BIO170 - Obj 10, 11

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What are encephalopathies?

any disorders that relate to CNS or damages the brain

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What are the 2 types of inherited metabolic disorders?

1) defects in amino acid metabolism; ex: phenylketonuria (PKU) - a disorder which causes hyperphenylalaninemia; 2) defects in lipid metabolism, such as are found in lysosomal storage diseases such as Tay-Sachs disease

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What is the etiology of PKU?

it is an autosomal recessive disorder caused by a single-gene defect -> the deficiency of the liver enzyme phenylalanine hydroxylase which is critical for the breakdown of the amino acid phenylalanine

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What is the pathogenesis of PKU?

lack of the phenylalanine hydroxylase enzyme -> phenylalanine is not broken down -> it accumulates in the blood -> excreted in the urine

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What are the manifestations of PKU?

accumulation of phenylalanine and its byproducts -> damage to child's nervous system: motor delays, seizures, mental retardation, behavioral disorders, hyperactivity; also very light skin, hair, and eye color

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What causes the very light skin, hair, and eye color in PKU patients?

normally phenylalanine is converted to tyrosine and then to melanin; absence of the enzyme phenylalanine hydroxylase -> reduced tyrosine -> reduced melanine -> very light skin, hair, eye color

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What is the treatment for PKU?

dietary restriction of phenylalanine begun as early as diagnosis; successful, early treatment allows near-normal development

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What happens if PKU is not treated?

neurological damage is progressive and severe

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What is the etiology of Tay-Sachs disease?

it is an autosomal recessive disorder most common in Jewish populations; it is a lysosomal storage disease, caused by a genetic deficiency in a lysosomal enzyme

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What is the pathogenesis of Tay-Sachs disease?

lipids accumulate in the lysosomes of neurons -> neurons balloon; axon & myelin sheath degenarate; microglial (phagocytic) cells in the brain proliferate, and the cerebral hemispheres atrophy

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What are the manifestations of Tay-Sachs disease?

the disease begins to manifest at 3-6 months of age: hypotonic reflexes, seizures, an excessive startle response, loss of developmental milestones

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What is the treatment for Tay-Sachs disease?

there is no treatment or cure; death typically occurs by age 3

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What disease is an inherited disorder of erythrocytes? What disorders are encompassed by this disease, and which is most serious?

sickle cell disease is an inherited disorder of erythrocytes; the disease is expressed as sickle cell anemia, the most severe form, sickle cell-thalassemia disease, or sickle cell-Hb C disease

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What are the acute manifestations of sickle cell anemia? (4)

1) vasoocclusive crisis (thrombotic crisis); 2) aplastic crisis; 3) sequestration crisis; and 4) hyperhemolytic crisis

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What is the major characteristic of all sickle cell disease? What is the mutation?

sickle cell disease disorders are characterized by the presence of an abnormal hemoglobin: Hgb S; the mutation causes valine to be replaced by glutamic acid

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What happens to the RBCs in sickle cell disease?

deoxygenation and dehydration cause the red cells to solidify and stretch into an elongated sickle shape

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What is the etiology of sickle cell disease (i.e. anemia)? for sickle cell trait?

for both the disease and trait, it is an autosomal recessive disorder; for sickle cell disease, the patient is homozygous (aa); for sickle cell trait, the patient is heterozygous (Aa) and is phenotypically normal

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In which geographical area, or in which groups of people is sickle cell disease found?

it can be found in the Mediterranean area, central Africa, Asia, and India; in the US it is most common amont African-Americans

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Is there any advantage to having sickle-cell trait?

having the sickle-cell trait, the person is phenotypically normal and is less susceptible to malaria which is common in equatorial regions (malaria parasites can't reproduce easily in the blood of a person w/sickle-cell trait)

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What is the pathogenesis of sickle cell disease?

normal hemoglobin in red blood cells is replaced by hemoglobin S -> hypoxia/stresses turn hemoglobin into a semisolid gel -> RBC becomes irregular and crescent-shaped, like a sickle

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Describe the sickled cell:

sickled cells are stiff and fragile; they are easily ruptured and destroyed as they pass through tiny capillaries or the spongy spleen or other organs; they cause extreme pain

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What are the manifestations of sickle cell disease?

profound hemolytic anemia, pallor, fatigue, jaundice, splenomegaly; subject to sickle-cell crises in which the microcirculation oto a specific part of the body is blocked by stiff, sickled cells causing infarcation and death of the tissue

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What other problems are more likely to occur during a sickle-cell crisis?

frequent infections, kidney damage, heart attack, or stroke

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How is sickle-cell disease treated/cured?

medications can prevent sickle-cell crises and treat the other symptoms of sickle-cell anermia; there is no cure

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What is the etiology of Huntington's disease?

aka Huntington's chorea (because of the jerky involuntary movements caused by the disease)it is an autosomal DOMINANT disorder, due to a defect on the short arm of chromosome 4

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When is the typical onset of the disease and whom does it effect?

onset is typically around ages 35-50; it occurs in people of all races

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What is the pathogenesis of Huntington's disease?

