Question: Mr. Armali is a 53-year-old male who comes to the clinic with concerns over his blood pressure. He has been checking it at home and it ranges from 160-188/86-100

Primary hypertension is a chronic and progressive condition that is characterized by sustained elevated blood pressure levels. It is caused by a combination of several factors, including genetic predisposition, lifestyle factors, and environmental factors. The pathophysiology of primary hypertension is not fully understood. However, it is believed to involve the constriction of blood vessels, increased salt and water retention in the kidneys, and increased secretion of certain hormones. The primary pathologic effect of primary hypertension is the increased workload on the heart, leading to increased risk of coronary artery disease, stroke, and congestive heart failure. The increased pressure in the blood vessels can also lead to damage of the walls of the blood vessels, leading to aneurysm formation and other vascular problems. In addition, the increased pressure in the vessels can lead to leakage of fluid from the blood vessels into surrounding tissue, causing edema and organ damage. Finally, the increased pressure in the vessels can lead to a decrease in the supply of oxygen and nutrients to the organs, leading to organ failure.Primary hypertension is a chronic and progressive condition that is characterized by sustained elevated blood pressure levels. It is caused by a combination of several factors, including genetic predisposition, lifestyle factors, and environmental factors. The pathophysiology of primary hypertension is not fully understood. However, it is believed to involve the constriction of blood vessels, increased salt and water retention in the kidneys, and increased secretion of certain hormones. The primary pathologic effect of primary hypertension is the increased workload on the heart, leading to increased risk of coronary artery disease, stroke, and congestive heart failure. The increased pressure in the blood vessels can also lead to damage of the walls of the blood vessels, leading to aneurysm formation and other vascular problems. In addition, the increased pressure in the vessels can lead to leakage of fluid from the blood vessels into surrounding tissue, causing edema and organ damage. Finally, the increased pressure in the vessels can lead to a decrease in the supply of oxygen and nutrients to the organs, leading to organ failure.

Primary hypertension is a chronic and progressive condition that is characterized by sustained elevated blood pressure levels. It is caused by a combination of several factors, including genetic predisposition, lifestyle factors, and environmental factors. The pathophysiology of primary hypertension is not fully understood. However, it is believed to involve the constriction of blood vessels, increased salt and water retention in the kidneys, and increased secretion of certain hormones. The primary pathologic effect of primary hypertension is the increased workload on the heart, leading to increased risk of coronary artery disease, stroke, and congestive heart failure. The increased pressure in the blood vessels can also lead to damage of the walls of the blood vessels, leading to aneurysm formation and other vascular problems. In addition, the increased pressure in the vessels can lead to leakage of fluid from the blood vessels into surrounding tissue, causing edema and organ damage. Finally, the increased pressure in the vessels can lead to a decrease in the supply of oxygen and nutrients to the organs, leading to organ failure.

Primary hypertension is a chronic and progressive condition that is characterized by sustained elevated blood pressure levels. It is caused by a combination of several factors, including genetic predisposition, lifestyle factors, and environmental factors. The pathophysiology of primary hypertension is not fully understood. However, it is believed to involve the constriction of blood vessels, increased salt and water retention in the kidneys, and increased secretion of certain hormones. The primary pathologic effect of primary hypertension is the increased workload on the heart, leading to increased risk of coronary artery disease, stroke, and congestive heart failure. The increased pressure in the blood vessels can also lead to damage of the walls of the blood vessels, leading to aneurysm formation and other vascular problems. In addition, the increased pressure in the vessels can lead to leakage of fluid from the blood vessels into surrounding tissue, causing edema and organ damage. Finally, the increased pressure in the vessels can lead to a decrease in the supply of oxygen and nutrients to the organs, leading to organ failure.

