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৪৯তম বিসিএস ⎯ প্রাণ রসায়ন [৬০১]

পরীক্ষা৪৯তম বিসিএস ⎯ প্রাণ রসায়ন [৬০১]তারিখতারিখ অনির্ধারিতসময়30 minutes
মোট প্রশ্ন৫০
সিলেবাস
Exam 13 Clinical biochemistry [Source: Class–10 and relevant books]
ঘনত্ব
উত্তর
উত্তরিতবর্তমানপুনরায় দেখুনঅসম্পূর্ণ

৪৯তম বিসিএস ⎯ প্রাণ রসায়ন [৬০১]

৪৯তম বিসিএস ⎯ প্রাণ রসায়ন [৬০১] · তারিখ অনির্ধারিত · ৫০ প্রশ্ন

.
ALT (Alanine aminotransferase) is primarily found in:
  1. Heart
  2. Liver
  3. Muscle
  4. Kidney
ব্যাখ্যা

Answer: B) Liver
Explanation: Alanine aminotransferase (ALT) is an enzyme that is most concentrated in the hepatocytes (liver cells). Its primary role is to help convert alanine, an amino acid, into pyruvate, which is a key step in producing cellular energy. When liver cells are damaged or inflamed, ALT is released into the bloodstream. Therefore, a blood test showing high levels of ALT is a very specific indicator of liver injury, commonly seen in conditions like hepatitis (viral or autoimmune), fatty liver disease, or damage from toxins like alcohol.

.
AST (Aspartate aminotransferase) is elevated in:
  1. Liver and heart damage
  2. Only liver disease
  3. Only kidney disease
  4. Only pancreas disease
ব্যাখ্যা

Answer: A) Liver and heart damage
Explanation: Aspartate aminotransferase (AST) is similar to ALT but is less specific to the liver. It is found in high concentrations in the liver, heart (cardiac muscle), skeletal muscles, kidneys, and brain. While it is also elevated in liver damage, significant damage to heart muscle (as in a myocardial infarction, or heart attack) or skeletal muscle will also cause a sharp rise in blood AST levels. Because of its wide distribution, an elevated AST level must be interpreted alongside other clinical findings and lab tests (like ALT and CK) to pinpoint the source of the injury.

.
The AST/ALT ratio > 2 is suggestive of:
  1. Acute viral hepatitis
  2. Alcoholic liver disease
  3. Fatty liver disease
  4. Kidney failure
ব্যাখ্যা

Answer: B) Alcoholic liver disease
Explanation: The De Ritis ratio (AST/ALT) is a very useful diagnostic clue. In most liver diseases, ALT levels are higher than or equal to AST levels, making the ratio less than 1. However, in alcoholic liver disease, a ratio greater than 2 is a classic finding. This is because alcohol is directly toxic to mitochondria, cellular organelles where a specific form of AST is abundant. Alcohol-induced damage causes a disproportionate release of this mitochondrial AST, "flipping" the ratio.

.
Creatine kinase (CK) is a key marker for:
  1. Liver injury
  2. Muscle and heart damage
  3. Kidney failure
  4. Bone disease
ব্যাখ্যা

Answer: B) Muscle and heart damage
Explanation: Creatine kinase (CK), also known as creatine phosphokinase (CPK), is an enzyme crucial for energy storage and use in cells with high energy demands, particularly muscle cells (skeletal, cardiac, and smooth). When muscle tissue is damaged, CK leaks into the bloodstream. Very high levels are seen in conditions like rhabdomyolysis (severe skeletal muscle breakdown), muscular dystrophy, and myocardial infarction (heart attack).

.
CK-MB isoenzyme is specifically associated with:
  1. Skeletal muscle
  2. Brain tissue
  3. Cardiac muscle
  4. Liver
ব্যাখ্যা

Answer: C) Cardiac muscle
Explanation: Creatine kinase exists as different forms, called isoenzymes. The main ones are CK-MM (found mostly in skeletal muscle), CK-BB (found mostly in the brain), and CK-MB. The CK-MB isoenzyme is found in high concentrations almost exclusively in the heart muscle. Because of this specificity, measuring CK-MB levels in the blood is a classic and reliable marker for diagnosing a heart attack, as it is released when cardiac cells die.

