Respuesta al daño celular

Question 1

Cuál es el mecanismo de acción de la inhalación de monóxido de carbono?

Answer 1

Previene el transporte de oxígeno

Question 2

Mecanismo de daño de los accidentes traumáticos y térmicos

Answer 2

Disrupción y desnaturalización de proteínas –> trombosis vascular local –> isquemia –> muerte celular.

Question 3

Mecanismo de daño del congelamiento

Answer 3

Los cristales de hielo perforan las membranas.

Question 4

El mecanismo de acción de los virus es romper la membrana celular de las células que infectan. Que virus es una excepción de este mecanismo?

Answer 4

Hepatitis B, el daño tisular de la enfermedad es causado principalmente por la reacción inmune del huésped.

Question 5

En qué vía metabólica interfiere el cianuro, y cómo lo hace?

Answer 5

En la respiración celular. El cianuro se une a los citocromo oxidasa –> interrumpe la utilización de oxígeno. Los miocitos son de los más vulnerables, ya que son células de alto requerimiento metabólico.

Question 6

Células que son altamente dependientes de la glucosa para su funcionamiento

Answer 6

Neuronas

Question 7

Agentes o medicamentos que afectan la síntesis de proteínas (a nivel de traducción)

Answer 7

Ricina y antibióticos como streptomicina, cloramfenicol y tetraciclina.

Question 8

Physiopathology of ischemia and reperfusion injury

Answer 8

Impaired blood flow→ ceasing of mitochondrial ATP production→ anaerobic glycolysis→ accumulation of lactate → acidosis and calcium influx → disruption of mitochondria’s inner membrane (it exceeds its calcium storage capacity), activation of calcium-dependent proteases, leakage of endoplasmic reticulum’s calcium storage into the cytosol → necrosis

Question 9

Physiopathology of free radicals

Answer 9

Damage to polyunsaturated fatty acids (essential components of cell membranes) and damage of lysosomal membranes → release of proteases (cathepsin) → damage of DNA → cell death .

Question 10

Mechanisims of failure of membrane integrity (4)

Answer 10

Complement- mediated cytolysis, perforin - mediated cytolysis, specific blockage of ion channels and failure of membrane ion pumps and free radicals attack.

Question 11

Result of ion pump failure

Answer 11

Cell swelling (oncosis or hydropic change) → may progress to cell death

Question 12

The non-lethal DNA damage can be inherited by daughter cells, resulting in clone cells with abnormal growth characteristics → neoplastic transformation → tumors. (T or F)

Answer 12

True

Question 13

Types of DNA damage (3)

Answer 13

Strand brakes, base alterations (nonsense/ missense) and cross-linking.

Question 14

“Unreadable” mutation

Answer 14

Nonsense

Question 15

“Read incorrectly” mutation

Answer 15

Missense

Question 16

Type of DNA damage used by some radiotherapies

Answer 16

Cross-linking.

Question 17

Cross-linking (physiopathology)

Answer 17

ROS cause linkage between complementary strands → inability to separate and to make new copies → DNA replication is blocked → “reproductive death”

Question 18

Mutated ERCC6 gene → extreme skin sensitivity to sunlight → tumors (disease)

Answer 18

Xeroderma pigmentosum

Question 19

Some people are more susceptible to ionizing radiation or ultraviolet light due to defective DNA repair mechanisms, such as enzymes. Name 2 diseases caused by this defect

Answer 19

Ataxia telangiectasia and xeroderma pigmentosum

Question 20

Impair excision repair of double strand breaks due to a loss of function mutation of the ATM gene (disease)

Answer 20

Ataxia telangiectasia

Question 21

Pattern of cellular injury in which the cytoplasm becomes pale and swollen due to accumulation of fluid. Generally caused by hypoxia or chemical poisoning.

Answer 21

Hydropic change (oncosis)

Question 22

Pattern of cellular injury in which occurs vacuolation of cells due to accumulation of lipid droplets as a result of ribosomal dysfunction and uncoupling of lipids from protein metabolism. Liver is commonly affected this way by hypoxia, alcohol or diabetes

Answer 22

Fatty change

Question 23

Cellular response to stress in which
cell components are isolated into intracellular vacuoles → these are processed through to lysosomes.

Answer 23

Autophagy

Question 24

Main difference between apoptosis and necrosis

Answer 24

In apoptosis the cell membrane remains intact, there is NO inflammatory reaction and it follows a lower dose or shorter duration of damage.

Question 25

Result of the failure of ATP production

Answer 25

Ineffective ion pumps → loss of homeostasis, influx of water, oncosis, lysis and cell death

Question 26

Which cells are most affected by ischemia

Answer 26

Cortical neurons and cardiac myocytes will be most affected

Question 27

Physiopathology of the reperfusion injury

Answer 27

When the blood supply is restored → burst of mitochondrial activity → excessive release of free radicals (ROS).

Question 28

Physiopathology of TNF

Answer 28

Stimulates mitochondrial ROS production → necrosis

Question 29

Causes of autophagy

Answer 29

cellular stress (ex. deficiency of nutrients, growth factor- mediated effects or organelle damage)

Question 30

Most common form of necrosis. The cell’s proteins coagulate, maintaining a ghost outline. Initially the tissue texture is normal or firm but later becomes soft due to digestion of macrophages.
Microscopic examination: Loss of nuclear staining and cytoplasmic detail.

Answer 30

Coagulative necrosis

Question 31

Type of necrosis that occurs in the brain because of its lack of substantial supporting stroma. Site of necrosis will eventually be marked by a cyst.

Answer 31

Colliquative necrosis

Question 32

Tuberculosis characterized by this type of necrosis. The dead tissue is structureless. Amorphous eosinophilic area stippled by haematoxyphilic nuclear debris

Answer 32

Caseous necrosis

Question 33

Necrosis with putrefaction of tissues. The affected tissue appears black due to deposition of iron sulphide from degraded hemoglobin.

