Anti Hyperlipidaemic Drugs

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Here you can find videos related to anti hyperlipidaemic drugs covered within cardiovascular pharmacology that help lower LDL cholesterol…

Cardiovascular pharmacology deals with the study of the effects of drugs upon the heart or circulatory system. Cardiovascular medicines help to prevent and treat cardiovascular disease, slow the progression of it as well as treat its symptoms whilst providing a better quality of life and increasing life expectancy.

Types of Cardiovascular Drugs include:

  • Anti-Hypertensive Drugs
  • Anti-Angina Drugs
  • Anti-Arrhythmic Drugs
  • Anti-Coagulants
  • Anti-Hyperlipidaemic Drugs

Below you can find a collection of videos that can help provide a more visual approach to cardiovascular pharmacology, specifically on the AntiHyperlipidaemic Drugs.


Anti Hyperlipidaemic Drugs include:

HMG-CoA Inhibitors – Simvastatin, Atrovastatin and Rosuvastatin

  • Lower elevated LCD Cholesterol.
  • Causes a large reduction in coronary events and death from heart disease.
  • Considered as 1st line treatment for patients with elevated coronary artery syndromes and ischaemic heart disease.
  • Simvastatin is highly effective at night; others may be taken during the day as well.
  • ADVERSE EFFECTS: liver damage, myopathy, rhambdomyolysis.
  • CONTRAINDICATIONS: chronic liver disease, pregnancy and lactation.
  • MONITOR: liver function tests (4-6wks initially, then yearly); muscle enzyme levels if patient complains of muscle pain.

Lipoprotein Lipase Activators – Fenofibrate, Gemfibrozil, Clofibrate and Bezofibrate

  • Lowers serum TGs and increase HDL cholesterol levels.
  • ADVERSE EFFECTS: GI disturbances, gall stone formation, myositis, myopathy and rhambdomyolysis.

Bile Acid Sequestrans

  • Sequestrants bind to bile acids in the intestine, preventing them from being reabsorbed into the blood.
  • SIDE EFFECTS: constipation, diarrhoea, bloating, flatulence.
  • PATIENT EDUCATION: take before a meal or at bedtime. Leave at least 1 hour before or 4 hours after taking cholestyramine since it interferes with their absorption.

Hyperlipidaemic Drugs

HMG-CoA Inhibitors a.k.a. Statins

Special thanks to the creators of the featured videos on this post, specifically Youtube Channels Speed Pharmacology and Registered Nurse RN

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Drugs Affecting Coagulation: Anti Platelets, Anti Coagulants, Thrombolytics

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Here you can find videos related to drugs affecting coagulation, including anti-coagulants, anti-platelets and thrombolytics…

Cardiovascular pharmacology deals with the study of the effects of drugs upon the heart or circulatory system. Cardiovascular medicines help to prevent and treat cardiovascular disease, slow the progression of it as well as treat its symptoms whilst providing a better quality of life and increasing life expectancy.

Types of Cardiovascular Drugs include:

  • Anti-Hypertensive Drugs
  • Anti-Angina Drugs
  • Anti-Arrhythmic Drugs
  • Anti-Coagulants
  • Anti-Hyperlipidaemic Drugs

Below you can find a collection of videos that can help provide a more visual approach to cardiovascular pharmacology, specifically on the Anti-Platelet drugs, Anti-Coagulant Drugs and Thrombolytic Drugs.


Drugs affecting coagulation include:

Anti Platelet Drugs – alter formation of platelet plug

Aspirin:

  • Effect lasts for up to 10 days, which is approximately the platelets lifespan.
  • INDICATED FOR: transient ischaemic attack, prevention of ischaemic stroke and MI, acute MI, Angina (chronic stable and unstable).
  • ADVERSE EFFECTS: GI bleeding, haemorrhagic stroke.
  • DOSE: 75mg-150mg daily.
  • MAJOR DRAWBACKS: allergic reactions, lack of effectiveness as an anti-thrombotic drug, lack of response in some patients, irreversible platelet inhibition.

Clopidogrel:

  • INDICATIONS: prevents blocakage of coronary artery stents, reduces thrombotic events in patients with acute coronary syndrome, prevents stenosis of coronary stents.
  • ADVERSE EFFECTS: easy bruising, dyspepsia, increased risk of bleeding.
  • MAJOR DRAWBACKS: increased risk of bleeding (attention when used in combination to other drugs that promote bleeding), limited bioavailability, must be broken down to be activated, patients respond differently to it due to metabolic differences.

