Approach To The Patient With Endocrine Disorders PDF

Summary

This document provides an outline, objectives, and introduction to the approach to patients with endocrine disorders. It covers history taking, physical examination, laboratory investigation, imaging, and treatment. Specific details are given on the pathogenesis, diagnosis, and treatment of endocrine disorders.

Full Transcript

Approach to the Patient with
Endocrine Disorders

Chala T(MD)
 Outline
Introduction

History Taking

Physical Examination

Laboratory Investigation

Imaging

Treatment
 Objectives
At end of this session students able to:-
– Take history and do P/E in Pt with
Endocrine disorder

– Do Basic Work up in Pt with Endocrine
disorder

– Describe management principle of in Pt
with Endocrine disorder
 Introduction
Endocrinology is the study of glands and
the hormones they produce
Unlike many other specialties in medicine,
it is not possible to define endocrinology
strictly along anatomic lines.
The classic endocrine glands—pituitary,
thyroid, parathyroid, pancreatic islets,
adrenals, and gonads
Introduction…
Introduction…
Introduction…
 Introduction…
The endocrine system co-ordinates the body´s
internal physiology, regulates its development
throughout life, and helps it to adapt to nutrition
and other external environmental changes.

The system is based on a number of glands, which
secrete hormones into internal medium to act on
target tissues.

Hormones first interact with specific high-affinity
receptors in the cells, or on the cells of target
tissues.

Receptor activation then initiates a cascade of
linked biochemical reactions within the cells, that
produce the specific response.
 Introduction…
Hormones – active molecules Hormones
are biologically high active drugs of the
body which control the metabolic activity
all different tissues and organs in the body.

They play an important role in
development and growth of the body, they
control the reproduction mechanisms, they
help how to adapt on everyday life-stress
and how to survive.
 Introduction…
Endocrinology concerns the synthesis,
secretion and action of hormones.
Hormones represent chemical
messengers - diverse molecular
structures (proteins, peptides, steroids)
– are released from endocrine glands
– coordinate the activities of many different
cells.
Endocrine diseases – heterogeneous
group – wide range of manifestations
affecting many other organs.
 Introduction
The management of endocrine disorders
requires a broad understanding of
intermediary metabolism, reproductive
physiology, bone metabolism, and
growth.

The practice of endocrinology is
intimately linked to a conceptual
framework for understanding hormone
secretion, hormone action, and principles
of feedback control
 Introduction…

The endocrine system is evaluated
primarily by measuring hormone
concentrations, arming the clinician with
valuable diagnostic information.

Most disorders of the endocrine system
are amenable to effective treatment once
the correct diagnosis is established.
PATHOLOGIC MECHANISMS OF ENDOCRINE
DISEASE

Endocrine diseases can be divided into

three major types of conditions:

– 1. hormone excess

– 2.hormone deficiency, and

– 3.hormone resistance
 Endocrine pathology
Arising within the gland is called a primary
disease (e.g. primary hypothyroidism in
Hashimoto´s thyroiditis)

Abnormal stimulation of the gland from
pituitary = secondary disease (e.g. secondary
hypothyroidism (in patients with pituitary
tumour and TSH deficiency).

Some endocrine diseases are common:
– Thyroid gland disease (occurs in >10% population
in areas with iodine deficiency)
– Reproductive system diseases
– Β-cells of the pancreas – Diabetes mellitus (DM)
Type 1
 Endocrine Pathology…

Endocrine deficiency disorders are treated
with physiologic hormone replacement

Hormone excess conditions, which usually
are caused by benign glandular adenomas,
are managed by :-
– removing tumors surgically or
– reducing hormone levels medically.
Causes of Endocrine Dysfunction
 Causes Endocrine
hyperfunction
Hyperfunction of endocrine glands may result from
overstimulation by the pituitary whether due to
intrinsic pituitary dysfunction or overstimulation of
the pituitary by the hypothalamus.

However, hyperfunction of endocrine glands is
most commonly due to hyperplasia or neoplasia of
the gland itself. In some cases, cancers from other
tissues can produce hormones (ectopic hormone
production).

Hormone excess also can result from exogenous
hormone administration.
In some cases, patients take nonprescription
products that contain hormones and may not know
 Causes of Hyperfunction…
Tissue hypersensitivity to hormones can occur.
Antibodies can stimulate peripheral endocrine
glands, as occurs in hyperthyroidism of Graves
disease.

Disruption of a peripheral endocrine gland can
rapidly release stored hormone (eg, thyroid
hormone release in subacute thyroiditis).

Enzyme defects in the synthesis of a peripheral
endocrine hormone can result in overproduction of
hormones proximal to the block.