.
LDH-1 and LDH-2 are primarily found in:
  1. Liver
  2. Heart and red blood cells
  3. Skeletal muscle
  4. Pancreas
ব্যাখ্যা

Answer: B) Heart and red blood cells
Explanation: Lactate dehydrogenase (LDH) is another widely distributed enzyme with five isoenzymes (LDH-1 to LDH-5). LDH-1 is found in the highest amounts in the heart muscle and red blood cells (RBCs). LDH-2 is also present in these tissues but is typically the most abundant form in the blood of a healthy person. Therefore, conditions causing damage to the heart (myocardial infarction) or breakdown of RBCs (hemolytic anemia) will lead to an increase in LDH-1 and LDH-2.

.
The "flipped LDH pattern" (LDH-1 > LDH-2) is characteristic of:
  1. Viral hepatitis
  2. Myocardial infarction
  3. Gout
  4. Kidney failure
ব্যাখ্যা

Answer: B) Myocardial infarction
Explanation: Normally, the concentration of LDH-2 in the blood is greater than LDH-1. However, following a myocardial infarction, a large amount of LDH-1 is released from the damaged heart muscle. This influx of LDH-1 can raise its level above that of LDH-2, leading to a "flipped" pattern where LDH-1 > LDH-2. This finding is highly characteristic of a recent heart attack.

.
Acid phosphatase is elevated in:
  1. Prostate cancer
  2. Osteoporosis
  3. Diabetes
  4. Hepatitis
ব্যাখ্যা

Answer: A) Prostate cancer
Explanation: Acid phosphatase (ACP) is an enzyme found in various tissues, but its highest concentration is in the prostate gland. When prostate cancer is present, particularly when it has metastasized (spread) beyond the prostate capsule, especially to the bones, large amounts of ACP are released into the blood. Therefore, elevated ACP levels are a strong indicator of advanced or metastatic prostate cancer and can be used to monitor the progression of the disease.

.
Alkaline phosphatase (ALP) is elevated in:
  1. Liver and bone diseases
  2. Diabetes
  3. Anemia
  4. D) Lung diseases
ব্যাখ্যা

Answer: A) Liver and bone diseases
Explanation: 

Alkaline phosphatase (ALP) is primarily concentrated in the liver (specifically, the cells lining the bile ducts) and bones (in osteoblasts, the cells that build bone). Elevated ALP levels typically point to two main categories of conditions:

Liver Disease: Particularly cholestatic conditions, where bile flow is blocked (e.g., by gallstones or a tumor).
Bone Disorders: Conditions involving high bone turnover, such as Paget's disease, rickets, bone fractures that are healing, or bone cancers.

১০.
ALP is most useful in diagnosing:
  1. Heart attack
  2. Liver and bone conditions
  3. Pancreatic failure
  4. Kidney infections
ব্যাখ্যা

Answer: B) Liver and bone conditions
Explanation:  Alkaline phosphatase (ALP) is primarily concentrated in the liver (specifically, the cells lining the bile ducts) and bones (in osteoblasts, the cells that build bone). Elevated ALP levels typically point to two main categories of conditions:

Liver Disease: Particularly cholestatic conditions, where bile flow is blocked (e.g., by gallstones or a tumor).
Bone Disorders: Conditions involving high bone turnover, such as Paget's disease, rickets, bone fractures that are healing, or bone cancers.

১১.
Acid phosphatase is most useful in diagnosing:
  1. Bone fractures
  2. Prostate cancer metastasis
  3. Bone density
  4. Iron deficiency anemia
ব্যাখ্যা

Answer: B) Prostate cancer metastasis
Explanation: When prostate cancer is present, particularly when it has metastasized (spread) beyond the prostate capsule, especially to the bones, large amounts of ACP are released into the blood. Therefore, elevated ACP levels are a strong indicator of advanced or metastatic prostate cancer.

১২.
A high ALP with normal bilirubin indicates:
  1. Bile duct obstruction
  2. Bone disease
  3. Hepatitis
  4. Kidney stones
ব্যাখ্যা

Answer: B) Bone disease
Explanation:  If ALP is high but bilirubin is normal, it suggests that the problem is not related to bile duct obstruction in the liver. This points strongly towards a bone-related disorder as the source of the elevated ALP, as bone metabolism does not affect bilirubin levels.

