Biochem Clinicals (LOCO) PDF
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Summary
These notes cover various biochemistry clinical topics, including Scurvy, Osteoporosis, and Rickets, along with their causes, symptoms, treatments, and related questions. The content primarily focuses on the functions and roles of various vitamins and minerals, and some of their related processes in human physiology and health conditions.
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# Biochem Clinicals (LOCO) ## 1- Scurvy ### Type: Infantile Scurvy (Barlow's Disease) ### Signs & Symptoms: - Collagen synthesis or. - Capillary hemorrhage. - Muscle weakness. - Bone weakness. - Swollen and soft gums. - Wound healing. - Development of bones (cartilage (dentine and - Dealli. ###...
# Biochem Clinicals (LOCO) ## 1- Scurvy ### Type: Infantile Scurvy (Barlow's Disease) ### Signs & Symptoms: - Collagen synthesis or. - Capillary hemorrhage. - Muscle weakness. - Bone weakness. - Swollen and soft gums. - Wound healing. - Development of bones (cartilage (dentine and - Dealli. ### Cause: - Low intake of fresh veges. - (Ascorbic Acid) - **VIT 'C'** related questions. ### Sources: - Citrus fruits (Banana, apple). - Tomato, onion, carrot, potato. - Liver, milk. ### Forms: - Ascorbic Acid - Dehydroscorbic Acid. ## Production - **L-Ascorbic Acid Pathway:** - Glucose - L-Glucono lactone - Vit 'C' - Oxidase. - No production in human body due to lack of L-Glucono lactone oxidase enzyme. ## Functions: - **Collagen Hydroxylation:** - Collagen has protein and lysein. - Better network - Formation of collagen. - **Iron Absorption:** - Fe+2 + Vit C ➡️ Fe+3 (absorbed) - Prevent Fe+ 2 (ferrous form) from conversion into Fe+3 (feric form). See that, how helps in iron absorption. - **Antioxidant:** - Prevent heart, cancer diseases. - Tryptophan and Tyrosine metabolism. - Role in production of Immunoglobulins. - Corticosteroids. - THF formation. - Wound healing. ### Toxicity: - Dehydro ascorbic Acid ➡️ Oxalate ➡️ Kidney stones. - Common cold treatment. (Megadore of Vit (C) ## 2- Osteoporosis ### Cause: Low Ca++ intake. ### Postmenopausal Osteoporosis - Age ➡️ 750 - Estrogen ➡️ Bone growth and maturation. - Estrogen ➡️ osteoclast activity ↑ ### Treatment: - Inc. Calcium absorption by inc 1,25-(OH)2 D (Serum). - Vit D (active form) ➡️ Bone Calcium absorption ↑ ## CALCIUM **Related Questions:** - Source: Milk, cheese, and dairy products. - Daily intake: - Adult men and women: 8oo mg (day). (0.8g/day). - Kids: 1-3 yr: 700 mg (day). (0.7 g/day) 4-8 yr: 1000 mg/day (1g/day) 7-18 yr: 1300 mg/day (1.3g/day) - 99% - Human body ➡️ 1-1.5 by calcium - 99%-bones - 1% - muscle, blood ### Function: - Muscle contraction. - Bone and teeth development. - Blood coagulation. - Cell to cell junction. - Hormone release. - Nerve transmission. - Activation of enzymes. ### Absorption: - Duodenum. Me. ### Factors: - **Absorption ↑** - Vit D - PTH - Low pH - Lactose - Amino Acid (lysine, Arginine) - **Absorption ↓** - Fatty Acids. - Dietary Fibers. - High pH - Phytate, Oxylate - Ca:P 1:2 2:1 - Ca or Phosphate should not be more than 2 times. ### Plasma level: 9-11 mg/dL. (ionized form) ### Regulators - **Vit D ↑** - Enzymes activation by: - Pyrophosphatase. - Collagenase. - Bones (demineralization) ➡️ Ca++ ↑ - Kidney (excretion) ➡️ Ca++ ↑ - Intestine (absorption ↑) - **PTH ↑** - Bones (demineralization) ➡️ Ca++ ↑ - Kidney (excretion) ➡️ Ca++ ↑ - **Calcitonin: antagonist to PTH.