Shock Nursing Management – Assessment, Diagnosis & Care

Shock nursing management depends on the accurate and timely identification of shock. This can be obtained through an accurate assessment, thorough investigations, and a proper diagnosis, following which, the right treatment and requirements can be planned and provided to the patient.

Assessment

When assessing for shock, one should keep in mind that clinical changes are initially quite subtle. Still, the following aspects must be taken into account during an initial patient assessment…

  • patient history
  • level of consciousness
  • signs of internal or external bleeding
  • skin colour and/or moisture
  • respiratory rate and effort
  • heart rate and rhythm
  • body temperature
  • blood pressure
  • urine output
shock nursing management
Retrieved from https://www.grepmed.com/images/4224/types-table-signs-classification-symptoms on 16th January 2023
shock nursing management
Retrieved from https://doctorlib.info/medical/harrisons-manual-medicine/12.html on 16th January 2023

Investigations

Clinical tests should be carried out to confirm shock and identify the patient’s array of needs…

  • CBC – a complete blood count test measures the amount of red blood cells (which carry oxygen) and white blood cells (which fight infection); this test gives a good indication of bleeding and infection.
  • ABGs – an arterial blood gases test measures the acidity (pH) and the levels of oxygen and carbon dioxide in arterial blood; this test determines how well the patient’s lungs are performing gas exchange.
  • Lactate Level – normal blood lactate levels are 1.3 mmol/L; an increase in lactate production is usually caused by impaired tissue oxygenation whereby the lungs switch from performing aerobic to anaerobic respiration.
  • Cross Match – this is done in case the patient is found to be needing a blood transfusion.
  • Electrolytes electrolyte imbalance can be indicative of shock in the progressive phase.
  • Clotting – impaired coagulation and microclots are indicative of shock in the progressive phase.
  • Alcohol Levels – these are tested if the patient suffered from trauma.
  • ECG – an ECG determines whether the patient is suffering from arrhythmias or is heading towards cardiac depression and failure.
  • Cardiac Enzymes – cardiac enzymes a.k.a. cardiac biomarkers are released by the heart in the case of heart damage or stress caused by low oxygen; Troponin and creatinine phosphokinase (CPK) levels rise following a heart attack; elevated heart enzyme levels may also indicate acute coronary syndrome or ischaemia.
  • X-rays, CT scan of the Patient’s Chest, Abdomen and Spine – determines if there is infection, injury, and fluid loss.
shock nursing management
Retrieved from https://oxfordmedicalsimulation.com/learning/blood-gases/normal-blood-gas-sig001us/ on 16th January 2023
Retrieved from https://veteriankey.com/blood-gas-acid-base-analysis-and-electrolyte-abnormalities/ on 16th January 2023

Diagnosis

Clinical manifestations of shock vary according to both the underlying cause and the stage it is at, varying based on the cause of shock as well as the patient’s physiological response.

Typically, a patient is considered to be in shock when the following signs are noted:

  1. a systolic blood pressure of <90mmHg
  2. tachycardia OR bradycardia
  3. altered mental status

Shock Nursing Management

Shock nursing management aims to:

  • RESTORE ADEQUATE TISSUE PERFUSION – this can be achieved through ensuring adequate oxygen delivery to the cells in relation to gas exchange, cardiac output, and haemoglobin, as well as improving oxygen utilisation by the cells
  • PREVENT SHOCK PROGRESSION INTO FURTHER STAGES

Thus, in shock nursing management, the following steps need to be tackled as needed:

  1. improving oxygen supply
  2. administering fluid therapy
  3. administering cardiovascular drugs
  4. providing nutritional support
  5. providing psychosocial care

1. Improving Oxygen Supply

With adequate oxygen supply we aim to:

  • achieve adequate gas exchange – ensure the patient has a patent airway, and improve ventilation and oxygenation by providing supplemental oxygen and mechanical ventilation if required
  • achieve adequate cardiac output – aim to control the patient’s heart rate, preload and afterload, and cardiac contractility through the administration and titration of fluids and cardiovascular drugs

2. Administering Fluid Therapy

Fluid therapy administration is necessary for all types of shock, though the type of fluid administered and the amount and speed of delivery varies with every patient.