১৩.
Urea is produced primarily in the:
  1. Kidneys
  2. Liver
  3. Pancreas
  4. Intestine
ব্যাখ্যা

Answer: B) Liver
Explanation: Urea is the primary nitrogenous waste product in mammals. Amino acids go through transamination and move towards liver via aspertate and glumate shuttle where urea cycle starts. It is synthesized exclusively in the liver through the urea cycle.

১৪.
LDH remains elevated for how many days after a heart attack?
  1. 1  day
  2. 3  days
  3. 5-7  days
  4. 10  days
ব্যাখ্যা

Answer: C) 5–7 days
Explanation: LDH remains elevated for 5–7 days, useful for diagnosing late-presenting MI cases.
   

১৫.
Which enzyme is the most specific marker for myocardial infarction?
  1. LDH
  2. CK-MB
  3. AST
  4. ALT
ব্যাখ্যা

Answer: B) CK-MB
Explanation: 

CK-MB (Creatine Kinase - MB)
Most specific early enzyme marker for myocardial infarction (before troponins became the gold standard).
Location: Found mainly in cardiac muscle (heart).
Normal level: Very low in the blood.
After MI:

Begins to rise: 3–6 hours after the onset of chest pain
Peaks: 18–24 hours
Returns to normal: 2–3 days
Why specific:
The MB isoenzyme of creatine kinase is predominantly found in heart muscle, making it highly specific for myocardial damage compared to other enzymes.

১৬.
Normal total cholesterol range is:
  1. <100 mg/dL
  2. <150 mg/dL
  3. <200 mg/dL
  4. <250 mg/dL
ব্যাখ্যা

Answer: C) <200 mg/dL
Explanation: Healthy total cholesterol should be below 200 mg/dL.

১৭.
A key symptom of uncontrolled diabetes is:
  1. Tetany
  2. Polyuria
  3. Jaundice
  4. Bradycardia
ব্যাখ্যা

Answer: B) Polyuria
Explanation: In uncontrolled diabetes, blood glucose levels are very high. The kidneys filter this excess glucose from the blood, but their capacity to reabsorb it is overwhelmed. The high concentration of glucose in the kidney tubules exerts an osmotic force, drawing large amounts of water into the urine. This process, called osmotic diuresis, leads to the production of an abnormally large volume of urine, a symptom known as polyuria (frequent urination).

১৮.
Calcium ions play a vital role in:
  1. Blood clotting
  2. Muscle contraction
  3. Nerve conduction
  4. All of the above
ব্যাখ্যা

Answer: D) All of the above
Explanation: Calcium is essential for clotting, muscle function, and nerve transmission.

১৯.
High cholesterol is a risk factor for:
  1. Hypothyroidism
  2. Atherosclerosis
  3. Osteoporosis
  4. Diabetes insipidus
ব্যাখ্যা

Answer: B) Atherosclerosis
Explanation: Cholesterol is a waxy, fat-like substance essential for building cell membranes and producing hormones. A desirable total cholesterol level in the blood is less than 200 mg/dL. When cholesterol levels are too high, particularly LDL ("bad") cholesterol, it can deposit in the walls of arteries. This buildup, known as plaque, hardens and narrows the arteries in a process called atherosclerosis. Atherosclerosis is the underlying cause of most cardiovascular diseases, including heart attacks and strokes.

২০.
Hyperbilirubinemia results in:
  1. Jaundice
  2. Rickets
  3. Gout
  4. Hypocalcemia
ব্যাখ্যা

Answer: A) Jaundice
Explanation: Bilirubin is a yellowish pigment produced during the normal breakdown of red blood cells.

Hyperbilirubinemia refers to an elevated level of bilirubin in the blood. Bilirubin is a yellow pigment formed from the breakdown of heme, primarily from hemoglobin in red blood cells. When bilirubin levels rise above the normal range, it can lead to various clinical manifestations and complications.

Effects and Results of Hyperbilirubinemia:
 
1. Jaundice (Icterus)
Most common result Characterized by yellow discoloration of:

Skin
Sclera of the eyes
Mucous membranes
Occurs because excess bilirubin deposits in tissues.
Usually visible when serum bilirubin > 2.5 mg/dL.