** - **Ca:P** - Adults: Ca:P 40 - Children: Ca:P 50 ➡️ normal. - Def. disease: Ca: P <30 ## 3- Hypercalcemia. - Calcium plasma level ➡️ >9-11 mg/dL. - Due to hyperthyroidism (PTH↑) - Stones, muscle weakness, nausea - Constipation ## 4- Hypocalcemia - Calcium plasma level ➡️ < 9-11 mg/dL. - Due to hypothyroidism (PTH↓). - Treatment: - Vit D ## 5- MBD (Marble Bone Disease) / Osteopetrosis: - Bone demineralization can't be done. - High level of Calcium in bones. ## 6- Rickets: (children). - Cause: due to dec. Serum 1,25(OH)2 D (Vit D). - Vit D ➡️ ea mineralization of bones. - Low exposure of sunlight. - Symptoms: - Muscle weakness. - Joint pain. - Bowed legs. - Rachitic rosary (beaded appearance of chest). - Swollen wrist, ankle joint. - Treatment: - Vit D supplementation. - Sunlight exposure. - **Types:** - **1- Resistant / Renal Rickets** - Can’t be treated by inc. vit D intake. - Due to abnormality in kidney so then kidney can’t convert Vit D inactive form into active one. - **2- Nut. Rickets ➡️ low intake of Vit D** ## Vit D **Related Question:** - Active form: 1,25-dihydroxycholecalciferol / calcitriol. - Storage form: 25-hydroxycholecalciferol. ### Metabolism: - **Skin:** - 7-dehydrocholesterol ➡️ UV ➡️ Cholecalciferol - **Liver:** - Cholesterol ➡️ 25-hydroxytase ➡️ 25-hydrocholecalciferol. - **Kidney:** - 25-hydroxy ➡️ 25-OH cholecalciferols ➡️ 1-hydroxylase ➡️ 1,25(OH)2 ### Regulation of 1-hydroxylase: - Plasma Ca++ ➡️ directly regulate. - Plasma P ➡️ directly regulate. - Low plasma level of phosphorus ➡️ stimulates 1-hydroxylase ➡️ activated ➡️ more 1,25-(OH)2D, hence Plasma P ↑ - When Ca++ and PTH ↑ ➡️ enhance 1-hydroxilase ➡️ 1,25-6H/2D, Ca++ ↑ ### Function of Calcitriol: - **Ca++ absorption:** - Intestine: bind to calcitriol receptors. Produce protein "calbindin" binds to Ca++ for absorption. - **Kidney:** - excretion of Ca++ ↓ - **Bone:** - Osteoblast activity ↑➡️ Ca++ absorption. ### Sources: - **Plant:** Ergocalciferol (Vit D₂) - **Animal:** Cholecalciferol (Vit D₃) - Fatty fish - Liver - Egg yolk - The sunlight exposure. ### Toxicity: - Nausea. - Kidney stones. - Loss of appetite. - Thirst. ### Why Hormone? - Body may produce hormone. - Particular sites of action (kidney, bone, intestine). - Regulation (Ca++ and PTH) ### Regulation: - Regulate its own production by prohibiting PTH and 1-hydroxylase (negative feedback). - RDA - 1-70 yrs ➡️ 15mg/day (1ng Vit D = 4010) - >70 yrs ➡️ 20mg/day - Breast milk = poor source. So, supplementation necessary for breast-fed babies. ## 6- Osteogenesis Imperfecta/ Brittle Bone Disease: - The condition in which the bones are inadequately formed into body. ### Cause: - Lack of the protein collagen. That cause brittle bones that break easily. ### Signs & Symptoms: - Curved spine - Hearing loss (starts 20-30's) - Baring loss (age) - Cause spine curvature called as kyphosis lead to a hunchback. ### Treatment: - No cure ## 7- Ehlers-Danlos Syndrome (EDS): - **Types of OI** - **Type 1** - Most common - Mild bone fragility. - Heavily loss. - Blue sclerae (curvature of eye becomes blue). - **Type II** - Most severe form. - Lethal in prenatal period due to pulmonary complications. - Short statue - In utero fractures. - Kyphosis. - Blue sclerae. - **Type III** - Also severe form. - Multiple fractures. ## 7- Ehlers-Danlos Syndrome: (EDS): - Due to Lysyl hydroxylase enzyme. - Or mutations in the sequences of amino acids in collagen type 1, II, V. - **Vascular form of EDS** - Defect in collagen, type 8III - Lethal arterial rupture. - **Classic form of EDS** - Defect in collagen. type - Skin extensibility and fragility and joint hypermobility. ## Collagen: ### Related Questions: - Fibrous protein (rod/ wire like shape). - Structural protein. - Insoluble in H2O. ### Collagen: - Most abundant protein in human body (25%). - 3 polypeptide chains (a-chains) - Rich in glycine-- te imp. in the formation for triple-stranded helix. - Glycine-- 3rd position of polypeptide chain. - Hydroxyproline and hydroxylysine-- present in collagens (not on olwyn protein) - Result from hydroxylation. - Hydroxy proline-- stabilize