Finally, overproduction of a hormone can occur as
an appropriate response to a disease state.
Causes Endocrine hypofunction
Most examples of hormone deficiency states
can be attributed to glandular destruction
caused by:-

– Autoimmunity,
– Surgery,
– Infection,
– Inflammation,
– Infarction,
– Hemorrhage
– Tumor Infiltration
 Causes of hormone resistance
Mutations in a number of hormones, hormone
receptors, transcription factors, enzymes, and
channels can also lead to hormone deficiencies

Most severe hormone resistance syndromes
are due to inherited defects in membrane
receptors, nuclear receptors, or the pathways
that transduce receptor signals.
These disorders are characterized by defective
hormone action despite the presence of
increased hormone levels.
In complete androgen resistance, for example,
mutations in the androgen receptor result in a
female phenotypic appearance in genetic (XY)
males
 History Taking in endocrine
disorder
Regardless of whether there is an obvious
problem, treat each patient as an unknown
in order to avoid missing an endocrine
disorder.

A patient with one endocrine disease (e.g.,
Hashimoto's thyroiditis) is at greater risk for
the development of other endocrine
disorders (e.g., adrenal, testicular, or ovarian
failure).

A patient may harbor more than one
endocrinopathy, which could be overlooked
 History…
Always allow patients to express themselves. Ask
patients how they feel and let them answer.

Often, within the first few minutes of the history an
endocrine cause becomes apparent.

I find it most useful to review the patient's
complaints literally from head to toe.

The patient's vocal pitch may give a clue.

A hypogonadal male has a high-pitched voice,
while an androgenized female may have a deeper
voice than expected.
 History…
Hair growth is an important piece of information.
Ask the patient how often he shaves, and if the
frequency has decreased.

In the adult male the presence or absence of facial hair
and the frequency of shaving give important information
as to gonadal status; for example, hypogonadal males
with primary (Kallman's syndrome) or secondary gonadal
insufficiency (atrophic testicles following trauma,
mumps, autoimmune diseases, etc.).

Family history can be a clue because many families
display sparse facial hair growth.

Females may complain of excessive body hair, which
should lead you to investigate causes of excessive
androgens.
 History…
The pituitary gland should be investigated through
history, physical, and radiographs

If you think of the hormones secreted by the
pituitary, appropriate questions can be asked

Excess ACTH produces the classic Cushing's
appearance.
Mental changes, fatigue, muscle weakness, easy
bruising, infections, stretch marks, and acne are
but a few of the findings related to steroid excess.

Deficiency of these hormones can produce
complaints ranging from fatigue ,dizziness, shock,
coma, joint and abdominal complaints.
 History…
FSH and LH- In the female, the appropriate
sequence of adenarche, thelarche, and
menarche should be obtained.
Amenorrhea is an important clue in a
breakdown in the hypothalamic-pituitary–
ovarian axis

In male with a full beard who has fathered
children recently does not have a primary
hypogonadal process.
The presence of normal erections, adequate
libido, and a full beard with a normal male body
habitus helps exclude hypogonadism without
the need for extensive testing.
 History…
Thyroid dysfunction can be so mild as to
be unnoticed by the patient or examiner.

Local effects of thyroid gland
enlargement may produce only a goiter.

Pain and compression of the surrounding
structures can occur
 Hx…
Hyperthyroidism patients often complain of
fatigue, weight loss, and constipation over
activity, nervousness, jitterness, Shaking, to
heat intolerance , difficulty concentrating, and
insomnia.

Hypothyroidism may present as loss of
interest, depression, fatigue, cool dry skin,
constipation, mild degree of weight gain

The disorder can progress to the point of
extreme and overwhelming hypothermia,
 History…
DM often presents insidiously with the
gradual onset of excessive thirst, urination,
nocturnal frequency, weight loss, and
increased appetite.

Blurring of vision, frequent infections,
numb or painful extremities, and
nonhealing extremity ulcers are important
clues that should lead to a diabetic
evaluation
 Physical Examination In Endocrine
disorder
Because most glands are relatively
inaccessible, the physical examination usually
focuses on the manifestations of hormone
excess or deficiency as well as direct
examination of palpable glands, such as the
thyroid and gonads.

The manifestations of endocrine illnesses are
so far reaching as to affect almost every organ
system.

A comprehensive physical examination to
complement a complete history is mandatory
 P/E…
Astute clinical skills are required to detect
subtle symptoms and signs suggestive of
underlying endocrine disease.

For example, a patient with Cushing’s
syndrome may manifest specific findings,
such as :-
– Central obecity,
– Skin striae, and
– Proximal muscle weakness, in addition to
features seen commonly in the general
 P/E..
Similarly, the insidious onset of
hypothyroidism—with mental slowing,
fatigue, dry skin, and other features—can be
difficult to distinguish from similar,
nonspecific findings in the general
population.

