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Common
Types of Side Effects
Side effects may affect all systems of the body, and may range from serious toxicities
that necessitate stopping a drug completely, to side effects that are not dangerous but
may be uncomfortable or annoying and may interfere with daily life. Some of the most
common types of adverse events associated with antiretroviral drugs are described below.
Gastrointestinal
Side Effects
The most common side effects associated with anti-HIV drugs are those that affect the
stomach and intestines. Abdominal cramps, nausea, vomiting and diarrhea often occur when
taking certain drugs. Some people also experience constipation, "heartburn"
(acid reflux) and intestinal gas. Gastrointestinal symptoms have been associated with all
classes of antiretroviral drugs, but some drugs in a class are more likely to produce
these side effects than others. For example, nelfinavir is more often associated with
diarrhea than the other FDA-approved protease inhibitors. Symptoms may range from mild to
severe, and may be intermittent or continuous. If vomiting or diarrhea is severe and
prolonged, body chemistry may be disrupted, drugs may not be absorbed adequately and
proper nutrition may be difficult to maintain.
Skin-Related
Side Effects
Several anti-HIV drugs can cause skin rashes. Rashes are especially likely to occur in
people taking the non-nucleoside reverse transcriptase inhibitors nevirapine and
delavirdine and, to a lesser extent, efavirenz. Skin rashes may indicate an allergic or
hypersensitivity reaction. A rash is often red in color, may be flat or raised, and may
feature blisters or vesicles (fluid-filled bumps). A more severe rash may lead to
exfoliation (shedding of the outer layers of skin and mucous membranes), ulcer formation
and/or necrosis (localized tissue death). Some drugs (for example d4T and indinavir) have
been associated with dry skin, while others can cause pruritis (itchiness). Certain drugs
may increase photosensitivity (sensitivity to light), leading to rapid and severe
sunburning.
In rare cases, a life-threatening condition called Stevens-Johnson syndrome may
develop. Twenty cases have been reported in people taking regimens that contain
nevirapine. The syndrome begins with a prodromal phase characterized by flu-like symptoms,
fever, and muscle and joint pain, followed by a severe blistering rash affecting the skin
and mucous membranes. A person who develops these symptoms should contact a physician or
visit an emergency room immediately.
Adverse
Events Affecting the Liver, Pancreas and Kidneys
All antiretroviral drugs can cause side effects involving the liver. The liver
processes drugs in the body, and can become overwhelmed if drug levels are high. Liver
toxicity may be indicated by increased blood levels of the liver enzymes ALT and AST
(measured as liver function tests) and/or by elevated alkaline phosphatase or bilirubin
levels. Elevated bilirubin levels may lead to jaundice, a yellowing of the skin and whites
of the eyes. Numerous physicians have reported increased liver enzyme levels in patients
using anti-HIV drugs. More serious manifestations of liver toxicity include clinical
hepatitis and long-term liver damage.
Side effects involving the liver may appear immediately after starting a new drug or up
to 6 months later. Liver-related side effects are more common and more severe in people
who have had viral hepatitis or who have pre-existing liver damage. Anyone with
pre-existing liver problems should discuss them with their physician before starting
anti-HIV treatment. Regular monitoring of liver function tests is recommended.
There have been reports of cases of severe drug-induced hepatitis in people taking
protease inhibitors. In the March 29, 1997 issue of The Lancet, N. Brau and
colleagues reported on 3 cases of severe liver inflammation in patients taking indinavir.
One patient died and the other 2 recovered after they stopped taking the drug. However,
according to indinavir manufacturer Merck and Company, there were no reported cases of
severe hepatitis in over 2,000 participants in clinical trials of the drug, so this
adverse event appears uncommon. J. Arribas and colleagues from Madrid, Spain reported at
the 5th Conference on Retroviruses and Opportunistic Infections in February 1998 that 7%
of their patients taking ritonavir (many of whom were co-infected with the hepatitis C
virus) developed acute liver inflammation soon after starting the drug.
