: normal
Abdomen: Firm hepatomegaly with irregular border
Genitalia:
Pubic hair - Tanner 2
Scrotal thinning
Testes 5 ml bilaterally (pubertal >3 ml)
Rest unremarkable
7 year male with signs of puberty
Gonadotropins
LABS:
Testosterone 48 ng/dl (<10)
FSH
<0.1 mIU/mL
LH
<0.1 mIU/mL
TSH
T4
1.0 μIU/mL
8.9 μg/dL
Pubertal
Central precocious
puberty
LH
G
Leydig cell
Precocious puberty in the male
Gonadotropins
Prepubertal
Pubertal
Gonadotropin independent
precocious puberty
HCG
Central precocious
puberty
LH
*
*
G
McCune Albright
Familial male
syndrome
Precocious puberty
(testotoxicosis)
G
Leydig cell
1. Gonadotropin independent PP
2. Polyostotic Fibrous Dysplasia
3. Café au lait macules
Final diagnosis: Gonadotropin independent precocious
puberty secondary to an βHCG secreting hepatoblastoma
5 year old with breast development
and growth acceleration
- Estradiol 62 pg/ml (<10)
- FSH
<0.1 mIU/mL
- LH
<0.1 mIU/mL
Gonadotropin independent
precocious puberty
McCune Albright syndrome:
1. Café au lait macules
2. Gonadotropin independent
precocious puberty
3. Polyostotic fibrous dysplasia
Growth disorders and
delayed puberty
Delayed puberty
Hypogonadism
Hypergonadotropic
Hypogonadism (↑FSH, LH)
Primary gonadal failure
- Chromosomal
- iatrogenic (cancer therapy)
- autoimmune oophoritis
- galactosemia
- test. biosynthetic defect
Hypogonadotropic
Hypogonadism (FSH, LH)
Constitutional
delay
Central
Hypogonadism
- Isolate gonad. def.
- MPHD
- Kallmann (anosmia)
- Functional
A 15 yr boy has short stature and delayed puberty. He is
now in early puberty (Tanner 2). His parents are of average
stature. His height and weight are just below 3rd percentile.
All of the following are likely EXCEPT:
10
0%
0%
0%
0%
ag
e
of
12
ho
½
ye
rm
ar
on
Ad
s
e
ul
d
th
ef
ici
ei
gh
en
ti
Ac
cy
n
ce
th
le
e
ra
n
tio
or
m
n
Hi
..
of
st
gr
or
ow
yo
t
fn
h
a.
or
.
m
al
le
ng
th
. ..
0%
wt
h
ne
E.
bo
D.
Gr
o
C.
A bone age of 12 ½ years
Growth hormone
deficiency
Adult height in the normal
range
Acceleration of growth and
sexual maturation over the
next 2 years.
History of normal length
and weight at birth
A
A.
B.
A 15 yr male has delayed puberty. He also has headaches,
diplopia and increased urination. His height is < 3rd
percentile.
Which of the following is the most likely diagnosis?
10
A. Diabetes mellitus
100%
B. Pinealoma
C. Cerebellar tumor
D. Craniopharyngioma
E. Pituitary adenoma
m
a
ad
en
o
io
m
ita
ry
yn
g
Pi
tu
um
or
op
ha
r
Cr
a
ni
lla
rt
al
Pi
ne
0%
a
0%
om
a
0%
Ce
re
be
Di
a
be
te
s
m
el
li
tu
s
0%
A 14 yr male has tender gynecomastia (3 cm in diameter
bilaterally). He is in early to mid puberty. In most cases the
best management for this gynecomastia is:
10
0%
nc
e
0%
as
su
ra
Re
Su
rg
er
...
ad
en
tm
ea
op
a
ar
om
ith
tw
tw
Tr
m
i..
y
0%
an
an
t ie.
..
ith
an
ith
tm
en
tw
ea
en
E.
0%
Tr
D.
tm
C.
100%
ea
B.
Treatment with an antiestrogen (e.g.
Tamoxifen)
Treatment with an
aromatase inhibitor
Treatment with a
dopamine agonist
(bromocryptine)
Surgery
Reassurance
Tr
A.
Diabetes
A 12 year female patient presents with a 4 week history of
polyuria, polydipsia, and marked weight loss.
She is noted to have deep, sighing respiration.
Glucose is 498 mg/dL, pH is 7.06. Her electrolytes show
Na 132, K 4.8, Cl 95 CO2 6 BUN 20 Creat 0.9.
10
The MOST important initial management is:
eb
in
sa
l
al
no
rm
kg
s
20
m
l/ k
g
eq
/
m
1
ca
rb
Bi
...
..
ly
lo
w
K
m
eq
40
it h
NS
w
17%
ov
at
2.
..
/h
r
u/
kg
0.
1
dr
ip
D.
33%
17%
½
C.
33%
su
lin
B.
insulin drip 0.1 u/kg/hr
½ NS with 40 meq K at
2x maintenance
Bicarb 1 meq/kg slowly
over 1 hour
20 ml/kg normal saline
bolus IV
in
A.