Abciximab / Eptifibatide (Glycoprotein IIb/IIIa receptor antagonists):

  • Most effective anti platelet drugs which can be reversed.
  • INDICATIONS: acute coronary syndrome, percutaneous coronary interventions.
  • ADVERSE EFFECTS: bleeding.

Anti Coagulant Drugs – interfere in the clotting cascade and thrombin formation

Warfarin & Coumarins – Vitamin K Antagonists (reduce blood clotting by reducing Vitamin K).

Warfarin:

  • Stops coagulation by decreasing the production of 4 clotting factors that are dependent on Vitamin K.
  • Administered orally at the same time each day with or without food.
  • Initial onset 6-12 hours, with the peak effect developing after several days.
  • Effect persists for 2-5 days after discontinuation.
  • INDICATION: long term prophylaxis of thrombosis, prevention of thromboembolism and venous thrombosis, prevention of thrombosis in atrial fibrillation, reduction of recurrent ischaemic attacks and MI.
  • CONTRAINDICATED: in pregnant and lactating women as it passes through the placenta and breast milk.
  • ADVERSE EFFECTS: bleeding signs & symptoms, haemorrhage.
  • DOSE: 2-5mg depending on INR results.
  • PATIENT EDUCATION: will need ongoing monitoring through INR testing (International Normalised Ratio). Normal INR is usually less or equal to 1, but for patients on Warfarin, INR should range between 2-3, and rechecked every 4 weeks after stabilisation. Should be stopped 5 days before elective surgery. Check for food interactions. Must inform all healthcare providers of Warfarin use. Wear medication bracelet at all times.

Dabigatran, Rivaroxaban, Apixaban: NOAC (Novel Oral Anticoagulants)

Dabigatran:

  • Directly inhibits thrombin production which then prevents formation of fibrin and clots.
  • DOSE: 150BD orally every 12hrs at the same time each day.
  • INDICATION: atrial fibrillation, hip replacement, knee replacement.
  • ADVERSE EFFECTS: bleeding which could be fatal, GI disturbance, dyspepsia.
  • ANTIDOTE: Idarucizumab countaracts bleeding caused by Dabigatran.
  • CONTRAINDICATION: not to be used in patients being administered medications with increased bleeding risk.
  • PATIENT EDUCATION: should not be discontinued prematurely as it causes increased risk of thrombolitic events; must be stopped 2-5 days before elective surgery.

Rivarobaxan and Apixaban:

  • Reduce thrombin production by inhibiting selectively factor Xa and prothrombinase activity.
  • Does not require ongoing lab testing.
  • INDICATION: prevention of DVT and PE after hip and knee surgery, treatment of DVT and PE unrelated to surgery, prevention of stroke in patients with atrial fibrillation.
  • DOSE: same time each day once or twice daily.
  • ADVERSE EFFECTS: dyspepsia, increase risk of bleeding which could be fatal.
  • CONTRAINDICATION: not to be used in patients being administered medications with increased bleeding risk.
  • PATIENT EDUCATION: should not be discontinued prematurely as it causes increased risk of thrombolitic events; must be stopped 2-5 days before elective surgery.

Heparin:

  • Used when rapid anticoagulation is required or quick reversal due to its rapid onset.
  • May be used in pregnant or lactating women.
  • DOSE: in units, administered IV or SC, with preferred administration site being the abdominal area 2″ away from the umbilical cord, thighs or buttocks. Rotate injection site to avoid skin damage. Stop 6-12 hours prior to elective surgery.
  • INDICATIONS: DVT (deep vein thrombosis), Pulmonary Embolism, Arterial Thromboembolism, MI, unstable Angina.
  • ADVERSE EFFECTS: haemorrhage, heparin-induced thrombocytopenia, hypersensitivity reactions.
  • CONTRAINDICATIONS: Thrombocytopenia (low platelet level), uncontrollable bleeding. DO NOT ADMINISTER during or immediately after eye, brain or spinal cord surgery.
  • UNFRACTIONED HEPARIN: APTT monitoring essential, higher risk, antidote Protamine Sulphate used to reverse effects.
  • LOW MOLECULAR WEIGHT HEPARIN: no APTT monitoring needed, lowers risk of bleeding, osteoporosis and Heparin-induced Thrombocytopenia, no antidote.