triple helicle structure. - Hydroxylation required molecular oxygen and vit 'C'. - Hydroxylating enzymes (Lysyl hydroxylase and polyyl hydroxylase) are unable to function without vit 'C'. ## 8- Marfan Syndrome. - A connective tissue disorder. ### Cause: - Mutations in fibrillin-1 protein (FBN-1) ### Signs & Symptoms: - Impaired structmal integrity in the skeleton (tall, especially aorta) - Eye (swollen walls) - Long slender arms, legs, fingers, and toed. - Flexible joints. - May have scoliosis (abnormal lateral curvature of spine). ## Elastin: ### Related Questions: - A fibrous hotein. - Rich in Proline and lysine - Have hydroxyproline. - No Hydroxylysine. ### Precursor Tropoelastin: - ~700 Amino acids - Primarily small, non-polar (Valine, glycine, alanine) - Tropoelastin secreted into ECM by cells. - Interacts with specific glycoproteins such as microfibrils, fibrilin. - Some of lysyl sides are oxidatively deaminated by lysyl oxidase, forming allysine residues. - 3 Allysyl sides + 1 lysyl side-- Forms desmosine-- cross-link - This produces elastin, interconnected, a rubbery network that can stretch and bend, stressed, giving elasticity to connective tissue. - Mutations in tibtrilin-1--- Marfan Syndrome. ## 9- Osteomalacia: Rickets. - Osteomalacia: - Lo only age difference. ### Difference between osteomalacia and osteoporosis: - Osteomalacia: softened and weakened bones, bone pain due to Vit D and Calcium def. Age may be <40 - Osteoporosis: weak bones, fracture. Age is always ➡️ 40. - Osteoporosis: due to vit D def, calcium def, and estrogen low ## 10- Mucopolysaccharidoses (MPS)s: - Rare inborn errors in degradation of GAGS. - (Glycosaminoglycans). - Hereditary disorders. - Deficiency in enzyme: accumulation of GAGS: MPS Symptoms - **Main signs**: - Mental retardation. - Structural defects. - **Types:** - **MPS Type I.** - Def of which enzyme: - Alpha-L-iduronidase - Accumulation: - Hepanan sulfate - Dermatan - Name: - Hurler syndrome - **Type II** - Iduronate sulfatase - Same for type II - Hunter syndrome - **Type III** - 4 enzymes: - Hydrolases. - N-acetyltransferase. - Heparan sulfate - Sanfilippo syndrome ## GAGS: ### Related Questions: - Large complexes of -ve charged heteropolysachride chains. - Can bind with large amount of water. - Produce gel matrix-- basis of body ground substance. - Composition of ECM: fibrous protein and GAGS. ### Functions: - Component (Major) of ECM. - Lubricate joints. - Give flexibility to cartilage. ### Absence: - Trauma/ osteoarthritis. ### Classification: - **GAGS** - **Sulphate free** - Hyaluronic acid - **Sulphate containig** - Chondroitin sulphate. - Keratin sulfiale I - Heparin & Heparin sulpfile - Dermatan sulfate. ## Maple Syrup Urine Disease (MSUD): - The urine of patients smells like maple syrup or burnt sugar. - **Other Name:** - Branched chain Keto Aciduria. - **Deficiency:** - Brauch chain keto aid dehydrogenase. - **Types:** - **1- Classical:** severe deficiency. - **2- Juterrmittent:** Enzyme activity ↓. - **3- Thiame responsive:** Defect stabilized by Vit B1. - Seen in childhood; don’t take food, vomiting. ### Genetic: - Autosomal recessive disorder. ### Accumulation: - Accumulation and execetion of branched amino acids by their keto acids. - Accumulation cause impairment in function, transport of their amino acids. - Protein biosynthesis reduced. - BLAAS inhibit glutamate dehydrogenase. ### Signs & symptoms: - Severe MR. - Convulsions. - Vomiting. - Acidosis (ketoacidosis). - Coma. - Death. ### Diagnosis: - **Enzyme Analysis:** - Plasma and urine : ↑ Leu, Ile, Val of their a-keto acids. - Smell of Urine= Burnt Sugar. - Chromatography of Urine. - Rother’s test +ve. ### Treatment: - Diet low in BCAAs. - High in prey thiamine. - BCAAs: Valine, isoleucine, leucine.
