SEARCH
You are in browse mode. You must login to use MEMORY

   Log in to start

level: Level 1

Questions and Answers List

level questions: Level 1

QuestionAnswer
Addisons diseaseDestruction of entire adrenal cortex • Deficiency of all hormones • Mineralocorticoids • Glucocorticoids • Sex steroids Clinical features • Weight loss • Anorexia • Malaiseh • Weakness • Fever • Depression , amenorrhoea, low libido, abdominal pain, myalgia, arthalgia, nausea. Specific clinical features: Pigmentation ACTH, Postural hypotension mineralocorticoid, 90% presentations. Biochemical features: Low sodium, hig
Ornithine transcarbmylase (OCT) defiency (problems with urea cyclesevere defect in the urea cycle Severe urea cycle disorders → symptoms within 1 day of birth. If untreated child will die. • Mild urea cycle enzyme deficiencies may not show symptoms until early childhood Management: Low protein diet Replace amino acids in diet with keto acids Severity depends on: nature of defect and amount of protein eaten.
MarasmusOverall nutrient deficiency, no swollen abdomen, mainly in children. Due do decreases in carbs, proteins, minerals and vitamins.
KwashiorkorProtein deficiency, resulting in oedema. Appearance shows swollen abdomen. Present with stunted growth, decreased fat muscle mass, enlarged liver, anaemia.
Essential FructosuriaCaused by a deficiency of the enzyme hepatic fructokinase is a clinically benign condition characterized by the incomplete metabolism of fructose in the liver, leading to its excretion in urine.
Fructose intolerancedeficiency of the enzyme fructose-1-phosphate aldolase, this enzyme is important in the breakdown of fructose by the body to be used as energy. Results in accumulation of fructose 1- phosphate in the liver. Increased unbroken down glucose, results in water to travel into the lumen, thus resulting in diarrhoea. symptom - poor feeding as a baby, vomiting, nausea and abdominal pain treatment- elimination of sucrose and fructose from diet
Galactosaemia (Difference between the two causes)Galactokinase deficiency non classical: Rare, deficiency of Galactokinase, Increased galactose in blood, urine (galactosuria), increased accumulation within cataracts. GALT (galactose-1-phosphate uridylyl transferase) deficiency: Less Rare, Deficiency in GALT, leading to Galactosuria, galactosaemia,galactose-1-p and galactitol accumulate causing cataracts, brain and liver damage . Galactitol formation depletes tissues of NADPH and raises osmotic pressure - structure damage Symptoms include- cirhossis, hepatomegaly, renal failure, voimiting, seizures, brain damage, hypoglycaemia. TREATMENT - dietary restriction (lactose and galactose)
G6PDH deficiency- reduced activity of G6PDH - x linked defect - decrease enzyme lowers levels of NADPH - RBC are most affected as pentose pathways is the only way to generate NADPH - - oxidative damage occurs - haemoglobin and other proteins become crosslinked via disulphide bonds forming oxidised SH groups - form insoluble aggregates called Heinz bodies - attach to RBC membrane - kill RBC causes haemolysis - asymptomatic unless chemicals i.e. antimalarials and foods, infections or stress....
PDH deficiencyRare X-linked genetic defect in PDH, but the most common cause of congenital lactic acidosis No pyruvate conversion to Acetyl-CoA • Pyruvate cannot be processed and is reduced to lactate or converted to amino acids • Presents at birth with neurodegeneration, muscle abnormalities and may cause death in neonatal period • Management includes dietary restriction of carbohydrates and proteins, and vit. B supplement. This reduced the amount of lactic acids formed due to less pyruvates produced.
Glycogen storage disease what are the two types• Excess glycogen storage can lead to tissue damage: E.g. Von Gierke disease- liver glucose 6 phosphatase deficiency (hypoglycaemia, enlarged liver) • Insufficient glycogen degradation can lead to hypoglycaemia and poor exercise tolerance: E.g. McArdle disease- muscle glycogen phosphorylase deficiency (exercise-induced muscle pain and cramps)
what are the main presentations of lyperlipoproteinaemia- raised plasma level of one or more lipoprotein classes - cuased by over-production and under-removal - can be a defect in enzymes (LPL), receptors (LDLr), apoproteins (apoE")
what are the 5 main classes of lyperlipoprteinaemia and which ones are accosiatd with coronary artery diseasesee picture
hypercholestrolaemiahigh levels of cholestrol in blood signs - xanthelasma - tendon xanthoma - corneal arcus treatments diet (increase fiber intake and decrease colestrol) lifestyle (decrease smoking increase excersise) DRUGS statins(inhibits HMG-CoA reducase) bile salts/acid sequestrants
what are the 9 essential aaisoleucine lysine threonine histidine lucine methoinine phenylalanine trypotophan valine
what aa 3 amino acids required in diet in pregnacy and in childrenargine, tyrosine and cystenine
name 2 glucogenic, ketogenic and both amino acidsketogenic - lysine, leucine glucogenic - glycine and arinine both tryptopham, tyrosine
cushings syndromeexcessive breakdown of protein due to excess cortisol. weakens skin leads to straie formation
