Partial Remission of Psoriasis Following Rituximab Therapy for Non-Hodgkin Lymphoma

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Therapeutic Options for Herpes Labialis: Experimental and Natural Therapies

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Therapeutic Options for Herpes Labialis, II: Topical Agents

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Herpes labialis is a common condition characterized by recurrent vesicular eruptions primarily on the lips and perioral skin. Most commonly caused by herpes simplex virus type 1 (HSV-1), this condition can significantly affect quality of life in patients with multiple recurrences, which may cause pain, embarrassment, and psychosocial distress. Oral HSV is the most easily acquired herpesvirus. Approximately 50% of Americans are seropositive for HSV-1 by the time they reach adolescence—by age 50 years, 80% to 90% carry the virus.1 The first part of this series discussed oral antiviral agents in the treatment of herpes labialis. In the second part of this series, we review topical therapeutic agents that are available in the treatment of herpes labialis and its associated symptoms.


Topical Agents For many years, acyclovir ointment was the only topical agent available for herpes labialis. Over the last several years, many new topical therapies have been investigated, and 3 have been approved by the US Food and Drug Administration (FDA). Currently, the 4 approved topical treatments available for herpes labialis include acyclovir ointment and cream (Zovirax®), penciclovir cream (Denavir®), and n-docosanol cream (Abreva®)(Table).


Acyclovir—Acyclovir ointment, which was first brought to market in 1982, is of questionable value in the treatment of recurrent herpes labialis.2 Acyclovir cream, which appears to provide better absorption than the ointment, has been available in many countries outside the United States for more than a decade. To examine more comprehensively the safety and efficacy of this formulation, Spruance et al3 conducted 2 independent, identical, parallel, randomized, double-blind, vehicle-controlled, multicenter clinical trials (N=686 in study 1 and N=699 in study 2). Healthy adults with a history of recurrent herpes labialis were randomized to receive acyclovir cream 5% or vehicle control and asked to self-initiate treatment 5 times a day for 4 days starting within 1 hour of recurrence onset. The mean duration of episodes was significantly decreased in both studies (study 1: 4.3 vs 4.8 days in treated vs placebo, respectively; study 2: 4.6 vs 5.2 days in treated vs placebo, respectively)(P≤.05). In addition, lesion pain was reduced significantly for subjects in both studies, though acyclovir cream did not prevent the development of classic lesions.3

In another study, Biagioni and Lamey4 used infrared thermography to identify the prodromal stage of herpes labialis and treated the active area with acyclovir cream 5 times a day for 5 days. All patients (N=70) were evaluated at 72 hours thermographically and clinically, and localized increase in temperature over the symptomatic area was noted. The development of a clinical herpes lesion was prevented in 46% (32/70) of the patients. In the lesions that did develop (38/70), an 80% reduction in clinical lesion size was observed in 82% (31/38) of the subjects. The remaining 18% (7/38) of patients showed a reduction in healing time.4

In a recent publication, Seth et al5 reported the use of a novel liposomal acyclovir topical gel. In this study, 10 patients with recurrent, mild facial infection were subjected to double-blind clinical evaluation, using a 1% liposomal acyclovir topical gel in a 5% hydroxypropylmethyl cellulose K4M gel base. The efficacy of plain acyclovir gel and liposomal acyclovir gel was compared by application to herpetic lesions 5 times a day for up to 8 weeks. In patients treated with liposomal acyclovir gel, a significant increase in the average percentage improvement of lesion healing was observed after 2 to 3 weeks of therapy (P<.05).5

Topical acyclovir also has been evaluated in combination with a topical steroid. Evans and colleagues6 assessed the efficacy of a combination of acyclovir cream 5% and hydrocortisone cream 1% (ME-609) in treating experimentally UV radiation (UVR)–induced herpes labialis in patients with a history of recurrent herpes labialis. Starting on day 2, 380 subjects were randomized to receive ME-609 or vehicle control 6 times a day for 5 days. Fewer patients in the treatment arm developed delayed classic lesions. Statistically significant reductions in healing time (9.0 vs 10.1 days in treated and placebo groups, respectively; P=.04) and maximum lesion size (43 vs 60 mm in treated and placebo groups, respectively; P=.07) were noted in treated patients compared with patients given placebo. Overall, combination treatment with an antiviral and anti-inflammatory agent led to a reduction in the incidence of classic lesions, healing time, lesion size, and lesion tenderness.6

Penciclovir—Penciclovir, famciclovir’s active metabolite, is FDA approved for episodic treatment of herpes labialis. Topical penciclovir cream 1% applied every 2 hours for 4 days can decrease the duration of lesion healing, pain, and viral shedding, as evidenced by several studies, with some benefit in the early and late stages of lesion development.7-10 Penciclovir interferes with viral replication and significantly limits both the severity and duration of cold sores.

 

 

Spruance et al7 conducted a randomized, multicenter, double-blind, placebo-controlled, 2-arm, parallel trial to compare the safety and efficacy of penciclovir cream 1% with vehicle control cream in the treatment of recurrent herpes simplex labialis in immunocompetent patients. Treatment was self-initiated by the patient within the first hour of the first sign or symptom of a recurrence. A total of 2209 patients were enrolled and given study medication, 1573 of whom initiated treatment for a recurrence. Patients applied the medication every 2 hours during waking hours for 4 days. Healing of classic lesions was 0.7 days faster in penciclovir-treated patients compared with placebo-treated patients (median, 4.8 vs 5.5 days; P<.001). Reduction in duration of lesion pain was observed in penciclovir-treated patients compared with placebo-treated patients (median, 3.5 vs 4.1 days; P<.001). Lesion viral shedding also resolved faster in penciclovir-treated patients compared with those who received vehicle control cream (median, 3 vs 3 days; P=.003). Statistically significant reductions in time to healing and pain resolution occurred with topical penciclovir cream when treatment was initiated in the early (prodrome or erythema) stage or late (papule or vesicle) stage of the lesion.7

Boon et al8 evaluated the efficacy and tolerability of penciclovir cream versus placebo control (purified water) in treating sunlight-induced herpes labialis. Healthy patients (mean age, 38.3 years; range, 18–81 years) with a history of sunlight-induced herpes labialis self-initiated treatment with either penciclovir cream (n=266) or purified water (n=275) within one hour of development of the signs and symptoms of a recurrence.

A significant reduction in the time to lesion healing (P<.001), with a reduction in median time of up to 2 days, was noted. There was a significant reduction in maximum lesion area (P=.008), faster resolution of lesion-associated symptoms (P=.026), reduction in pain duration (P≤.040), itching (P≤.032), burning (P≤.028), and tenderness (P≤.026). The daily self-assessment of lesion attributes showed significantly fewer severe or extreme assessments of lesion size (P≤.003), noticeability (P≤.003), amount of scab or crust (P≤.003), raised or swollen area (P≤.040), soreness or tenderness (P≤.043), and overall severity (P≤.001) throughout the study.8

Recently, Raborn et al9 conducted 2 randomized, double-blind, parallel-group clinical trials to compare the efficacy and safety of topical penciclovir cream 1% for recurrent herpes labialis. Of the 4573 immunocompetent patients with a history of recurrent herpes simplex labialis (defined as 3 or more episodes per year) that were enrolled in the study, 3057 patients initiated treatment (1516 with penciclovir cream 1% and 1541 with placebo). Patients were instructed to apply medication 6 times a day for the first day and thereafter every 2 hours during waking hours for 4 consecutive days. In the treatment group, patients lost classic lesions 31% faster than did those in the placebo group and experienced 28% faster resolution of lesion pain. Significant benefits were achieved with penciclovir use whether treatment was initiated in the early stages (P=.001) or later stages (P=.0055) of the recurrence.9

Lin and associates10 compared the efficacy of topical penciclovir cream 1% versus acyclovir cream 3% in the treatment of herpes labialis. In a randomized, double-blind, multicenter trial, 248 patients with a history of herpes labialis were randomly allocated to 1 of the 2 treatment groups (n=124 each) to receive either penciclovir cream 1% or acyclovir cream 3%. Before treatment (day 0) and at every visit (days 3, 5, and 7), signs and symptoms scores were recorded by the same physician. Two hundred twenty-five patients completed the study. No significant differences were noted in efficacy, clinical cure rate, and safety between the 2 groups; however, a trend toward a shorter time to resolution of symptoms, cessation of new blisters, and loss of crust (P≤.008) was noted in penciclovir-treated patients compared with acyclovir-treated patients. In addition, signs and symptoms scores in penciclovir-treated patients were significantly lower than those in the acyclovir-treated patients on days 5 (P<.01) and 7 (P<.05), supporting the finding that topical penciclovir cream 1% is at least as convenient and effective as acyclovir cream 3% in the treatment of herpes labialis.10

A susceptibility program was established by Sarisky et al11 to assess the resistance profile for serial HSV isolates from immunocompetent patients with recurrent herpes labialis. The isolates were obtained throughout a 4-day treatment period with topical penciclovir cream 1% or placebo. Two isolates (2/1035; 0.19%), representing 0.34% of the patients (2/585), were confirmed to be penciclovir resistant. These were highly resistant to penciclovir (50% inhibiting concentration [IC50], >55 µg/mL) and were isolated less than 17 hours after the start of patient-initiated treatment. However, subsequent isolates on days 2 and 3 from the same patients were completely susceptible to penciclovir cream (IC50, <2.0 µg/mL). None of the patients were found to have penciclovir-resistant species at the end of acute treatment, regardless of treatment group. Overall, the prevalence of penciclovir resistance was found to be similar to that of acyclovir resistance (ie, 0.3%) reported in immunocompetent untreated populations.11

N-docosanol—Docosanol is a compound that inhibits herpes virus replication by blocking fusion of the viral envelope with the plasma membrane and can potentially limit both the duration and severity of herpes labialis.2 Presently, docosanol 10% cream is approved by the FDA as an over-the-counter agent for application 5 times a day during episodes of herpes labialis. In one small clinical trial with 63 patients, n-docosanol 10% cream significantly reduced the healing time of patients’ herpes labialis episodes compared with stearic acid–containing placebo cream.12 Application of n-docosanol 10% cream early in the prodrome or erythema stage of a recurrent episode of herpes labialis shortened mean healing time by approximately 3 days compared with late treatment with n-docosanol 10% cream and early or late treatment with the placebo. A subsequent larger study with 846 patients found no benefit.13 Because of a concern that the vehicle may have had a beneficial effect on herpes labialis and masked an effect by n-docosanol, a polyethylene glycol control preparation was created.14

 

 