Fluids help increase oxygenation since oxygenation is partly affected by circulation. Types of fluids administered include:

  • crystalloids – electrolyte solutions such as Isotonic (eg. normal saline or RLactate), Hypertonic (eg. 10% Dextrose) or Hypotonic (eg. 0.45% NaCl – Sodium Chloride)
  • colloids – types of colloids, which contain large molecules, include blood and its products such as Fresh Frozen Plasma (FFP), as well as synthetic plasma expanders such as Gelafundin (a colloidal plasma volume substitute in an isotonic balanced whole electrolyte solution that can be used for prophylaxis and therapy of hypovolaemia and shock); ADVANTAGES: colloids remain in the intravascular space, restoring fluids faster and with less volume, while blood restores Hgb; DISADVANTAGES: colloids are expensive, may cause reactions, and may also leak out of damaged capillaries, causing additional problems especially within the lungs

fluid administration Complications

Common fluid administration complications include cardiovascular overload and pulmonary oedema.

Patients with increased risk include elderly patients and patients with a history of chronic renal failure or heart failure.

To avoid fluid administration complications, the nurse should:

  • monitor and document urine output and fluid intake
  • monitor for changes in the patient’s vital signs
  • check for lung sounds
  • perform haemodynamic monitoring

3. Administering Cardiovascular Drugs

Anti-dysrhythmic agents

  • anti-dysrhythmic agents such as Amiodarone prevent or treat abnormal heart rates and rhythms

Vasodilators

  • vasodilators such as nitrates cause arterial dilation by decreasing the afterload following decreased resistance to blood ejection, leading to an increase of cardiac output without increased oxygen demands
  • vasodilators also cause venous dilation by reducing the preload and subsequently reducing the filling pressure on the failing heart

NOTE: Vasodilators REDUCE BLOOD PRESSURE! Monitor patient at all times whilst on vasodilators!

Inotropes and Vasoconstrictors

  • inotropes and vasoconstrictors increase myocardial contractility leading to an increase in cardiac output
  • inotropes stimulate adrenergic receptors, causing similar effects to the fight or flight reaction; types of sympathomimetic agents include naturally occurring catecholamines eg. adrenaline, noradrenaline and dopamine; synthetic cathecolamines eg. dobutamine

NOTE: Vasoconstrictors INCREASE BLOOD PRESSURE!

ADRENALINE (EPINEPHRINE)

  1. binds to beta 1 and beta 2 receptors
  2. cause an increase in heart rate, cardiac contractility, vasodilation, and cardiac output
  3. with an increasing rate of infusion also comes an increase in alpha receptors, which result in increased blood pressure and vascular resistance through vasoconstriction
  4. the heart now needs to work harder and so, its oxygen demand increases too

NORADRENALINE

  1. binds to beta 1 receptors only
  2. does not cause an increase in heart rate
  3. a low dose of noradrenaline increases cardiac contractility, leading to an increase in cardiac output
  4. higher doses tend to limit effect due to alpha stimulation which causes massive vasoconstriction
  5. whilst this causes an increase in blood pressure, it compromises peripheral circulation and increases the workload of the heart

DOPAMINE

  1. dopamine is the chemical precursor of noradrenaline
  2. a low dose of dopamine stimulates dopaminergic receptors, causing renal and mesentric vasodilation, leading to a good urine output
  3. a moderate dose of dopamine stimulates beta 1 receptors, causing an increase in cardiac contractility and cardiac output
  4. a high dose of dopamine stimulates alpha receptors, causing massive vasoconstriction, an increase in blood pressure, and an increase in the workload of the heart

DOBUTAMINE

  1. dobutamine causes no dopaminergic effects
  2. dobutamine mainly stimulates beta 1 receptors, causing an increase in cardiac contractility and cardiac output; dobutamine may also stimulate beta 2 receptors, causing mild vasodilation, causing a reduction the the preload, afterload, and stress on the heart
  3. dobutamine is helpful in treating heart failure, especially in hypotensive patients who are unable to tolerate vasodilators
  4. dobutamine may also be used as an adjunct therapy to adrenaline or noradrenaline and dopamine to reduce vasoconstriction effect