২১.
Fasting blood glucose normal range is:
  1. 50–80 mg/dL
  2. 70–110 mg/dL
  3. 120–160 mg/dL
  4. 180–200 mg/dL
ব্যাখ্যা

Answer: B) 70–110 mg/dL
Explanation: For a person without diabetes, a normal blood glucose level after fasting (not eating for at least 8 hours) typically falls within the range of 70 to 110 milligrams per deciliter (mg/dL). Levels above this range may indicate prediabetes or diabetes.

২২.
Uric acid is the end product of:
  1. Protein metabolism
  2. Lipid metabolism
  3. Purine metabolism
  4. Carbohydrate metabolism
ব্যাখ্যা

Answer: C) Purine metabolism
Explanation: Uric acid is the final breakdown product of purine metabolism. Purines (like adenine and guanine) are components of nucleic acids (DNA and RNA). When cells die and are broken down, or from the digestion of purine-rich foods (like red meat and seafood), these purines are converted to uric acid. 

২৩.
Indirect bilirubin increases in:
  1. Hemolytic anemia
  2. Bile duct obstruction
  3. Liver cirrhosis
  4. Bone fracture
ব্যাখ্যা

Answer: A) Hemolytic anemia
Explanation: Indirect (Unconjugated) Bilirubin: This is the initial form, which is fat-soluble and not yet processed by the liver. In hemolytic anemia, red blood cells are destroyed at an abnormally high rate, overwhelming the liver's capacity to process bilirubin. This leads to a buildup of unconjugated (indirect) bilirubin in the blood.

২৪.
Direct bilirubin is:
  1. Unconjugated
  2. Conjugated with glucuronic acid
  3. Produced from hemoglobin breakdown only
  4. Found only in stool
ব্যাখ্যা

Answer: B) Conjugated with glucuronic acid
Explanation:

Elaboration: Direct (Conjugated) Bilirubin: The liver converts unconjugated bilirubin into a water-soluble form by attaching it to glucuronic acid. This "conjugated" or "direct" bilirubin is then excreted into bile.
Hyperbilirubinemia & Jaundice: When bilirubin levels in the blood become too high (hyperbilirubinemia), the pigment deposits in tissues, causing a yellowing of the skin and eyes, a condition known as jaundice.

২৫.
A low blood urea level is seen in:
  1. Liver failure
  2. Kidney failure
  3. Gout
  4. Dehydration
ব্যাখ্যা

Answer: A) Liver failure
Explanation: Urea is the primary nitrogenous waste product in mammals. It is synthesized exclusively in the liver through the urea cycle. This cycle converts toxic ammonia, a byproduct of amino acid metabolism, into the much less toxic urea, which is then transported via the blood to the kidneys for excretion in urine. Consequently, in cases of severe liver failure, the liver's ability to produce urea is compromised, leading to low levels of urea in the blood (and a dangerous buildup of ammonia).

২৬.
Iron is primarily stored in the body as:
  1. Free iron
  2. Ferritin and hemosiderin
  3. Hemoglobin only
  4. Transferrin
ব্যাখ্যা

Answer: B) Ferritin and hemosiderin
Explanation: Iron is vital for hemoglobin function but is toxic when free in the body. Therefore, it is safely stored inside cells bound to specialized proteins. The primary storage protein is ferritin. When iron stores are very high, ferritin aggregates to form hemosiderin, which is a more long-term, less accessible storage form. These proteins are found mainly in the liver, bone marrow, and spleen.

২৭.
Neonatal screening is important for:
  1. PKU
  2. Thalassemia
  3. Sickle cell anemia
  4. All of the above
ব্যাখ্যা

Answer: D) All of the above
Explanation:
Early detection prevents complications in PKU, thalassemia, and sickle cell anemia.

২৮.
In sickle cell anemia, which amino acid is substituted?
  1. Valine for glutamic acid
  2. Glutamic acid for valine
  3. Glycine for alanine
  4. Lysine for tyrosine
ব্যাখ্যা

Answer: A) Valine for glutamic acid
Explanation: Sickle cell anemia is caused by a point mutation in the gene that codes for the β-globin chain of hemoglobin (HBB gene).