Primary hypertension is a chronic and progressive condition that is characterized by sustained elevated blood pressure levels. It is caused by a combination of several factors, including genetic predisposition, lifestyle factors, and environmental factors. The pathophysiology of primary hypertension is not fully understood. However, it is believed to involve the constriction of blood vessels, increased salt and water retention in the kidneys, and increased secretion of certain hormones. The primary pathologic effect of primary hypertension is the increased workload on the heart, leading to increased risk of coronary artery disease, stroke, and congestive heart failure. The increased pressure in the blood vessels can also lead to damage of the walls of the blood vessels, leading to aneurysm formation and other vascular problems. In addition, the increased pressure in the vessels can lead to leakage of fluid from the blood vessels into surrounding tissue, causing edema and organ damage. Finally, the increased pressure in the vessels can lead to a decrease in the supply of oxygen and nutrients to the organs, leading to organ failure.Primary hypertension is a chronic and progressive condition that is characterized by sustained elevated blood pressure levels. It is caused by a combination of several factors, including genetic predisposition, lifestyle factors, and environmental factors. The pathophysiology of primary hypertension is not fully understood. However, it is believed to involve the constriction of blood vessels, increased salt and water retention in the kidneys, and increased secretion of certain hormones. The primary pathologic effect of primary hypertension is the increased workload on the heart, leading to increased risk of coronary artery disease, stroke, and congestive heart failure. The increased pressure in the blood vessels can also lead to damage of the walls of the blood vessels, leading to aneurysm formation and other vascular problems. In addition, the increased pressure in the vessels can lead to leakage of fluid from the blood vessels into surrounding tissue, causing edema and organ damage. Finally, the increased pressure in the vessels can lead to a decrease in the supply of oxygen and nutrients to the organs, leading to organ failure.Primary hypertension is a chronic and progressive condition that is characterized by sustained elevated blood pressure levels. It is caused by a combination of several factors, including genetic predisposition, lifestyle factors, and environmental factors. The pathophysiology of primary hypertension is not fully understood. However, it is believed to involve the constriction of blood vessels, increased salt and water retention in the kidneys, and increased secretion of certain hormones. The primary pathologic effect of primary hypertension is the increased workload on the heart, leading to increased risk of coronary artery disease, stroke, and congestive heart failure. The increased pressure in the blood vessels can also lead to damage of the walls of the blood vessels, leading to aneurysm formation and other vascular problems. In addition, the increased pressure in the vessels can lead to leakage of fluid from the blood vessels into surrounding tissue, causing edema and organ damage. Finally, the increased pressure in the vessels can lead to a decrease in the supply of oxygen and nutrients to the organs, leading to organ failure.Primary hypertension is a chronic and progressive condition that is characterized by sustained elevated blood pressure levels. It is caused by a combination of several factors, including genetic predisposition, lifestyle factors, and environmental factors. The pathophysiology of primary hypertension is not fully understood. However, it is believed to involve the constriction of blood vessels, increased salt and water retention in the kidneys, and increased secretion of certain hormones. The primary pathologic effect of primary hypertension is the increased workload on the heart, leading to increased risk of coronary artery disease, stroke, and congestive heart failure. The increased pressure in the blood vessels can also lead to damage of the walls of the blood vessels, leading to aneurysm formation and other vascular problems. In addition, the increased pressure in the vessels can lead to leakage of fluid from the blood vessels into surrounding tissue, causing edema and organ damage. Finally, the increased pressure in the vessels can lead to a decrease in the supply of oxygen and nutrients to the organs, leading to organ failure.

Primary hypertension is a chronic and progressive condition that is characterized by sustained elevated blood pressure levels. It is caused by a combination of several factors, including genetic predisposition, lifestyle factors, and environmental factors. The pathophysiology of primary hypertension is not fully understood. However, it is believed to involve the constriction of blood vessels, increased salt and water retention in the kidneys, and increased secretion of certain hormones. The primary pathologic effect of primary hypertension is the increased workload on the heart, leading to increased risk of coronary artery disease, stroke, and congestive heart failure. The increased pressure in the blood vessels can also lead to damage of the walls of the blood vessels, leading to aneurysm formation and other vascular problems. In addition, the increased pressure in the vessels can lead to leakage of fluid from the blood vessels into surrounding tissue, causing edema and organ damage. Finally, the increased pressure in the vessels can lead to a decrease in the supply of oxygen and nutrients to the organs, leading to organ failure.Primary hypertension is a chronic and progressive condition that is characterized by sustained elevated blood pressure levels. It is caused by a combination of several factors, including genetic predisposition, lifestyle factors, and environmental factors. The pathophysiology of primary hypertension is not fully understood. However, it is believed to involve the constriction of blood vessels, increased salt and water retention in the kidneys, and increased secretion of certain hormones. The primary pathologic effect of primary hypertension is the increased workload on the heart, leading to increased risk of coronary artery disease, stroke, and congestive heart failure. The increased pressure in the blood vessels can also lead to damage of the walls of the blood vessels, leading to aneurysm formation and other vascular problems. In addition, the increased pressure in the vessels can lead to leakage of fluid from the blood vessels into surrounding tissue, causing edema and organ damage. Finally, the increased pressure in the vessels can lead to a decrease in the supply of oxygen and nutrients to the organs, leading to organ failure.