Thrombolytic Drugs – stimulate the plasmin system to break down the formed clot

Streptokinase, Anistreplase and Urokinase (Non-Fibrin Specific)

Alteplase, Reteplase and Tenecteplase (Fibrin Specific Tissue Plasminogen)

CONTRAINDICATIONS OF THROMBOLYTICS: active internal bleeding, intracranial trauma, cerebral haemorrhagic stroke, cerebrovascular disease, major surgery in the past 2 weeks, active peptic ulcer, diabetic retinopathy, pregnancy.


Drugs Affecting Coagulation: Blood Thinners

Heparin

Warfarin

PT/INR vs aPTT

Thrombolytics

Special thanks to the creators of the featured videos on this post, specifically Youtube Channels Simple Nursing and Registered Nurse RN

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Direct Vasodilators – Anti-Hypertensives in Cardiovascular Pharmacology

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Here you can find videos related to direct vasodilators which are anti-hypertensive drugs covered within cardiovascular pharmacology…

Cardiovascular pharmacology deals with the study of the effects of drugs upon the heart or circulatory system. Cardiovascular medicines help to prevent and treat cardiovascular disease, slow the progression of it as well as treat its symptoms whilst providing a better quality of life and increasing life expectancy.

Types of Cardiovascular Drugs include:

  • Anti-Hypertensive Drugs
  • Anti-Angina Drugs
  • Anti-Arrhythmic Drugs
  • Anti-Coagulants
  • Anti-Hyperlipidaemic Drugs

Anti-Hypertensive Drugs are further sub-divided into 4 categories, namely:

Renin-Angiotensin Aldosterone Inhibitors

Adrenergic System Inhibitors

Diuretics

Direct Vasodilators

Below you can find a collection of videos that can help provide a more visual approach to cardiovascular pharmacology, specifically on the Anti-Hypertensive DrugsDirect Vasodilators.


Nitrates

  • Available as sublingual spray, oral tablets, transdermal patch, and IV preparation.
  • Oral medication can be taken up to 3 times within 5 minute intervals; burning sensation may be experienced (harmless).
  • Sustained release formulas: do not crush and swallow whole; Injection sites should be switched continuously; taper dose over 4-6 weeks to prevent MI.
  • Transdermal patches can lead to patient tolerance. To avoid, remove patch for 4-8 hours, ideally during the night.
  • Nitrates are sensitive to light. Protect from sunlight.
  • INDICATIONS: angina, acute coronary syndrome, for reduction of chest pain and infarct size in MI.
  • ADVERSE EFFECTS: CNS – throbbing headache, dizziness, weakness; CV – hypotension, reflex tachycardia, syncope; GI – nausea, vomiting, incontinence; EENT – pallor, flushing, sweating; methemoglobinemia and cyanosis if administered in high doses.

Calcium Channel Blockers

Nifedipine, Amiodipine, Nicardipine – Dihyropyridines (Anti Hypertensive properties).

Diltaziem, Verapamil – Non-Dihydropyridines (Anti-Arrhythmic properties).

  • Causes a decrease in peripheral resistance, blood pressure and cardiac workload, as well as vasodilation.
  • INDICATIONS: angina pectoris, effort-associated angina, chronic stable angina, unstable crescendo preinfarction angina, essential hypertension.
  • Parenteral administration for treatment of supraventricular tachyarrhythmia, and temporary control of rapid ventricular rate in atrial flutter or atrial fibrillation.
  • ADVERSE EFFECTS: dizziness, light-headedness, headache, fatigue, hypotension, heart block, peripheral oedema, bradycardia, nausea, skin flushing, rash.

Direct Vasodilators: Nitroglycerin and Angina

Direct Vasodilators: Administering Nitroglycerin Sublingual Tablets and Translingual Spray

Calcium Channel Blockers

Special thanks to the creators of the featured videos on this post, specifically Youtube Channels Simple Nursing and Registered Nurse RN

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Diuretics – Anti-Hypertensives in Cardiovascular Pharmacology

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Here you can find videos featuring Diuretics through a visual approach to anti-hypertensive drugs for Cardiovascular Pharmacology use

Cardiovascular pharmacology deals with the study of the effects of drugs upon the heart or circulatory system. Cardiovascular medicines help to prevent and treat cardiovascular disease, slow the progression of it as well as treat its symptoms whilst providing a better quality of life and increasing life expectancy.

