A 62-year-old man presents to the emergency department with confusion. The patient’s wife states that her husband has become more somnolent over the past several days and now is very confused. The patient has no complaints himself, but is answering questions inappropriately. The patient has a past medical history of diabetes and hypertension. His temperature is 98.3°F (36.8°C), blood pressure is 127/85 mmHg, pulse is 138/min, respirations are 14/min, and oxygen saturation is 99% on room air. Physical exam is notable for a confused man with dry mucous membranes. Initial laboratory studies are ordered as seen below. Serum: Na+: 135 mEq/L Cl-: 100 mEq/L K+: 3.0 mEq/L HCO3-: 23 mEq/L BUN: 30 mg/dL Glucose: 1,299 mg/dL Creatinine: 1.5 mg/dL Ca2+: 10.2 mg/dL Which of the following is the most appropriate initial treatment for this patient?

Insulin, normal saline, and potassium

A 28-year-old research assistant is brought to the emergency department for severe chemical burns 30 minutes after accidentally spilling hydrochloric acid on himself. The burns cover both hands and forearms. His temperature is 37°C (98.6°F), pulse is 112/min, respirations are 20/min, and blood pressure is 108/82 mm Hg. Initial stabilization and resuscitation is begun, including respiratory support, fluid resuscitation, and cardiovascular stabilization. The burned skin is irrigated with saline water to remove the chemical agent. Which of the following is the most appropriate method to verify adequate fluid infusion in this patient?

Pulmonary capillary wedge pressure

A medical student is studying human physiology. She learns that there is a membrane potential across cell membranes in excitable cells. The differential distribution of anions and cations both inside and outside the cells significantly contributes to the genesis of the membrane potential. Which of the following distributions of anions and cations best explains the above phenomenon?

High concentration of Na+ outside the cell and high concentration of K+ inside the cell

High concentration of K+ outside the cell and low concentration of K+ inside the cell

High concentration of Ca2+ outside the cell and high concentration of Cl- inside the cell

Low concentration of K+ outside the cell and high concentration of Ca2+ inside the cell

Low concentration of Cl- outside the cell and high concentration of Cl- inside the cell

An experiment to determine the effects of gravity on blood pressure is conducted on 3 individuals of equal height and blood pressure oriented in different positions in space. Participant A is strapped in a supine position on a bed turned upside down in a vertical orientation with his head towards the floor and his feet towards the ceiling. Participant B is strapped in a supine position on a bed turned downwards in a vertical orientation with his head towards the ceiling and his feet just about touching the floor. Participant C is strapped in a supine position on a bed in a horizontal orientation. Blood pressure readings are then taken at the level of the head, heart, and feet from all 3 participants. Which of these positions will have the lowest recorded blood pressure reading?

Participant A: at the level of the feet

Participant B: at the level of the feet

Participant A: at the level of the head

Participant C: at the level of the heart

Participant C: at the level of the feet

A 43-year-old woman is found in the hospital to have a plasma sodium concentration of 126 mg/dL. She was hospitalized after she expressed suicidal ideations and was started on a medication for major depressive disorder. Her past medical history is significant for diabetes for which she is currently taking metformin. Her blood pressure while in the hospital has been around 130/85 mmHg and she is not taking any other medications. Laboratory studies show a serum osmolality of 265 mOsm/kg. Which of the following best describes the cell bodies of the cells that are behaving abnormally in this patient?

Basophils in the anterior pituitary

Chromophobes in the anterior pituitary

Acidophils in the anterior pituitary

Located in the posterior pituitary

An 8-year-old boy is shifted to a post-surgical floor following neck surgery. The surgeon has restricted his oral intake for the next 24 hours. He does not have diarrhea, vomiting, or dehydration. His calculated fluid requirement is 1500 mL/day. However, he receives 2000 mL of intravenous isotonic fluids over 24 hours. Which of the following physiological parameters in the boy’s circulatory system is most likely to be increased?

Interstitial hydrostatic pressure

A 35-year-old man is brought to the emergency department from a kitchen fire. The patient was cooking when boiling oil splashed on his exposed skin. His temperature is 99.7°F (37.6°C), blood pressure is 127/82 mmHg, pulse is 120/min, respirations are 12/min, and oxygen saturation is 98% on room air. He has dry, nontender, and circumferential burns over his arms bilaterally, burns over the anterior portion of his chest and abdomen, and tender spot burns with blisters on his shins. A 1L bolus of normal saline is administered and the patient is given morphine and his pulse is subsequently 80/min. A Foley catheter is placed which drains 10 mL of urine. What is the best next step in management?

