[["Question: Why should shampoo not be used for washing the skin when showering or bathing?\nChoices:\nA. It is more slippery than soap or emollients.\nB. It will not produce sufficient lather.\nC. It is not cost-effective.\nD. It can cause dryness of the skin.\nAnswer:", " It is more slippery than soap or emollients."], ["Question: Why should shampoo not be used for washing the skin when showering or bathing?\nChoices:\nA. It is more slippery than soap or emollients.\nB. It will not produce sufficient lather.\nC. It is not cost-effective.\nD. It can cause dryness of the skin.\nAnswer:", " It will not produce sufficient lather."], ["Question: Why should shampoo not be used for washing the skin when showering or bathing?\nChoices:\nA. It is more slippery than soap or emollients.\nB. It will not produce sufficient lather.\nC. It is not cost-effective.\nD. It can cause dryness of the skin.\nAnswer:", " It is not cost-effective."], ["Question: Why should shampoo not be used for washing the skin when showering or bathing?\nChoices:\nA. It is more slippery than soap or emollients.\nB. It will not produce sufficient lather.\nC. It is not cost-effective.\nD. It can cause dryness of the skin.\nAnswer:", " It can cause dryness of the skin."], ["Question: When teaching a patient inhaler technique, how will you ensure that a large proportion of the drug reaches the lower airways?\nChoices:\nA. Ask them to take lots of small, quick breaths in before using the inhaler.\nB. Ask them to breathe normally when using the inhaler.\nC. Ask them to perform the procedure as quickly as they can.\nD. Ask them to hold their breath at the end of the inspiration on using the inhaler.\nAnswer:", " Ask them to take lots of small, quick breaths in before using the inhaler."], ["Question: When teaching a patient inhaler technique, how will you ensure that a large proportion of the drug reaches the lower airways?\nChoices:\nA. Ask them to take lots of small, quick breaths in before using the inhaler.\nB. Ask them to breathe normally when using the inhaler.\nC. Ask them to perform the procedure as quickly as they can.\nD. Ask them to hold their breath at the end of the inspiration on using the inhaler.\nAnswer:", " Ask them to breathe normally when using the inhaler."], ["Question: When teaching a patient inhaler technique, how will you ensure that a large proportion of the drug reaches the lower airways?\nChoices:\nA. Ask them to take lots of small, quick breaths in before using the inhaler.\nB. Ask them to breathe normally when using the inhaler.\nC. Ask them to perform the procedure as quickly as they can.\nD. Ask them to hold their breath at the end of the inspiration on using the inhaler.\nAnswer:", " Ask them to perform the procedure as quickly as they can."], ["Question: When teaching a patient inhaler technique, how will you ensure that a large proportion of the drug reaches the lower airways?\nChoices:\nA. Ask them to take lots of small, quick breaths in before using the inhaler.\nB. Ask them to breathe normally when using the inhaler.\nC. Ask them to perform the procedure as quickly as they can.\nD. Ask them to hold their breath at the end of the inspiration on using the inhaler.\nAnswer:", " Ask them to hold their breath at the end of the inspiration on using the inhaler."], ["Question: A keloid is:\nChoices:\nA. evidence of infection.\nB. a firm mass of scar tissue.\nC. a fine, hairline scar.\nD. formed if a wound drain is removed too soon.\nAnswer:", " evidence of infection."], ["Question: A keloid is:\nChoices:\nA. evidence of infection.\nB. a firm mass of scar tissue.\nC. a fine, hairline scar.\nD. formed if a wound drain is removed too soon.\nAnswer:", " a firm mass of scar tissue."], ["Question: A keloid is:\nChoices:\nA. evidence of infection.\nB. a firm mass of scar tissue.\nC. a fine, hairline scar.\nD. formed if a wound drain is removed too soon.\nAnswer:", " a fine, hairline scar."], ["Question: A keloid is:\nChoices:\nA. evidence of infection.\nB. a firm mass of scar tissue.\nC. a fine, hairline scar.\nD. formed if a wound drain is removed too soon.\nAnswer:", " formed if a wound drain is removed too soon."], ["Question: What must you ensure before a speaking valve is used?