Disturbances of Circulation - L3-5

Descripción

Pathology Test sobre Disturbances of Circulation - L3-5, creado por Hannah-Marie Rhodes el 08/02/2020.
Hannah-Marie Rhodes
Test por Hannah-Marie Rhodes, actualizado hace más de 1 año
Hannah-Marie Rhodes
Creado por Hannah-Marie Rhodes hace casi 5 años
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Resumen del Recurso

Pregunta 1

Pregunta
Hyperaemiam
Respuesta
  • Increased blood in vascular bed
  • Dilation of arterioles
  • increased erythrocytes = more redness
  • Well oxygenated blood
  • ACTIVE process
  • e.g. blushing

Pregunta 2

Pregunta
Congestion
Respuesta
  • Increased blood in terminal vascular bed
  • impeded outflow
  • Type 1 = localised
  • Type 2 = Generalised
  • Type 3 = Hypostatic

Pregunta 3

Pregunta
Ishaemia Define: [blank_start]Inadequare blood supply of tissue[blank_end] [blank_start]relative to its needs[blank_end] Consequences: [blank_start]Hypoxia[blank_end], [blank_start]Malunutrition[blank_end], [blank_start]Build up of waste products[blank_end] Causes: [blank_start]Cardiac arrest[blank_end], [blank_start]Arterial obstruction[blank_end], [blank_start]Venous obstruction[blank_end], C[blank_start]apillary damage[blank_end], [blank_start]Shock[blank_end] E.g.: [blank_start]Heart attack[blank_end], [blank_start]Arteritis[blank_end], [blank_start]Bed sores[blank_end]
Respuesta
  • Inadequare blood supply of tissue
  • relative to its needs
  • Hypoxia
  • Malunutrition
  • Build up of waste products
  • Cardiac arrest
  • Arterial obstruction
  • Venous obstruction
  • apillary damage
  • Shock
  • Heart attack
  • Arteritis
  • Bed sores

Pregunta 4

Pregunta
Effects of Congestion Gradual onset - [blank_start]collateral circulation can develop so[blank_end] [blank_start]effects are minimised[blank_end] Chronic congestion - [blank_start]continues for long time[blank_end] = [blank_start]serious effects[blank_end] e.g [blank_start]Odema[blank_end], [blank_start]Hypoxia[blank_end], [blank_start]Haemorrhage[blank_end]
Respuesta
  • collateral circulation can develop so
  • effects are minimised
  • continues for long time
  • serious effects
  • Odema
  • Hypoxia
  • Haemorrhage

Pregunta 5

Pregunta
Ischaemia - [blank_start]Inadequate blood supply of a tissue[blank_end] [blank_start]relative to its needs[blank_end] Infarction - [blank_start]Localised area of necrosis[blank_end] [blank_start]caused by ischemia[blank_end] Hypoxia - [blank_start]Deficiency in the amount of oxygen[blank_end] [blank_start]reaching the tissue[blank_end]
Respuesta
  • Inadequate blood supply of a tissue
  • relative to its needs
  • Localised area of necrosis
  • caused by ischemia
  • Deficiency in the amount of oxygen
  • reaching the tissue

Pregunta 6

Pregunta
Acute infarct - [blank_start]Swelling of affected tissue[blank_end] Colour: [blank_start]Dark red[blank_end] Shape: [blank_start]Wedge[blank_end]
Respuesta
  • Wedge
  • Dark red
  • Swelling of affected tissue

Pregunta 7

Pregunta
Sub-acute infarct - [blank_start]Degeneration and necrosis of ischaemia[blank_end] tissue What happens: [blank_start]Fluid forced[blank_end] out of area [blank_start]Swelling[blank_end] decreases Area becomes [blank_start]paler[blank_end] Line of [blank_start]hyperaemia[blank_end]
Respuesta
  • Degeneration and necrosis of ischaemia
  • Fluid forced
  • Swelling
  • paler
  • hyperaemia

Pregunta 8

Pregunta
Chronic infarct - [blank_start]affected tissue is pale and shrunken due[blank_end] to fibrosis Fibrosis - [blank_start]Healing of the infarct[blank_end]
Respuesta
  • affected tissue is pale and shrunken due
  • Healing of the infarct

Pregunta 9

Pregunta
Thrombus - [blank_start]Blood clot/solid structure that forms[blank_end] within the [blank_start]flowing blood stream from the normal[blank_end] [blank_start]constituents of blood during life[blank_end] Thrombosis - [blank_start]Process by which a thrombus forms[blank_end] Embolus - [blank_start]Abnormal mass circulating in the blood[blank_end] stream Embolism - [blank_start]Arrest of a circulating mass within[blank_end] a vessel
Respuesta
  • Arrest of a circulating mass within
  • Abnormal mass circulating in the blood
  • Process by which a thrombus forms
  • Blood clot/solid structure that forms
  • flowing blood stream from the normal
  • constituents of blood during life

Pregunta 10

Pregunta
Three Components of Virchow's Triad 1. [blank_start]Endothelial Injury[blank_end] 2. [blank_start]Abnormal Blood Flow[blank_end] 3. [blank_start]Hypercoagulability[blank_end]/[blank_start]Abnormal blood composition[blank_end]
Respuesta
  • Endothelial Injury
  • Abnormal Blood Flow
  • Hypercoagulability
  • Abnormal blood composition

Pregunta 11

Pregunta
Virchow's Triad
Respuesta
  • Most important
  • Influences thrombus progression
  • Influences thrombus progression (3rd)