 
Nature of the Mutation: Type of mutation: Missense mutation (single base substitution)
DNA change: The sixth codon of the β-globin gene changes from GAG → GTG.
GAG codes for glutamic acid
GTG codes for valine
At position 6, valine replaces glutamic acid.

২৯.
Treatment of PKU involves:
  1. High phenylalanine diet
  2. Low phenylalanine diet
  3. Iron supplements
  4. Insulin injections
ব্যাখ্যা

Answer: B) Low phenylalanine diet
Explanation: Phenylketonuria (PKU) is an inborn error of metabolism where the body cannot properly break down the amino acid phenylalanine due to a deficient enzyme. This leads to a toxic buildup of phenylalanine in the blood, which can cause severe brain damage. The cornerstone of treatment is a lifelong, strict diet low in phenylalanine, avoiding high-protein foods like meat, dairy, and nuts, and using special medical formulas.

৩০.
Bicarbonate is the main buffer in:
  1. Kidneys
  2. Lungs
  3. Blood
  4. Liver
ব্যাখ্যা

Answer: C) Blood
Explanation: The bicarbonate buffer system (H₂CO₃ ⇌ H⁺ + HCO₃⁻) is the most important physiological buffer for maintaining the pH of blood within its narrow, critical range (7.35-7.45). It works by absorbing excess acid (H⁺) or base, preventing large, dangerous swings in blood pH. The lungs (by exhaling CO₂) and kidneys (by excreting acid or bicarbonate) work together to regulate this system.

৩১.
In alpha-thalassemia, the affected gene is on:
  1. Chromosome 6
  2. Chromosome 11
  3. Chromosome 16
  4. Chromosome 21
ব্যাখ্যা

Answer: C) Chromosome 16
Explanation: Thalassemia refers to a group of genetic blood disorders characterized by reduced or absent synthesis of one or more of the globin chains that make up hemoglobin.

Alpha-thalassemia: Caused by mutations in the alpha-globin genes, which are located on chromosome 16.

৩২.
In sickle cell anemia, RBCs become sickle-shaped under:
  1. High oxygen tension
  2. Low oxygen tension
  3. High glucose
  4. Low glucose
ব্যাখ্যা

Answer: B) Low oxygen tension
Explanation: In sickle anemia, body produces deformed Hemoglobin.  This altered hemoglobin (HbS) is unstable. Under conditions of low oxygen tension, HbS molecules polymerize into long, rigid rods, forcing the red blood cells into a characteristic crescent or "sickle" shape. These sickled cells are fragile, block blood flow, and cause the symptoms of the disease. 

৩৩.
Obstructive jaundice is due to:
  1. Liver enzyme deficiency
  2. Bile duct blockage
  3. Low hemoglobin
  4. High albumin levels
ব্যাখ্যা

Answer: B) Bile duct blockage
Explanation: Obstructive (or cholestatic) jaundice occurs when the flow of bile from the liver to the intestine is blocked. This blockage can be caused by gallstones, tumors, or inflammation. Because bile cannot be excreted, the water-soluble conjugated bilirubin backs up from the liver and re-enters the bloodstream, causing jaundice and often dark urine and pale stools.

৩৪.
HbA1c reflects:
  1. Instant blood glucose level
  2. Average blood glucose over 2–3 months
  3.  Glucose levels after meals
  4. Urine glucose concentration
ব্যাখ্যা

Answer: B) Average blood glucose over 2–3 months
Explanation: Glycated hemoglobin (HbA1c) is a form of hemoglobin that is chemically linked to glucose. The amount of HbA1c formed is directly proportional to the average concentration of glucose in the blood. Since red blood cells have a lifespan of about 120 days (3 months), the HbA1c level provides an excellent reflection of a person's average blood glucose control over the preceding 2 to 3 months, making it a crucial tool for managing diabetes.

৩৫.
Gout commonly affects:
  1. Children
  2. Young adults
  3. Middle aged men
  4. Elderly women
ব্যাখ্যা

Answer: C) Middle-aged men
Explanation: Gout is a form of inflammatory arthritis caused by the crystallization of excess uric acid (hyperuricemia) within joints, most classically affecting the big toe. It is most common in middle-aged men, often due to a combination of genetic and lifestyle factors.

