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Transcript

Include in lab report 1

Metabolism – broad term for all chemical reactions
occurring in the body
 Involves catabolism
 Process of breaking down complex substances into simple
substances
 Releases stored energy when bonds are broken in large
molecules

Involves anabolism
 Enzymes build up smaller molecules into more complex
molecules
 Energy is stored when molecules are made
 Energy is either stored as adenosine triphosphate (ATP) or
given off as body heat

Throxyine
 Most important hormone in maintaining body
temperature and metabolism
 Found in thyroid
 Controlled by the pituitary gland
▪ Secretes thyroid-stimulating hormone (TSH). TSH
▪ Carried by the blood to the thyroid gland and causes the
thyroid to produce more thyroxine
1.
2.
Go to “exercise” → “endocrine system
physiology”
Complete exercises:
- Metabolism
- Hormone Replacement Therapy
- Insulin and Diabetes Part I
- Insulin and Diabetes Part II
- Measuring Cortisol and
Adrenocorticotrophic
Hormone
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You will investigate the effects of
thyroxine and TSH on an animal’s
metabolic rate (see Figure 28B.1b).
To begin, select Exercise 28B:
Endocrine System Physiology
from the drop-down menu and
click GO. Before you perform the
activities, watch the BMR
Measurement video.
To see an experiment in which
basal metabolic rate is measured.
Then click Metabolism. The
opening screen will appear in a
few seconds (see Figure 28B.1a).
Select Balloons On/Off from the
Help menu for help identifying
the equipment onscreen (you will
see labels appear as you roll the
mouse over each piece of
equipment). Select Balloons
On/Off to turn this feature off
before you begin the experiments.
Complete Activity 1 and Chart 1.

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Follicle-stimulating hormone (FSH) stimulates
ovarian follicle
 Produces estrogen
Menopause = hormone production is stopped
Results in loss of bone density, which can
result in osteoporosis and bone fractures
Estrogen is used as postmenopausal
treatments to prevent osteoporosis
Calcitonin = hormone that inhibits osteoclast
activity and stimulates calcium uptake for
deposit in bone.
In this experiment we will use three
ovariectomized rats because they are no
longer producing estrogen due to the
removal of their ovaries. You will administer
either estrogen therapy or calcitonin
therapy, two types of hormone replacement
therapy to obtain T-scores.
 T scores are interpreted as follows: normal
1 to 0.99; osteopenia (bone thinning) 1.0
to 2.49; osteoporosis 2.5 and below.
Insulin is produced by the beta cells
of the endocrine portion of the
pancreas. Helps regulate blood
glucose levels
 How? Enables the body’s cells to
absorb glucose from the
bloodstream (see Figure 28B.4b).
 Type 1 diabetes mellitus results
When insulin is not produced by the
pancreas.
 When insulin is produced by the
pancreas but the body fails to
respond to it, type 2 diabetes
mellitus results.
 In either case, glucose remains in
the bloodstream, unable to be
taken up by the body’s cells to serve
as the primary fuel for metabolism.


The following experiment is divided
into two parts. In Part I, you will obtain
a glucose standard curve, which will be
explained shortly.
In Part II, you will use
the standard curve to
measure fasting
plasma glucose levels
in patients to diagnose
diabetes mellitus.

Cortisol
 Hormone secreted by the adrenal cortex
 Function: Regulates stress
 Adrenocorticotropic hormone (ACTH), stimulates its release
▪ ACTH produce in anterior pituitary
▪ Corticotropin-releasing hormone (CRH) stimulates its release
 Increased levels of cortisol negatively feed back to inhibit the release
of both ACTH and CRH.
 See Figure 28B.5b for the regulation of cortisol secretion.

Hypercortisolism (Cushing’s syndrome or disease if it is due to an
adrenal tumor) is increased cortisol in the blood
 Hypocortisolism can occur due to adrenal insufficiency.

Addison’s disease - primary adrenal insufficiency in which the low
cortisol is directly due to gradual destruction of the adrenal cortex,
and ACTH levels are typically elevated as a compensatory effect.


Start by selecting Measuring Cortisol
and Adrenocorticotropic Hormone
from the Experiment menu. A new
screen will appear (Figure 28B.5a) with
five patient plasma samples and an
HPLC (high-performance liquid
chromatography) column that will be
used to simulate the measurement of
cortisol and adrenocorticotropic
hormone (ACTH).
There is a syringe that will be used to
inject the samples into the HPLC
injector for analysis. The Cortisol and
ACTH buttons are used to prepare the
column with solvents used to separate
the two different hormones. The
detector will measure the amount of the
hormone and convert it into a
concentration value.