Pathology

Created by

Darcy Brenna

Cards (47)

Pathology 
The study of disease
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What will be covered?
Mechanisms of Disease
Inflammation
Neoplasia
Cell Injury, Aging and Death
Thrombosis and Embolism
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Mechanisms of Disease 
What is behind the symptoms - use this like a sieve if you can't quite work out what is going on
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Mechanisms of Disease 
Vascular
Infection/Inflammation
Neoplasia
Drug/toxins
Iatrogenic
Congenital
Autoimmune
Trauma
Endocrine/metabolic
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Acute Inflammation 
Response to any insult i.e. infection, injury, foreign body, immune reaction
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Acute Inflammation 
1. Vasodilation of arterioles and capillary beds mediated by histamine and Nitric Oxide
2. Endothelial contraction = leaking of fluid into interstitial space causing swelling
3. Pro inflammatory mediators = increased expression of ICAM and Selectin on endothelial cells which bind glycoproteins and Integrins respectively on white blood cell surface
4. WBC then stops and flattens against the vessel wall = PAVEMENTING
5. WBC can then extend pseudopods through gaps in endothelial wall and move out of the vessel = MIGRATION / DIAPEDESIS
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Chemotaxis 
White blood cells following a concentration gradient towards the site of injury established by chemokines
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Neutrophils 
Multi lobed nucleus = polymorph
Granules in the cytoplasm = granulocyte
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Neutrophil phagocytosis 
1. Recognition and attachment
2. Engulfment
3. Killing and degradation
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Outcomes of Inflammation 
Resolution
Suppuration
Organisation
Fibrosis and Scarring
Chronic Inflammation
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Resolution 
Restoration to normal function
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Suppuration 
Formation of pus - a collection of fluid containing mix of inflammatory cells, bacteria or inflammatory products
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Organisation 
Occurs if there is poor blood supply, extensive cell death and necrosis, a lot of fibrin has been produced, and tissue type has limited regenerative capacity
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Granulation tissue
Formation of capillaries and delivery of myofibroblasts to lay down collagen and smooth muscle and build scaffold for healing
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Fibrosis and Scarring
Loss of function, classic example is heart following MI
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Chronic Inflammation 
Predominant cell is the lymphocyte, also involves macrophages
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Granulomas 
Aggregate of epithelioid histiocytes or organised collection of macrophages, formed when immune system cannot eliminate perceived foreign material
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Caseous necrosis 
Cheesy necrosis, classically found in TB
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Types of Necrosis
Coagulative
Liquefactive
Caseous
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Necrosis
Always pathological and requires no energy
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Apoptosis
Programmed cell death in response to a signal and requires energy, can be physiological or pathological
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Extrinsic pathway of apoptosis
Cell membrane receptors with Death domain, i.e. Fas or TNF bind and activate caspases
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Intrinsic pathway of apoptosis
Loss of growth signals = replacement of anti-apoptotic molecules on mitochondrial surface with Bak and Bax, increase permeability of the mitochondria, releases proteins that stimulate caspases
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Hyperplasia
Increase in cell number, always in response to a stimulus and will regress on withdrawal of that stimulus
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Hypertrophy 
Increase in size of cell, can be alongside hyperplasia or isolated in non dividing tissue
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Atrophy 
Reduction in cell size, causes include loss of blood supply, loss of innervation, lack of use, degenerative conditions
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Neoplasia
A new growth, can be benign or malignant/cancerous
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Tumour 
A growth or swelling, a descriptive not diagnostic term
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Malignant 
Cancer, invasive and has spread past the basement membrane with the possibility of becoming metastatic
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Metastases 
The spread of a cancer to a site distant from its origin
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Precursor lesions to cancer
Metaplasia
Dysplasia
Carcinoma in Situ
Hyperplasia
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Metaplasia 
Reversible change from one mature cell type to another mature cell type, high risk of cancer development
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Dysplasia 
Disordered cell growth, cells are abnormal and are not changing in response to a stimulus, no invasion past basement membrane
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Carcinoma in Situ
Dysplasia affecting the whole basement membrane, last stage before becoming invasive
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Differences between Benign and Malignant Tumours
Symmetrical vs Poorly defined and irregular
Encapsulated vs Heterogeneous - areas of haemorrhage and necrosis
Homogeneous - all of the tumour looks the same vs Pleomorphism
Well differentiated vs High nucleus: cytoplasm ratio
Hyperchromasia
Mitotic figures
Poorly differentiated - will not resemble the cell type expected for that organ/tissue
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Tumour Naming
Usually by cell of origin, e.g. Squamous epithelium: Benign = papilloma, Malignant = carcinoma; Glandular epithelium: Benign = adenoma, Malignant = adenocarcinoma; Mesenchymal/Connective Tissue: Benign = ______oma, Malignant = _____sarcoma
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Grading of Malignancies 
How differentiated is the tumour? Low grade = better differentiated, High grade = poorly differentiated
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Staging of Malignancies 
How far has the tumour spread? Done via the TNM staging system - Tumour, Nodes, Metastases
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Hallmarks of Cancer 
Usually follows 2 hit hypothesis - a genetic susceptibility then exploited by environmental factors and further genetic damage
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Risk Factors for Cancer 
Chemical exposure
Radiation
Viral infection
Chronic inflammation
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