Primary hypertension is a chronic and progressive condition that is characterized by sustained elevated blood pressure levels. It is caused by a combination of several factors, including genetic predisposition, lifestyle factors, and environmental factors. The pathophysiology of primary hypertension is not fully understood. However, it is believed to involve the constriction of blood vessels, increased salt and water retention in the kidneys, and increased secretion of certain hormones. The primary pathologic effect of primary hypertension is the increased workload on the heart, leading to increased risk of coronary artery disease, stroke, and congestive heart failure. The increased pressure in the blood vessels can also lead to damage of the walls of the blood vessels, leading to aneurysm formation and other vascular problems. In addition, the increased pressure in the vessels can lead to leakage of fluid from the blood vessels into surrounding tissue, causing edema and organ damage. Finally, the increased pressure in the vessels can lead to a decrease in the supply of oxygen and nutrients to the organs, leading to organ failure.Primary hypertension is a chronic and progressive condition that is characterized by sustained elevated blood pressure levels. It is caused by a combination of several factors, including genetic predisposition, lifestyle factors, and environmental factors. The pathophysiology of primary hypertension is not fully understood. However, it is believed to involve the constriction of blood vessels, increased salt and water retention in the kidneys, and increased secretion of certain hormones. The primary pathologic effect of primary hypertension is the increased workload on the heart, leading to increased risk of coronary artery disease, stroke, and congestive heart failure. The increased pressure in the blood vessels can also lead to damage of the walls of the blood vessels, leading to aneurysm formation and other vascular problems. In addition, the increased pressure in the vessels can lead to leakage of fluid from the blood vessels into surrounding tissue, causing edema and organ damage. Finally, the increased pressure in the vessels can lead to a decrease in the supply of oxygen and nutrients to the organs, leading to organ failure.Primary hypertension is a chronic and progressive condition that is characterized by sustained elevated blood pressure levels. It is caused by a combination of several factors, including genetic predisposition, lifestyle factors, and environmental factors. The pathophysiology of primary hypertension is not fully understood. However, it is believed to involve the constriction of blood vessels, increased salt and water retention in the kidneys, and increased secretion of certain hormones. The primary pathologic effect of primary hypertension is the increased workload on the heart, leading to increased risk of coronary artery disease, stroke, and congestive heart failure. The increased pressure in the blood vessels can also lead to damage of the walls of the blood vessels, leading to aneurysm formation and other vascular problems. In addition, the increased pressure in the vessels can lead to leakage of fluid from the blood vessels into surrounding tissue, causing edema and organ damage. Finally, the increased pressure in the vessels can lead to a decrease in the supply of oxygen and nutrients to the organs, leading to organ failure.Primary hypertension is a chronic and progressive condition that is characterized by sustained elevated blood pressure levels. It is caused by a combination of several factors, including genetic predisposition, lifestyle factors, and environmental factors. The pathophysiology of primary hypertension is not fully understood. However, it is believed to involve the constriction of blood vessels, increased salt and water retention in the kidneys, and increased secretion of certain hormones. The primary pathologic effect of primary hypertension is the increased workload on the heart, leading to increased risk of coronary artery disease, stroke, and congestive heart failure. The increased pressure in the blood vessels can also lead to damage of the walls of the blood vessels, leading to aneurysm formation and other vascular problems. In addition, the increased pressure in the vessels can lead to leakage of fluid from the blood vessels into surrounding tissue, causing edema and organ damage. Finally, the increased pressure in the vessels can lead to a decrease in the supply of oxygen and nutrients to the organs, leading to organ failure.

Primary hypertension is a chronic and progressive condition that is characterized by sustained elevated blood pressure levels. It is caused by a combination of several factors, including genetic predisposition, lifestyle factors, and environmental factors. The pathophysiology of primary hypertension is not fully understood. However, it is believed to involve the constriction of blood vessels, increased salt and water retention in the kidneys, and increased secretion of certain hormones. The primary pathologic effect of primary hypertension is the increased workload on the heart, leading to increased risk of coronary artery disease, stroke, and congestive heart failure. The increased pressure in the blood vessels can also lead to damage of the walls of the blood vessels, leading to aneurysm formation and other vascular problems. In addition, the increased pressure in the vessels can lead to leakage of fluid from the blood vessels into surrounding tissue, causing edema and organ damage. Finally, the increased pressure in the vessels can lead to a decrease in the supply of oxygen and nutrients to the organs, leading to organ failure.