The pancreas is an abdominal organ that produces digestive enzymes. Some anti-HIV drugs
have been associated with pancreatitis, an inflammation of the pancreas. Symptoms of
pancreatitis may include abdominal pain, nausea, vomiting, constipation and jaundice. The
condition has most often been associated with the use of ddI. People at more advanced
stages of HIV disease and those with previous pancreas problems are at a higher risk for
pancreatitis. Increased blood levels of the enzyme amylase may indicate damage to the
pancreas. Severe pancreatitis can be fatal.
The kidneys are organs located near the lower back that filter the blood and produce
urine. Kidney stones (nephrolithiasis) are accumulations of material such as minerals or
drug crystals in the kidneys and urinary tract. Symptoms include severe pain in the back,
flank or groin and, in some cases, blood in the urine. Kidney stones are particularly
associated with the use of indinavir. The rate of kidney stone formation in people taking
indinavir was about 4% in clinical trials, but more recent studies have shown rates as
high as 12% (see "Research Notes," BETA,
January 1998). To reduce the chance of developing kidney stones due to indinavir, drink at
least 6-8 glasses of water each day. Merck and Company researchers recently reported
results of a study that suggested that high-fat foods may lead to precipitation or
settling of indinavir crystals in the kidneys.
Some people taking protease inhibitors may experience kidney damage. The June 1997
issue of AIDS reported on 3 patients taking standard doses of ritonavir plus saquinavir
who experienced kidney-related adverse events. Warning signs of kidney toxicity include
increased levels of creatinine in the blood and elevated levels of protein or glucose in
the urine.
Neurological
and Mental Side Effects
A variety of side effects involve the nervous system -- the body's system of sensory
and motor nerves, the spinal cord and the brain. Peripheral neuropathy is damage to the
peripheral nerves, most often in the feet and hands. Such nerve damage may lead to
tingling, burning sensations, pain, numbness or weakness. The condition is most often
associated with the use of ddC, ddI and d4T, but may also be due to nerve damage caused by
HIV disease itself. Peripheral neuropathy may be especially severe if 2 or more drugs that
can cause the symptom are used together. The condition typically subsides within a couple
of months after drugs are stopped, but in some cases it may be permanent.
Paresthesias are unusual sensations such as prickling, tingling or numbness. Tingling
around the mouth (circumoral paresthesia) is associated with the use of ritonavir and
possibly amprenavir. Other neurological side effects may include headache, dizziness,
confusion, and difficulties with speech or movement.
Various anti-HIV drugs have been associated with mental side effects including
confusion, anxiety, paranoia and depression. People who already have mental symptoms may
experience a worsening of their condition. It can be difficult to distinguish between drug
side effects and symptoms due to pre-existing mental conditions, HIV-associated
encephalopathy, or opportunistic infections such as toxoplasmosis or progressive
multifocal leukoencephalopathy. Any change in mental status should be reported to a
physician immediately.
Bone
Marrow Suppression
Some drugs (including AZT and several anti-cancer drugs) can cause bone marrow
toxicity. Damage to the bone marrow may lead to the loss of the ability to produce new
blood cells. This can result in anemia (low red blood cell level), leukopenia (low
leukocyte, or white blood cell level), neutropenia (low level of neutrophils, a type of
immune cell) and thrombocytopenia (low level of platelets, which may lead to poor blood
clotting).
Other
Side Effects
Various anti-HIV drugs have been associated with other adverse events including fevers,
chills, fatigue (unusual, prolonged tiredness) and insomnia (inability to sleep). Malaise
is a general ill feeling often described as "flu-like." Certain side effects
such as anorexia (loss of appetite), altered taste sensations and oral ulcers can affect
the ability to eat. Myopathy is muscle weakness or degeneration, most often associated
with AZT. Myalgia is pain in the muscles and arthralgia is pain in the joints. Cardiac
side effects may include heart palpitations and loss of normal heart rhythm (arrhythmia).
