Post on 11-May-2015
Dr. Sachin Verma MD, FICM, FCCS, ICFC
Fellowship in Intensive Care Medicine
Infection Control Fellows Course
Consultant Internal Medicine and Critical Care
Web:- http://www.medicinedoctorinchandigarh.com
Mob:- +91-7508677495
Hb 12.4 gm/dl,TLC 4100/mm3Sr creat 0.9 mg/dl,RBS 98mg/dlS Na/K/Ca 140 /2.2/4.26Sr ACTH=10.06 pg/mlLOW DOSE DST= 85 microgm/dlUSG-WHOLE ABDOMEN: ?SOL in tail of pancreas ?SOL in lt adrenal gland,sol in liver,spleen and multiple lymphnodes.
INVESTIGATION
Case presentation
cushing syndrome
Approach to cushing syndrome
In 1972 harvey cushings first described a 23
years old female with obesity, hirsutism and
amenorrhea and 20 years later postulated that
this “polyglandular syndrome” was due to
primary pituitary abnormality causing adrenal
hyperplasia.
Traditionally, cushing syndrome is used to
describe all causes.
Cushing’s disease is reserved for cases of
pituitaty dependent cushing’s syndrome.
Classification and etiology of cushing syndromeACTH Dependent
Cushing disease (pituitary dependent).
Ectopic ACTH syndrome.
Ectopic CRH syndrome
Macronodular hyperplasia
Iatrogenic (Treatment with ACTH).
Classification and etiology of cushing syndromeACTH Independent
Adrenal adenoma and carcinoma
Primary pigmented nodular adrenal hyperplasia and carney’s complex.
McCune albright syndrome
Aberrant receptor expression
Iatrogenic (Pharmacologic doses of prednisolone, dexamethasone)
Pseudo-cushing’s
Alcoholism
Deposiiton
Obesity
Symptoms of Excess Cortisol Truncal obesity Moon face Fat deposits supraclavicular fossa
and posterior neck- buffalo hump HTN Hirsutism Amenorrhea or impotence Depression Thin skin Easy bruising Purplish abdominal striae Proximal muscle weakness Osteoporosis Diabetes Mellitus Avascular necrosis Wound healing impaired Pysch symptoms Hyperpigmentation Hypokalemic alkalosis
Investigation of a patient with cushing syndrome There are two stages in the investigation of a
patient with cushing’s syndrome.
Stage I - Does this patient have cushing syndrome?
Stage II - If yes what is the cause?
Note : Radiological investigations to be deferred
until cushing’s syndorme has been confirmed
biochemically.
Diagnosis
Q1 Does this patient have cushing’s syndorme?
Circadian rhythm of plasma cortisol.
In normal subjetcs plasma cortical levels are
highest in morning lowest at around midnight.
This circadian rhythm is lost in cushing syndrome.
– Midnight cortisol >7.5 µg/dl indicates cushing
syndrome.
– Sensitive test but due to many false positives not
used .
Screening testSalivary cortisol
– >2.0 ng/ml (5.5 nmol/L)
– 100% sensitive
– 96% specific
Urinary free cortisol excretion
– Normal : <220 to 330 nmol/24 hrs (80 to 120
µg/d)
– Useful screening test
Spot - Urinary cortisol - creatinine ratio
– >25 nmol cortisol/mmol creat
Screening test(cont)Low dose/ overnight Dexamethasone
suppression test
Procedure:Oral adm of 1 mg dexamethasone previous
night and next day 8.00 am plasma cortisol < 5µg /d is normal and < 2µg/day excludes cushings syndrome.
0.5mg dexamethasone 6 hourly for 2 consecutive day and plasma cortisol at 48 hrs < 5µg/dl is normal <2µg/dl excludes cushing’s.
Low dose DST differentiates those who have cushing’s from those who donot have.
Screening testLoperamide test : To differentiate true cushing’s from pseudocushing’s
lopermide lowers cortisol values in patients with pseudocushing’s but not in true cushing’s.