\nChoices:\nA. That the patient is able to swallow properly.\nB. It is seven days after the tracheostomy tube was first inserted.\nC. The cuff is deflated.\nD. The cuff is inflated.\nAnswer:", " That the patient is able to swallow properly."], ["Question: What must you ensure before a speaking valve is used?\nChoices:\nA. That the patient is able to swallow properly.\nB. It is seven days after the tracheostomy tube was first inserted.\nC. The cuff is deflated.\nD. The cuff is inflated.\nAnswer:", " It is seven days after the tracheostomy tube was first inserted."], ["Question: What must you ensure before a speaking valve is used?\nChoices:\nA. That the patient is able to swallow properly.\nB. It is seven days after the tracheostomy tube was first inserted.\nC. The cuff is deflated.\nD. The cuff is inflated.\nAnswer:", " The cuff is deflated."], ["Question: What must you ensure before a speaking valve is used?\nChoices:\nA. That the patient is able to swallow properly.\nB. It is seven days after the tracheostomy tube was first inserted.\nC. The cuff is deflated.\nD. The cuff is inflated.\nAnswer:", " The cuff is inflated."], ["Question: With an increasing number of sprints the:\nChoices:\nA. anaerobic contribution progressively increases.\nB. pH of the muscle falls below 6.0.\nC. blood glucose concentration falls below 3 mmol/L.\nD. relative contribution of aerobic metabolism increases.\nAnswer:", " anaerobic contribution progressively increases."], ["Question: With an increasing number of sprints the:\nChoices:\nA. anaerobic contribution progressively increases.\nB. pH of the muscle falls below 6.0.\nC. blood glucose concentration falls below 3 mmol/L.\nD. relative contribution of aerobic metabolism increases.\nAnswer:", " pH of the muscle falls below 6.0."], ["Question: With an increasing number of sprints the:\nChoices:\nA. anaerobic contribution progressively increases.\nB. pH of the muscle falls below 6.0.\nC. blood glucose concentration falls below 3 mmol/L.\nD. relative contribution of aerobic metabolism increases.\nAnswer:", " blood glucose concentration falls below 3 mmol/L."], ["Question: With an increasing number of sprints the:\nChoices:\nA. anaerobic contribution progressively increases.\nB. pH of the muscle falls below 6.0.\nC. blood glucose concentration falls below 3 mmol/L.\nD. relative contribution of aerobic metabolism increases.\nAnswer:", " relative contribution of aerobic metabolism increases."], ["Question: The blood glucose concentration during 80-90 minutes of intermittent high intensity exercise:\nChoices:\nA. frequently rises by 1 - 3 mM.\nB. remains relatively unchanged.\nC. frequently falls by 1 - 3 mM.\nD. falls to hypoglycaemic levels.\nAnswer:", " frequently rises by 1 - 3 mM."], ["Question: The blood glucose concentration during 80-90 minutes of intermittent high intensity exercise:\nChoices:\nA. frequently rises by 1 - 3 mM.\nB. remains relatively unchanged.\nC. frequently falls by 1 - 3 mM.\nD. falls to hypoglycaemic levels.\nAnswer:", " remains relatively unchanged."], ["Question: The blood glucose concentration during 80-90 minutes of intermittent high intensity exercise:\nChoices:\nA. frequently rises by 1 - 3 mM.\nB. remains relatively unchanged.\nC. frequently falls by 1 - 3 mM.\nD. falls to hypoglycaemic levels.\nAnswer:", " frequently falls by 1 - 3 mM."], ["Question: The blood glucose concentration during 80-90 minutes of intermittent high intensity exercise:\nChoices:\nA. frequently rises by 1 - 3 mM.\nB. remains relatively unchanged.\nC. frequently falls by 1 - 3 mM.\nD. falls to hypoglycaemic levels.\nAnswer:", " falls to hypoglycaemic levels."], ["Question: The low intake of carbohydrate in the diet:\nChoices:\nA. does not influence exercise performance in events lasting less than 10 minutes.\nB. affects the resting muscle pH.\nC. may impair high intensity exercise performance.\nD. results in greater reliance on muscle glycogen during exercise.\nAnswer:", " does not influence exercise performance in events lasting less than 10 minutes."], ["Question: The low intake of carbohydrate in the diet:\nChoices:\nA. does not influence exercise performance in events lasting less than 10 minutes.