Allergic and Hypersensitivity Reactions
Some people are unable to tolerate certain drugs and develop allergic or
hypersensitivity reactions; such reactions seem to be more common in people with AIDS than
among the population as a whole. Hypersensitivity reactions can range from a skin rash or
swelling to life-threatening anaphylaxis characterized by difficulty breathing and a sharp
decrease in blood pressure. Rare hypersensitivity reactions have been associated with
several anti-HIV drugs, including protease inhibitors and the experimental nucleoside
analog abacavir (see below). People taking sulfa drugs (for example, TMP-SMX to prevent
Pneumocystis carinii pneumonia) may be especially at risk because protease inhibitors may
affect the metabolism of sulfa drugs in the body, causing an intensification of common
sulfa-related hypersensitivity reactions (see "Research
Notes," BETA, January 1998).
Abacavir
Hypersensitivity
According to a report from Glaxo Wellcome in December 1997, approximately 2-3% of
participants in clinical trials of the experimental nucleoside analog abacavir (brand name
Ziagen; also known as 1592) have experienced unusual hypersensitivity reactions. The
reaction is characterized by increasing nausea, fever and flu-like symptoms, which may be
followed by a generalized measles-like rash. Symptoms occurred several days to 4 weeks
after starting abacavir. The symptoms subsided within a couple of days when the drug was
stopped, but if abacavir was started again, reactions recurred within hours and were more
severe, in some cases including high fever, low blood pressure and face/throat swelling;
there has been at least 1 fatal reaction. People who experience systemic symptoms when
taking abacavir should contact their physician immediately. Once they stop taking
abacavir, they should not restart the drug.
Side Effects Associated with Specific Anti-HIV Drugs
Although many anti-HIV drugs can lead to a wide range of adverse events, certain drugs
are most associated with specific side effects. Side effects that have been shown in
clinical trials to be associated with specific drugs are shown in the table below.
Nucleoside
and Nucleotide Analogs
- AZT (Retrovir): headache, abdominal cramps, nausea,
diarrhea, malaise, fever, chills, arthralgia, myalgia,
anorexia, rash, anemia, leukopenia, neutropenia, elevated
liver enzymes, altered taste sensations, dizziness,
fatigue, insomnia, vomiting
Special concerns: bone marrow suppression, myopathy
- ddC (Hivid): peripheral neuropathy (22-35%),
headache, fever, fatigue, mouth ulcers, neutropenia,
abdominal pain, nausea, diarrhea, vomiting, rash, myalgia,
anemia, leukopenia, elevated amylase, elevated liver
enzymes
Special concerns: pancreatitis (about 1%)
- ddI (Videx): diarrhea (16-29%), peripheral neuropathy
(16-22%), altered taste sensations, leukopenia, elevated
amylase, elevated liver enzymes, elevated triglycerides,
oral ulcers, abdominal pain, nausea, vomiting, fever,
chills, fatigue, headache, myalgia, rash, neutropenia,
elevated creatinine
Special concerns: pancreatitis (7-13%), lesions
of the retina in children
- d4T (Zerit): peripheral neuropathy (15-21%),
abdominal pain, nausea, vomiting, diarrhea, dry skin,
headache, chills, fever, malaise, arthralgia, myalgia,
insomnia, rash, elevated liver enzymes, anorexia, constipation,
depression, dizziness, fatigue, anemia, neutropenia,
elevated amylase
- 3TC (Epivir): diarrhea, nausea, fatigue, headache,
malaise, abdominal pain, vomiting, anorexia, chills,
fever, athralgia, myalgia, depression, dizziness, insomnia,
hair loss, peripheral neuropathy, rash, neutropenia,
anemia
Special concerns: pancreatitis in children
- abacavir (Ziagen) [experimental; also known as 1592]:
nausea, vomiting, headache, fatigue, diarrhea, rash,
fever, insomnia
Special concerns: hypersensitivity reaction (2-5%)
characterized by flu-like symptoms possibly followed
by a measles-like rash; do not re-start the drug
- adefovir dipivoxil (Preveon) [experimental; also
