1. First-class lever: LFE Load-Fulcrum-Effort: raises your head off of your chest. 2. Second-class lever: FLE Fulcrum-Load-Effort: uncommon but used when standing on tip-toes. mechanical advantage 3. Third-class lever: LEF Load-Effort-Fulcrum: flexing forearm by biceps brachii/dumbbell curl

Cells of the adrenal medulla secrete epinephrine and norepinephrine 1. Enhance “fight-or-flight” response 2. Hormones are stored in secretory vesicles Adrenal Cortex ¥ Aldosterone—is a mineralcorticoid secreted by the outer cortex ¥ Secreted in response to decline in blood volume or blood pressure ¥ Causes kidneys to reabsorb more Na+, thus more water increases blood volume and BP ¥ Cortisol is the main type of glucocorticoid ¥ Secreted by middle and inner cortex layers ¥ Helps the body deal with stressful situations ¥ thus not meant to be released for extended periods of time ¥ but if you’re stressed out all the time, you are releasing cortisol

Heart 1. Atria contain atrial natriuretic peptide (ANP) 1. released when blood volume is too high Kidney ¥ Cells of the juxtaglomerular complex (JGA) secrete renin when blood volume is too low ¥ Endothelial cells and interstitial connective tissue—secrete erythropoietin when blood O2 levels are low

Thymus Site where immature lymphocytes develop into T cells, Secretes thymic hormones, Most active in childhood, Composed of cortex and medulla, Differs from other lymphoid organs, Functions strictly in lymphocyte maturation, Atrophies after puberty and may not even be present in an elderly person Lymph Nodes ¥ Function ¥ Lymph percolates through lymph sinuses ¥ the fluid slows down in the lymph nodes so that it can be monitored by the T and B cells ¥ Most antigenic challenges occur in lymph nodes ¥ Antigens are destroyed and activate B & T cells ¥ Activation of T and B cells is key to the immune system destroying microbes ¥ activation is mediated by Helper T cells Spleen ¥ Largest lymphoid organ ¥ Two main blood-cleansing functions ¥ Removal of blood-borne antigens ¥ Removal and destruction of old or defective blood cells ¥ Destruction of antigens ¥ Site of B cell maturation into plasma cells ¥ Phagocytosis of bacteria and worn-out RBCs, WBCs, and platelets ¥ Storage of platelets Tonsils ¥ Simplest lymphoid organs ¥ Four groups of tonsils ¥ Palatine, lingual, pharyngeal, and tubal tonsils ¥ Arranged in a ring to gather and remove pathogens ¥ Underlying lamina propria consists of MALT ¥ Monitor incoming antigens in the nose and mouth Aggregated lymphoid nodules & Appendix ¥ MALT—abundant in walls of intestines ¥ MALT = mucosa associated lymphoid tissue ¥ Fight invading bacteria ¥ Generate a wide variety of memory cells ¥ Aggregated lymphoid nodules (Peyer’s patches) ¥ Located in the distal part of the small intestine ¥ Appendix—tubular offshoot of the cecum

1. reflexes Rapid, autonomic motor responses • Receptor—site where stimulus acts • Sensory neuron—transmits afferent impulses to the CNS • Integration center—consists of one or more synapses in the CNS • Motor neuron—conducts efferent impulses from integration center to an effector • Effector—muscle or gland cell 2. Responds to efferent impulses 1. Contracting of a muscle/Secretion from glands