Primary hypertension is a chronic and progressive condition that is characterized by sustained elevated blood pressure levels. It is caused by a combination of several factors, including genetic predisposition, lifestyle factors, and environmental factors. The pathophysiology of primary hypertension is not fully understood. However, it is believed to involve the constriction of blood vessels, increased salt and water retention in the kidneys, and increased secretion of certain hormones. The primary pathologic effect of primary hypertension is the increased workload on the heart, leading to increased risk of coronary artery disease, stroke, and congestive heart failure. The increased pressure in the blood vessels can also lead to damage of the walls of the blood vessels, leading to aneurysm formation and other vascular problems. In addition, the increased pressure in the vessels can lead to leakage of fluid from the blood vessels into surrounding tissue, causing edema and organ damage. Finally, the increased pressure in the vessels can lead to a decrease in the supply of oxygen and nutrients to the organs, leading to organ failure.

Primary hypertension is a chronic and progressive condition that is characterized by sustained elevated blood pressure levels. It is caused by a combination of several factors, including genetic predisposition, lifestyle factors, and environmental factors. The pathophysiology of primary hypertension is not fully understood. However, it is believed to involve the constriction of blood vessels, increased salt and water retention in the kidneys, and increased secretion of certain hormones. The primary pathologic effect of primary hypertension is the increased workload on the heart, leading to increased risk of coronary artery disease, stroke, and congestive heart failure. The increased pressure in the blood vessels can also lead to damage of the walls of the blood vessels, leading to aneurysm formation and other vascular problems. In addition, the increased pressure in the vessels can lead to leakage of fluid from the blood vessels into surrounding tissue, causing edema and organ damage. Finally, the increased pressure in the vessels can lead to a decrease in the supply of oxygen and nutrients to the organs, leading to organ failure.Primary hypertension is a chronic and progressive condition that is characterized by sustained elevated blood pressure levels. It is caused by a combination of several factors, including genetic predisposition, lifestyle factors, and environmental factors. The pathophysiology of primary hypertension is not fully understood. However, it is believed to involve the constriction of blood vessels, increased salt and water retention in the kidneys, and increased secretion of certain hormones. The primary pathologic effect of primary hypertension is the increased workload on the heart, leading to increased risk of coronary artery disease, stroke, and congestive heart failure. The increased pressure in the blood vessels can also lead to damage of the walls of the blood vessels, leading to aneurysm formation and other vascular problems. In addition, the increased pressure in the vessels can lead to leakage of fluid from the blood vessels into surrounding tissue, causing edema and organ damage. Finally, the increased pressure in the vessels can lead to a decrease in the supply of oxygen and nutrients to the organs, leading to organ failure.Primary hypertension is a chronic and progressive condition that is characterized by sustained elevated blood pressure levels. It is caused by a combination of several factors, including genetic predisposition, lifestyle factors, and environmental factors. The pathophysiology of primary hypertension is not fully understood. However, it is believed to involve the constriction of blood vessels, increased salt and water retention in the kidneys, and increased secretion of certain hormones. The primary pathologic effect of primary hypertension is the increased workload on the heart, leading to increased risk of coronary artery disease, stroke, and congestive heart failure. The increased pressure in the blood vessels can also lead to damage of the walls of the blood vessels, leading to aneurysm formation and other vascular problems. In addition, the increased pressure in the vessels can lead to leakage of fluid from the blood vessels into surrounding tissue, causing edema and organ damage. Finally, the increased pressure in the vessels can lead to a decrease in the supply of oxygen and nutrients to the organs, leading to organ failure.

Primary hypertension is a chronic and progressive condition that is characterized by sustained elevated blood pressure levels. It is caused by a combination of several factors, including genetic predisposition, lifestyle factors, and environmental factors. The pathophysiology of primary hypertension is not fully understood. However, it is believed to involve the constriction of blood vessels, increased salt and water retention in the kidneys, and increased secretion of certain hormones. The primary pathologic effect of primary hypertension is the increased workload on the heart, leading to increased risk of coronary artery disease, stroke, and congestive heart failure. The increased pressure in the blood vessels can also lead to damage of the walls of the blood vessels, leading to aneurysm formation and other vascular problems. In addition, the increased pressure in the vessels can lead to leakage of fluid from the blood vessels into surrounding tissue, causing edema and organ damage. Finally, the increased pressure in the vessels can lead to a decrease in the supply of oxygen and nutrients to the organs, leading to organ failure.