With this new preparation, Sacks et al15 conducted studies to determine whether docosanol 10% cream is efficacious compared with placebo in the topical treatment of episodes of acute herpes simplex labialis. Two identical double-blind, placebo-controlled studies were conducted at a total of 21 sites. Otherwise healthy adults, with documented histories of herpes labialis, were randomized to receive either docosanol or polyethylene glycol placebo. Subjects were instructed to initiate therapy in the prodrome or erythema stage of an episode. Treatment was administered 5 times a day until healing occurred (ie, the crust fell off spontaneously, or there was no longer evidence of an active lesion) with twice-daily visits. The median time to healing in the 370 docosanol-treated patients was 4.1 days, 18 hours shorter than that observed in the 367 placebo-treated patients (P=.008). The docosanol group also exhibited reduced times from treatment initiation to (1) cessation of pain and all other symptoms (itching, burning, and/or tingling; P=.002), (2) complete healing of classic lesions (P=.023), and (3) cessation of the ulcer or soft-crust stage of classic lesions (P<.001). Aborted episodes were experienced in 40% of docosanol recipients versus 34% of placebo recipients (P=.109). Adverse experiences with docosanol were mild and similar to those with placebo. The authors concluded that docosanol applied 5 times a day is safe and effective in the treatment of recurrent herpes labialis.15

Because in vitro studies have shown that n-docosanol can enhance the antiviral activity of nucleoside analogs against the replication of herpesviruses, clinical studies of this combination will be of interest.2

Comparative Efficacy of Topical Treatments
McKeough and Spruance14 evaluated the comparative efficacy of penciclovir cream, acyclovir cream, n-docosanol cream, and acyclovir ointment in a guinea pig model of cutaneous HSV-1 disease. The backs of guinea pigs were infected with HSV-1 using a vaccination instrument. Active treatments and corresponding vehicle controls were applied for 3 to 5 days beginning 24 hours after inoculation. After completion of treatment, the animals were killed, and the severity of the infection was assessed from the number of lesions, total lesion area, and lesion virus titer.14

Penciclovir cream effected modest reductions in lesion number (19%), area (38%), and virus titer (88%) compared with its vehicle control, and each of these differences was significantly greater (P<.05) than the reductions effected by acyclovir ointment (0%, 21%, and 75%, respectively). The acyclovir cream effect (reductions of 4%, 28%, and 77%, respectively) was less than that of penciclovir cream, and this difference was confirmed by 2 additional head-to-head experiments. Two experiments with n-docosanol cream failed to show statistically significant differences by any parameter between n-docosanol cream and vehicle control-treated sites or between n-docosanol and untreated infection sites.14

In this model, the efficacy of penciclovir cream was greater than acyclovir cream, acyclovir cream was greater than or equal to acyclovir ointment, and acyclovir ointment was greater than n-docosanol cream. The authors noted that because their model was designed to evaluate compounds that function primarily through antiviral activity, the negative findings with n-docosanol in these studies do not exclude that it might work clinically through other mechanisms.14

References

  1. Whitley RJ, Gnann JW. Herpes simplex virus. In: Tyring SK, ed. Mucocutaneous Manifestations of Viral Diseases. New York, NY: Marcel Dekker; 2002:69-117.
  2. Vander Straten M, Carrasco D, Lee P, et al. A review of antiviral therapy for herpes labialis. Arch Dermatol. 2001;137:1232-1235.
  3. Spruance SL, Nett R, Marbury T, et al. Acyclovir cream for treatment of herpes simplex labialis: results of two randomized, double-blind, vehicle-controlled, multicenter clinical trials. Antimicrob Agents Chemother. 2002;46:2238-2243.
  4. Biagioni PA, Lamey PJ. Acyclovir cream prevents clinical and thermographic progression of recrudescent herpes labialis beyond the prodromal stage. Acta Derm Venereol. 1998;78:46-47.
  5. Seth AK, Misra A, Umrigar D, et al. Role of acyclovir gel in herpes simplex: clinical implications. Med Sci Monit. 2003;9:P193-P198.
  6. Evans TG, Bernstein DI, Raborn GW, et al. Double-blind, randomized, placebo-controlled study of topical 5% acyclovir-1% hydrocortisone cream (ME-609) for treatment of UV radiation-induced herpes labialis. Antimicrob Agents Chemother. 2002;46:1870-1874.
  7. Spruance SL, Rea TL, Thoming C, et al. Penciclovir cream for the treatment of herpes simplex labialis. a randomized, multicenter, double-blind, placebo-controlled trial. Topical Penciclovir Collaborative Study Group. JAMA. 1997;277:1374-1379.
  8. Boon R, Goodman JJ, Martinez J, et al, for the Penciclovir Cream Herpes Labialis Study Group. Penciclovir cream for the treatment of sunlight-induced herpes simplex labialis: randomized, double-blind, placebo-controlled trial. Clin Ther. 2000;22:76-90.
  9. Raborn GW, Martel AY, Lassonde M, et al. Effective treatment of herpes simplex labialis with penciclovir cream: combined results of two trials. J Am Dent Assoc. 2002;133:303-309.
  10. Lin L, Chen XS, Cui PG, et al. Topical application of penciclovir cream for the treatment of herpes simplex facialis/labialis: a randomized, double-blind, multicentre, acyclovir-controlled trial. J Dermatolog Treat. 2002;13:67-72.
  11. Sarisky RT, Bacon T, Boon, R, et al. Penciclovir susceptibilities of herpes simplex virus isolates from patients using penciclovir cream for treatment of recurrent herpes labialis. Antimicrob Agents Chemother. 2002;46:2848-2853.
  12. Habbema L, De Boulle K, Roders GA, et al. n-Docosanol 10% cream in the treatment of recurrent herpes labialis: a randomised, double-blind, placebo-controlled study. Acta Derm Venereol. 1996;76:479-481.
  13. Topical Lidakol Phase III trials for oral HSV fail to show efficacy vs placebo. Antiviral Agents Bull. 1996;9:104-105.
  14. McKeough MB, Spruance SL. Comparison of new topical treatments for herpes labialis: efficacy of penciclovir cream, acyclovir cream, and n-docosanol cream against experimental cutaneous herpes simplex virus type 1 infection. Arch Dermatol. 2001;137:1153-1158.
  15. Sacks SL, Thisted RA, Jones TM, et al. Clinical efficacy of topical docosanol 10% cream for herpes simplex labialis: a multicenter, randomized, placebo-controlled trial. J Am Acad Dermatol
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Dr. Weinberg is on the speakers' bureau and has received clinical research grants from Novartis. Drs. Elish and Singh report no conflict of interest. The authors report no discussion of off-label use. From the Department of Dermatology, St. Luke's-Roosevelt Hospital Center and Beth Israel Medical Center, New York, New York.

Diana Elish, MD; Fiza Singh, MD; Jeffrey M. Weinberg, MD

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Diana Elish, MD; Fiza Singh, MD; Jeffrey M. Weinberg, MD

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Dr. Weinberg is on the speakers' bureau and has received clinical research grants from Novartis. Drs. Elish and Singh report no conflict of interest. The authors report no discussion of off-label use. From the Department of Dermatology, St. Luke's-Roosevelt Hospital Center and Beth Israel Medical Center, New York, New York.

Diana Elish, MD; Fiza Singh, MD; Jeffrey M. Weinberg, MD

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Herpes labialis is a common condition characterized by recurrent vesicular eruptions primarily on the lips and perioral skin. Most commonly caused by herpes simplex virus type 1 (HSV-1), this condition can significantly affect quality of life in patients with multiple recurrences, which may cause pain, embarrassment, and psychosocial distress. Oral HSV is the most easily acquired herpesvirus. Approximately 50% of Americans are seropositive for HSV-1 by the time they reach adolescence—by age 50 years, 80% to 90% carry the virus.1 The first part of this series discussed oral antiviral agents in the treatment of herpes labialis. In the second part of this series, we review topical therapeutic agents that are available in the treatment of herpes labialis and its associated symptoms.


Topical Agents For many years, acyclovir ointment was the only topical agent available for herpes labialis. Over the last several years, many new topical therapies have been investigated, and 3 have been approved by the US Food and Drug Administration (FDA). Currently, the 4 approved topical treatments available for herpes labialis include acyclovir ointment and cream (Zovirax®), penciclovir cream (Denavir®), and n-docosanol cream (Abreva®)(Table).


Acyclovir—Acyclovir ointment, which was first brought to market in 1982, is of questionable value in the treatment of recurrent herpes labialis.2 Acyclovir cream, which appears to provide better absorption than the ointment, has been available in many countries outside the United States for more than a decade. To examine more comprehensively the safety and efficacy of this formulation, Spruance et al3 conducted 2 independent, identical, parallel, randomized, double-blind, vehicle-controlled, multicenter clinical trials (N=686 in study 1 and N=699 in study 2). Healthy adults with a history of recurrent herpes labialis were randomized to receive acyclovir cream 5% or vehicle control and asked to self-initiate treatment 5 times a day for 4 days starting within 1 hour of recurrence onset. The mean duration of episodes was significantly decreased in both studies (study 1: 4.3 vs 4.8 days in treated vs placebo, respectively; study 2: 4.6 vs 5.2 days in treated vs placebo, respectively)(P≤.05). In addition, lesion pain was reduced significantly for subjects in both studies, though acyclovir cream did not prevent the development of classic lesions.3

In another study, Biagioni and Lamey4 used infrared thermography to identify the prodromal stage of herpes labialis and treated the active area with acyclovir cream 5 times a day for 5 days. All patients (N=70) were evaluated at 72 hours thermographically and clinically, and localized increase in temperature over the symptomatic area was noted. The development of a clinical herpes lesion was prevented in 46% (32/70) of the patients. In the lesions that did develop (38/70), an 80% reduction in clinical lesion size was observed in 82% (31/38) of the subjects. The remaining 18% (7/38) of patients showed a reduction in healing time.4

In a recent publication, Seth et al5 reported the use of a novel liposomal acyclovir topical gel. In this study, 10 patients with recurrent, mild facial infection were subjected to double-blind clinical evaluation, using a 1% liposomal acyclovir topical gel in a 5% hydroxypropylmethyl cellulose K4M gel base. The efficacy of plain acyclovir gel and liposomal acyclovir gel was compared by application to herpetic lesions 5 times a day for up to 8 weeks. In patients treated with liposomal acyclovir gel, a significant increase in the average percentage improvement of lesion healing was observed after 2 to 3 weeks of therapy (P<.05).5

Topical acyclovir also has been evaluated in combination with a topical steroid. Evans and colleagues6 assessed the efficacy of a combination of acyclovir cream 5% and hydrocortisone cream 1% (ME-609) in treating experimentally UV radiation (UVR)–induced herpes labialis in patients with a history of recurrent herpes labialis. Starting on day 2, 380 subjects were randomized to receive ME-609 or vehicle control 6 times a day for 5 days. Fewer patients in the treatment arm developed delayed classic lesions. Statistically significant reductions in healing time (9.0 vs 10.1 days in treated and placebo groups, respectively; P=.04) and maximum lesion size (43 vs 60 mm in treated and placebo groups, respectively; P=.07) were noted in treated patients compared with patients given placebo. Overall, combination treatment with an antiviral and anti-inflammatory agent led to a reduction in the incidence of classic lesions, healing time, lesion size, and lesion tenderness.6

Penciclovir—Penciclovir, famciclovir’s active metabolite, is FDA approved for episodic treatment of herpes labialis. Topical penciclovir cream 1% applied every 2 hours for 4 days can decrease the duration of lesion healing, pain, and viral shedding, as evidenced by several studies, with some benefit in the early and late stages of lesion development.7-10 Penciclovir interferes with viral replication and significantly limits both the severity and duration of cold sores.