Clinical judgment that is based on
knowledge of disease prevalence and
pathophysiology is required to decide when
to embark on more extensive evaluation of
these disorders
 P/E…
With the patient undressed, observe the
body size and habitus

The distribution of body fat may reveal
information as to nutrition, thyroid and
adrenal status, important clues as to the
presence of Cushing's disease.

The combination of supraclavicular fullness,
moon facies, violaceous striae, dorsal cervical
fat pad, and a centripetal truncal obesity is
often diagnostic.
P/E…
P/E…
 P/E…
Scalp and facial hair as well as the
balding pattern are useful clues in
assessing the patient's gonadal status.

Decreased quantities of facial hair,
perioral and periorbital wrinkling may be
subtle signs of hypogonadism.

In the female, excessive hair, acne,
male-pattern balding, and central scalp
hair loss are signs of androgen excess.
P/E…
 P/E…

Inspect and palpate the thyroid

The skilled examiner can often visualize a
thyroid nodule or outline a diffusely
enlarged gland

Gynecomastia in the male may have
important clinical significance ranging
from hypogonadism to malignancy.
P/E….
P/E..

Gynecomastia
 P/E…
In the male, the genital examination
together with peripheral manifestations of
gonadal disease may be of high diagnostic
yield.
One should carefully inspect for the
presence of testicles within the scrotum and
palpate for size and consistency.
In both the male and female, pubic hair
patterns are important.
Examination of the perineum may yield
important information as clitoromegaly or
other labial or urogenital abnormalities are
 P/E…
Careful inspection of the hands and feet,
especially in diabetics, is important

Shiny thin skin with absence of hair on the
lower extremities and absent pulses in the
feet suggest the presence of macrovascular
or microvascular disease of diabetes mellitus.

Proximal muscle weakness is common to
other endocrine disorders, such as
hyperthyroidism and Cushing's disease.
 Laboratory Testing for Endocrine
Disorders
Because symptoms of endocrine disorders can
begin insidiously and may be nonspecific,
clinical recognition is often delayed for months
or years.

For this reason, biochemical diagnosis is
usually essential; it typically requires measuring
blood levels of the peripheral endocrine
hormone, the pituitary hormone, or both.

Laboratory testing plays an essential role in
endocrinology by allowing quantitative
assessment of hormone levels and dynamics.
 Lab Ix…
Because most hormones have circadian
rhythms, measurements need to be made
at a prescribed time of day.

Hormones that vary over short periods (eg,
LH) necessitate obtaining 3 or 4 values
over 1 or 2 hours or using a pooled blood
sample.

Hormones with week-to-week variation
(eg, estrogen) necessitate obtaining
separate values a week apart.
 Lab Ix…
Blood hormone measurements
Immunoassays are the most important diagnostic
tool in endocrinology, as they allow sensitive,
specific, and quantitative determination of
steady-state and dynamic changes in hormone
concentrations

Free or bioavailable hormone (ie, hormone not
bound to a specific binding hormone) is generally
believed to be the active form.

These methods can be expensive and
time-consuming

Analog and competitive free hormone assays,
although often used commercially, are not always
accurate and should not be used.
 Lab Ix…
Most hormone measurements are based on
plasma or serum samples.

However, urinary hormone determinations
remain useful for the evaluation of some
conditions.

Urinary collections over 24 h provide an
integrated assessment of the production of a
hormone or metabolite, many of which vary
during the day.
E.g
– A 24-h urine creatinine
– A 24-h urine-free cortisol
 Lab Ix…
Dynamic tests
In many cases, a dynamic test is
necessary.

Thus, in the case of hypofunctioning
organs, a stimulation test (eg, ACTH
stimulation) can be used.

In hyperfunction, a suppression test
(eg, dexamethasone suppression) can be
used.
 Imaging
Radiologic imaging tests such as
computed tomography (CT) scan,
magnetic resonance imaging (MRI),
thyroid scan, and ultrasound are also used
for the diagnosis of endocrine disorders.

However, these tests generally are
employed only after a hormonal
abnormality has been established by
biochemical testing.
 Pathological Testes
FNAC

Biopsy
 Treatment of Endocrine
Disorders
Replacing deficient hormone

Suppressing excessive hormone
production

Radiation therapy and surgery can used
to treat hyper function disorders.
 Rx…
Hypofunction disorders are usually treated by
replacement of the endocrine
hormone regardless of whether the defect is
primary or secondary

If resistance to the hormone exists, drugs
that reduce resistance can be used
(eg, metformin for T2DM)

Occasionally, a hormone-stimulating drug is
used (eg, a sulfonylurea to
stimulate insulin secretion).
Thank you