৩৬.
Kernicterus is caused by:
  1. Conjugated bilirubin crossing the blood-brain barrier
  2. Unconjugated bilirubin crossing the blood-brain barrier
  3. Iron overload in the brain
  4. High albumin levels in the brain
ব্যাখ্যা

Answer: B) Unconjugated bilirubin crossing the blood-brain barrier
Explanation: Kernicterus is a rare but devastating form of brain damage that occurs in newborns with severe jaundice. In infants, the blood-brain barrier is not fully mature. If levels of unconjugated (fat-soluble) bilirubin become extremely high, it can cross this barrier and deposit in brain tissue, particularly the basal ganglia, causing permanent neurological damage.

৩৭.
Cholera is caused by:
  1. Vibrio cholerae
  2. Salmonella typhi
  3. E. coli
  4. Shigella dysenteriae
ব্যাখ্যা

Answer: A) Vibrio cholerae
Explanation:
Cholera is caused by Vibrio cholerae, a gram-negative bacterium.

The bacterium produces cholera toxin, which enters intestinal cells and irreversibly activates ion channels to secrete huge amounts of electrolytes (chloride, sodium, etc.) and water into the intestinal lumen creating symptom: profuse, watery diarrhea, often described as "rice-water stool.

৩৮.
The cholera toxin acts by:
  1. Blocking sodium absorption
  2. Activating adenylate cyclase
  3. Inhibiting water reabsorption
  4. Breaking down ATP
ব্যাখ্যা

Answer: B) Activating adenylate cyclase
Explanation: The bacterium produces cholera toxin, which enters intestinal cells and irreversibly activates an enzyme called adenylate cyclase. This leads to a massive increase in intracellular cyclic AMP (cAMP), which in turn causes ion channels to secrete huge amounts of electrolytes (chloride, sodium, etc.) and water into the intestinal lumen.

৩৯.
The hallmark symptom of cholera is:
  1. Bloody stools
  2. Profuse watery diarrhea
  3. Constipation
  4. Vomiting only
ব্যাখ্যা

Answer: B) Profuse watery diarrhea
Explanation: This massive fluid loss results in the hallmark symptom: profuse, watery diarrhea, often described as "rice-water stool." The dehydration and electrolyte loss can be fatal within hours. .

৪০.
Which ion plays a key role in oral rehydration therapy?
  1. Calcium
  2. Sodium
  3. Iron
  4. Phosphate
ব্যাখ্যা

Answer: B) Sodium
Explanation: 

ORS solutions contain a precise mixture of water, glucose, and electrolytes, particularly sodium. The co-transport of sodium and glucose in the intestine facilitates water absorption and effectively combats dehydration via a receptor called SGLT1.

৪১.
Hemolytic jaundice is characterized by:
  1. Increased conjugated bilirubin
  2. Increased unconjugated bilirubin
  3. Low bilirubin
  4. Normal bilirubin
ব্যাখ্যা

Answer: B) Increased unconjugated bilirubin
Explanation:
Excess RBC breakdown overwhelms the liver, causing high unconjugated bilirubin.

৪২.
A major acute complication of Type 1 diabetes is:
  1. Hypoglycemia
  2. Diabetic ketoacidosis
  3. Nephropathy
  4. Retinopathy
ব্যাখ্যা

Answer: B) Diabetic ketoacidosis
Explanation: Diabetic ketoacidosis (DKA) is a life-threatening acute complication, primarily of Type 1 diabetes, where there is an absolute deficiency of insulin. Without insulin, glucose cannot enter cells for energy. The body perceives this as starvation and begins to break down fat for fuel at a rapid rate (excessive fatty acid breakdown). This process produces acidic byproducts called ketone bodies. The overproduction of these ketones causes the blood to become dangerously acidic (metabolic acidosis), leading to the signs and symptoms of DKA.