 

 

Spruance et al7 conducted a randomized, multicenter, double-blind, placebo-controlled, 2-arm, parallel trial to compare the safety and efficacy of penciclovir cream 1% with vehicle control cream in the treatment of recurrent herpes simplex labialis in immunocompetent patients. Treatment was self-initiated by the patient within the first hour of the first sign or symptom of a recurrence. A total of 2209 patients were enrolled and given study medication, 1573 of whom initiated treatment for a recurrence. Patients applied the medication every 2 hours during waking hours for 4 days. Healing of classic lesions was 0.7 days faster in penciclovir-treated patients compared with placebo-treated patients (median, 4.8 vs 5.5 days; P<.001). Reduction in duration of lesion pain was observed in penciclovir-treated patients compared with placebo-treated patients (median, 3.5 vs 4.1 days; P<.001). Lesion viral shedding also resolved faster in penciclovir-treated patients compared with those who received vehicle control cream (median, 3 vs 3 days; P=.003). Statistically significant reductions in time to healing and pain resolution occurred with topical penciclovir cream when treatment was initiated in the early (prodrome or erythema) stage or late (papule or vesicle) stage of the lesion.7

Boon et al8 evaluated the efficacy and tolerability of penciclovir cream versus placebo control (purified water) in treating sunlight-induced herpes labialis. Healthy patients (mean age, 38.3 years; range, 18–81 years) with a history of sunlight-induced herpes labialis self-initiated treatment with either penciclovir cream (n=266) or purified water (n=275) within one hour of development of the signs and symptoms of a recurrence.

A significant reduction in the time to lesion healing (P<.001), with a reduction in median time of up to 2 days, was noted. There was a significant reduction in maximum lesion area (P=.008), faster resolution of lesion-associated symptoms (P=.026), reduction in pain duration (P≤.040), itching (P≤.032), burning (P≤.028), and tenderness (P≤.026). The daily self-assessment of lesion attributes showed significantly fewer severe or extreme assessments of lesion size (P≤.003), noticeability (P≤.003), amount of scab or crust (P≤.003), raised or swollen area (P≤.040), soreness or tenderness (P≤.043), and overall severity (P≤.001) throughout the study.8

Recently, Raborn et al9 conducted 2 randomized, double-blind, parallel-group clinical trials to compare the efficacy and safety of topical penciclovir cream 1% for recurrent herpes labialis. Of the 4573 immunocompetent patients with a history of recurrent herpes simplex labialis (defined as 3 or more episodes per year) that were enrolled in the study, 3057 patients initiated treatment (1516 with penciclovir cream 1% and 1541 with placebo). Patients were instructed to apply medication 6 times a day for the first day and thereafter every 2 hours during waking hours for 4 consecutive days. In the treatment group, patients lost classic lesions 31% faster than did those in the placebo group and experienced 28% faster resolution of lesion pain. Significant benefits were achieved with penciclovir use whether treatment was initiated in the early stages (P=.001) or later stages (P=.0055) of the recurrence.9

Lin and associates10 compared the efficacy of topical penciclovir cream 1% versus acyclovir cream 3% in the treatment of herpes labialis. In a randomized, double-blind, multicenter trial, 248 patients with a history of herpes labialis were randomly allocated to 1 of the 2 treatment groups (n=124 each) to receive either penciclovir cream 1% or acyclovir cream 3%. Before treatment (day 0) and at every visit (days 3, 5, and 7), signs and symptoms scores were recorded by the same physician. Two hundred twenty-five patients completed the study. No significant differences were noted in efficacy, clinical cure rate, and safety between the 2 groups; however, a trend toward a shorter time to resolution of symptoms, cessation of new blisters, and loss of crust (P≤.008) was noted in penciclovir-treated patients compared with acyclovir-treated patients. In addition, signs and symptoms scores in penciclovir-treated patients were significantly lower than those in the acyclovir-treated patients on days 5 (P<.01) and 7 (P<.05), supporting the finding that topical penciclovir cream 1% is at least as convenient and effective as acyclovir cream 3% in the treatment of herpes labialis.10

A susceptibility program was established by Sarisky et al11 to assess the resistance profile for serial HSV isolates from immunocompetent patients with recurrent herpes labialis. The isolates were obtained throughout a 4-day treatment period with topical penciclovir cream 1% or placebo. Two isolates (2/1035; 0.19%), representing 0.34% of the patients (2/585), were confirmed to be penciclovir resistant. These were highly resistant to penciclovir (50% inhibiting concentration [IC50], >55 µg/mL) and were isolated less than 17 hours after the start of patient-initiated treatment. However, subsequent isolates on days 2 and 3 from the same patients were completely susceptible to penciclovir cream (IC50, <2.0 µg/mL). None of the patients were found to have penciclovir-resistant species at the end of acute treatment, regardless of treatment group. Overall, the prevalence of penciclovir resistance was found to be similar to that of acyclovir resistance (ie, 0.3%) reported in immunocompetent untreated populations.11

N-docosanol—Docosanol is a compound that inhibits herpes virus replication by blocking fusion of the viral envelope with the plasma membrane and can potentially limit both the duration and severity of herpes labialis.2 Presently, docosanol 10% cream is approved by the FDA as an over-the-counter agent for application 5 times a day during episodes of herpes labialis. In one small clinical trial with 63 patients, n-docosanol 10% cream significantly reduced the healing time of patients’ herpes labialis episodes compared with stearic acid–containing placebo cream.12 Application of n-docosanol 10% cream early in the prodrome or erythema stage of a recurrent episode of herpes labialis shortened mean healing time by approximately 3 days compared with late treatment with n-docosanol 10% cream and early or late treatment with the placebo. A subsequent larger study with 846 patients found no benefit.13 Because of a concern that the vehicle may have had a beneficial effect on herpes labialis and masked an effect by n-docosanol, a polyethylene glycol control preparation was created.14

 

 

With this new preparation, Sacks et al15 conducted studies to determine whether docosanol 10% cream is efficacious compared with placebo in the topical treatment of episodes of acute herpes simplex labialis. Two identical double-blind, placebo-controlled studies were conducted at a total of 21 sites. Otherwise healthy adults, with documented histories of herpes labialis, were randomized to receive either docosanol or polyethylene glycol placebo. Subjects were instructed to initiate therapy in the prodrome or erythema stage of an episode. Treatment was administered 5 times a day until healing occurred (ie, the crust fell off spontaneously, or there was no longer evidence of an active lesion) with twice-daily visits. The median time to healing in the 370 docosanol-treated patients was 4.1 days, 18 hours shorter than that observed in the 367 placebo-treated patients (P=.008). The docosanol group also exhibited reduced times from treatment initiation to (1) cessation of pain and all other symptoms (itching, burning, and/or tingling; P=.002), (2) complete healing of classic lesions (P=.023), and (3) cessation of the ulcer or soft-crust stage of classic lesions (P<.001). Aborted episodes were experienced in 40% of docosanol recipients versus 34% of placebo recipients (P=.109). Adverse experiences with docosanol were mild and similar to those with placebo. The authors concluded that docosanol applied 5 times a day is safe and effective in the treatment of recurrent herpes labialis.15

Because in vitro studies have shown that n-docosanol can enhance the antiviral activity of nucleoside analogs against the replication of herpesviruses, clinical studies of this combination will be of interest.2

Comparative Efficacy of Topical Treatments
McKeough and Spruance14 evaluated the comparative efficacy of penciclovir cream, acyclovir cream, n-docosanol cream, and acyclovir ointment in a guinea pig model of cutaneous HSV-1 disease. The backs of guinea pigs were infected with HSV-1 using a vaccination instrument. Active treatments and corresponding vehicle controls were applied for 3 to 5 days beginning 24 hours after inoculation. After completion of treatment, the animals were killed, and the severity of the infection was assessed from the number of lesions, total lesion area, and lesion virus titer.14

Penciclovir cream effected modest reductions in lesion number (19%), area (38%), and virus titer (88%) compared with its vehicle control, and each of these differences was significantly greater (P<.05) than the reductions effected by acyclovir ointment (0%, 21%, and 75%, respectively). The acyclovir cream effect (reductions of 4%, 28%, and 77%, respectively) was less than that of penciclovir cream, and this difference was confirmed by 2 additional head-to-head experiments. Two experiments with n-docosanol cream failed to show statistically significant differences by any parameter between n-docosanol cream and vehicle control-treated sites or between n-docosanol and untreated infection sites.14

In this model, the efficacy of penciclovir cream was greater than acyclovir cream, acyclovir cream was greater than or equal to acyclovir ointment, and acyclovir ointment was greater than n-docosanol cream. The authors noted that because their model was designed to evaluate compounds that function primarily through antiviral activity, the negative findings with n-docosanol in these studies do not exclude that it might work clinically through other mechanisms.14

Herpes labialis is a common condition characterized by recurrent vesicular eruptions primarily on the lips and perioral skin. Most commonly caused by herpes simplex virus type 1 (HSV-1), this condition can significantly affect quality of life in patients with multiple recurrences, which may cause pain, embarrassment, and psychosocial distress. Oral HSV is the most easily acquired herpesvirus. Approximately 50% of Americans are seropositive for HSV-1 by the time they reach adolescence—by age 50 years, 80% to 90% carry the virus.1 The first part of this series discussed oral antiviral agents in the treatment of herpes labialis. In the second part of this series, we review topical therapeutic agents that are available in the treatment of herpes labialis and its associated symptoms.