ADMINISTRATION OF INOTROPES:

  • correct dilution of inotropes is of utmost importance
  • inotropes are administrated as infusions through electronic pumps so that consistent administration is ensured
  • administration of inotropes is done through a central line
  • careful haemodynamic monitoring is very important especially since it help in the titrating process of inotropes dosage as needed
  • inotropes should NOT replace fluid and electrolyte balance
  • inotropes should be weaned off slowly

EFFECTS OF ADRENERGIC RECEPTORS

RECEPTORLOCATIONRESPONSE
ALPHAskin, muscles, kidneys, and intestinesconstrict peripheral arterioles
BETA 1cardiac tissueincrease heart rate and cardiac contractility
BETA 2vascular and bronchial smooth muscledilates peripheral arterioles; increases heart rate; causes bronchodilation

4. Providing Nutritional Support

Shock causes increased metabolic rates, which in return increase the patient’s energy requirements. Catecholamines (adrenaline and noradrenaline) deplete glycogen stores in 8-10 hours, after which the body starts breaking down skeletal muscle for energy. This prolongs recovery period unless it is prevented.

Typically, a patient in shock may require >3000kcal daily, however, the patient is usually unable to eat due to intubation, sedation, and anxiety. For this reason, enteral or parenteral nutrition should be initiated within 48 hours, and increased to full nutrition by day 3-7, if the patient is haemodynamically stable (excessive nutrient intake should be avoided in the early phase of critical illness).

NOTE: patients diagnosed with shock are also prone to develop pressure ulcers.

5. Providing Psychosocial Care

Psychological care should be provided throughout the whole course of hospitalisation, especially within the critical care environment. Liaise with other healthcare professionals as needed.

Whilst adopting an empathic approach, provide information and reassurance to both the patient (if conscious; if unconscious still talk to your patient as if he/she is listening, making him/her aware of what is going on in relation to care) and relatives, as this reduces anxiety. Communicate with the patient’s relatives about the patient’s condition as well as procedures being performed.

Shock Nursing Management Additional Interventions

  • ensure good vascular access for fluid administration, central venous pressure (CVP) monitoring, and to draw blood for investigations
  • insert a NGT (or OGT if patient has facial trauma) so that emesis (vomiting) and aspiration are prevented
  • insert a urinary catheter to monitor urine output and fluid balance accordingly
  • monitor the patient’s temperature and ensure maintenance of normal body temperature
  • reposition patient frequently to prevent pressure ulcer formation
  • provide frequent mouth and eye care
  • assess for pain and administer analgesics as needed
  • ensure continuous monitoring and documentation

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Sudden Acute Illness

Illness can be categorised under either acute or chronic. Whilst chronic illness is long-lasting, potentially worsening over time, sudden acute illness happens suddenly with immediate or rapidly developing symptoms, which is why it usually requires immediate care.

Altered Level of Consciousness

Retrieved from https://www.nursingtimes.net/roles/hospital-nurses/patient-narratives-4-the-meaning-behind-communication-04-04-2016/ on 2nd October 2022

When normal brain activity is interrupted, a casualty may experience loss of awareness of their surroundings. At times the casualty may only show responsiveness when stimulated eg. through shaking, shouting, or pain stimulus.

Causes

  • hypoglycaemia – most common cause of unconsciousness
  • any issue with the airway, breathing or circulation leading to brain hypoxia
  • neurological issues (eg. CVA)
  • serious infection (eg. meningitis or infection in relation to the brain)
  • brain injury following trauma to the head
  • poisoning which affects the brain directly, or which leads to ABC compromise that induces brain hypoxia
  • other sudden acute illness eg. myocardial infarction

Signs & Symptoms of Neurological Issues

  • dizziness
  • disorientation
  • confusion
  • lethargy
  • drowsiness
  • low level of response
  • unequal pupil size
  • abnormal pupil reaction
  • limb weakness
  • unresponsiveness
  • seizures

NOTE: in CVA, limb weakness is commonly experienced on one side of the body.