৪৩.
Ketoacidosis in diabetes results from:
  1. Increased glucose oxidation
  2. Excessive fatty acid breakdown
  3. High protein synthesis
  4. Low glucagon levels
ব্যাখ্যা

Answer: B) Excessive fatty acid breakdown
Explanation: Without insulin, glucose cannot enter cells for energy. The body perceives this as starvation and begins to break down fat for fuel at a rapid rate (excessive fatty acid breakdown). This process produces acidic byproducts called ketone bodies. The overproduction of these ketones causes the blood to become dangerously acidic (metabolic acidosis), leading to the signs and symptoms of DKA.

৪৪.
Hemoglobin electrophoresis is used to diagnose:
  1. PKU
  2. Gout
  3. Thalassemia and sickle cell anemia
  4. Jaundice
ব্যাখ্যা

Answer: C) Thalassemia and sickle cell anemia
Explanation: 

Sickle Cell Anemia

Caused by a mutation in the β-globin gene, leading to the production of Hemoglobin S (HbS) instead of normal Hemoglobin A (HbA). Electrophoresis shows:

Increased HbS
Decreased or absent HbA
Possible HbF (fetal hemoglobin) in some patients
Thalassemia

A group of genetic disorders where there is reduced or absent synthesis of α or β-globin chains.
Electrophoresis helps by showing:

Altered proportions of HbA, HbA₂, and HbF
Example: β-thalassemia shows ↑ HbF and ↑ HbA₂, with reduced HbA.
Thus, hemoglobin electrophoresis clearly identifies abnormal hemoglobin patterns and is a key diagnostic test for these conditions.

৪৫.
Primary treatment of cholera involves:
  1. Antibiotics only
  2. IV fluids and oral rehydration salts
  3. Insulin injections
  4. Surgery
ব্যাখ্যা

Answer: B) IV fluids and oral rehydration salts
Explanation:  Cholera is an acute diarrheal illness caused by infection of the intestine with the bacterium Vibrio cholerae. The cornerstone of treatment is aggressive rehydration, primarily with oral rehydration salts (ORS) or, in severe cases, intravenous (IV) fluids. ORS solutions contain a precise mixture of water, glucose, and electrolytes, particularly sodium. The co-transport of sodium and glucose in the intestine facilitates water absorption and effectively combats dehydration.

৪৬.
The defective gene in beta-thalassemia is located on:
  1. Chromosome 6
  2. Chromosome 11
  3. Chromosome 16
  4. Chromosome 21
ব্যাখ্যা

Answer: B) Chromosome 11
Explanation: Beta-thalassemia: Caused by mutations in the beta-globin gene, located on chromosome 11. This leads to a decreased production of beta chains, resulting a disease called Beta Thalassemia.

৪৭.
The primary joint affected in gout is:
  1. Knee
  2. Big toe
  3. Hip
  4. Shoulder
ব্যাখ্যা

Answer: B) Big toe
Explanation:
The big toe joint (podagra) is most commonly involved in gout.

৪৮.
Beta-thalassemia involves decreased production of:
  1. Alpha chains
  2. Beta chains
  3. Gamma chains
  4. Delta chains
ব্যাখ্যা

Answer: B) Beta chains
Explanation: Beta-thalassemia: Caused by mutations in the beta-globin gene, located on chromosome 11. This leads to a decreased production of beta chains, resulting in an imbalance of globin chains and ineffective red blood cell production.

৪৯.
The urine of alkaptonuria patients turns black due to:
  1. Uric acid
  2. Homogentisic acid oxidation
  3. Phenylalanine breakdown
  4. Hemoglobin breakdown
ব্যাখ্যা

Answer: B) Homogentisic acid oxidation
Explanation: In Alkaptonuria homogentisic acid accumulates in the body. When this acid is excreted in the urine and exposed to air, it oxidizes and polymerizes to form a dark, black pigment, which is the hallmark sign of the disease.

৫০.
Alkaptonuria is caused by deficiency of:
  1. Homogentisate oxidase
  2. Tyrosinase
  3. Phenylalanine hydroxylase
  4. Urease
ব্যাখ্যা

Answer: A) Homogentisate oxidase
Explanation: Alkaptonuria is a rare genetic metabolic disorder. It is caused by a deficiency in the enzyme homogentisate 1,2-dioxygenase (also called homogentisate oxidase). This enzyme is necessary for the breakdown of tyrosine and phenylalanine. Without it, an intermediate compound called homogentisic acid accumulates in the body.