known as bis-POM-PMEA]: nausea, diarrhea, elevated
liver enzymes
Special concerns: kidney toxicity, reduced L-carnitine
levels
Non-Nucleoside
Reverse Transcriptase Inhibitors
- delavirdine (Rescriptor): rash (18%), nausea
(7%), headache (6%), elevated liver enzymes (6%), diarrhea
(4%), fatigue (4%)
Special concerns: Stevens-Johnson syndrome
- nevirapine (Viramune): rash (24%+), fever, headache,
nausea, neutropenia, elevated liver enzymes
Special concerns: Stevens-Johnson syndrome
- efavirenz (Sustiva) [experimental; also known as
DMP-266]: headache, fatigue, rash, insomnia, dizziness,
diarrhea, nausea, malaise, sinusitis, anxiety, elevated
liver enzymes
Special concerns: may cause birth defects if
taken while pregnant (on the basis of recent animal
studies)
Protease
Inhibitors
- amprenavir [experimental; also known as 141]: diarrhea,
nausea, vomiting, intestinal gas, headache, rash,
dizziness, paresthesias around the mouth
- indinavir (Crixivan): nausea (12%), elevated
bilirubin (10%), elevated liver enzymes (>10%), abdominal
pain (9%), headache (6%), diarrhea (5%), vomiting (4%),
fatigue (4%), insomnia (3%), acid reflux ("heartburn"),
dry skin, dehydration, altered taste sensations, rash;
elevated triglycerides, elevated blood sugar and body
fat redistribution appear to be associated with indinavir
Special concerns: kidney stones (4-12%) indicated
by flank/back/groin pain, hemolytic anemia
- nelfinavir (Viracept): diarrhea (16-32%), nausea
(7%), intestinal gas (3%), rash (3%), fatigue, abdominal
pain, elevated liver enzymes, elevated creatinine; elevated
triglycerides, elevated blood sugar and body fat redistribution
appear to be associated with nelfinavir
- ritonavir (Norvir): nausea, diarrhea, vomiting,
altered taste sensations, paresthesias (especially around
the mouth), fatigue, weakness, elevated liver enzymes,
elevated creatinine, abdominal pain, anorexia, dizziness,
flushing, headache, myalgia, numbness, rash, increased
skin sensitivity; elevated triglycerides, elevated blood
sugar and body fat redistribution appear to be associated
with ritonavir
Special concerns: hypersensitivity reaction,
Stevens-Johnson syndrome (rare)
- saquinavir (Invirase/Fortovase): nausea, diarrhea,
abdominal pain, acid reflux (heartburn), intestinal
gas, fatigue, elevated creatinine levels, rash, elevated
liver enzymes; elevated triglycerides, elevated blood
sugar and body fat redistribution appear to be associated
with saquinavir
Note: the new soft-gel formulation of saquinavir
(Fortovase) is more bioavailable than the old hard-gel
formulation (Invirase), and is expected to cause more
side effects
Side effects are listed from most to least common. Specific occurrence percentages
are listed in parentheses where known; ranges reflect varying results from different
studies. "Special concerns" side effects may not be common, but can be serious.
Unusual Side Effects Possibly Associated with Protease
Inhibitors
In addition to the more typical adverse events described above, a variety of unusual
side effects have begun to appear in people taking combination anti-HIV therapy that
includes protease inhibitors. Although these effects were not seen in initial clinical
trials, anecdotal reports from physicians and people taking the drugs began to surface
about a year ago. The 37th Interscience Conference on Antimicrobial Agents and
Chemotherapy (ICAAC) last September and the 5th Conference on Retroviruses and
Opportunistic Infections (CROI) this past February both included several reports on these
phenomena.
Most of the unusual side effects have to do with metabolic changes, and include
diabetes, high blood levels of triglycerides (fats) and cholesterol, and body fat
redistribution. These metabolic changes tend to occur a few months to a year or more after
a person starts treatment -- thus the upsurge in reports of these effects last year, since
triple combination therapy including protease inhibitors came into widespread use in 1996.