Topical Agents For many years, acyclovir ointment was the only topical agent available for herpes labialis. Over the last several years, many new topical therapies have been investigated, and 3 have been approved by the US Food and Drug Administration (FDA). Currently, the 4 approved topical treatments available for herpes labialis include acyclovir ointment and cream (Zovirax®), penciclovir cream (Denavir®), and n-docosanol cream (Abreva®)(Table).


Acyclovir—Acyclovir ointment, which was first brought to market in 1982, is of questionable value in the treatment of recurrent herpes labialis.2 Acyclovir cream, which appears to provide better absorption than the ointment, has been available in many countries outside the United States for more than a decade. To examine more comprehensively the safety and efficacy of this formulation, Spruance et al3 conducted 2 independent, identical, parallel, randomized, double-blind, vehicle-controlled, multicenter clinical trials (N=686 in study 1 and N=699 in study 2). Healthy adults with a history of recurrent herpes labialis were randomized to receive acyclovir cream 5% or vehicle control and asked to self-initiate treatment 5 times a day for 4 days starting within 1 hour of recurrence onset. The mean duration of episodes was significantly decreased in both studies (study 1: 4.3 vs 4.8 days in treated vs placebo, respectively; study 2: 4.6 vs 5.2 days in treated vs placebo, respectively)(P≤.05). In addition, lesion pain was reduced significantly for subjects in both studies, though acyclovir cream did not prevent the development of classic lesions.3

In another study, Biagioni and Lamey4 used infrared thermography to identify the prodromal stage of herpes labialis and treated the active area with acyclovir cream 5 times a day for 5 days. All patients (N=70) were evaluated at 72 hours thermographically and clinically, and localized increase in temperature over the symptomatic area was noted. The development of a clinical herpes lesion was prevented in 46% (32/70) of the patients. In the lesions that did develop (38/70), an 80% reduction in clinical lesion size was observed in 82% (31/38) of the subjects. The remaining 18% (7/38) of patients showed a reduction in healing time.4

In a recent publication, Seth et al5 reported the use of a novel liposomal acyclovir topical gel. In this study, 10 patients with recurrent, mild facial infection were subjected to double-blind clinical evaluation, using a 1% liposomal acyclovir topical gel in a 5% hydroxypropylmethyl cellulose K4M gel base. The efficacy of plain acyclovir gel and liposomal acyclovir gel was compared by application to herpetic lesions 5 times a day for up to 8 weeks. In patients treated with liposomal acyclovir gel, a significant increase in the average percentage improvement of lesion healing was observed after 2 to 3 weeks of therapy (P<.05).5

Topical acyclovir also has been evaluated in combination with a topical steroid. Evans and colleagues6 assessed the efficacy of a combination of acyclovir cream 5% and hydrocortisone cream 1% (ME-609) in treating experimentally UV radiation (UVR)–induced herpes labialis in patients with a history of recurrent herpes labialis. Starting on day 2, 380 subjects were randomized to receive ME-609 or vehicle control 6 times a day for 5 days. Fewer patients in the treatment arm developed delayed classic lesions. Statistically significant reductions in healing time (9.0 vs 10.1 days in treated and placebo groups, respectively; P=.04) and maximum lesion size (43 vs 60 mm in treated and placebo groups, respectively; P=.07) were noted in treated patients compared with patients given placebo. Overall, combination treatment with an antiviral and anti-inflammatory agent led to a reduction in the incidence of classic lesions, healing time, lesion size, and lesion tenderness.6

Penciclovir—Penciclovir, famciclovir’s active metabolite, is FDA approved for episodic treatment of herpes labialis. Topical penciclovir cream 1% applied every 2 hours for 4 days can decrease the duration of lesion healing, pain, and viral shedding, as evidenced by several studies, with some benefit in the early and late stages of lesion development.7-10 Penciclovir interferes with viral replication and significantly limits both the severity and duration of cold sores.

 

 

Spruance et al7 conducted a randomized, multicenter, double-blind, placebo-controlled, 2-arm, parallel trial to compare the safety and efficacy of penciclovir cream 1% with vehicle control cream in the treatment of recurrent herpes simplex labialis in immunocompetent patients. Treatment was self-initiated by the patient within the first hour of the first sign or symptom of a recurrence. A total of 2209 patients were enrolled and given study medication, 1573 of whom initiated treatment for a recurrence. Patients applied the medication every 2 hours during waking hours for 4 days. Healing of classic lesions was 0.7 days faster in penciclovir-treated patients compared with placebo-treated patients (median, 4.8 vs 5.5 days; P<.001). Reduction in duration of lesion pain was observed in penciclovir-treated patients compared with placebo-treated patients (median, 3.5 vs 4.1 days; P<.001). Lesion viral shedding also resolved faster in penciclovir-treated patients compared with those who received vehicle control cream (median, 3 vs 3 days; P=.003). Statistically significant reductions in time to healing and pain resolution occurred with topical penciclovir cream when treatment was initiated in the early (prodrome or erythema) stage or late (papule or vesicle) stage of the lesion.7

Boon et al8 evaluated the efficacy and tolerability of penciclovir cream versus placebo control (purified water) in treating sunlight-induced herpes labialis. Healthy patients (mean age, 38.3 years; range, 18–81 years) with a history of sunlight-induced herpes labialis self-initiated treatment with either penciclovir cream (n=266) or purified water (n=275) within one hour of development of the signs and symptoms of a recurrence.

A significant reduction in the time to lesion healing (P<.001), with a reduction in median time of up to 2 days, was noted. There was a significant reduction in maximum lesion area (P=.008), faster resolution of lesion-associated symptoms (P=.026), reduction in pain duration (P≤.040), itching (P≤.032), burning (P≤.028), and tenderness (P≤.026). The daily self-assessment of lesion attributes showed significantly fewer severe or extreme assessments of lesion size (P≤.003), noticeability (P≤.003), amount of scab or crust (P≤.003), raised or swollen area (P≤.040), soreness or tenderness (P≤.043), and overall severity (P≤.001) throughout the study.8

Recently, Raborn et al9 conducted 2 randomized, double-blind, parallel-group clinical trials to compare the efficacy and safety of topical penciclovir cream 1% for recurrent herpes labialis. Of the 4573 immunocompetent patients with a history of recurrent herpes simplex labialis (defined as 3 or more episodes per year) that were enrolled in the study, 3057 patients initiated treatment (1516 with penciclovir cream 1% and 1541 with placebo). Patients were instructed to apply medication 6 times a day for the first day and thereafter every 2 hours during waking hours for 4 consecutive days. In the treatment group, patients lost classic lesions 31% faster than did those in the placebo group and experienced 28% faster resolution of lesion pain. Significant benefits were achieved with penciclovir use whether treatment was initiated in the early stages (P=.001) or later stages (P=.0055) of the recurrence.9

Lin and associates10 compared the efficacy of topical penciclovir cream 1% versus acyclovir cream 3% in the treatment of herpes labialis. In a randomized, double-blind, multicenter trial, 248 patients with a history of herpes labialis were randomly allocated to 1 of the 2 treatment groups (n=124 each) to receive either penciclovir cream 1% or acyclovir cream 3%. Before treatment (day 0) and at every visit (days 3, 5, and 7), signs and symptoms scores were recorded by the same physician. Two hundred twenty-five patients completed the study. No significant differences were noted in efficacy, clinical cure rate, and safety between the 2 groups; however, a trend toward a shorter time to resolution of symptoms, cessation of new blisters, and loss of crust (P≤.008) was noted in penciclovir-treated patients compared with acyclovir-treated patients. In addition, signs and symptoms scores in penciclovir-treated patients were significantly lower than those in the acyclovir-treated patients on days 5 (P<.01) and 7 (P<.05), supporting the finding that topical penciclovir cream 1% is at least as convenient and effective as acyclovir cream 3% in the treatment of herpes labialis.10

A susceptibility program was established by Sarisky et al11 to assess the resistance profile for serial HSV isolates from immunocompetent patients with recurrent herpes labialis. The isolates were obtained throughout a 4-day treatment period with topical penciclovir cream 1% or placebo. Two isolates (2/1035; 0.19%), representing 0.34% of the patients (2/585), were confirmed to be penciclovir resistant. These were highly resistant to penciclovir (50% inhibiting concentration [IC50], >55 µg/mL) and were isolated less than 17 hours after the start of patient-initiated treatment. However, subsequent isolates on days 2 and 3 from the same patients were completely susceptible to penciclovir cream (IC50, <2.0 µg/mL). None of the patients were found to have penciclovir-resistant species at the end of acute treatment, regardless of treatment group. Overall, the prevalence of penciclovir resistance was found to be similar to that of acyclovir resistance (ie, 0.3%) reported in immunocompetent untreated populations.11

N-docosanol—Docosanol is a compound that inhibits herpes virus replication by blocking fusion of the viral envelope with the plasma membrane and can potentially limit both the duration and severity of herpes labialis.2 Presently, docosanol 10% cream is approved by the FDA as an over-the-counter agent for application 5 times a day during episodes of herpes labialis. In one small clinical trial with 63 patients, n-docosanol 10% cream significantly reduced the healing time of patients’ herpes labialis episodes compared with stearic acid–containing placebo cream.12 Application of n-docosanol 10% cream early in the prodrome or erythema stage of a recurrent episode of herpes labialis shortened mean healing time by approximately 3 days compared with late treatment with n-docosanol 10% cream and early or late treatment with the placebo. A subsequent larger study with 846 patients found no benefit.13 Because of a concern that the vehicle may have had a beneficial effect on herpes labialis and masked an effect by n-docosanol, a polyethylene glycol control preparation was created.14

 

 

With this new preparation, Sacks et al15 conducted studies to determine whether docosanol 10% cream is efficacious compared with placebo in the topical treatment of episodes of acute herpes simplex labialis. Two identical double-blind, placebo-controlled studies were conducted at a total of 21 sites. Otherwise healthy adults, with documented histories of herpes labialis, were randomized to receive either docosanol or polyethylene glycol placebo. Subjects were instructed to initiate therapy in the prodrome or erythema stage of an episode. Treatment was administered 5 times a day until healing occurred (ie, the crust fell off spontaneously, or there was no longer evidence of an active lesion) with twice-daily visits. The median time to healing in the 370 docosanol-treated patients was 4.1 days, 18 hours shorter than that observed in the 367 placebo-treated patients (P=.008). The docosanol group also exhibited reduced times from treatment initiation to (1) cessation of pain and all other symptoms (itching, burning, and/or tingling; P=.002), (2) complete healing of classic lesions (P=.023), and (3) cessation of the ulcer or soft-crust stage of classic lesions (P<.001). Aborted episodes were experienced in 40% of docosanol recipients versus 34% of placebo recipients (P=.109). Adverse experiences with docosanol were mild and similar to those with placebo. The authors concluded that docosanol applied 5 times a day is safe and effective in the treatment of recurrent herpes labialis.15