alwhat are the two important diagnosistic mnarkers in liver failureAlanine aminotransferase (ALT) --> alanine to glutamate Asparate aminotransferase (AST) --> asparate to glutamate
refeeding syndromecan occur when nutritional support given to severely malnourished patients ammonia toxicty significant factor (urea ccyle down regulated) refeed at 5-10kcal/kg/day. raised gradually to full needs within a week. BMI <16 unintentional weight loss >15% in 3-6 months 10 days or more with limited or no nutritial intake
Ornithine transcarbmylase (OCT) defiency (problems with urea cyclesevere urea cycle disorders ---> symptoms within 1 day of birth. If untreated child will die Mild urea cycle enzyme deficiencies may not show symptoms until early childhood - managment low porteins diet symptoms vomiting letharygy irritability mental retardation seizures coma
PKUno phenylaline hydroxlase prevents phenylalanie convertion to trysine - affected pathways - noradrenaline - adrenaline - dopamine - melanin - thyroid hormone - portein synthesis symptoms - severe intelectual disability - developmental delay - microcephaly (small head) = seizures - hypopigmentation Autosomal recessive within chromosome 12, accumulation in phenylalanine in tissues, plasma and urine. Musty smell
Homocystinuria• Rare (incidence ~1 in 344,000) • Defect in cystathionine β-synthase (CBS) is the most common (defect in methionine synthase also possible) • Autosomal recessive disorders • Excess homocystine(oxidised form of homocysteine) excreted in urine • Accumulation of homocysteine and methionine causes disease symptoms
Alcoholic liver diseaseLiver toxicity due to acetaldehyde accumulation which leads to liver damage and dysfunction • Altered liver metabolism due to decrease in NAD+/NADH ratio and increased availability of acetyl CoA Consequences include: • Escape of liver enzymes (e.g. ALT, AST and gamma glutamyl transpeptidase) to blood • Reduced taking up and conjugation of bilirubin leading to hyperbilirubinaemia • Reduced production of urea leading to hyperammonaemia • Reduced synthesis of proteins (albumin, clotting factors and lipoproteins)
HypopituiatarismGonadal deficiencies: loss of libido and secondary sexual hair, amenorrhoea, erectile dysfunction, period irregularities GH deficiency: growth failure in children and impaired wellbeing in adults TSH deficiency: weight gain, dry skin and cold intolerance ACTH deficiency: mild hypotension, hyponatraemia
Addisons diseaseDestruction of entire adrenal cortex • Deficiency of all hormones • Mineralocorticoids • Glucocorticoids • Sex steroids Clinical features • Weight loss • Anorexia • Malaise • Weakness • Fever • Depression , amenorrhoea, low libido, abdominal pain, myalgia, arthalgia, nausea. Specific clinical features: Pigmentation ACTH, Postural hypotension mineralocorticoid, 90% presentations. Biochemical features: Low sodium, high potassium, high urea, low glucose.
Hypoadrenal crisisHypotension, Hypoglycaemia, Hyponatraemia, Hyperkalaemia, Sever dehydration, Death if untreated Treatment: Acute presentation is a medical emergency, long term treatment necessary, Hydrocortisone 20-30mg daily (ammunocortisol replacement), Fludrocortisone 50-300ug daily Confirmatory tests: • 0900 cortisol (peak cortisol) should be 300 • Short synacthen test • ACTH • Plasma renin • Adrenal antibodies
Hypothyroidismsee picture
Heinz bodiesSee picture
Why Alcoholics May Have a Fatty Liver?• Reduced levels of NAD + in liver for fatty acid oxidation • Increased levels of acetyl CoA will not be oxidised due to reduced levels of NAD+ • Increased fatty acid synthesis and ketone synthesis (may lead to ketoacidosis) from acetyl
Why Alcoholics May Have Fasting Hypoglycaemia and Gout?• Liver cells unable to use lactate and glycerol for de novo synthesis of glucose (+ poor diet - low glycogen levels) • Reduced levels of NAD+ in liver for conversion of lactate to pyruvate and for glycerol conversion to DHAP • Increased blood lactate leads to lactic acidosis and reduces the kidney’s ability to excrete uric acid; as uric acid levels increase, crystals of urate accumulate in tissues leading to gout
HypercalcaemiaStones, moans (depression) and groans (abdominal pain) Treatment includes fluids as patients have lost excess fluid in urine and need circulating volume restoring. Hypercalcaemia, signs and symptoms CNS: altered behaviour: lethargy, depression, decreased alertness, confusion and coma GI: anorexia, constipation, nausea and vomiting Renal: diuresis, dehydration, risk for kidney stones. Skeletal: increased bone resorption, fracture risk, joint pain Cardiovascular: cause/exacerbate hypertension Largely explained by decreased nerve excitability or calcium precipitation
Hypocalcaemia, clinical signs and symptomsNeuromuscular: Tetany - involuntary muscle contraction Paresthesia – strange sensations eg numbness/tingling Twitching esp. face (cranial nerve) Muscle group contraction eg clawed hands Full blown convulsion, respiratory arrest and death CNS: irritability, seizures, personality changes, impaired cognition Cardiovascular: QT prolongation on ECG