Different research teams at CROI reported incidence rates of these side effects ranging
from less than 5% to more than 60%.
Diabetes
and Hyperglycemia
Some people using each of the currently approved protease inhibitors have developed
diabetes or less serious elevations in blood sugar levels (hyperglycemia), or have seen
existing diabetes or hyperglycemia worsen. Several studies have shown evidence of insulin
resistance in people taking combination therapy, a condition in which the bodyÕs cells do
not respond normally to insulin.
In June 1997, the U.S. Food and Drug Administration (FDA) issued a warning letter to
physicians indicating that the incidence of diabetes in people taking protease inhibitors
appeared to be under 1%. However, some studies have suggested that the incidence rate is
higher (see "Research Notes," BETA, January
1998). The warning signs of hyperglycemia and diabetes include increased thirst and
hunger, unexplained weight loss, increased urination, fatigue and dry, itchy skin.
The FDA letter noted that the agency had received reports of 83 cases of diabetes in
people taking protease inhibitors. Twenty-seven of these people required hospitalization
and 6 cases were life-threatening. Diabetes occurred an average of 75 days after starting
protease inhibitor therapy. FDA did not suggest that people stop taking anti-HIV drugs,
but did recommend that physicians should monitor blood sugar levels.
High
Blood Triglyceride and Cholesterol Levels
There have been several reports of elevated blood triglyceride and cholesterol levels
in people taking protease inhibitors. Before the advent of protease inhibitor therapy,
people with HIV disease often had high triglyceride levels compared to HIV negative
people, but not as high as the levels now being seen in people taking combination therapy.
Also unusual is the appearance of high cholesterol levels in people taking the drugs;
untreated people with HIV tend to have lower cholesterol levels than HIV negative people.
In the short term, high triglyceride levels can lead to pancreatitis. It is unknown
what the long-term effects of elevated blood fat levels will be, although it is known that
high triglyceride and cholesterol levels are associated with coronary artery disease,
strokes and heart attacks. Physicians should regularly monitor blood triglyceride and
cholesterol levels of people taking combination anti-HIV therapy.
Body
Fat Redistribution
Perhaps the most talked about side effect attributed to combination anti-HIV therapy is
body fat redistribution, or lipodystrophy. These changes have been given several
nicknames, including "crix belly," "protease paunch" and "buffalo
hump." Typically fat is lost from the thighs, limbs and face, and accumulates in the
trunk or at the base of the neck; often overall weight remains the same. K. Miller and
colleagues at the National Institutes of Health reported at CROI that computed tomography
(CAT) scans, which can visualize the internal soft tissues of the body, show increased fat
within the body cavity, not just under the skin. Some people have reported that fat
accumulation is accompanied by discomfort or a feeling of "tightness."
At CROI, David Cooper and colleagues from Sydney, Australia reported a 64% positive
response when they asked patients taking protease inhibitors whether they had noticed any
body shape changes. Fat redistribution appears to occur most often in people who are
responding well virologically to anti-HIV treatment. The condition appears similar to
Cushing's syndrome, which is caused by a high level of the adrenal hormone cortisol,
although the people with HIV experiencing these symptoms typically do not have high
cortisol levels.
Hardened fat deposits may accumulate around the midriff or midsection ("protease
paunch"). H. Rosenberg and colleagues from Cornell University Medical College
reported at CROI that 7% of a group of older patients taking protease inhibitors (median
age 38 years old) experienced abdominal fat increases. Fat may also accumulate on the
upper back below the neck ("buffalo hump"). Peter Ruane, MD, reported at ICAAC
on 3 male patients taking indinavir who developed fatty deposits below the base of the
neck. V. Roth and colleagues reported at CROI on 7 patients taking 1 of the 4 approved
protease inhibitors who developed "buffalo hump."