Because in vitro studies have shown that n-docosanol can enhance the antiviral activity of nucleoside analogs against the replication of herpesviruses, clinical studies of this combination will be of interest.2

Comparative Efficacy of Topical Treatments
McKeough and Spruance14 evaluated the comparative efficacy of penciclovir cream, acyclovir cream, n-docosanol cream, and acyclovir ointment in a guinea pig model of cutaneous HSV-1 disease. The backs of guinea pigs were infected with HSV-1 using a vaccination instrument. Active treatments and corresponding vehicle controls were applied for 3 to 5 days beginning 24 hours after inoculation. After completion of treatment, the animals were killed, and the severity of the infection was assessed from the number of lesions, total lesion area, and lesion virus titer.14

Penciclovir cream effected modest reductions in lesion number (19%), area (38%), and virus titer (88%) compared with its vehicle control, and each of these differences was significantly greater (P<.05) than the reductions effected by acyclovir ointment (0%, 21%, and 75%, respectively). The acyclovir cream effect (reductions of 4%, 28%, and 77%, respectively) was less than that of penciclovir cream, and this difference was confirmed by 2 additional head-to-head experiments. Two experiments with n-docosanol cream failed to show statistically significant differences by any parameter between n-docosanol cream and vehicle control-treated sites or between n-docosanol and untreated infection sites.14

In this model, the efficacy of penciclovir cream was greater than acyclovir cream, acyclovir cream was greater than or equal to acyclovir ointment, and acyclovir ointment was greater than n-docosanol cream. The authors noted that because their model was designed to evaluate compounds that function primarily through antiviral activity, the negative findings with n-docosanol in these studies do not exclude that it might work clinically through other mechanisms.14

References

  1. Whitley RJ, Gnann JW. Herpes simplex virus. In: Tyring SK, ed. Mucocutaneous Manifestations of Viral Diseases. New York, NY: Marcel Dekker; 2002:69-117.
  2. Vander Straten M, Carrasco D, Lee P, et al. A review of antiviral therapy for herpes labialis. Arch Dermatol. 2001;137:1232-1235.
  3. Spruance SL, Nett R, Marbury T, et al. Acyclovir cream for treatment of herpes simplex labialis: results of two randomized, double-blind, vehicle-controlled, multicenter clinical trials. Antimicrob Agents Chemother. 2002;46:2238-2243.
  4. Biagioni PA, Lamey PJ. Acyclovir cream prevents clinical and thermographic progression of recrudescent herpes labialis beyond the prodromal stage. Acta Derm Venereol. 1998;78:46-47.
  5. Seth AK, Misra A, Umrigar D, et al. Role of acyclovir gel in herpes simplex: clinical implications. Med Sci Monit. 2003;9:P193-P198.
  6. Evans TG, Bernstein DI, Raborn GW, et al. Double-blind, randomized, placebo-controlled study of topical 5% acyclovir-1% hydrocortisone cream (ME-609) for treatment of UV radiation-induced herpes labialis. Antimicrob Agents Chemother. 2002;46:1870-1874.
  7. Spruance SL, Rea TL, Thoming C, et al. Penciclovir cream for the treatment of herpes simplex labialis. a randomized, multicenter, double-blind, placebo-controlled trial. Topical Penciclovir Collaborative Study Group. JAMA. 1997;277:1374-1379.
  8. Boon R, Goodman JJ, Martinez J, et al, for the Penciclovir Cream Herpes Labialis Study Group. Penciclovir cream for the treatment of sunlight-induced herpes simplex labialis: randomized, double-blind, placebo-controlled trial. Clin Ther. 2000;22:76-90.
  9. Raborn GW, Martel AY, Lassonde M, et al. Effective treatment of herpes simplex labialis with penciclovir cream: combined results of two trials. J Am Dent Assoc. 2002;133:303-309.
  10. Lin L, Chen XS, Cui PG, et al. Topical application of penciclovir cream for the treatment of herpes simplex facialis/labialis: a randomized, double-blind, multicentre, acyclovir-controlled trial. J Dermatolog Treat. 2002;13:67-72.
  11. Sarisky RT, Bacon T, Boon, R, et al. Penciclovir susceptibilities of herpes simplex virus isolates from patients using penciclovir cream for treatment of recurrent herpes labialis. Antimicrob Agents Chemother. 2002;46:2848-2853.
  12. Habbema L, De Boulle K, Roders GA, et al. n-Docosanol 10% cream in the treatment of recurrent herpes labialis: a randomised, double-blind, placebo-controlled study. Acta Derm Venereol. 1996;76:479-481.
  13. Topical Lidakol Phase III trials for oral HSV fail to show efficacy vs placebo. Antiviral Agents Bull. 1996;9:104-105.
  14. McKeough MB, Spruance SL. Comparison of new topical treatments for herpes labialis: efficacy of penciclovir cream, acyclovir cream, and n-docosanol cream against experimental cutaneous herpes simplex virus type 1 infection. Arch Dermatol. 2001;137:1153-1158.
  15. Sacks SL, Thisted RA, Jones TM, et al. Clinical efficacy of topical docosanol 10% cream for herpes simplex labialis: a multicenter, randomized, placebo-controlled trial. J Am Acad Dermatol
References

  1. Whitley RJ, Gnann JW. Herpes simplex virus. In: Tyring SK, ed. Mucocutaneous Manifestations of Viral Diseases. New York, NY: Marcel Dekker; 2002:69-117.
  2. Vander Straten M, Carrasco D, Lee P, et al. A review of antiviral therapy for herpes labialis. Arch Dermatol. 2001;137:1232-1235.
  3. Spruance SL, Nett R, Marbury T, et al. Acyclovir cream for treatment of herpes simplex labialis: results of two randomized, double-blind, vehicle-controlled, multicenter clinical trials. Antimicrob Agents Chemother. 2002;46:2238-2243.
  4. Biagioni PA, Lamey PJ. Acyclovir cream prevents clinical and thermographic progression of recrudescent herpes labialis beyond the prodromal stage. Acta Derm Venereol. 1998;78:46-47.
  5. Seth AK, Misra A, Umrigar D, et al. Role of acyclovir gel in herpes simplex: clinical implications. Med Sci Monit. 2003;9:P193-P198.
  6. Evans TG, Bernstein DI, Raborn GW, et al. Double-blind, randomized, placebo-controlled study of topical 5% acyclovir-1% hydrocortisone cream (ME-609) for treatment of UV radiation-induced herpes labialis. Antimicrob Agents Chemother. 2002;46:1870-1874.
  7. Spruance SL, Rea TL, Thoming C, et al. Penciclovir cream for the treatment of herpes simplex labialis. a randomized, multicenter, double-blind, placebo-controlled trial. Topical Penciclovir Collaborative Study Group. JAMA. 1997;277:1374-1379.
  8. Boon R, Goodman JJ, Martinez J, et al, for the Penciclovir Cream Herpes Labialis Study Group. Penciclovir cream for the treatment of sunlight-induced herpes simplex labialis: randomized, double-blind, placebo-controlled trial. Clin Ther. 2000;22:76-90.
  9. Raborn GW, Martel AY, Lassonde M, et al. Effective treatment of herpes simplex labialis with penciclovir cream: combined results of two trials. J Am Dent Assoc. 2002;133:303-309.
  10. Lin L, Chen XS, Cui PG, et al. Topical application of penciclovir cream for the treatment of herpes simplex facialis/labialis: a randomized, double-blind, multicentre, acyclovir-controlled trial. J Dermatolog Treat. 2002;13:67-72.
  11. Sarisky RT, Bacon T, Boon, R, et al. Penciclovir susceptibilities of herpes simplex virus isolates from patients using penciclovir cream for treatment of recurrent herpes labialis. Antimicrob Agents Chemother. 2002;46:2848-2853.
  12. Habbema L, De Boulle K, Roders GA, et al. n-Docosanol 10% cream in the treatment of recurrent herpes labialis: a randomised, double-blind, placebo-controlled study. Acta Derm Venereol. 1996;76:479-481.
  13. Topical Lidakol Phase III trials for oral HSV fail to show efficacy vs placebo. Antiviral Agents Bull. 1996;9:104-105.
  14. McKeough MB, Spruance SL. Comparison of new topical treatments for herpes labialis: efficacy of penciclovir cream, acyclovir cream, and n-docosanol cream against experimental cutaneous herpes simplex virus type 1 infection. Arch Dermatol. 2001;137:1153-1158.
  15. Sacks SL, Thisted RA, Jones TM, et al. Clinical efficacy of topical docosanol 10% cream for herpes simplex labialis: a multicenter, randomized, placebo-controlled trial. J Am Acad Dermatol
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Therapeutic Options for Herpes Labialis, I: Oral Agents

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Therapeutic Options for Herpes Labialis, I: Oral Agents

Given the prevalence of herpes labialis, effective therapy has the potential to affect the lives of many and presents a challenge for clinicians. Over the last several years, most of the focus of herpes research has been on the treatment of genital herpes. Recently, however, several studies have been published examining the efficacy of therapies specifically for herpes labialis. Several therapeutic agents, both prescription and over-the-counter, are available for controlling and managing the disease. In this series of articles, we review oral and topical therapeutic agents that are available in the treatment of herpes labialis and its associated symptoms. This article will review oral treatment options.

Herpes labialis is a common condition characterized by recurrent vesicular eruptions primarily on the lips and perioral skin. Most commonly caused by herpes simplex virus type 1 (HSV-1), this condition can significantly affect quality of life in patients with multiple recurrences, which may cause pain, embarrassment, and psychosocial distress. Oral HSV is the most easily acquired herpesvirus. Approximately 50% of Americans are seropositive for HSV-1 by the time they reach adolescence—by age 50 years, 80% to 90% carry the virus.1

Over the last several years, most clinical investigation of herpes infection has concerned genital disease. Therefore, the treatment of orolabial disease with oral therapies often was extrapolated from this data rather than based on direct study of the condition itself. Recently, however, several studies have been conducted to evaluate the efficacy of therapies specifically for herpes labialis. Although the virus responsible for the disease is not eradicated, several therapeutic agents, both prescription and over-the-counter, are available for controlling and managing the disease. In the first of this series of articles, we review oral therapeutic agents that are available in the treatment of herpes labialis and its associated symptoms. 