Pregunta 12

Pregunta
Different types of embolus 1. [blank_start]Thromboemboli[blank_end] 2. [blank_start]Gas[blank_end] 3. [blank_start]Fat[blank_end] 4. [blank_start]Neoplasms[blank_end] 5. [blank_start]Foreign bodies[blank_end] 6. [blank_start]Parasites[blank_end] 7. [blank_start]Clumps of bacteria[blank_end] 8. [blank_start]Pus[blank_end] 9. [blank_start]Injected material[blank_end]
Respuesta
  • Thromboemboli
  • Gas
  • Fat
  • Neoplasms
  • Foreign bodies
  • Parasites
  • Clumps of bacteria
  • Pus
  • Injected material

Pregunta 13

Pregunta
Diapedesis - [blank_start]Small momentary spurting losses of blood[blank_end] [blank_start]occur between endothelial cell[blank_end] [blank_start]of otherwise normal capillaries[blank_end] Haematoma - [blank_start]Local accumulation of blood[blank_end], [blank_start]usually clotted[blank_end] Petechiae - [blank_start]Very small haemorrhagic spots[blank_end] Ecchymoses - [blank_start]Slightly larger foci of haemorrhage[blank_end] Bruising - [blank_start]Subcutaneous haemorrhage[blank_end]
Respuesta
  • Subcutaneous haemorrhage
  • Slightly larger foci of haemorrhage
  • Very small haemorrhagic spots
  • Local accumulation of blood
  • usually clotted
  • Small momentary spurting losses of blood
  • occur between endothelial cell
  • of otherwise normal capillaries

Pregunta 14

Pregunta
Haemorrhage Compensatory Mechanisms 1. [blank_start]Blood redistribution[blank_end] 2. [blank_start]Restoration of blood volume[blank_end] 3. [blank_start]replacement of lost erythrocytes[blank_end]
Respuesta
  • Blood redistribution
  • Restoration of blood volume
  • replacement of lost erythrocytes

Pregunta 15

Pregunta
Classifications of Shock 1. [blank_start]Hypovolaemic[blank_end] shock 2. [blank_start]Vasculogenic[blank_end] ([blank_start]septic[blank_end]) shock 3. [blank_start]Cardiogenic[blank_end] shock
Respuesta
  • Hypovolaemic
  • Vasculogenic
  • septic
  • Cardiogenic

Pregunta 16

Pregunta
Oedema - [blank_start]Excessive accumulation of tissue fluid[blank_end] Anasarca - [blank_start]Generalised subcutaneous oedema[blank_end] Ascites - [blank_start]Fluid in abdomen[blank_end] Hydropericardium - [blank_start]Fluid in pericardical sac[blank_end] Hydrothorax - [blank_start]Fluid in pleural cavity[blank_end]
Respuesta
  • Fluid in pleural cavity
  • Fluid in pericardical sac
  • Fluid in abdomen
  • Generalised subcutaneous oedema
  • Excessive accumulation of tissue fluid

Pregunta 17

Pregunta
Starling's Equilibrium Filtration Pressure = [blank_start]Hydrostatic pressure[blank_end] in plasma and tissues - [blank_start]Colloid osmotic pressure[blank_end] in plasma and tissues Movement of [blank_start]fluid[blank_end] between [blank_start]vascular[blank_end] and [blank_start]extravascular[blank_end] compartments depends on the balance between [blank_start]hydrostatic pressure[blank_end] and [blank_start]colloid osmotic pressure[blank_end]
Respuesta
  • Hydrostatic pressure
  • Colloid osmotic pressure
  • vascular
  • extravascular
  • fluid
  • hydrostatic pressure
  • colloid osmotic pressure

Pregunta 18

Pregunta
Increased hydrostatic pressure Results from: [blank_start]Increased fluid pressure[blank_end] within vessels which overcomes the [blank_start]attractive osmotic force[blank_end] of [blank_start]circulating protein[blank_end] leading to a net increase in [blank_start]outflow of fluid[blank_end] that is not matched by [blank_start]reabsorption by venules[blank_end] or by [blank_start]increased removal by lymphatics[blank_end]
Respuesta
  • Increased fluid pressure
  • attractive osmotic force
  • circulating protein
  • outflow of fluid
  • reabsorption by venules
  • increased removal by lymphatics

Pregunta 19

Pregunta
Decreased plasma oncotic (osmotic) pressure A reduction in [blank_start]circulating proteins[blank_end] [blank_start]Albumin[blank_end] is the most [blank_start]abundant[blank_end] protein and most [blank_start]effective osmotic force[blank_end] Hypoalbuminaemia = [blank_start]most important cause[blank_end] of decreased osmotic pressure
Respuesta
  • circulating proteins
  • Albumin
  • abundant
  • effective osmotic force
  • most important cause

Pregunta 20

Pregunta
Lymphatic Blockage Seen if there is an [blank_start]extensive tumour invasion[blank_end] of a regional node OR if [blank_start]lymph nodes are surgically removed[blank_end]
Respuesta
  • extensive tumour invasion
  • lymph nodes are surgically removed

Pregunta 21

Pregunta
Increased vascular permeability Most commonly results from [blank_start]inflammation[blank_end] Increase in vascular permeability by [blank_start]increasing the size of the gaps[blank_end] between [blank_start]endothelial cells[blank_end] Causes an increase in the loss of [blank_start]fluid[blank_end], [blank_start]proteins[blank_end] and [blank_start]inflammatory cells[blank_end]
Respuesta
  • inflammation
  • increasing the size of the gaps
  • endothelial cells
  • fluid
  • proteins
  • inflammatory cells

Pregunta 22

Pregunta
Examples of Oedema Pulmonary oedema rise in [blank_start]pulmonary venous pressure[blank_end] causes [blank_start]leakage of fluid[blank_end] into the [blank_start]alveoli[blank_end] of the lung Cerebral oedema Oedema of the [blank_start]brain[blank_end]
Respuesta
  • brain
  • pulmonary venous pressure
  • leakage of fluid
  • alveoli
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