\nB. affects the resting muscle pH.\nC. may impair high intensity exercise performance.\nD. results in greater reliance on muscle glycogen during exercise.\nAnswer:", " affects the resting muscle pH."], ["Question: The low intake of carbohydrate in the diet:\nChoices:\nA. does not influence exercise performance in events lasting less than 10 minutes.\nB. affects the resting muscle pH.\nC. may impair high intensity exercise performance.\nD. results in greater reliance on muscle glycogen during exercise.\nAnswer:", " may impair high intensity exercise performance."], ["Question: The low intake of carbohydrate in the diet:\nChoices:\nA. does not influence exercise performance in events lasting less than 10 minutes.\nB. affects the resting muscle pH.\nC. may impair high intensity exercise performance.\nD. results in greater reliance on muscle glycogen during exercise.\nAnswer:", " results in greater reliance on muscle glycogen during exercise."], ["Question: A hypertonic solution is:\nChoices:\nA. a solution that has a higher concentration of solutes than the normal human cell.\nB. a solution that blocks off enteral tubes easily.\nC. a solution that has a lower concentration of solutes than the normal human cell.\nD. a solution with a high fibre content.\nAnswer:", " a solution that has a higher concentration of solutes than the normal human cell."], ["Question: A hypertonic solution is:\nChoices:\nA. a solution that has a higher concentration of solutes than the normal human cell.\nB. a solution that blocks off enteral tubes easily.\nC. a solution that has a lower concentration of solutes than the normal human cell.\nD. a solution with a high fibre content.\nAnswer:", " a solution that blocks off enteral tubes easily."], ["Question: A hypertonic solution is:\nChoices:\nA. a solution that has a higher concentration of solutes than the normal human cell.\nB. a solution that blocks off enteral tubes easily.\nC. a solution that has a lower concentration of solutes than the normal human cell.\nD. a solution with a high fibre content.\nAnswer:", " a solution that has a lower concentration of solutes than the normal human cell."], ["Question: A hypertonic solution is:\nChoices:\nA. a solution that has a higher concentration of solutes than the normal human cell.\nB. a solution that blocks off enteral tubes easily.\nC. a solution that has a lower concentration of solutes than the normal human cell.\nD. a solution with a high fibre content.\nAnswer:", " a solution with a high fibre content."], ["Question: Fatty acids are transported into the mitochondria bound to:\nChoices:\nA. thiokinase.\nB. coenzyme A (CoA).\nC. acetyl-CoA.\nD. carnitine.\nAnswer:", " thiokinase."], ["Question: Fatty acids are transported into the mitochondria bound to:\nChoices:\nA. thiokinase.\nB. coenzyme A (CoA).\nC. acetyl-CoA.\nD. carnitine.\nAnswer:", " coenzyme A (CoA)."], ["Question: Fatty acids are transported into the mitochondria bound to:\nChoices:\nA. thiokinase.\nB. coenzyme A (CoA).\nC. acetyl-CoA.\nD. carnitine.\nAnswer:", " acetyl-CoA."], ["Question: Fatty acids are transported into the mitochondria bound to:\nChoices:\nA. thiokinase.\nB. coenzyme A (CoA).\nC. acetyl-CoA.\nD. carnitine.\nAnswer:", " carnitine."], ["Question: Where should a stoma be sited?\nChoices:\nA. The rectus sheath abdominus.\nB. Next to the umbilicus.\nC. Within an abdominal crease.\nD. In close proximity to the incision site.\nAnswer:", " The rectus sheath abdominus."], ["Question: Where should a stoma be sited?\nChoices:\nA. The rectus sheath abdominus.\nB. Next to the umbilicus.\nC. Within an abdominal crease.\nD. In close proximity to the incision site.\nAnswer:", " Next to the umbilicus."], ["Question: Where should a stoma be sited?\nChoices:\nA. The rectus sheath abdominus.\nB. Next to the umbilicus.\nC. Within an abdominal crease.\nD. In close proximity to the incision site.\nAnswer:", " Within an abdominal crease."], ["Question: Where should a stoma be sited?\nChoices:\nA. The rectus sheath abdominus.\nB. Next to the umbilicus.\nC. Within an abdominal crease.\nD. In close proximity to the incision site.\nAnswer:", " In close proximity to the incision site."]]