Entrance Exams
Govt. Exams
Despite normal glucose and electrolytes, prolonged high-intensity exercise causes lactate accumulation and acidosis beyond the muscle buffer system's capacity, leading to involuntary muscle cramps through disrupted calcium regulation in muscle fibers.
The counter-current multiplier system in the loop of Henle (particularly the thick ascending limb) creates an osmotic gradient that enables water reabsorption in the collecting duct, essential for urine concentration.
The symptoms (polydipsia, polyuria, fatigue) along with elevated blood glucose and reduced insulin indicate Type 1 diabetes mellitus, where autoimmune destruction of pancreatic beta cells occurs, reducing insulin production.
The spinothalamic tract carries pain and temperature information from the spinal cord to the thalamus and sensory cortex via crossed fibers.
Glucose is normally filtered and reabsorbed via active transport. When blood glucose exceeds ~180 mg/dL, the reabsorptive capacity is saturated, causing glycosuria.
Acetylcholinesterase breaks down acetylcholine in the synaptic cleft, terminating signal transmission; its inhibition causes acetylcholine accumulation and sustained contraction.
PTH is secreted by parathyroid glands in response to hypocalcemia, increases calcium reabsorption in kidneys, and promotes calcium mobilization from bones.
Exercise triggers increased respiratory and heart rates, enhancing oxygen delivery to muscles through elevated blood flow and ventilation.
Taste is mediated by cranial nerves (VII, IX, X) which are not affected by cervical spinal cord injury. Cervical injury affects arms, legs, and potentially breathing.
The hypothalamus acts as the body's thermostat, detecting temperature changes and triggering responses (sweating, vasoconstriction) through negative feedback mechanisms.