Which app has NEET PG PYQs from 2012 to 2025?

MedicoApps provides authentic NEET PG previous year questions from 2012 to 2025 with detailed explanations, clinical coverage, and offline access.

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MedicoApps includes over 10,000 meticulously crafted clinical and image-based questions, each with a detailed explanation covering NEET PG, NeXT PG, INI CET, and FMGE exams.

Does the MedicoApps NEET PG app support offline access?

Yes, MedicoApps is fully offline. You can study and practice previous year questions without an internet connection.

Does MedicoApps include clinical and image-based questions?

Yes, MedicoApps includes clinical and image-based questions with complete explanations and references, covering subjects tested in NEET PG.

Does MedicoApps focus on repeated concepts and high-yield topics?

Yes, MedicoApps follows an 80/20 high-yield preparation approach, emphasising repeated concepts since 60-75% of NEET PG questions come from concepts tested in past exams.

Is there an update frequency for new questions in MedicoApps?

The app is regularly updated to align with the latest NEET PG exam patterns and includes new questions as per evolving trends in medical entrance exams.

Do the questions in MedicoApps come with detailed explanations?

Yes, each question is accompanied by an explanatory note that clarifies the concept behind the answer and references relevant sources.

Which previous year exams are included in MedicoApps?

MedicoApps includes authentic previous year questions from NEET PG, NeXT PG, INI CET, and FMGE exams, spanning from 2012 to 2025.

Is MedicoApps suitable for students at different stages of NEET PG preparation?

Yes, MedicoApps is suitable for both beginners and advanced students. It offers a wide range of questions to support preparation at all stages.

Is there a money-back guarantee for MedicoApps?

Yes, MedicoApps offers a no-questions-asked 30-day money-back guarantee on all premium plans.

What is the best QBank for NEET PG?

A good NEET PG QBank should include PYQs, clinical MCQs, image-based questions, and grand tests. MedicoApps provides all these features along with offline access and explanations in one platform.

Where can I practice NEET PG previous year questions?

You can practice NEET PG previous year questions on MedicoApps, which includes 10,000+ questions from 2012 to 2025 with detailed explanations and offline support.

How can I contact MedicoApps support?

You can reach the MedicoApps customer support team through the app or the official website at medicoapps.org.

PARATHROMONE

PARATHORMONE/PARATHYROID HORMONE/PTH

Synthesized by principal/chief cells of parathyroid gland.

Major role:

Increases bone remodelling:

– By directly stimulating osteoblasts

– Indirectly stimulating osteoclasts via osteoclast-stimulating factor

– Since Osteoclasts do not have any PTH receptors

REGULATION OF SECRETION:

Mainly depend on Plasma Ca⁺² concentration

Second messenger – cAMP

PTH secretion increased:

Decreased serum Ca⁺²concentration.

Hyperphosphatemia

Mild decreases in serum Mg²⁺

PTH secretion decreased:

Increased serum Ca⁺²concentration.

Severe decreases in serum Mg²⁺

Calcitriol

RECEPTORS

Type 1:

PTH 1R (h-PTH/ Parathyroid Hormone-related Protein PTH-rP)

Bone (osteoblast) & kidney

2nd messenger – cAMP (main), IP3 & calcium.

Type 2:

PTH 2R (h-PTH2)

Brain, placenta, pancreas & testis.

2nd messenger – cAMP

Type 3:

CPTH / Carboxyl-terminal PTH fragments

Osteocyte

Note:

PTH receptor is not present in intestine.

– Hence, indirect PTH action (via Vitamin D3).

PTH-rP can bind to PTH receptor & mimic its actions.

– PTH-rP is major cause of hypercalcemia in cancer

RELATIONSHIP BETWEEN CALCIUM & PTH:

PTH raises plasma Ca⁺² in three ways.

Mobilizes bone Ca⁺²

– By increasing bone resorption.

Increases gastrointestinal absorption of Ca⁺²indirectly.

– By increasing renal synthesis of 1,25 dihydroxyD₃calcitriol.

Increases Ca⁺² reabsorption in distal tubules of kidney.

RELATIONSHIP BETWEEN PHOSPHATE & PTH:

Decreases phosphate reabsorption from proximal tubules of kidney.

ACTIONS:

ON BONE:

Fastest action is on bone.

PTH increases bone resorption

Brings both Ca2+ & phosphate from bone mineral into ECF

increased hydroxyproline excretion is sign of bone resorption.

Mechanism of action:

PTH receptors located on osteoblasts & not on osteoclasts.

Step 1: Initial & fast action:

Increases bone formation by direct action on osteoblasts.

Basis for intermittent PTH administration in osteoporosis treatment.

Step 2: Long-lasting action:

Indirect action on osteoclasts

Increases bone resorption

Mediated by cytokines released from osteoblasts.

Thus, osteoblasts required for bone-resorbing action of PTH on osteoclasts.

ON KIDNEY:

Major regulating factor for calcium reabsorption.

On Proximal convoluted tubule:

“Phosphaturic effect” – Inhibits renal phosphate reabsorption

Increased urinary cAMP.

cAMP – 2nd messenger of PTH.

Production of 1,25-dihydroxycholecalciferol (Calcitriol).;

On Distal convoluted tubule:

Increases renal Ca^₂₊ reabsorption

ON INTESTINE:

No direct effect on calcium absorption.

Indirect increases Ca²⁺absorption

Activating 1- alpha-hydroxylase, resulting in calcitriol formation.

Exam Important

PARATHORMONE/PARATHYROID HORMONE/PTH

Synthesized by principal/ chief cells of parathyroid gland.

Increases bone remodelling.

REGULATION OF SECRETION:

Mainly depend on Plasma Ca⁺² concentration.

PTH secretion increased:

Decreased serum Ca⁺²concentration.

Hyperphosphatemia.

PTH secretion decreased:

Increased serum Ca⁺²concentration.

RECEPTORS

Type 1:

PTH 1R (h-PTH/ Parathyroid Hormone-related Protein PTH-rP)

Bone (osteoblast) & kidney

2nd messenger – cAMP (main), IP3 & calcium.

Osteoclasts do not have any PTH receptors.

RELATIONSHIP BETWEEN CALCIUM & PTH:

PTH raises plasma Ca⁺² in three ways.

Mobilizes bone Ca⁺²

– By increasing bone resorption

Increases gastrointestinal absorption of Ca⁺²indirectly.

– By increasing renal synthesis of 1,25 dihydroxyD₃calcitriol.

Increases Ca⁺² reabsorption in distal tubules of kidney.

RELATIONSHIP BETWEEN PHOSPHATE & PTH:

Decreases phosphate reabsorption from proximal tubules of kidney.

ACTIONS:

1. ON BONE:

PTH increases bone resorption.

PTH receptors are located on osteoblasts & not on osteoclasts.

Step 1: Initial & fast action:

Increases bone formation by direct action on osteoblasts.

Step 2: Long-lasting action:

Indirect action on osteoclasts

Increases bone resorption

Thus, osteoblasts required for bone-resorbing action of PTH on osteoclasts.

ON KIDNEY:

Major regulating factor for calcium reabsorption.

On Proximal convoluted tubule:

“Phosphaturic effect” – Inhibits renal phosphate reabsorption

On Distal convoluted tubule:

Increases renal Ca^₂₊ reabsorption

On intestine:

Indirect increases Ca²⁺absorption.

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PARATHROMONE

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