Across
- 5. Chronotropy Slowing of heart rate by CCBs like Verapamil and Diltiazem
- 6. Node Conduction part of the heart slowed by non-dihydropyridine CCBs
- 7. Cells Cells in the SA node where CCBs slow heart rate
- 9. Condition where CCBs are used to reduce vascular resistance and blood pressure
- 11. Smooth Muscle Type of muscle that CCBs affect to lower blood pressure
- 12. Widening of blood vessels caused by CCBs acting on smooth muscle
- 14. Pressure Measurement lowered by CCBs in hypertensive patients
Down
- 1. A condition treated by CCBs like Verapamil that slow conduction through the AV node
- 2. Tachycardia Increased heart rate in response to a decrease in blood pressure
- 3. Inotropy Decreased heart contractility due to CCB action
- 4. Measurement of the stretch of the heart’s ventricles that is unaffected by CCBs
- 8. CCBs reduce this in the heart, making them useful for patients with heart failure
- 10. Peripheral Resistance Measurement that decreases when CCBs cause vasodilation
- 13. Pressure CCBs reduce this by relaxing arterial smooth muscle
- 15. Ions Ions blocked by CCBs from entering smooth muscle and cardiac cells