Fat redistribution has been associated with all 4 approved protease inhibitors. There
have also been reports of fat redistribution in people taking anti-HIV regimens that do
not include a protease inhibitor. Stephen Deeks, MD, of San Francisco General Hospital
(SFGH), noted during a February 5th BETA LIVE!
teleconference that cases of "buffalo hump" were seen 3-4 years ago at SFGH
prior to the protease inhibitor era. He pointed out that all people reported to have the
condition -- both the earlier SFGH patients and those described in case studies presented
at CROI -- were taking 3TC.
What Does it Mean?
Physicians and researchers do not know whether these changes are a side effect of
protease inhibitor drugs, a consequence of the drugs' effect on the immune system, a
manifestation of HIV disease itself or something else entirely.
Although the metabolic changes experienced by people taking anti-HIV therapy appear
similar in many cases to changes caused by certain hormonal imbalances, studies show that
people with HIV who experience these symptoms usually do not have abnormal levels of
hormones (except for testosterone deficiency in some cases).
Many of the body's metabolic processes are regulated by the liver, and metabolic
changes may be related to toxic effects on the liver due to extended use of certain
anti-HIV drugs. Carr and colleagues reported at CROI that certain chemicals important for
proper metabolism -- including a LDL cholesterol receptor -- resemble a portion of the HIV
protease enzyme and may be targeted by protease inhibitor drugs, possibly resulting in
metabolic dysfunction.
Some believe that the new side effects may be related to HIV disease status rather than
to anti-HIV drugs themselves. For example, wasting syndrome was reported long before the
advent of protease inhibitors, and some have attributed the weight gains now being seen to
the fact that potent anti-HIV drugs are holding HIV disease in check and allowing the body
to regain weight; however, this hypothesis does not explain weight gain confined to
specific areas of the body.
Metabolic side effects are more commonly seen in older people with HIV. Dawn Averitt of
Project Inform suggests that as people with HIV are living longer they may be succumbing
to changes such as abdominal weight gain ("beer belly"), diabetes and high
cholesterol that plague the aging HIV negative population as well. However, the side
effects now being seen are more exaggerated and develop more rapidly than normal
age-related changes.
It is not yet clear what the best course is for people on anti-HIV therapy who are
experiencing metabolic changes. Last summer, Lisa Capaldini, MD, told AIDS Treatment
News that the metabolic side effects being seen in people taking combination therapy
"do not seem to be causing any short-term risk." On the other hand, Mary Romeyn,
MD, counters that it cannot be assumed that such a risk is not present. It is not known
what, if any, dangers are posed by long-term anti-HIV therapy. However, it is known that
high triglyceride and cholesterol levels are associated with increased risk of coronary
artery disease and heart attack, and that sustained high glucose levels can lead to a
variety of complications.
It may be that the benefits of keeping HIV in check outweigh the long-term dangers of
combination therapy. People with HIV and their physicians must balance overall benefits
against overall risks. People who are concerned about metabolic side effects should not
stop or change drugs without consulting their physician, since doing so may encourage drug
resistance and may make future anti-HIV therapy less effective. Research on this issue
will continue as patients continue to take anti-HIV drugs for longer periods.
Managing Side Effects
The occurrence of adverse drug events is highly individualized. While some people
experience many side effects, others experience few or none. Several steps can be taken to
reduce the occurrence of side effects or ameliorate the symptoms of toxicity.
Physicians should inform patients about possible drug side effects so that they are not
taken by surprise. However, patients should also be aware that many people do not
experience adverse events. Believing that side effects are inevitable may increase the
chance of their occurrence, in part due to fear and anxiety.
People with HIV should report all side effects -- even those that seem minor -- to
their healthcare provider. Do not attempt to adjust drug doses or change medications
without consulting a physician. The likelihood of drug interactions and the possibility of
developing drug-resistant HIV make it important to seek expert advice.
With some drugs, side effects may be worse when a drug is first started and may lessen
over time. In such cases, a person may be able to "wait through" the worst of
the symptoms if he or she knows they will subside. For some drugs, a desensitization
protocol can be used, in which a small amount of a drug is given at first and the dose is
gradually increased; dose escalation is routinely used for nevirapine, ritonavir and the
sulfa drugs.