causes progressive degeneration of the basal ganglia and frontal lube, and destruction of the neurons which produce GAPA (an inhibitory neurotransmitter)

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What are the manifestation of Huntington's disease?

begins w/abnormal, spasmodic, choreic movements - jerky, uncontrolled body movements; short-term memory is lost, the individual's reasoning & decision making capability decreases; the individual may become apathetic & withdrawn, or angry, abusive, hostile

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What is the treatment and cure for Huntington's disease?

there is no treatment and no cure; the disease is uniformly fatal; a diagnostic test is available for the disease marker on chromosome 4

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What is the etiology of cystic fibrosis?

an autosomal recessive disorder, most commonly seen in Caucasians; it causes defective expression of a gene on chromosome 7, which codes for the cystic fibrosis mtransmembrane regulator protein (CFTR protein) which carries the chloride ion out of the cell

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What is the pathogenesis of cystic fibrosis?

the deficiency of transport proteins causes ion transports in exocrine glands and other tissues to be faulty -> thick, sticky, viscous mucus, especially in the lungs, pancreas and also liver, reproductive organs, and intestines

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What are the manifestations of cystic fibrosis?

obstruction->chronic respiratory disease->bacterial respiratory infections->pulmonary hypertension (from pulmonary constriction)->heart failure; also, chronic inflammation->structural changes in the lungs & cyst formation; also pancreatic obstruction

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What is the pathophysiologic triad of cystic fibrosis?

1) pancreatic enzyme deficiency -> severe malnourishment; 2) overproduction of mucus in the respiratory tract, and 3) abnormally elevated sodium and chloride concentrations in sweat

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How is cystic fibrosis diagnosed?

by a sweat test; the patient produces a very salty sweat because of abnormal ion transport

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How is cystic fibrosis treated?

percussion respiratory therapy (to clear mucus & improve lung functions); antibiotics to prevent infections, and enzyme/nutritional supplements to improve digestion & nutrition

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What are muscular dystrophies? What is the most common?

a group of disorders that cause progressive, symmetric weakness and wasting of skeletal muscle groups; most common is Duchenne muscular dystrophy

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What is the etiology of Duchenne muscular dystrophy?

it is an X-linked recessive disorder seen only in boys; cause -> gene deletion from the X chromosome

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What is the pathogenesis of muscular dystrophies? (i.e. the biochemical mechanidsm resulting in the development of a disease)

DMD boys lack dystrophin -> muscle cells are torn apart during muscle contraction -> muscle cells swell and die -> replaced by connective tissue and fat

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What is the function of dystrophin? Why do DMD boys not have it?

dystrophin is an anchor protein which anchors the muscle cytoskeleton to the surrounding connective tissue; DMD boys lack dystrophin because they are missing the gene on the X chromosome that codes for dystrophin

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What are the manifestations of Duchenne muscular dystrophy?

clinical signs are observed at about age 3; motor development slow -> difficulty sitting, standing, and walking -> wheelchair; scoliosis, respiratory difficulty, heart failure; smooth muscle involvement -> malabsorption

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What is the treatment and cure for Duchenne muscular dystrophy?

there is no effective treatment for Duchenne muscular treatment and no cure; death typically occurs before age 20, typically due to cardiopulmonary failure

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Are females affected?

no; they are only carriers

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What are hemophilias?

serious bleeding disorders

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What are the 4 types of hemophilia?

hemophilia A - factor VIII deficiency (antihemophiliac factor) - classic hemophilia; hemophilia B - factor IX deficiency (Christmas disease); Hemophilia C - factor X1 deficiency; von Willebrand disease

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What is the etiology of hemophilia A?

aka classic hemophilia, it is an X-linked recessive disorder and is the most common form of hemophilia; it is caused by a gene deletion or a point mutation -> results in a total lack of clotting factor VIII

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What is factor VIII?

a part of the intrinsic mechanism of clotting; when it is deficient, blood is very slow to clot

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How is classic hemophilia typically inherited?

typically, mom is a phenotypically normal carrier for the disorder; dad is normal as well

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What is the pathogenesis for classic hemophilia?

boys bleed excessively after circumcision; persistent bleeding after minor injuries; bruise very easily; nosebleeds; bleeding into the joint can damage the joints and cause severe degenerative arthritis

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What is the treatment/cure for hemophilia?

hemophilia can be treated with regular injections with Factor VIII (now genetically engineered); high risk for contracting AIDS or hepatitis from human plasma; no cure, but aggressive replacement therapy can enable a normal lifespan

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What is the etiology of galactosemia?

it is an autosomal recessive trait which results in the lack of galactase enzyme, an enzyme needed to convert galactose (a monosaccharide found in lactoes) to glucose

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What is the pathogenesis of galactosemia?

Without the enzyme, galactose wil accumulate in the blood, liver, brain and other body tissues; osmotic swelling will damage cells in these tissues

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What are the manifestations for galactosemia?

mental retardation develops; the child show failure to thrive; liver failure occurs and causes jaundice and cirrhosis; cataracts of the lens of the eye

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What is the cure/treatment for galactosemia?

there is no cure; treatment involves restriction of galactose in the diet

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