Oral Agents

Three oral antiviral agents, acyclovir, valacyclovir, and famciclovir, are available for the treatment of herpes labialis. However, only valacyclovir has been specifically approved by the US Food and Drug Administration (FDA) for the episodic treatment of this condition. All 3 agents are acyclic guanosine analogs that competitively inhibit viral DNA polymerase after phosphorylation by the viral thymidine kinase and by the cellular kinases. Unlike acyclovir and valacyclovir, penciclovir and famciclovir are not obligate DNA chain terminators and would be expected to have lower efficacy.

Acyclovir—Little literature exists for oral acyclovir in the treatment of herpes labialis. In a study by Raborn et al,2 oral acyclovir (200 mg 5 times a day for 5 days) reduced the time to loss of crust by 1 day (7 vs 8 days) but did not alter the duration of pain or time to complete healing. When treatment is started during the prodrome or erythema stage at 400 mg 5 times a day for 5 days, the mean duration of pain is reduced by 36%, and the time to loss of crust is reduced by 27%.2 Therefore, according to Vander Straten et al,3 oral acyclovir therapy has modest clinical benefit and cannot be recommended for routine therapy of herpes labialis. However, it may be helpful in patients whose recurrence is associated with protracted illness.

Oral acyclovir has been shown to alter the severity of sun-induced herpes labialis.4 Administration of acyclovir 200 mg 5 times a day in skiers resulted in a similar frequency of HSV reactivation in treatment and placebo recipients, but significantly fewer lesions formed on days 5 to 7 among those on acyclovir.4 Although not approved by the FDA, long-term suppression of herpes labialis with oral acyclovir has been shown to result in a 53% reduction in the number of clinical recurrences.5

Long-term use of acyclovir (up to 10 years) for HSV suppression is effective and well tolerated.6 Acyclovir is approved for use in children and has been monitored in more than 1000 pregnant women. The incidence of acyclovir resistance is estimated to be less than 0.5% among immunocompetent patients and 5% among immunocompromised patients. Primary infection responds well to oral acyclovir.6 In infants and children, acyclovir tablets can be crushed easily and mixed with food or dispersed in water or juice.

Valacyclovir—Unlike the parent drug acyclovir, valacyclovir has greater bioavailability (3 to 5 times that of acyclovir) and rapidly metabolizes to acyclovir and L-valine after absorption.3 As such, both agents have identical mechanisms of action, efficacy, and safety profiles. In previous studies, valacyclovir has been shown to be as effective as acyclovir in the treatment of first-episode genital herpes, recurrent genital herpes, and long-term suppression of genital herpes.3

Chosidow and colleagues7 evaluated the efficacy of the administration of a single course of valacyclovir in the prodromal phase of herpes labialis. In a randomized, double-blind clinical trial, 249 patients with similar baseline characteristics and recurrent disease were randomized to receive a 500-, 1000-, or 2000-mg dose of valacyclovir. The major outcome variable measure, the rate of aborted lesions on day 3, was not significantly different among the treatment groups, and a dose response was not observed. Although a placebo group was not included in this study, it was concluded that a single dose of valacyclovir was not beneficial in patients with recurrent herpes facialis.7

In a randomized, double-blind, placebo-controlled study, Spruance et al8 showed that a 1-day valacyclovir treatment regimen for cold sores is safe and effective. Treatment was administered in a 1-day regimen (2 g of valacyclovir twice a day for 1 day), 2-day regimen (2 g of valacyclovir twice a day for 1 day and then 1 g of valacyclovir twice a day for 1 day), or placebo. Patients were instructed to initiate treatment at the first symptoms of a cold sore. With a single day of treatment, median and mean durations of the episode were reduced by 1 and 1.1 days, respectively, compared with placebo. The 2-day treatment regimen led to a reduction in median and mean durations of the episode by 0.5 and 0.7 days, respectively, compared with placebo. In addition, the suppression of cold sore development increased dose dependently by 6.4% (P=.096) and by 8.5% (P=.061) in the 1-day treatment and 2-day treatment groups, respectively, compared with placebo. Other variables evaluated in the study (eg, time to healing of lesion and cessation of pain or discomfort) also were reduced with valacyclovir compared with placebo. The authors concluded that a 1-day regimen of oral valacyclovir was efficacious against recurrent herpes labialis.8

Similarly, Baker and Eisen9 investigated the efficacy of oral valacyclovir in the suppression of herpes labialis. Two identical, randomized, double-blind, parallel-group studies were conducted to evaluate the efficacy of oral valacyclovir 500 mg (n=49) versus placebo (n=49) once a day for 16 weeks among patients with a history of 4 or more episodes of herpes labialis in the previous year. During the 4-month treatment period, 60% of patients in the valacyclovir group, compared with only 38% in the placebo group, were recurrence free. In addition, mean time to first recurrence was significantly longer with valacyclovir (13.1 weeks) compared with placebo (9.6 weeks). The authors concluded that oral valacyclovir 500 mg once a day for 4 months is effective and well tolerated in the prevention of recurrent herpes labialis. They suggested that additional research with larger numbers of patients be conducted to corroborate and extend these findings.9 The development of orofacial herpes labialis often is associated with laser resurfacing. Gilbert and McBurney10 reported that valacyclovir is safe and effective as prophylaxis against such recurrences.

Famciclovir—This agent has been investigated in the treatment of herpes labialis in 2 small trials. In a double-blind, dose-ranging, placebo-controlled, multicenter trial, Spruance and McKeough11 evaluated the efficacy of famciclovir in treating experimentally UV radiation (UVR)–induced herpes simplex labialis. In the study, patients received a 125-, 250-, or 500-mg dose of famciclovir or placebo 3 times a day for 5 days, beginning 48 hours after UVR exposure. Although there was no significant difference in the number of lesions between the famciclovir group and the placebo group, mean maximal lesion size was reduced dose dependently; the largest diameter was observed with the placebo, and the smallest was seen with a 500-mg dose of famciclovir. In addition, median time to healing was faster in the 500-mg famciclovir treatment group than in the placebo group.11

In a second study with experimentally UVR-induced herpes simplex labialis, Spruance and McKeough12 combined famciclovir 500 mg 3 times a day for 5 days with either topical fluocinonide 0.05% gel 3 times a day for 5 days or vehicle control gel. Patients using combination therapy experienced significantly reduced medium maximum lesion size, and the number of patients who had pain was reduced by approximately half compared with the control group (59% vs 100%).12

Famciclovir is not approved by the FDA for the treatment of herpes labialis. Although the drug has not been studied as suppressive therapy for this indication, Wall et al13 showed that famciclovir 125 or 250 mg twice a day, begun 1 to 2 days before laser resurfacing and continued for 5 days after surgery, reduced orofacial herpes outbreaks compared with placebo.

Several safe and effective therapeutic oral options exist in the treatment of herpes labialis (Table). Part II of this series will review topical therapies.

References

  1. Whitley RJ, Gnann JW. Herpes simplex virus. In: Tyring SK, ed. Mucocutaneous Manifestations of Viral Diseases. New York, NY: Marcel Dekker; 2002:69-117.
  2. Raborn GW, McGaw WT, Grace M, et al. Oral acyclovir and herpes labialis: a randomized, double-blind, placebo-controlled study. J Am Dent Assoc. 1987;115:38-42.
  3. Vander Straten M, Carrasco D, Lee P, et al. A review of antiviral therapy for herpes labialis. Arch Dermatol. 2001;137:1232-1235.
  4. Spruance SL, Hamill ML, Hoge WS, et al. Acyclovir prevents reactivation of herpes simplex labialis in skiers. JAMA. 1988;260:1597-1599.
  5. Rooney JF, Straus SE, Mannix ML, et al. Oral acyclovir to suppress frequently recurrent herpes labialis. A double-blind, placebo-controlled trial. Ann Intern Med. 1993;118:268-272.
  6. Tyring SK, Baker D, Snowden W. Valacyclovir for herpes simplex virus infection: long-term safety and sustained efficacy after 20 years' experience with acyclovir. J Infect Dis. 2002;186(suppl 1):S40-S46.
  7. Chosidow O, Drouault Y, Garraffo R, et al. Valaciclovir as a single dose during prodrome of herpes facialis: a pilot randomized double-blind clinical trial. Br J Dermatol. 2003;148:142-146.
  8. Spruance SL, Jones TM, Blatter MM, et al. High-dose, short-duration, early valacyclovir therapy for episodic treatment of cold sores: results of two randomized, placebo-controlled, multicenter studies. Antimicrob Agents Chemother. 2003;47:1072-1080.
  9. Baker D, Eisen D. Valacyclovir for prevention of recurrent herpes labialis: 2 double-blind, placebo-controlled studies. Cutis. 2003;71:239-242.
  10. Gilbert S, McBurney E. Use of valacyclovir for herpes simplex virus-1 (HSV-1) prophylaxis after facial resurfacing: a randomized clinical trial of dosing regimens. Dermatol Surg. 2000;26:50-54.
  11. Spruance SL, Rowe NH, Raborn GW, et al. Peroral famciclovir in the treatment of experimental ultraviolet radiation-induced herpes simplex labialis: a double-blind, dose-ranging, placebo-controlled, multicenter trial. J Infect Dis. 1999;179:303-310.
  12. Spruance SL, McKeough MB. Combination treatment with famciclovir and a topical corticosteroid gel versus famciclovir alone for experimental ultraviolet radiation-induced herpes simplex labialis: a pilot study. J Infect Dis. 2000;181:1906-1910.
  13. Wall SH, Ramey SJ, Wall F. Famciclovir as antiviral prophylaxis in laser resurfacing procedures. Plast Reconstr Surg. 1999;104:1103-1108.
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Dr. Weinberg is on the speakers' bureau and has received clinical research grants from Novartis. Drs. Elish and Singh report no conflict of interest. The authors report discussion of off-label use of acyclovir and famciclovir and off-label dosing for valacyclovir. From the Department of Dermatology, St. Luke's-Roosevelt Hospital Center and Beth Israel medical Center, New York, New York.

Diana Elish, MD; Eliza Singh, MD; Jeffrey M. Weinberg, MD

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Author and Disclosure Information

Dr. Weinberg is on the speakers' bureau and has received clinical research grants from Novartis. Drs. Elish and Singh report no conflict of interest. The authors report discussion of off-label use of acyclovir and famciclovir and off-label dosing for valacyclovir. From the Department of Dermatology, St. Luke's-Roosevelt Hospital Center and Beth Israel medical Center, New York, New York.