Q.2 Haring confirmed cushing’s syndrome clinically and biochemically then go for the causative factor.
Plasma ACTH: A Midnight ACTH > 5 pmol/L. (> 22pg/ml).
In a patient with biochemical hypercortisolism confers that the underlying disease is ACTH dependant.
Note : pts with bilateral MAH and Adrenal carcinoma /adenoma have variable levels.
Screening testPlasma potassium
Hypokalemia alkalosis is present in more than 95% of
patients with ectopic ACTH syndrome but is present in fever
than 10% of patients with cushing’s disease.
High dose dexamethasone suppression test
2 mg dexamethasone 6 hourly for 48 hours and greater than
50% decrease in urinary cortisol at 48 hours defines or
positive response.
Alternating 8 mg give at 11.00 pm plasma cortisol at 8.00 am
next morning can be done.
Note : 50% of patients with ectopic ACTH syndrome exhibit
suppression and conversely patients with putuitary ACTH
macroadenoma show no suppression.
High dose DST distinguish tose pts with cushing’s disease from those having ectopic ACTH syndrome/adrenal tumor
PITUITARY MACROADENOMA
PITUITARY MICRO
ECTOPIC ACTH SYNDROME
ADRENAL TUMOR
ACTH
HIGH DOSE DST
< 10% >95% <10% <10%
CRH>90% >90% <10% <10%
Metyrapone testCholesterol
↓
Pregnenolone
↓
Progesterone 17OH-progesterone
↓ ↓
DOC11deoxy cortisol
↓ 11 beta OH ase ↓
Corticosterone cortisol
↓
Aldosterone Metyrapone
750 mg 4 hrly for 24 hrs.
Exaggerated rise in ACTH and 11
deoxycortisol val > 35µ/dl at 24 hours.
Used to distinguish cushing’s disease
from adrenal cause.
Value of this test is questioned in
modern endocrine practice due to more
false positive result.
CRF TestPROCEDURE
IV CRF 1 µg/kg (or) 100 µg bolous measure
plasma ACTH and cotisol every 15 mins for 1
to 2 hours.
Results
Normal ACTH and cortisol increase by 15
to 20%.in cushing disease ACTH increase
by 50%; Cortisol increase by 20%
In ectopic ACTH syndrome no response.
Inferior petrous sinus sampling Selective venous catheterisation
Most robust test to distinguish cushing
disease from ectopic ACTH syndrome is IPSS.
Normal value
Pituitary ACTH : Peripheral ACTH < 1.4 : 1
Cushing disease >2
Or
Post CRF pituitary/peripheral ACTH >3
(97% sensitive, 100% specific)
Investigation algorithmScreening tests :
– 24 hours urinary free cortisol
(or)
– 1 mg overnight DST
Or
– 11 PM midnight salivary cortisol
Confirmation :
– Low dose DST
or
– Midnight plasma cortisol
Defining the cause
Suppression on high dose DST and ↑ ACTH
ACTH +high dose DST<50% suppression of UFC
(or) plasma cortisol
Fails to suppress on high dose + ↑ ACTH
Fail to suppress on high dose and ACTH
Cushing disease or bronchial carcinoid
Ectopic ACTH syndrome
•Adrenal tumor
•Adrenal macro nodular hyperplasia
•Surreptitous use of glucocorticoids
CT chest/adrenal
MRI/CT of Pituitary
Pituitary tumor present No Pituitary mass
Surgery
CT of the adrenals
Do CRH stimulation test
↑ >50% ACTH
↑ 20% cortisol
Inconclusive
IPSS with CRH ectopic ACTH syndrome
Cushing’s disease Repeat radiological studies
False Positives
Severe depressionSevere stressPhenytoin/phenobarbital/rifampin
(accelerated metabolism of dex)Estrogen (pregnancy or OCP)Morbid obesity
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Imaging Modalities
Plain abdominal filmUltrasound (grey scale and
Doppler) CT scanMRIAdrenal scintigraphy
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Plain Abdominal Film
Plain abdominal film finding are non specific
May be helpful in detecting
Mass in adrenal area
Calcification in adrenal
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Ultrasound
Adult appearance
Entirely hypoechoic
Concave with straight margin
Newborn
Cortex hypoechoic, Medulla hyperechoic
Cortex>>medulla thickness
Convex border
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Ultrasound