GTT in a 16 year obese female:
Time
Glucose (mg/dL)
-0109
-120188
Which of the following statements are correct?
This patient has:
25%
fa
sti
n
d
ire
pa
Bo
th
im
al
No
rm
gg
er
to
l
se
uc
o
gl
glu
d
ire
l..
.
an
ce
n.
.
ra
co
se
2
to
le
di
a
be
te
s
0%
pe
D.
25%
pa
C.
50%
Ty
B.
Type 2 diabetes
Impaired glucose
tolerance but normal
fasting glucose
Normal glucose
tolerance
Both impaired fasting
glucose and impaired
glucose tolerance
Im
A.
10
Definition of diabetes
Diabetes
≥ 126
≥ 200
< 126
< 200
Pre-diabetes
≥ 100
≥ 140
< 100
< 140
Normal
Fasting
2 hr post load
This obese patient with IFG and IGT is at risk for the
development of all the following EXCEPT
10
42%
25%
17%
ip
p
s
iti
oi
d
...
th
yr
ot
o
or
al
m
ta
l
fe
m
Ha
sh
i
ed
ca
pi
Hy
pe
rt
en
sio
n
em
ia
8%
Sl
be
te
s
8%
Dy
sli
pi
d
E.
di
a
D.
2
C.
pe
B.
Type 2 diabetes
Metabolic syndrome
Dyslipidemia
Hypertension
Slipped capital femoral
epiphysis
Hashimoto thyroiditis
Ty
A.
A 13 year male has new onset type 1 diabetes mellitus.
Therapy for this child may include all of the following
EXCEPT:
10
25% 25%
Metformin
in
is t
er
..
ad
in
su
lin
An
al
og
Le
ir
(
em
De
t
m
M
et
ve
m
ir)
nt
us
)a
nd
an
d
L ip
A.
..
..
Analog insulin
administered via an
insulin pump
fo
rm
in
0%
La
D.
Detemir (Levemir) and
Aspart insulin
(Novolog)
e(
C.
50%
rg
in
B.
Glargine (Lantus) and
Lipro insulin (Humalog)
Gl
a
A.
Miscellaneous
Side effects of corticosteroids include all of the following
except
A. hypertension
40%
10
B. hypoglycemia
C. decrease bone
20% 20%
20%
mineralization
D. myopathy
E. cataracts
ta
r
ac
ts
th
y
ca
al
er
in
m
m
yo
pa
iza
...
m
ia
yc
e
cr
e
as
e
bo
ne
hy
po
gl
de
hy
pe
rte
ns
io
n
0%
What is the most likely diagnosis in this newborn infant?
A. Mother has SLE
B. Anasarca from
10
20% 20%
20%
ar
c
m
af
ro
M
ot
he
rh
as
SL
E
ca
Sy
rd
st
em
ia
cf
ic
ai
a
.. .
lle
Co
rg
ng
ic
en
re
ita
ac
ln
t io
ep
n
hr
ot
ic
sy
Tu
...
rn
er
sy
nd
ro
m
e
0%
An
as
cardiac failure
C. Systemic allergic
reaction
D. Congenital
nephrotic
syndrome
E. Turner syndrome
40%
5 year old male with short stature
A. Turner syndrome
10
B. VATER syndrome
C. Albright’s
hereditary
osteodystrophy
D. Noonan syndrome
E. Goldenhar
syndrome
44%
22% 22%
11%
ed
e
ita
ry
No
os
...
on
an
sy
Go
nd
ld
r
o
en
m
ha
e
rs
yn
dr
om
e
sy
nd
’s
he
r
ER
br
igh
t
Al
rn
e
Tu
VA
T
rs
yn
dr
o
m
ro
m
e
0%
A moderately obese adolescent female has irregular
periods, hirsutism and acne.
Of the following, which is the most likely diagnosis?
A. Cushing syndrome
100%
10
B. Polycystic ovarian
syndrome
C. Virilizing adrenal
tumor
D. Non-classical CAH
E. Hyperprolactinemia
ng
Po
ly
cy
st
ic
Cu
sh
i
0%
0%
0%
sy
nd
ro
ov
m
ar
e
ia
Vi
n
sy
r il
nd
izi
ng
...
ad
re
na
lt
um
No
or
ncla
ss
ic a
Hy
lC
pe
AH
rp
ro
la
ct
in
em
ia
0%
Choose correct answer
A. Diabetes mellitus
B. Diabetes insipidus
C. Both
D. Neither
2 Na + BUN/2.8 + Gluc/18
1. Osmolality of serum > 300 Osm/L
2. Osmolality of urine > 500 mOsm/L
3. Hypernatremia
Choose correct answer
A. Diabetes mellitus
B. Diabetes insipidus
C. Both
D. Neither
2 Na + BUN/2.8 + Gluc/18
1. Osmolality of serum > 300 Osm/L
C
2. Osmolality of urine > 500 mOsm/L
A
3. Hypernatremia
B