A casualty’s level of consciousness is typically tested using the Glasgow Coma Scale, while the level of response is tested using the AVPU score.

Cerebrovascular Accident CVA

sudden acute illness
Retrieved from https://www.netmeds.com/health-library/post/strokecerebrovascular-accident-causes-symptoms-and-treatment on 2nd October 2022

A cerebrovascular accident is considered to be a sudden acute illness. It can happen in 2 ways:

  1. Haemorrhagic Stroke – a stroke which happens when weakened or deceased blood vessels rupture, causing blood leaks into the brain tissue
  2. Ischaemic Stroke – a stroke caused by a blood clot that stops the normal flow of blood to a part within the brain

Signs & Symptoms of Cerebrovascular Accident

  • sudden headache
  • blurred vision
  • facial asymmetry
  • drooling
  • slurred speech
  • numbness and/or weakness focused on one side of the body

First Aid for CVA

Retrieved from https://www.cedars-sinai.org/blog/stroke-strikes-act-fast.html on 2nd October 2022

In an unresponsive casualty:

  1. maintain ABCs
  2. assist into recovery position
  3. call 112
  4. monitor & provide reassurance

In a responsive casualty:

  1. assist in a comfortable position, preferably on a bed if available
  2. elevate head and shoulders to promote comfort and to minimise pressure
  3. incline head towards affected (drooling) side to avoid aspiration pneumonia
  4. loosen any tight clothing
  5. call 112
  6. monitor & provide reassurance

Hypoglycaemia

sudden acute illness
Retrieved from https://www.dailypioneer.com/2016/health-and-fitness/hypoglycaemia-cases-increased-by-39-per-cent-study.html on 2nd October 2022

Hypoglycaemia, which can be considered as a sudden acute illness, can be defined as a glucose concentration of 3.9mmol/l or below.

Signs & Symptoms of Hypoglycaemia

  • history of Type 1 Diabetes
  • weakness
  • fatigue
  • hunger
  • pale, cold, clammy skin (this side effect helps differentiate between hypoglycaemia and a CVA)
  • aggressiveness or unusual behaviour
  • possible speech slurring

First Aid for Hypoglycaemia

In an unresponsive casualty:

  1. maintain ABCs
  2. assist into recovery position
  3. call 112
  4. monitor & provide reassurance

In a responsive casualty:

  1. give sugary drink (you may mix 2 tsp sugar in a little bit of water) or assist with own medication if available (eg. glucose gel)
  2. provide privacy (casualty may become incontinent)
  3. provide reassurance
  4. monitor
  5. if condition improves encourage casualty to seek medical advice; if condition deteriorates call 112

Seizure

sudden acute illness
Retrieved from https://www.jems.com/special-topics/jems-con/know-differences-between-seizures-epilep/ on 2nd October 2022

A seizure is considered to be a sudden acute illness, however, it is not exactly an illness by itself, but a sign of another illness affecting the activity of the brain eg. fever, head trauma, cerebral hypoxia, epilepsy, etc.

Signs & Symptoms of a seizure

  • face twitching
  • lip smacking
  • individual limb spasm
  • uncontrollable muscle spasms
  • convulsions
  • staring spell
  • drooling or frothing at the mouth
  • abnormal sounds
  • tongue biting
  • incontinence

First Aid for Seizures

During a seizure:

  1. notice starting time of seizure and time its duration
  2. reduce injury risk – provide protection for the casualty’s head and remove any nearby items which may be of danger
  3. DO NOT RESTRAIN
  4. DO NOT PUT ANYTHING INTO THE CASUALTY’S MOUTH
  5. ensure casualty’s privacy especially due to possible incontinent episode
  6. apply tepid sponging in case of casualty being febrile

After a seizure:

  1. perform primary assessment and assist if necessary
  2. perform secondary assessment and assist if necessary
  3. manage ABCs
  4. assist in recovery position
  5. call 112
  6. monitor casualty’s condition