Investigation of first choice in infant , children and pregnant women
Indication
adrenal masses ( larger than 2 cm)
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CT Scan
On precontrast scan adrenal have soft tissue density similar to that of liver
Normal adrenal appear inverted V or Y shape within retroperitoneal fat
Consist of body , medial limb and lateral limb
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Ct ScanThickness of each limb is 5 mm
Maximum width of the body is 10-12mm
Indication masses (adenoma & cancer) Cyst abscess metastasis
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CT Scan
Attenuation is measured in Hounsfield unit (HU)
Benign masses have low attenuation values (< 20 HU )
Malignant masses have high attenuation values (> 20 HU )
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CT Scan
Unenhanced CT Scan
Adenomas : < 10 HU
Malignancies : > 20 HU
Delayed enhanced CT Scan
Adenoma : < 30 HU
Malignancies : > 30 HU
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MRI
Equally effective as CT in imaging adrenal disorder
Normal adrenal is intermediate signal intensity to liver and hypo intense to fat on TIW1 image
On T2W2 image adrenal hypo intense to fat, iso intense to liver &hyper intense to crus
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MRI
Carcinoma have hyper-intense signal on T2W2 and hypointense on T1W1 images
On contrast enhancement show rapid enhancement with sluggish washout
Adenoma are hypointense, show mild enhancement & rapid contrast washout
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Adrenal scintigraphy
Usual role of scintigraphy is to clarify inconclusive result of imaging
Indication Functional status of adrenal nodule Assess contralateral adrenal function Detect functional metastasis Detect recurrence after surgery Detect ectopic site of hormone
production
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Adrenal Scintigraphy
Adrenocortical imaging agent
NP-59 ( 6-B-iodomethyl-19-norcholesterol )
Selenium-75 6-B-selenomethylnorcholesterol
Sympathoadrenal imaging agent
MIBG ( metaiodobenzylguanidine )
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Adrenal Scintigraphy
Indication for MIBG Pheochromocytoma Neuroblastoma, carcinoid, adrenal
metastasis
Indication for NP-59 Adrenocortical carcinoma Adenoma Adrenal hyperplasia
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MIBG Scintigraphy
MIBG Scintigraphy: high uptake in LT adrenal ,Pheochromocytoma
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MIBG Scintigraphy
MIBG : Inc tracer accumulation in lt adrenal mass
Treatment
Cushing’s Disease: Transphenoidal resection of pituitary adenoma
Adrenal neoplasms: resectionEctopic ACTH: resection if possibleBilateral adrenal hyperplasia: may
need adrenalectomies (lifelong glucocorticoid and mineralcorticoid replacement)
‘Medical’ Adrenalectomy
Medications that inhibit steroidogenesisKetoconazole (600 to 1200 mg/day)metyrapone (exacerbates female
virilization) (2-3 g/day)Mitotane(2-3 G/day)- slow onsetAminoglutethinide (1g/day)Ocreotide can work in 1/3 of patients.Major side affect is adrenal insufficiency,
therefore start at lowest dose and titrate
Complications of Cushing's if UntreatedDiabetesHTNOsteoporotic fractures and
avascular necrosisInfectionsNephrolithiasisPsychosisDeath from vascular causes within
5yrs
Prognosis
Benign adrenal adenoma- 95% 5 year survival, 90% 10 year
Cushing’s disease (pituitary adenoma) same survival, but 10-20% transphenoidal resection failure rate over 10 years.
Ectopic ACTH survival depends on malignancy
Unknown cause of elevated ACTH- 65% 5 year survival, 55% 10 year survival
Adrenal carcinoma- median survival 7 months upto 2 yrs
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THANK YOU