Types of Cardiovascular Drugs include:

  • Anti-Hypertensive Drugs
  • Anti-Angina Drugs
  • Anti-Arrhythmic Drugs
  • Anti-Coagulants
  • Anti-Hyperlipidaemic Drugs

Anti-Hypertensive Drugs are further sub-divided into 4 categories, namely:

Renin-Angiotensin Aldosterone Inhibitors

Adrenergic System Inhibitors

Diuretics

Direct Vasodilators

Below you can find a collection of videos that can help provide a more visual approach to cardiovascular pharmacology, specifically on the Anti-Hypertensive DrugsDiuretics

Diuretics: Promote the production of urine, thus increasing urine volume and the excretion of water from the body.

Before starting patient on diuretics, take baseline data of fluid and electrolyte disturbances, hepatorenal diseases, glucose tolerance abnormalities; Assess skin for oedema and skin tugor status; Assess cardiopulmonary status (blood pressure, pulse, heart and lung sounds); Measure body weight to monitor fluid loss or retention.

Monitor intake and output of voiding; monitor lab tests especially K+, Ca+ uric acid and glucose levels; monitor LFTs and renal function.

ADVERSE EFFECTS: electrolyte imbalance, hyperglycaemia, hyperuricemia, acid base disturbances.

Thiazide Diuretics: Bendroflumethazide, Hydrochlorthiazide, Indapamide

  • Most commonly used diuretic.
  • Milder effect when compared to loop diuretics.
  • Causes lower peripheral vascular resistance as well as the excretion of sodium, water, chloride and potassium.
  • INDICATIONS: pulmonary oedema, forced diuresis.

Loop: Bumetanide, Furosemide

  • Causes greatest possible amount of diuresis.
  • Bumetanide is 40% more potent in producing rapid diuresis.
  • Available in oral, IV and IM formulation.
  • INDICATIONS: hypertension, heart failure, oedema.

Potassium Sparing: Spironolactone, Amiloride.

  • Stops sodium reabsorption by interfering with the sodium potassium pump in the distal convoluted tubule.
  • Used along with Thiazides or Loops when increased diuretic effect is desired.
  • INDICATIONS: ideal for patients with low potassium level (hypokalaemia).

Thiazide Diuretics

Loop Diuretics

Potassium Sparing Diuretics

Special thanks to the creator of the featured videos on this post, specifically Youtube Channel Registered Nurse RN

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Adrenergic System Inhibitors – Anti-Hypertensives in CV Pharmacology

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Adrenergic System Inhibitors features videos that provide a visual approach to alpha and beta blockers in cardiovascular pharmacology.

Cardiovascular pharmacology deals with the study of the effects of drugs upon the heart or circulatory system. Cardiovascular medicines help to prevent and treat cardiovascular disease, slow the progression of it as well as treat its symptoms whilst providing a better quality of life and increasing life expectancy.

Types of Cardiovascular Drugs include:

  • Anti-Hypertensive Drugs
  • Anti-Angina Drugs
  • Anti-Arrhythmic Drugs
  • Anti-Coagulants
  • Anti-Hyperlipidaemic Drugs

Anti-Hypertensive Drugs are further sub-divided into 4 categories, namely:

Renin-Angiotensin Aldosterone Inhibitors

Adrenergic System Inhibitors

Diuretics

Direct Vasodilators

Below you can find a collection of videos that can help provide a more visual approach to cardiovascular pharmacology, specifically on the Anti-Hypertensive DrugsAdregenic System Inhibitors.


The Adrenergic System:

The main neurotransmitter of the Adrenergic system is Nonepinephrine. Nonepinephrine acts on all adrenergic receptors to generate a response.

When the sympathetic system is stimulated, there is an increase in heart rate and contractility, and blood vessels constrict. When the sympathetic system is blocked, the heart rate slows down and the blood vessels dilate.

Drugs that STIMULATE the adrenergic system = alpha or beta agonists (sympathomimetics).

Drugs that BLOCK the adrenergic system = alpha or beta blockers (sympatholytics).

Beta Blockers:

Beta Blockers block action of Epinephrine and Nonepinephrine and act as antagonists, blocking beta1 (heart) and beta2 (lungs) adrenergic receptors.

First Generation Nonselective Beta Blockers – Act on B1 (Heart) & B2 (Lungs) eg. Nadolol, Oxprenolol, Penbotalol, Pindolol, Propanolol, Sotalol, Timolol.

Second Generation B1 Selective Beta Blockers – Act on B1 (Heart) eg. Acebutolol, Atenolol, Bisoprolol, Esmolol, Metoprolol. Ideal for asthmatics!

Third Generation Vasodilatory: Nonselective eg. Carteolol, Carvedilol, Labetalol; B1 Selective eg. Betaxolol, Nebivolol.