Diana Elish, MD; Eliza Singh, MD; Jeffrey M. Weinberg, MD

Author and Disclosure Information

Dr. Weinberg is on the speakers' bureau and has received clinical research grants from Novartis. Drs. Elish and Singh report no conflict of interest. The authors report discussion of off-label use of acyclovir and famciclovir and off-label dosing for valacyclovir. From the Department of Dermatology, St. Luke's-Roosevelt Hospital Center and Beth Israel medical Center, New York, New York.

Diana Elish, MD; Eliza Singh, MD; Jeffrey M. Weinberg, MD

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Given the prevalence of herpes labialis, effective therapy has the potential to affect the lives of many and presents a challenge for clinicians. Over the last several years, most of the focus of herpes research has been on the treatment of genital herpes. Recently, however, several studies have been published examining the efficacy of therapies specifically for herpes labialis. Several therapeutic agents, both prescription and over-the-counter, are available for controlling and managing the disease. In this series of articles, we review oral and topical therapeutic agents that are available in the treatment of herpes labialis and its associated symptoms. This article will review oral treatment options.

Herpes labialis is a common condition characterized by recurrent vesicular eruptions primarily on the lips and perioral skin. Most commonly caused by herpes simplex virus type 1 (HSV-1), this condition can significantly affect quality of life in patients with multiple recurrences, which may cause pain, embarrassment, and psychosocial distress. Oral HSV is the most easily acquired herpesvirus. Approximately 50% of Americans are seropositive for HSV-1 by the time they reach adolescence—by age 50 years, 80% to 90% carry the virus.1

Over the last several years, most clinical investigation of herpes infection has concerned genital disease. Therefore, the treatment of orolabial disease with oral therapies often was extrapolated from this data rather than based on direct study of the condition itself. Recently, however, several studies have been conducted to evaluate the efficacy of therapies specifically for herpes labialis. Although the virus responsible for the disease is not eradicated, several therapeutic agents, both prescription and over-the-counter, are available for controlling and managing the disease. In the first of this series of articles, we review oral therapeutic agents that are available in the treatment of herpes labialis and its associated symptoms. 


Oral Agents

Three oral antiviral agents, acyclovir, valacyclovir, and famciclovir, are available for the treatment of herpes labialis. However, only valacyclovir has been specifically approved by the US Food and Drug Administration (FDA) for the episodic treatment of this condition. All 3 agents are acyclic guanosine analogs that competitively inhibit viral DNA polymerase after phosphorylation by the viral thymidine kinase and by the cellular kinases. Unlike acyclovir and valacyclovir, penciclovir and famciclovir are not obligate DNA chain terminators and would be expected to have lower efficacy.

Acyclovir—Little literature exists for oral acyclovir in the treatment of herpes labialis. In a study by Raborn et al,2 oral acyclovir (200 mg 5 times a day for 5 days) reduced the time to loss of crust by 1 day (7 vs 8 days) but did not alter the duration of pain or time to complete healing. When treatment is started during the prodrome or erythema stage at 400 mg 5 times a day for 5 days, the mean duration of pain is reduced by 36%, and the time to loss of crust is reduced by 27%.2 Therefore, according to Vander Straten et al,3 oral acyclovir therapy has modest clinical benefit and cannot be recommended for routine therapy of herpes labialis. However, it may be helpful in patients whose recurrence is associated with protracted illness.

Oral acyclovir has been shown to alter the severity of sun-induced herpes labialis.4 Administration of acyclovir 200 mg 5 times a day in skiers resulted in a similar frequency of HSV reactivation in treatment and placebo recipients, but significantly fewer lesions formed on days 5 to 7 among those on acyclovir.4 Although not approved by the FDA, long-term suppression of herpes labialis with oral acyclovir has been shown to result in a 53% reduction in the number of clinical recurrences.5

Long-term use of acyclovir (up to 10 years) for HSV suppression is effective and well tolerated.6 Acyclovir is approved for use in children and has been monitored in more than 1000 pregnant women. The incidence of acyclovir resistance is estimated to be less than 0.5% among immunocompetent patients and 5% among immunocompromised patients. Primary infection responds well to oral acyclovir.6 In infants and children, acyclovir tablets can be crushed easily and mixed with food or dispersed in water or juice.

Valacyclovir—Unlike the parent drug acyclovir, valacyclovir has greater bioavailability (3 to 5 times that of acyclovir) and rapidly metabolizes to acyclovir and L-valine after absorption.3 As such, both agents have identical mechanisms of action, efficacy, and safety profiles. In previous studies, valacyclovir has been shown to be as effective as acyclovir in the treatment of first-episode genital herpes, recurrent genital herpes, and long-term suppression of genital herpes.3

Chosidow and colleagues7 evaluated the efficacy of the administration of a single course of valacyclovir in the prodromal phase of herpes labialis. In a randomized, double-blind clinical trial, 249 patients with similar baseline characteristics and recurrent disease were randomized to receive a 500-, 1000-, or 2000-mg dose of valacyclovir. The major outcome variable measure, the rate of aborted lesions on day 3, was not significantly different among the treatment groups, and a dose response was not observed. Although a placebo group was not included in this study, it was concluded that a single dose of valacyclovir was not beneficial in patients with recurrent herpes facialis.7

In a randomized, double-blind, placebo-controlled study, Spruance et al8 showed that a 1-day valacyclovir treatment regimen for cold sores is safe and effective. Treatment was administered in a 1-day regimen (2 g of valacyclovir twice a day for 1 day), 2-day regimen (2 g of valacyclovir twice a day for 1 day and then 1 g of valacyclovir twice a day for 1 day), or placebo. Patients were instructed to initiate treatment at the first symptoms of a cold sore. With a single day of treatment, median and mean durations of the episode were reduced by 1 and 1.1 days, respectively, compared with placebo. The 2-day treatment regimen led to a reduction in median and mean durations of the episode by 0.5 and 0.7 days, respectively, compared with placebo. In addition, the suppression of cold sore development increased dose dependently by 6.4% (P=.096) and by 8.5% (P=.061) in the 1-day treatment and 2-day treatment groups, respectively, compared with placebo. Other variables evaluated in the study (eg, time to healing of lesion and cessation of pain or discomfort) also were reduced with valacyclovir compared with placebo. The authors concluded that a 1-day regimen of oral valacyclovir was efficacious against recurrent herpes labialis.8

Similarly, Baker and Eisen9 investigated the efficacy of oral valacyclovir in the suppression of herpes labialis. Two identical, randomized, double-blind, parallel-group studies were conducted to evaluate the efficacy of oral valacyclovir 500 mg (n=49) versus placebo (n=49) once a day for 16 weeks among patients with a history of 4 or more episodes of herpes labialis in the previous year. During the 4-month treatment period, 60% of patients in the valacyclovir group, compared with only 38% in the placebo group, were recurrence free. In addition, mean time to first recurrence was significantly longer with valacyclovir (13.1 weeks) compared with placebo (9.6 weeks). The authors concluded that oral valacyclovir 500 mg once a day for 4 months is effective and well tolerated in the prevention of recurrent herpes labialis. They suggested that additional research with larger numbers of patients be conducted to corroborate and extend these findings.9 The development of orofacial herpes labialis often is associated with laser resurfacing. Gilbert and McBurney10 reported that valacyclovir is safe and effective as prophylaxis against such recurrences.

Famciclovir—This agent has been investigated in the treatment of herpes labialis in 2 small trials. In a double-blind, dose-ranging, placebo-controlled, multicenter trial, Spruance and McKeough11 evaluated the efficacy of famciclovir in treating experimentally UV radiation (UVR)–induced herpes simplex labialis. In the study, patients received a 125-, 250-, or 500-mg dose of famciclovir or placebo 3 times a day for 5 days, beginning 48 hours after UVR exposure. Although there was no significant difference in the number of lesions between the famciclovir group and the placebo group, mean maximal lesion size was reduced dose dependently; the largest diameter was observed with the placebo, and the smallest was seen with a 500-mg dose of famciclovir. In addition, median time to healing was faster in the 500-mg famciclovir treatment group than in the placebo group.11

In a second study with experimentally UVR-induced herpes simplex labialis, Spruance and McKeough12 combined famciclovir 500 mg 3 times a day for 5 days with either topical fluocinonide 0.05% gel 3 times a day for 5 days or vehicle control gel. Patients using combination therapy experienced significantly reduced medium maximum lesion size, and the number of patients who had pain was reduced by approximately half compared with the control group (59% vs 100%).12

Famciclovir is not approved by the FDA for the treatment of herpes labialis. Although the drug has not been studied as suppressive therapy for this indication, Wall et al13 showed that famciclovir 125 or 250 mg twice a day, begun 1 to 2 days before laser resurfacing and continued for 5 days after surgery, reduced orofacial herpes outbreaks compared with placebo.

Several safe and effective therapeutic oral options exist in the treatment of herpes labialis (Table). Part II of this series will review topical therapies.

Given the prevalence of herpes labialis, effective therapy has the potential to affect the lives of many and presents a challenge for clinicians. Over the last several years, most of the focus of herpes research has been on the treatment of genital herpes. Recently, however, several studies have been published examining the efficacy of therapies specifically for herpes labialis. Several therapeutic agents, both prescription and over-the-counter, are available for controlling and managing the disease. In this series of articles, we review oral and topical therapeutic agents that are available in the treatment of herpes labialis and its associated symptoms. This article will review oral treatment options.

Herpes labialis is a common condition characterized by recurrent vesicular eruptions primarily on the lips and perioral skin. Most commonly caused by herpes simplex virus type 1 (HSV-1), this condition can significantly affect quality of life in patients with multiple recurrences, which may cause pain, embarrassment, and psychosocial distress. Oral HSV is the most easily acquired herpesvirus. Approximately 50% of Americans are seropositive for HSV-1 by the time they reach adolescence—by age 50 years, 80% to 90% carry the virus.1

Over the last several years, most clinical investigation of herpes infection has concerned genital disease. Therefore, the treatment of orolabial disease with oral therapies often was extrapolated from this data rather than based on direct study of the condition itself. Recently, however, several studies have been conducted to evaluate the efficacy of therapies specifically for herpes labialis. Although the virus responsible for the disease is not eradicated, several therapeutic agents, both prescription and over-the-counter, are available for controlling and managing the disease. In the first of this series of articles, we review oral therapeutic agents that are available in the treatment of herpes labialis and its associated symptoms. 


