29. Regeneration - definition, mechanisms, medical significance. Flashcards
Regeneration - the process by which some organisms replace or restore lost or amputated body parts
Physiological regeneration - e.g. replacement of RBCs by spleen, replacement of cells that have been damaged
New RBCs made in bone marrow
Reparative regeneration - the repair of body organs that have been damaged
Regeneration - the process by which some organisms replace or restore lost or amputated body parts
Physiological regeneration - e.g. replacement of RBCs by spleen, replacement of cells that have been damaged
New RBCs made in bone marrow
Reparative regeneration - the repair of body organs that have been damaged
Somatic embryogenesis - plant or embryo is derived from a single somatic cell or group of somatic cells, can be used in clonal propagation
Compensatory regeneration - after organs are damaged, removed or cease to function - increased functional demand can stimulate growth in tissues. e.g. if one kidney is removed, the other kidney grows until it is the size of both kidney’s combined
Somatic embryogenesis - plant or embryo is derived from a single somatic cell or group of somatic cells, can be used in clonal propagation
Compensatory regeneration - after organs are damaged, removed or cease to function - increased functional demand can stimulate growth in tissues. e.g. if one kidney is removed, the other kidney grows until it is the size of both kidney’s combined
Mechanism - reverse cells (undifferentiated) epithelial cells revert to an earlier development stage
Dedifferentiation of adult structures - an undifferentiated mass of cells becomes re-specified. This type of regeneration is characteristic for re-forming limbs
Another example - morphallaxis - repatterining of existing tissues - little new growth
Mechanism - reverse cells (undifferentiated) epithelial cells revert to an earlier development stage
Dedifferentiation of adult structures - an undifferentiated mass of cells becomes re-specified. This type of regeneration is characteristic for re-forming limbs
Another example - morphallaxis - repatterining of existing tissues - little new growth
Regenerating parts exhibit polarity by always growing in a distal direction (away from the main part of the body).
Regenerating parts exhibit polarity by always growing in a distal direction (away from the main part of the body).
Physiological - constant loss of many kinds of cells due to wear and tear by everyday activity
Medical sig:
- engineer or replace damaged tissues or organs using bodies own repair mechanism to functionally heal previously irreplaceable tissues or organs
- possibility of growing tissue + organs in the lab and safely implant when the body cannot heal itself
- if regenerated organic cells derived from patients own tissue!
- cells -> solve problem of organ shortage and organ transplant rejection
- Rearrangement of preexisting tissue, use of adult somatic stem cells + dedifferentiation +/ or histodifferentiation of cells, more than one can operate in different tissues of the same animal
- during development - genes activated that serve to modify properties of the cell as living differentiate into different tissues
Medical sig:
- engineer or replace damaged tissues or organs using bodies own repair mechanism to functionally heal previously irreplaceable tissues or organs
- possibility of growing tissue + organs in the lab and safely implant when the body cannot heal itself
- if regenerated organic cells derived from patients own tissue!
- cells -> solve problem of organ shortage and organ transplant rejection
- Rearrangement of preexisting tissue, use of adult somatic stem cells + dedifferentiation +/ or histodifferentiation of cells, more than one can operate in different tissues of the same animal
- during development - genes activated that serve to modify properties of the cell as living differentiate into different tissues
