No doubt you're aware of the ocular
manifestations of primary hypertension, but do you know about the medications
to treat it, or its risk factors? Here, I'll tell you about this silent killer,
which affects more than 30% of U.S. adults.
Regulating blood pressure
Changes in kidney function and in the
autonomic nervous system control blood pressure. Under stress, the sympathetic
branch of the autonomic nervous system increases the rate and force of the
heartbeats.
Most arterioles constrict, except those in
the skeletal muscles, which dilate. The sympathetic nervous system also
decreases the kidneys' excretion of salt and water. This causes an increase in
blood volume, and an increase in blood pressure. The sympathetic nervous system
also releases the hormones epinephrine (adren-
aline) and norepinephrine (noradrenaline), which stimulate the heart and blood
vessels.
The kidneys control blood pressure. Should
the blood pressure increase, the kidneys excrete salt and water to decrease
blood volume and pressure. Conversely, if blood pressure decreases; the kidneys
reduce their excretion of salt and water. The kidneys can also increase blood
pressure by secreting the enzyme renin. This enhances production of the hormone
angiotensin, which triggers the release of aldosterone.
For example, if blood pressure decreased,
renin released by the kidneys would activate angiotensin, causing the
arterioles to constrict and increasing blood pressure. In addition, angiotensin
stimulates the release of aldosterone from the adrenal glands. Due to
aldosterone, the kidneys retain salt (sodium) and excrete potassium. The sodium
osmotically retains water, thus expanding the blood volume and increasing blood
pressure.
Risk factors for hypertension
Two major types of hypertension exist.
Primary hypertension. In approximately 90% of hypertensive patients, the
etiology is unknown. These cases are known as "essential" or
"primary" hypertension.
The etiology is probably multifactorial. As we age, blood pressure increases,
probably secondary to arteriosclerosis. Arteriosclerosis prevents the dilation
of the arteries that would normally lower blood pressure. In addition,
arteriosclerotic changes in the kidneys can impair their ability to excrete
salt and water.
Though the exact etiology of primary hypertension is unknown, risk factors
include:
o African-American race
o family history
o being a male older than 35
o being a post-menopausal female
o eating a high salt/high fat diet
o obesity
o smoking
o excessive consumption of alcohol
o diabetes mellitus
o sedentary lifestyle or stress.
Secondary hypertension. When the etiology of hypertension is known, it's
called secondary hypertension. In 5% to 10% of hypertensive people, the cause
is kidney disease. In 1% to 2%, a hormonal disorder is to blame. A rare cause
of hypertension is pheochromocytoma, a tumor of the adrenal glands (which
secretes excessive amounts of epinephrine and norepinephrine). Other causes of
secondary hypertension are:
o renal artery stenosis
o pyelonephritis
o glomerulonephritis
o polycystic kidney disease
o hyperaldosteronism
o Cushing's syndrome
o use of drugs such as corticosteroids, cyclosporines,
erythropoietin and cocaine.
Classifying hypertension
Hypertension is classified according to systolic
and diastolic blood pressure readings. In general, a systolic reading below 130
mm Hg is considered normal, as is a diastolic reading below 85 mm Hg.
Hypertension is defined as systolic blood pressure exceeding 140 mm Hg and/or a
diastolic pressure exceeding 90 mm Hg measured at least twice on separate days.
Complications of hypertension
In most people, hypertension causes no overt
symptoms. It's often a silent killer. Severe, chronic or untreated hypertension
will damage the brain, heart, kidneys and eyes.
Systemic complications. Arteriosclerosis and atherosclerosis are
significant risk factors in the development of hypertension. The deposition of
lipids in the blood vessels causes a loss of elasticity and subsequent rise in
blood pressure. Thrombus and embolus formation are possible. In addition, when
blood vessels narrow, they impair blood flow and causes ischemic disease. The
increased systemic vascular resistance to blood flow makes the heart work
harder. Coronary heart disease is the leading cause of death among hypertensive
patients.
Cerebrovascular disease is also a serious complication of hypertension.
Hypertension often leads to stroke or aneurysm. In addition,
hypertension-induced arteriosclerosis may cause the atrophy of the renal
glomeruli and tubules, leading to renal failure.
Ocular complications. Hypertension has ocular complications, including the
following:
o retinal vessel occlusion
o ocular ischemic syndrome
o ischemic optic neuropathy
o ophthalmoplegia
o cranial nerve palsy
o nystagmus
o amaurosis fugax (transient blindness).
Hypertensive retinopathy
Narrowing of the arterioles characterizes
hypertensive retinopathy. The amount of narrowing is usually related to the severity
of the diastolic hypertension. If the hypertension is left untreated,
arterial-venous crossing changes result. The changes start with a deflection in
the course of the vein, followed by tapering and constriction of the vein on
either side of the crossing arteriole. Finally, with continuing hypertension,
retinal hemorrhages and exudates develop. The flame-shaped hemorrhages are
located in the nerve fiber layer of the retina.