  • INDICATIONS: angina, arrhythmias, heart failure, hypertension, MI.
  • ADVERSE EFFECTS: bradycardia, hypotension, increase in lipidemia, decrease in libido, bronchospasm causing shortness of breath, chronic heart failure due to abnormalities in conductivity, kinks peripheral vessels, exhaustion, emotional depression, masks hyperglycaemia.
  • CONTRAINDICATIONS: bradycardia, heart block, asthma (do not administer 1st Gen Beta Blockers especially Propanolol), CHF, diabetes, COPD. Avoid concurrent administration of BB with CCBs and Diuretics.
  • NURSING INTERVENTION: check pulse and do not administer if patient is bradycardic. Be extremely careful with HF patients. Monitor side effects.
  • PATIENT EDUCATION: advise not to stop medication abruptly. Take with food to reduce or prevent GI disturbances. Whilst body adjusts to medication, side effects such as dizziness, light headedness, drowsiness and blurred vision may occur. Cold extremities may be due to the reduction of blood circulation to the extremities.

Alpha Blockers:

Alpha Blockers eg. Doxasozin, Prasozin.

Alpha 1 causes blood vessels to dilate = reduction in the peripheral resistance = fall in BP = postural hypotension. Decreases contraction force of the heart.

Alpha 2 causes vascular smooth muscles to dilate = decrease in BP.


The Sympathetic vs Parasympathetic Nervous System: Inhibiting and Stimulating Drugs

Beta Blockers

Alpha Blockers

Special thanks to the creators of the featured videos on this post, specifically Youtube Channels Registered Nurse RN and Drugs in Motion.

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RAAS Renin-Angiotensin Aldosterone System: CV Drugs Affecting RAAS

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This post features a collection of videos that provide a visual approach on cardiovascular pharmacology for student nurses, specifically on anti-hypertensives affecting RAAS.

Cardiovascular pharmacology deals with the study of the effects of drugs upon the heart or circulatory system. Cardiovascular medicines help to prevent and treat cardiovascular disease, slow the progression of it as well as treat its symptoms whilst providing a better quality of life and increasing life expectancy.

Types of Cardiovascular Drugs include:

  • Anti-Hypertensive Drugs
  • Anti-Angina Drugs
  • Anti-Arrhythmic Drugs
  • Anti-Coagulants
  • Anti-Hyperlipidaemic Drugs

Anti-Hypertensive Drugs are further sub-divided into 4 categories, namely:

Renin-Angiotensin Aldosterone Inhibitors

Adregenic System Inhibitors

Diuretics

Direct Vasodilators

Below you can find a collection of videos that can help provide a more visual approach to cardiovascular pharmacology, specifically on the Anti-Hypertensive DrugsRenin-Angiotensin Aldosterone Inhibitors RAAS.


RAAS – Renin-Angiotensin Aldosterone System

The RAAS system regulates the blood volume and the systemic vascular resistance, affecting the cardiac output (bloodflow) and arterial pressure, and impacting Renin, Angiotensin and Aldosterone.

ACE Inhibitors:

ACE inhibitors end with _pril eg. Enalapril, Lisinopril, Perindopril.

  • Block the conversion of Angiotensin 1 to Angiotensin 2 = decrease in BP, peripheral volume, heart workload, blood volume, aldosterone secretion.
  • INDICATIONS: hypertension, heart failure, left ventricular hypertrophy.
  • SIDE EFFECTS: headache, dizziness, tiredness, hypotension (especially after 1st dose; ideally administer before going to bed at night), reflex tachycardia, arrhythmias, decreased renal function, dry persistent non-productive cough, angioedema (breathing problems), rash, taste disturbances, hyperkalaemia.
  • NURSING INTERVENTION: avoid abrupt stopping of medication, take 1hr before or 2hrs after a meal, monitor patients with risk of dehydration, check blood profile for electrolytes and creatinine, monitor BP, avoid NSAIDs to minimise renal damage risk, stop additional K+ sparing diuretics and K+ supplements as they would increase the risk for hyperkalaemia.

ARBs – Angiotensin II Receptor Blockers:

ARBs end with _sartans eg. Candesartan, Losartan, Eprosartan.