Answer 33

Gangrene

Question 34

Microorganism (present in the bowl) that causes wet gangrene necrosis

Answer 34

Clostridia

Question 35

Type of gangrene usually seen in toes due to gradual arterial or small vessel obstruction (atherosclerosis or diabetes)

Answer 35

Dry gangrene

Question 36

Microorganism that causes gas gangrene

Answer 36

Clostridium perfringens

Question 37

Type of necrosis seen in malignant hypertension arterioles that are under such pressure → necrosis of smooth muscle wall → leakage of plasma and fibrin deposition. With haematoxylin and eosin the vessel wall is bright red.

Answer 37

Fibrinoid necrosis

Question 38

Direct trauma to adipose tissue and extracellular liberation of fat → inflammatory response → fibrosis. Type of necrosis?

Answer 38

Fat necrosis

Question 39

Type of necrosis seen in acute pancreatitis.

Answer 39

Fat necrosis
Enzymatic lysis of fat due to release of lipases → release of pancreatic lipase → release of fatty acids → combined with calcium → in severe cases causes hypocalcemia.

Question 40

Cell classification according to their potential for renewal (3)

Answer 40

Labile, stable and permanent

Question 41

Examples of labile cells

Answer 41

Surface epithelial cells

Question 42

Examples of stable cells

Answer 42

Hepatocytes and renal tubular cells

Question 43

Examples of permanent cells

Answer 43

Nerve cells and striated muscle

Question 44

Type of cell that is present in labile and stable cells population. When they go into mitosis, one of the daughter cells progress to differentiation and the other daughter retains the stem cell characteristics

Answer 44

Stem cell

Question 45

Consequence of radiation to stem cells

Answer 45

Loss of stem cells or mutations that are propagated to daughter cells → risk of neoplastic transformations

Question 46

What is contact inhibition in healing?

Answer 46

When the cells form a confluent layer, the stimulus to proliferate is switched off.

Question 47

Process whereby tissues are repaired by formation of mature fibrovascular connective tissue.

Answer 47

Organization.

Question 48

Tissue that is formed in early stages of healing. It is the combination of the capillary loops and myofibroblasts. It contracts and accumulates collagen to form the scar.

Answer 48

Granulation tissue

Question 49

Diseases in which organization process is a common. The organized area is firmer than normal, shrunken and puckered

Answer 49

Pneumonia and an infarct

Question 50

Process in which capillary endothelial cells proliferate and grow into the area to be repaired. Simultaneously, fibroblast secrete collagen and other matrix components and acquire bundles of muscle filaments (myofibroblasts) → fundamental in wound contraction.

Answer 50

Granulation tissue formation

Question 51

Name of an excessive granulation tissue protruding from a surface

Answer 51

Proud flesh

Question 52

Important function of granulation tissue that reduces the volume of tissue for repair.

Answer 52

Wound contraction and scarring. The granulation tissue as a whole contracts and indraws the surrounding tissue

Question 53

Possible complication of the wound contraction in the granulation tissue.

Answer 53

Can lead to stenosis or obstruction in case of damage around a lumen tube (such as the gut)

Question 54

Excessive fibroblast proliferation and collagen production. They are genetically determined and are prevalent among blacks

Answer 54

Keloid nodules

Question 55

Leer

Answer 55

Hypoxia and release of growth factors by platelet degranulation → production of epidermal growth factor (EGFs) and keratinocyte growth factor (KGF) from platelets, macrophages and dermal fibroblast →keratinocytes and macrophages produce vascular endothelial growth factor (VEGF) → angiogenesis. Platelet-derived growth factor (PDGF) activates macrophages, proliferation of fibroblasts and matrix production. TGF-beta controls myofibroblasts and collagen production.

Question 56

Steps of bone fracture healing (3):

Answer 56

1. Removal of necrotic tissue and organization of the hematoma.
2. Capillaries are accompanied by fibroblasts and osteoblasts → they deposit bone in a woven pattern.
3. Woven bone is replaced by lamellar bone, which is remodeled according to the direction of mechanical stress.

Question 57

Name of the mass of woven bone deposited by fibroblast and osteoblasts in bone fracture

Answer 57

Callus

Question 58

Problems with fracture healing (5)

Answer 58

1. Movement → results in pain and excessive callus and prevents tissue union → formation of false joints at fracture site.
2. Interposed soft tissues
3. Gross misalignment → increase risk of osteoarthritis.
4. Infection: more common on compound fracture (exposed)
5. Pre-existing bone disease.

Question 59

Is the result of imbalance of hepatocyte regeneration and failure to reconstruct architecture

Answer 59

Cirrhosis

Question 60

Damage of tubular epithelium following ischaemic episode or exposure of toxins can be reversible (T or F)

Answer 60

True

Question 61

Damage to renal glomerulus can be reversible (Tor F)

Answer 61

False. Damage to glomerulus is likely to be permanent → loss of filtration capacity.

Question 62

Process in which glial cells can proliferate in response to injury

Answer 62

Gliosis

Question 63

Modifying influences in the healing process (8)

Answer 63

• Age
• Disorders of nutrition
• Neoplastic disorders
• Cushing’s syndrome and steroid therapy: immunosuppression
• Diabetes mellitus: affects polymorph function, occlusion of small blood vessels → neuropathy.
• Vascular disturbance
• Denervation

Question 64

Type of vitamin that is important in the healing process due to hydroxylation of proline (step of collagen synthesis).

Answer 64

Vitamin C

Question 65

Capillary consequences of vitamin C deficiency (escorbuto)

Answer 65

Deficiency of vitamin c → fragile capillaries → hemorrhage