Additional fluids and escharotomy

Additional fluids and admission to the ICU

A 62-year-old man presents with multiple episodes of hemoptysis for a week. It is associated with generalized weakness, decreased appetite, and a 5.4 kg (12 lb) weight loss in 2 months. He has a smoking history of a pack a day for the last 47 years. Physical examination reveals pallor, while the rest of the results are within normal limits. Laboratory studies reveal decreased hemoglobin and a serum sodium value of 130 mEq/L. Chest X-ray shows a 3 cm rounded opaque shadow. Which of the following conditions is the patient most likely suffering from?

Small cell carcinoma of the lung

Squamous cell carcinoma of the lung

Body fluid compartments for USMLE Step 2 CK: High-Yield Surgery Lessons

Body Fluid Compartments - The Body's Inner Ocean

Total Body Water (TBW): Constitutes ~60% of adult male body weight. Formula: $TBW = 0.6 × Body Weight (kg)$.
Intracellular Fluid (ICF): 2/3 of TBW (~40% body weight). Rich in K+, Mg2+, and phosphates.
Extracellular Fluid (ECF): 1/3 of TBW (~20% body weight). Rich in Na+, Cl-, and HCO3-.
- Interstitial Fluid (ISF): 3/4 of ECF.
- Plasma: 1/4 of ECF.

Body Fluid Compartments and Fluid Exchange

⭐ Third Spacing: In states like sepsis or pancreatitis, fluid moves from the intravascular compartment to the interstitial or non-functional "third space" (e.g., peritoneal cavity), causing intravascular depletion and edema despite normal or even excess TBW.

Compartment Composition - What's in the Soup?

Electrolyte Concentrations in Body Fluid Compartments

Overall Osmolarity is Equal (~290 mOsm/L): Despite different compositions, water moves freely to maintain osmotic equilibrium.

Ion/Substance	Extracellular Fluid (ECF)	Intracellular Fluid (ICF)
Cations	Na+ (140), Ca2+	K+ (140), Mg2+
Anions	Cl- (104), HCO3-	Phosphate, Proteins

⭐ Gibbs-Donnan Effect: Negatively charged proteins in the ICF repel Cl- ions, leading to a lower intracellular Cl- concentration than predicted by the Nernst potential alone. This also influences the distribution of other permeable ions.

Measuring Fluid Volumes - Tag, Dilute, Measure

The indicator dilution principle is used to measure fluid compartments. A known quantity of a tracer is injected, allowed to equilibrate, and its final concentration is measured.

Principle: $Volume = \frac{Amount\ of\ tracer\ injected\ (Q)}{Final\ tracer\ concentration\ (C)}$
Tracers for Direct Measurement:
- Total Body Water (TBW): D₂O, ³H₂O, antipyrine.
- Extracellular Fluid (ECF): Inulin, mannitol, sucrose (cannot cross cell membranes).
- Plasma Volume (PV): Radiolabeled albumin (e.g., ¹²⁵I-albumin), Evans blue dye.
Calculated Compartments:
- Intracellular Fluid (ICF): $ICF = TBW - ECF$
- Interstitial Fluid (ISF): $ISF = ECF - PV$

⭐ The Intracellular Fluid (ICF) volume, the largest compartment, cannot be measured directly. It must be calculated by subtracting the ECF from the TBW.

Tritium oxide distribution in body fluid compartments

Fluid Dynamics - The Great Exchange

Starling Equation: Governs fluid movement across capillaries, balancing hydrostatic and oncotic pressures.
- $J_v = K_f [ (P_c - P_i) - \sigma (\pi_c - \pi_i) ]$
Hydrostatic Pressure (P): Pushes fluid OUT of the capillary. Primarily driven by blood pressure.
Oncotic Pressure (π): Pulls fluid IN, maintained by plasma proteins (mainly albumin).

Capillary fluid exchange: Hydrostatic and oncotic pressures

Filtration vs. Reabsorption:
- Arterial end: Net filtration (hydrostatic > oncotic).
- Venous end: Net reabsorption (oncotic > hydrostatic).

⭐ Hypoalbuminemia (e.g., in liver failure, nephrotic syndrome) ↓ plasma oncotic pressure, leading to generalized edema.

High‑Yield Points - ⚡ Biggest Takeaways

Total Body Water (TBW) is approximately 60% of body weight, split between Intracellular Fluid (ICF) at 2/3 and Extracellular Fluid (ECF) at 1/3.

The ECF is further divided into interstitial fluid (75%) and plasma (25%).

Sodium (Na+) is the principal extracellular cation; Potassium (K+) is the main intracellular cation.

Water shifts between compartments are driven primarily by osmotic gradients.

ADH regulates plasma osmolality (water balance), while aldosterone regulates volume (sodium balance).

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