Fainting Episode

Retrieved from https://onewelbeck.com/cardiology/symptoms/blackouts-fainting/ on 2nd October 2022

Fainting is a circulatory condition affecting consciousness. Fainting can present as follows:

  • possible brief loss of consciousness
  • slow pulse
  • pale, cold, clammy skin

First Aid for Fainting

  1. remove tight clothing
  2. increase air circulation (eg. by opening windows)
  3. assist to the floor to prevent casualty from getting hurt in case of a fall
  4. elevate legs (approximately 30cm)
  5. maintain casualty’s body temperature so as to help keep a stable blood pressure
  6. provide privacy and reassurance
  7. monitor
  8. call 112 if required

Cerebral Infection

sudden acute illness
Retrieved from https://www.momjunction.com/articles/common-symptoms-of-meningitis-in-toddlers_0098491/ on 3rd October 2022

Signs & Symptoms

  • fever
  • stiffness in the neck area
  • sensitivity to light
  • signs of shock
  • non-blanching rash – press area covered by rash and let go…a rash that still shows points to a neurological infection eg. meningitis

First Aid for Cerebral Infection

Seek medical advice immediately by calling 112!

Dyspnoea

sudden acute illness
Retrieved from https://safarmedical.com/en/medical-articles/difficulty-breathing on 3rd October 2022

Dyspnoea is otherwise known as experiencing difficulty in breathing. Dyspnoea can happen due to various reasons:

  • Airway Obstruction
  • Cardiac & Circulatory Disorders
  • Respiratory Disorders affecting either the inhalation/exhalation process (eg. asthma), the lower airways, the diffusion process across the alveolar membrane, or the uptake of oxygen in pulmonary circulation (eg. anaemic patients)

Causes of Dyspnoea

  • asthma
  • pulmonary oedema – caused either by a cardiac problem or by accumulation of fluid in the alveoli within the lungs
  • hyperventilation syndrome – stress => hyperventilation => not feeling well => anxiety => increased hyperventilation => increasing symptoms (respiration rate of more than 30 breaths per minute; numbness)
  • chest infection
  • inhalation of fumes/chemicals
  • drowning syndrome
  • choking
  • strangulation or suffocation

Dyspnoea signs and symptoms

  • inability to speak
  • use of accessory muscles to breathe
  • abnormal respiratory rate and rhythm pattern
  • noisy breathing
  • cyanosis
  • disorientation, confusion, or unusual aggressiveness – these are classic signs of cerebral hypoxia irrespective of its cause

First Aid for Dyspnoea

  1. provide reassurance to reduce anxiety and increased symptoms
  2. encourage good breathing pattern
  3. increase ventilation in casualty’s area
  4. help sit up properly
  5. release tight clothing
  6. if casualty is on medication eg. inhalers, assist with self medication
  7. call 112
  8. monitor casualty and be prepared to resuscitate if need be

Foreign Body Airway Obstruction (FBAO)

first aid for compromised airway

Foreign Body Airway Obstruction can manifest in two ways: foreign bodies may cause partial, or complete airway obstruction.

Signs & symptoms of foreign body airway obstruction

In mild (partial) airway obstruction, the casualty is able to speak and cough.

In severe (complete) airway obstruction, the casualty:

  • is unable to speak or cough
  • has noisy breathing (wheezing)
  • shows signs of severe dyspnoea
  • shows signs of distress
  • may be or become unresponsive

First Aid for Foreign Body Airway Obstruction

In a conscious patient:

  1. 5 back blows followed by 5 abdominal thrusts
  2. continue, alternating between the two methods until either foreign body gets dislodged, or else casualty becomes unresponsive

In an unconscious patient:

  1. start CPR

NOTE: in casualties who are either obese, pregnant, or children, do not perform abdominal thrusts…instead do chest thrusts; after the intervention, the casualty should be taken to hospital to be assessed for possible internal damage.

Chest Pain

sudden acute illness

Chest pain can result due to Ischaemic Heart Disease – a disease in which there is an obstruction of blood flow to an area within the heart which causes hypoxia and death of that particular area in the heart.