Specific measures can be taken to manage different types of symptoms. If a drug does
not need to be taken on an empty stomach, taking it with food may help to reduce nausea
and vomiting. Various prescription antiemetic drugs including prochlorperazine
(Compazine), metoclopramide (Reglan) and odansetron (Zofran) can alleviate nausea;
however, these drugs may cause their own side effects. Acupuncture, wrist pressure and
herbal remedies (for example, mint and ginger) have been used to alleviate nausea. In
addition, many people have reported an anti-nausea effect from marijuana or its synthetic
derivative dronabinol (Marinol); marijuana also may stimulate the appetite of people
experiencing loss of appetite as a drug side effect. For more information, see "Nausea and Vomiting," BETA, June 1997.
Drug-related diarrhea may be controlled by over-the-counter antidiarrhea drugs such as
loperamide (Imodium AD), attapulgite (Kaopectate) and Pepto Bismol, bulking agents such as
Metamucil, or stronger prescription drugs including diphenoxylate (Lomotil). Alternative
therapies for diarrhea include acidophilus capsules, herbs and acupuncture. Dietary
measures may include reducing consumption of dairy products, sugar, fat and caffeine. For
more suggestions, see "Diarrhea," BETA, June
1997.
With both vomiting and diarrhea, it is important to avoid dehydration and electrolyte
imbalances. Sports drinks such as Gatorade, or a mixture of 1 teaspoon of salt and 4
teaspoons of sugar in a liter of water, can help prevent both problems.
Skin rashes and itchiness can often be treated with oral antihistamines such as
diphenhydramine (Benadryl) or hydroxyzine (Atarax). Topical corticosteroids may also be
beneficial, but should not be used with certain anti-HIV drugs. Avoiding the sun or using
a strong sunscreen can help prevent skin damage due to photosensitivity reactions.
The symptoms of drug-induced peripheral neuropathy may be reduced by antidepressant
drugs such as amitriptyline (Elavil) or desipramine (Norpramin). Other measures include
acupuncture, massage, avoiding tight gloves or footwear and soaking the feet in cool
water.
Specific treatments are available for people experiencing bone marrow suppression.
Erythropoietin (Epogen) can help rebuild the level of red blood cells. Low levels of
certain white blood cells can be treated with granulocyte colony-stimulating factor
(Neupogen).
With regard to metabolic side effects, it is too soon to know what measures might be
useful. Diabetes can usually be controlled with oral glucose-lowering medication or with
insulin injections. High triglyeride and cholesterol levels can be treated by diet
modification or with oral medications such as gemfibrozil (Lopid) or clofibrate (Atromid).
However, these medications have not been studied for controlling high blood glucose or fat
levels associated with anti-HIV drugs, and they may cause additional strain on the liver
and kidneys. Common-sense measures such as exercise and smoking cessation may reduce the
risk of heart disease in people with high blood fat levels. Testosterone and other hormone
levels should be monitored, since they may affect glucose and fat metabolism.
In some cases, side effects cannot be sufficiently managed to allow an acceptable
quality of life. In such cases, it may be possible to adjust drug dosages or to switch to
other medications that provide similar benefits with fewer side effects. Tailoring drug
treatments is a highly individualized process, and some people may better tolerate drugs
that cause unacceptable side effects in others.
Conclusion
People have been using anti-HIV drugs for at most 10 years, and usually for far shorter
periods. It is not known what long-term side effects may develop in people taking
combination therapy over the course of most of their lifetime. Recent reports regarding
metabolic effects associated with drug therapy are cause for concern, and more research on
long-term side effects is urgently needed. It is also important to study new drug
formulations, dosing schedules and delivery systems that allow for maximum therapeutic
benefit while maintaining a high quality of life for people with HIV.
Liz Highleyman is Assistant Editor of BETA.
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Brau N and others. Severe hepatitis in three AIDS patients
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Page last updated 30 April 1998
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