Soft cotton-wool exudates can appear with an
acute rise in pressure. In severe hypertension, hard exudates may also occur.
Papilledema may also result from severe
hypertension. This is a very grave sign; 5-year mortality of patients with
hypertensive papilledema is more than 90%.
Treatment of hypertension
Primary hypertension is chronic and
incurable, but it can be controlled. Lifestyle changes are often necessary:
Overweight patients should lose weight.
Salt-sensitive patients should reduce their salt
intake to 6 grams per day but maintain adequate intake of calcium, magnesium
and potassium.
Moderate aerobic exercise helps.
Patients must stop smoking!
Pharmaceutical intervention
If lifestyle modifications don't reduce blood
pressure, medication is required. Five classes of drugs are used to control
hypertension. They are:
Diuretics. Diuretics are usually prescribed first. They allow the kidneys to more
easily eliminate salt and water, reducing blood volume and pressure.
Adrenergic blockers (including alpha- and
beta-blockers).These
"block" the effects of the sympathetic nervous system. This system
responds to stress by raising blood pressure. Beta-blockers are generally well
tolerated, but they're not a good choice for patients with asthma or chronic
obstructive pulmonary disease because they may cause respiratory distress.
Angiotensin-converting enzyme (ACE) inhibitors and
Angiotensin II blockers. ACE
inhibitors lower blood pressure by dilating arteries. Angiotensin II blockers
also lower blood pressure this way, and cause fewer side effects. However,
these medications aren't good for patients who have elevated renin levels,
because they may have an exaggerated hypotensive response.
Calcium antagonists. Calcium antagonists (or calcium-channel blockers)
control hypertension by vasodilatation. These medications are well tolerated
and have become popular as anti-hypertensives. They are, however, among the
most expensive treatments for hypertension.
Calcium antagonists aren't good for patients with severe liver disease, because
they're metabolized in the liver.
Direct vasodilators.These drugs are rarely used alone. They're very
potent and are generally reserved for refractory cases. The drugs in this class
are hydralazine hydrochloride (Apresoline) and minoxidil (Loniten).
Lifesaver
As a primary care optometrist, you're in a
position to save a life. Measure your patients' blood pressure carefully and
take action where needed.
Dr. Giardina is optometric director at
Mission Medical Center in San Luis Obispo, Calif. He's a fellow of the AAO and
adjunct professor of optometry at Southern College of Optometry in Memphis.
SELECTED ANTIHYPERTENSIVE MEDICATIONS
|
Generic
|
Brand
|
|
Diuretics
|
|
|
chlorothiazide
|
(Diuril)
|
|
furosemide
|
(Lasix)
|
|
hydrochlorothiazide (HCTZ)
|
(HydroDIURIL)
|
|
HCTZ/triamterene
|
(Dyazide)
|
|
|
|
|
Adrenergic Blockers
|
|
|
atenolol
|
(Tenormin)
|
|
clonidine HCl
|
(Catapres)
|
|
doxazosin mesylate
|
(Cardura)
|
|
methyldopa
|
(Aldomet)
|
|
metoprolol tartrate
|
(Lopresor)
|
|
prazosin HCl
|
(Minipress)
|
|
propranolol HCl
|
(Inderal)
|
|
terazosin HCl
|
(Hytrin)
|
|
|
|
|
Angiotensin-Converting
Enzyme (ACE) Inhibitors
|
|
|
benazepril HCl
|
(Lotensin)
|
|
captopril
|
(Capoten)
|
|
enalapril maleate
|
(Vasotec)
|
|
fosinopril sodium
|
(Monopril)
|
|
lisinopril
|
(Zestril)
|
|
quinapril HCl
|
(Accupril)
|
|
|
|
|
Angiotensin II Blockers
|
|
|
irbesartan
|
(Avapro)
|
|
losartan
|
(Cozaar)
|
|
|
|
|
Calcium Antagonists
|
|
|
amlodipine besylate
|
(Norvasc)
|
|
diltiazem HCl
|
(Cardizem)
|
|
nicardipine
|
(Cardene)
|
|
nifedipine
|
(Procardia)
|
|
verapamil
|
(Calan)
|
|
|
|
|
Direct Vasodilators
|
|
|
hydralazine HCl
|
(Apresoline)
|
|
minoxidil
|
(Loniten)
|
CLASSIFICATION OF BLOOD PRESSURE
|
Category
|
Systolic
|
Diastolic
|
Action
|
|
Normal
|
<130
|
<85
|
recheck 2 years
|
|
High normal
|
130 to 139
|
85 to 89
|
recheck 1 year
|
|
Stage 1
(mild)
|
140 to 159
|
90 to 99
|
confirm within 2 months
|
|
Stage 2
(moderate)
|
160 to 179
|
100 to 109
|
see doctor within 1 month
|
|
Stage 3
(severe)
|
180 to 209
|
110 to 119
|
see doctor within 1 week
|
|
Stage 4
(very severe)
|
>=210
|
>=210
|
see doctor immediately
|