Signs & Symptoms of Acute Ischaemia

  • feeling generally unwell
  • pale and cold skin
  • profuse sweating
  • feeling persistent pain or heaviness in the chest
  • chest pain may radiate to the left arm, jaw and back
  • may experience palpitations
  • may experience nausea
  • dyspnoea

First Aid for Acute Ischaemia

  1. provide reassurance
  2. ensure surrounding area is well ventilated
  3. assist in a sitting position
  4. release any tight clothing
  5. assist with own medication if available on casualty eg. 300mg of aspirin
  6. call 112
  7. ask someone to get an AED
  8. monitor
  9. be prepared to resuscitate if need arises

Anaphylaxis & Anaphylactic Shock

sudden acute illness
Retrieved from https://homeopathy.ae/article/anaphylaxis-dangerous-allergy on 7th October 2022

Anaphylaxis happens when a person comes into contact or exposure to an allergen.

Signs & Symptoms of Anaphylaxis

  • changes within the skin and mucous membranes eg. rash, burning sensation, swelling of the mouth and tongue
  • sudden illness development
  • rapid ABC deterioration eg. swelling of airway structures, altered level of consciousness, dyspnoea, wheezing, cyanosis, dizziness & weakness (neurological response)

NOTE: If a casualty experiences all the above PLUS signs of shock (including pale, clammy skin), the indication would be an ANAPHYLACTIC SHOCK, which is even worse than anaphylaxis!

First Aid for Anaphylaxis & Anaphylactic Shock

  1. identify cause (eg. if cause was an insect sting, remove it)
  2. if unconscious, resuscitate
  3. if unresponsive but breathing, assist into the recovery position
  4. if patient is responsive, assist in a supine position UNLESS patient is exhibiting signs of shock, in which case, elevate legs, OR if experiencing severe dyspnoea, in which case assist in fowlers position or elevate back as much as possible
  5. administer high concentration of oxygen
  6. if an epipen is available on the casualty and the casualty is responsive, administer, assist in self injecting Epinephrine

NOTE: Epinephrine helps DECREASE severity of anaphylaxis, EASE bronchospasms due to causing bronchial airways to dilate, and REDUCE circulatory collapse through a triggered increase in cardiac contraction as well as reversal of peripheral vasodilation.


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The Endocrine System – The Adrenal Glands

The adrenal glands are small triangular-shaped structures located at the top of both kidneys. Their function is to produce hormones that help in the regulation of the metabolism, immune system, blood pressure, stress response, and more.

adrenal glands
Retrieved from https://www.jaypeedigital.com/book/9789350903025/chapter/ch16 on 12th March 2022

The adrenal glands, which are covered by an inner thick layer of connective tissue with an outer thin fibrous capsule, contain two sections:

  1. OUTER ADRENAL CORTEX – makes up the biggest part of the gland
  2. INNER ADRENAL MEDULLA – the core

The OUTER ADRENAL CORTEX is made up of 3 parts:

  1. Zona Glomerulosa – makes up 15% of the total volume (secretes mineralocorticoids)
  2. Zona Fasciculata – makes up the widest part of the total volume (mainly secretes glucocorticoids)
  3. Zona Reticularis – secretes amounts of hormones, mostly gonadocorticoids and androgens
adrenal glands
Retrieved from https://www.majordifferences.com/2014/04/difference-between-adrenal-cortex-and.html on 12th March 2022

Adrenal Cortex vs Adrenal Medulla

Mineralocorticoids

Mineralocorticoids are responsible for water and electrolyte homeostasis through control of sodium and potassium concentrations. 95% of all mineralocorticoid activity happens through Aldosterone:

  1. Aldosterone acts on the kidneys’ tubule cells, causing them to increase sodium reabsorption
  2. Sodium ions are removed from the urine and returned to the blood
  3. Rapid depletion of sodium from the body is prevented

Aldosterone causes:

  • potassium excretion
  • sodium reabsorption
  • hydrogen ions elimination
  • sodium, chloride, and bicarbonate ions retention
  • water retention

NOTE: Aldosterone reduces potassium reabsorption, thus, large potassium amounts are lost in urine excretion.