  • Block Angiotensin II from binding with receptors in the smooth muscles of the heart and blood vessels = reduction in vasoconstriction, aldosterone secretion, catecholamine release, cell growth and BP.
  • No effect on bradykinin thus no non-productive cough is experienced as a side effect.
  • INDICATIONS: hypertension, HF, LVF (left ventricular failure), patients unable to take ACE inhibitors eg. those experiencing dry cough.
  • ADVERSE EFFECTS: headache, dizziness, weakness, orthostatic hypotension, URTI (upper respiratory tract infections), mild cough, diarrhoea, abdominal pain, nausea, dry mouth, tooth pain, rash, alopecia, dry skin.

Renin Angiotensin Aldosterone System (RAAS)

ACE Inhibitors

Angiotensin II Receptor Blockers ARBs

Special thanks to the creator of the featured videos on this post, specifically Youtube Channel Registered Nurse RN.

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Cardiovascular Disease – Heart Disease Simplified For Nursing Students

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Cardiovascular disease is the main cause of death both globally and in Malta.

Cardiovascular disease risk factors

Non-Modifiable risk factors: age, gender and family history.

Modifiable risk factors: high cholesterol, high BP, diabetes, smoking, being overweight or obese, living an inactive lifestyle, excessive alcohol and excessive stress.

Cardiovascular diseases can be managed through lifestyle changes, which include incorporating a healthy diet as well as exercise routines, smoking cessation, alcohol reduction or cessation, as well as medication used to prevent and treat CV disease, slow the progression of disease and treat its symptoms, and increase life expectancy whilst improving the patients’ quality of life.

Cardiovascular Diseases:

  • HEART DISEASE: most usual through atherosclerosis, which is the build up of fats, cholesterol and other substances in and on the artery walls (plaque), which can restrict blood flow. The plaque can burst, triggering a blood clot. Although atherosclerosis is often considered a heart problem, it can affect arteries anywhere in your body.
  • HEART ATTACK /MI: occurs when blood flow decreases or stops to a part of the heart, causing damage to the heart muscle. The most common symptom is chest pain or discomfort which may travel into the shoulder, arm, back, neck or jaw.
  • STROKE: Ischaemic stroke is caused by a blockage in an artery that supplies blood to the brain. The blockage reduces the blood flow and oxygen to the brain, leading to damage or death of brain cells. Haemorrhagic stroke, also known as brain haemorrhage or brain bleed, happens due to bleeding in or around the brain.
  • HEART FAILURE: also known as congestive heart failure, occurs when the heart muscle doesn’t pump blood as well as it should.
  • ARRHYTHMIA: a problem with the rate or rhythm of the heartbeat where the heart can beat too fast, too slowly, or with an irregular rhythm.
  • HEART VALVE ISSUES: issues include regurgitation, stenosis, and atresia.

Below you can find a collection of videos that can help provide a more visual approach to cardiovascular disease.


Atherosclerosis and Cardiovascular Disease

Ischaemic Stroke Animation

Haemorrhagic Stroke Animation

Congestive Heart Failure

Cardiac Arrhythmias

Hypertension Overview, Symptoms and Risk Factors

More information about anti-hypertensives can be found here…

Special thanks to the creators of the featured videos on this post, specifically Youtube Channels Biolution, Cook Children’s Health Care System, Scientific Animations, Bupa Health UK, and Registered Nurse RN.

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Tissue Level of Organisation

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Cells are highly organised units which function as a group of similar cells, called tissue.

Below you can find a collection of videos that can help provide a more visual approach to Tissue Level of Organisation.

Epithelial Tissue

Glandular Epithelial Tissue

Types of Connective Tissue


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Cell Structure, Function and Level of Organisation

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The cell is the basic living structural and functional unit of the body.

Below you can find a collection of videos that can help provide a more visual approach to cell structure, cell function and cell level of organisation.

Selective Permeability and Passive Transport

Facilitated Diffusion through a Plasma Membrane

Passive Transport: Simple Diffusion and Facilitated Diffusion

Hypotonic, Isotonic and Hypertonic Solutions

The Filtration Process

Glomerular Filtration in Kidneys

The Difference Between Passive and Active Transport

The Sodium Potassium Pump

Electrochemical Gradients in Secondary Active Transport

Endocytosis, Phagocytosis and Pinocytosis

Exocytosis


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Fundamentals of Physiology

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Physiology is the science of functional mechanisms of living organisms such as the processes that maintain the identity of a living body during its exchange with its surroundings, and the manner in which information is received from the surroundings and how the organism reacts to influence its environment.

Below you can find a collection of videos that can help provide a more visual approach to physiology for nursing students.

Introduction to Physiology

Homeostasis Control through the Positive and Negative Feedback System


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