homeostasis Flashcards
Explain how insulin reduces the blood glucose concentration.
• (More) insulin binds to receptors;
• (Stimulates) uptake of glucose by channel/transport proteins
• Activates enzymes which convert glucose to glycogen;
Explain the action of Glucagon
• Attaches to receptors on target cells and activates/stimulates enzymes;
• Glycogen to glucose / glycogenolysis;
• Gluconeogenesis;
Explain the effect of sweating or panting on temperature control.
• Evaporation (of water from lining of mouth or skin);
• Heat transferred from blood;
Describe how a change in blood pH or blood pressure can cause a change in heart rate.
• (Carbon dioxide) detected by chemoreceptors / (pressure) detected by baroreceptors;
• Medulla/cardiac centre involved;
• More impulses to SAN/along sympathetic nerve;
• (Decrease) pH detected by chemoreceptors in carotid artery /aorta;
• Sends (more) impulses to medulla (oblongata);
• More Nerve impulses sent by sympathetic nervous system to SAN;
Less CO2 in the blood leads to a reduction in heart rate.
Describe how.
• (less CO2 in blood) Detected by chemoreceptors;
• (Chemoreceptors) located in aorta / carotid artery;
• Fewer impulses to cardiac centre / medulla (oblongata);
• (More) impulses along parasympathetic nerve OR less impulses along sympathetic nerve;
• (To) SAN;
Describe the secondary messenger model
• Adenylate cyclase activated / cAMP produced / second messenger produced;
• Activates enzyme(s) (in cell);
• (So) glycogenolysis/ gluconeogenesis occurs / glycogenesis inhibited;
Describe the role of glycogen formation and its role in lowering blood glucose levels.
• Glucose concentration in cell/liver falls;
• Below that in blood (plasma)/ higher in blood;
• Creates/maintains glucose concentration/diffusion gradient;
• Glucose enters cell/leaves blood by facilitated diffusion/via carrier(protein)/channel (protein);
Describe how blood glucose levels can be increased using hormones
• Release of glucagon;
• Leads to formation of glucose in liver (cells);
• From non-carbohydrates/amino acids/fatty acids;
Describe how ultrafiltration occurs in a glomerulus.
• High blood/hydrostatic pressure;
• Two named small substances pass out eg water, glucose, ions, urea;
• (Through small) gaps/pores/fenestrations in (capillary) endothelium;
• (And) through (capillary) basement membrane;
Explain why a thicker medulla leads to more concentrated urine.
• Thicker medulla means a longer loop of Henle;
• (The longer the loop of Henle means) increase in sodium ion concentration (in medulla) so sodium ion gradient maintained for longer (in medulla);
• (Therefore) water potential gradient maintained (for longer), so more water (re)absorbed (from loop and collecting duct) by osmosis;
Describe the action of ADH in the kidney
• Permeability of membrane/cells (to water) is increased;
• More water absorbed from/leaves distal tubule/collecting duct;
• Smaller volume of urine;
• Urine becomes more concentrated;