Electrolyte balance Secondary Effects

Sodium retention and potassium excretion lead to secondary effects:

  • Sodium reabsorption causes Hydrogen ions to pass into the urine to replace positive sodium ions, making the blood less acidic, thus preventing acidosis.
  • Sodium ions movement creates a positively charged field in the blood vessels surrounding the kidney tubules. This causes Chloride and Bicarbonate ions to move out from urine, back into the blood.
  • When ADH (antidiuretic hormone) is present, increased sodium concentration in the blood vessels causes water to move by osmosis from the urine into the blood.

Aldosterone control #1 – the raas system

RAAS system
Retrieved from https://www.pinterest.com/pin/557813103821299549/ on 13th March 2022

Aldosterone Control #2 – Potassium Ion Concentration

  1. Increased potassium concentration in extracellular fluid causes the adrenal cortex to secrete aldosterone
  2. Aldosterone secretion causes excess potassium to be eliminated by the kidneys
  3. Decreased potassium concentration in the extracellular fluid causes a decrease in aldosterone production, leading to less potassium excretion by the kidneys

Glucocorticoids

Glucocorticoids promote normal metabolism by:

  • increasing the rate of protein catabolism
  • increasing the rate at which amino acids are removed from cells and transported to the liver to undergo protein synthesis
  • releasing fatty acids from adipose tissue to be converted into glucose
  • promoting gluconeogenesis

Glucocorticoids promote stress resistance:

  • gluconeogenesis from amino acids causes a sudden increase in glucose availability, prompting the body to become more alert
  • blood vessels become more sensitive to chemicals that cause vasoconstriction so as to allow an increase in blood pressure

Glucocorticoids are anti-inflammatory compounds:

  • cause a reduction in mast cells
  • stabilise lyosomal membranes, leading to the inhibition of histamine release
  • decrease blood capillary permeability
  • depress phagocytosis by monocytes

Glucocorticoids:

  • Cortisol (hydrocortisone) – most abundant and responsible for about 95% of all glucocorticoid activity
  • Corticosterone
  • Cortisone

NOTE: Cortisol Serum blood test indicates adrenal function.

NOTE: Glucocorticoids slow down connective tissue regeneration, which leads to slow wound healing.

NOTE: Steroids are a synthetic form of glucocorticoids.

ACTH (Adrenocorticotropic hormone) Control

Glucocorticoid secretion is controlled through a negative feedback mechanism stimulated by stress and low blood glucocorticoid level:

  1. stress and low blood glucocorticoid level stimulate the hypothalamus to secrete CRF (corticotropin releasing factor)
  2. CRF secretion causes ACTH to be released from the anterior lobe of the pituitary
  3. ACTH is carried to the adrenal cortex, where it stimulates glucocorticoid secretion
adrenal glands
Retrieved from https://quizlet.com/279451837/chapter-9-vocabulary-flash-cards/ on 13th March 2022

Gonadocorticoids

The adrenal cortex is responsible for the secretion of both male and female sex hormones – oestrogens and androgens.

Adrenal Medulla

  • The adrenal medulla is made up of chromaffin cells (hormone-producing cells) surrounding sinuses containing blood
  • These chromaffin cells are considered to be postganglionic cells specialised in secretion
  • Preganglionic fibres pass directly into the chromaffin cells of the gland within the adrenal medulla
  • Secretion of hormones is controlled by the autonomic nervous system and innervation by preganglionic fibres that allows rapid response to a stimulus by the gland

Epinephrine and Norepinephrine

The adrenal medulla synthesises the following two hormones:

  • Epinephrine (adrenaline)
  • Norepinephrine (noradrenaline)

Epinephrine is stronger than norepinephrine. It:

  • increases the blood pressure by increasing the heart rate and constricting the blood vessels
  • increases respiration rate
  • dilates respiratory passageways
  • decreases digestion rate
  • increases muscular contraction efficiency
  • increases blood sugar level
  • stimulates cellular metabolism

However, both epinephrine and norepinephrine:

  • mimic the sympathetic nervous system – they are sympathomimetic
  • help in stress resistance

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