Oral Agents

Three oral antiviral agents, acyclovir, valacyclovir, and famciclovir, are available for the treatment of herpes labialis. However, only valacyclovir has been specifically approved by the US Food and Drug Administration (FDA) for the episodic treatment of this condition. All 3 agents are acyclic guanosine analogs that competitively inhibit viral DNA polymerase after phosphorylation by the viral thymidine kinase and by the cellular kinases. Unlike acyclovir and valacyclovir, penciclovir and famciclovir are not obligate DNA chain terminators and would be expected to have lower efficacy.

Acyclovir—Little literature exists for oral acyclovir in the treatment of herpes labialis. In a study by Raborn et al,2 oral acyclovir (200 mg 5 times a day for 5 days) reduced the time to loss of crust by 1 day (7 vs 8 days) but did not alter the duration of pain or time to complete healing. When treatment is started during the prodrome or erythema stage at 400 mg 5 times a day for 5 days, the mean duration of pain is reduced by 36%, and the time to loss of crust is reduced by 27%.2 Therefore, according to Vander Straten et al,3 oral acyclovir therapy has modest clinical benefit and cannot be recommended for routine therapy of herpes labialis. However, it may be helpful in patients whose recurrence is associated with protracted illness.

Oral acyclovir has been shown to alter the severity of sun-induced herpes labialis.4 Administration of acyclovir 200 mg 5 times a day in skiers resulted in a similar frequency of HSV reactivation in treatment and placebo recipients, but significantly fewer lesions formed on days 5 to 7 among those on acyclovir.4 Although not approved by the FDA, long-term suppression of herpes labialis with oral acyclovir has been shown to result in a 53% reduction in the number of clinical recurrences.5

Long-term use of acyclovir (up to 10 years) for HSV suppression is effective and well tolerated.6 Acyclovir is approved for use in children and has been monitored in more than 1000 pregnant women. The incidence of acyclovir resistance is estimated to be less than 0.5% among immunocompetent patients and 5% among immunocompromised patients. Primary infection responds well to oral acyclovir.6 In infants and children, acyclovir tablets can be crushed easily and mixed with food or dispersed in water or juice.

Valacyclovir—Unlike the parent drug acyclovir, valacyclovir has greater bioavailability (3 to 5 times that of acyclovir) and rapidly metabolizes to acyclovir and L-valine after absorption.3 As such, both agents have identical mechanisms of action, efficacy, and safety profiles. In previous studies, valacyclovir has been shown to be as effective as acyclovir in the treatment of first-episode genital herpes, recurrent genital herpes, and long-term suppression of genital herpes.3

Chosidow and colleagues7 evaluated the efficacy of the administration of a single course of valacyclovir in the prodromal phase of herpes labialis. In a randomized, double-blind clinical trial, 249 patients with similar baseline characteristics and recurrent disease were randomized to receive a 500-, 1000-, or 2000-mg dose of valacyclovir. The major outcome variable measure, the rate of aborted lesions on day 3, was not significantly different among the treatment groups, and a dose response was not observed. Although a placebo group was not included in this study, it was concluded that a single dose of valacyclovir was not beneficial in patients with recurrent herpes facialis.7

In a randomized, double-blind, placebo-controlled study, Spruance et al8 showed that a 1-day valacyclovir treatment regimen for cold sores is safe and effective. Treatment was administered in a 1-day regimen (2 g of valacyclovir twice a day for 1 day), 2-day regimen (2 g of valacyclovir twice a day for 1 day and then 1 g of valacyclovir twice a day for 1 day), or placebo. Patients were instructed to initiate treatment at the first symptoms of a cold sore. With a single day of treatment, median and mean durations of the episode were reduced by 1 and 1.1 days, respectively, compared with placebo. The 2-day treatment regimen led to a reduction in median and mean durations of the episode by 0.5 and 0.7 days, respectively, compared with placebo. In addition, the suppression of cold sore development increased dose dependently by 6.4% (P=.096) and by 8.5% (P=.061) in the 1-day treatment and 2-day treatment groups, respectively, compared with placebo. Other variables evaluated in the study (eg, time to healing of lesion and cessation of pain or discomfort) also were reduced with valacyclovir compared with placebo. The authors concluded that a 1-day regimen of oral valacyclovir was efficacious against recurrent herpes labialis.8

Similarly, Baker and Eisen9 investigated the efficacy of oral valacyclovir in the suppression of herpes labialis. Two identical, randomized, double-blind, parallel-group studies were conducted to evaluate the efficacy of oral valacyclovir 500 mg (n=49) versus placebo (n=49) once a day for 16 weeks among patients with a history of 4 or more episodes of herpes labialis in the previous year. During the 4-month treatment period, 60% of patients in the valacyclovir group, compared with only 38% in the placebo group, were recurrence free. In addition, mean time to first recurrence was significantly longer with valacyclovir (13.1 weeks) compared with placebo (9.6 weeks). The authors concluded that oral valacyclovir 500 mg once a day for 4 months is effective and well tolerated in the prevention of recurrent herpes labialis. They suggested that additional research with larger numbers of patients be conducted to corroborate and extend these findings.9 The development of orofacial herpes labialis often is associated with laser resurfacing. Gilbert and McBurney10 reported that valacyclovir is safe and effective as prophylaxis against such recurrences.

Famciclovir—This agent has been investigated in the treatment of herpes labialis in 2 small trials. In a double-blind, dose-ranging, placebo-controlled, multicenter trial, Spruance and McKeough11 evaluated the efficacy of famciclovir in treating experimentally UV radiation (UVR)–induced herpes simplex labialis. In the study, patients received a 125-, 250-, or 500-mg dose of famciclovir or placebo 3 times a day for 5 days, beginning 48 hours after UVR exposure. Although there was no significant difference in the number of lesions between the famciclovir group and the placebo group, mean maximal lesion size was reduced dose dependently; the largest diameter was observed with the placebo, and the smallest was seen with a 500-mg dose of famciclovir. In addition, median time to healing was faster in the 500-mg famciclovir treatment group than in the placebo group.11

In a second study with experimentally UVR-induced herpes simplex labialis, Spruance and McKeough12 combined famciclovir 500 mg 3 times a day for 5 days with either topical fluocinonide 0.05% gel 3 times a day for 5 days or vehicle control gel. Patients using combination therapy experienced significantly reduced medium maximum lesion size, and the number of patients who had pain was reduced by approximately half compared with the control group (59% vs 100%).12

Famciclovir is not approved by the FDA for the treatment of herpes labialis. Although the drug has not been studied as suppressive therapy for this indication, Wall et al13 showed that famciclovir 125 or 250 mg twice a day, begun 1 to 2 days before laser resurfacing and continued for 5 days after surgery, reduced orofacial herpes outbreaks compared with placebo.

Several safe and effective therapeutic oral options exist in the treatment of herpes labialis (Table). Part II of this series will review topical therapies.

References

  1. Whitley RJ, Gnann JW. Herpes simplex virus. In: Tyring SK, ed. Mucocutaneous Manifestations of Viral Diseases. New York, NY: Marcel Dekker; 2002:69-117.
  2. Raborn GW, McGaw WT, Grace M, et al. Oral acyclovir and herpes labialis: a randomized, double-blind, placebo-controlled study. J Am Dent Assoc. 1987;115:38-42.
  3. Vander Straten M, Carrasco D, Lee P, et al. A review of antiviral therapy for herpes labialis. Arch Dermatol. 2001;137:1232-1235.
  4. Spruance SL, Hamill ML, Hoge WS, et al. Acyclovir prevents reactivation of herpes simplex labialis in skiers. JAMA. 1988;260:1597-1599.
  5. Rooney JF, Straus SE, Mannix ML, et al. Oral acyclovir to suppress frequently recurrent herpes labialis. A double-blind, placebo-controlled trial. Ann Intern Med. 1993;118:268-272.
  6. Tyring SK, Baker D, Snowden W. Valacyclovir for herpes simplex virus infection: long-term safety and sustained efficacy after 20 years' experience with acyclovir. J Infect Dis. 2002;186(suppl 1):S40-S46.
  7. Chosidow O, Drouault Y, Garraffo R, et al. Valaciclovir as a single dose during prodrome of herpes facialis: a pilot randomized double-blind clinical trial. Br J Dermatol. 2003;148:142-146.
  8. Spruance SL, Jones TM, Blatter MM, et al. High-dose, short-duration, early valacyclovir therapy for episodic treatment of cold sores: results of two randomized, placebo-controlled, multicenter studies. Antimicrob Agents Chemother. 2003;47:1072-1080.
  9. Baker D, Eisen D. Valacyclovir for prevention of recurrent herpes labialis: 2 double-blind, placebo-controlled studies. Cutis. 2003;71:239-242.
  10. Gilbert S, McBurney E. Use of valacyclovir for herpes simplex virus-1 (HSV-1) prophylaxis after facial resurfacing: a randomized clinical trial of dosing regimens. Dermatol Surg. 2000;26:50-54.
  11. Spruance SL, Rowe NH, Raborn GW, et al. Peroral famciclovir in the treatment of experimental ultraviolet radiation-induced herpes simplex labialis: a double-blind, dose-ranging, placebo-controlled, multicenter trial. J Infect Dis. 1999;179:303-310.
  12. Spruance SL, McKeough MB. Combination treatment with famciclovir and a topical corticosteroid gel versus famciclovir alone for experimental ultraviolet radiation-induced herpes simplex labialis: a pilot study. J Infect Dis. 2000;181:1906-1910.
  13. Wall SH, Ramey SJ, Wall F. Famciclovir as antiviral prophylaxis in laser resurfacing procedures. Plast Reconstr Surg. 1999;104:1103-1108.
References

  1. Whitley RJ, Gnann JW. Herpes simplex virus. In: Tyring SK, ed. Mucocutaneous Manifestations of Viral Diseases. New York, NY: Marcel Dekker; 2002:69-117.
  2. Raborn GW, McGaw WT, Grace M, et al. Oral acyclovir and herpes labialis: a randomized, double-blind, placebo-controlled study. J Am Dent Assoc. 1987;115:38-42.
  3. Vander Straten M, Carrasco D, Lee P, et al. A review of antiviral therapy for herpes labialis. Arch Dermatol. 2001;137:1232-1235.
  4. Spruance SL, Hamill ML, Hoge WS, et al. Acyclovir prevents reactivation of herpes simplex labialis in skiers. JAMA. 1988;260:1597-1599.
  5. Rooney JF, Straus SE, Mannix ML, et al. Oral acyclovir to suppress frequently recurrent herpes labialis. A double-blind, placebo-controlled trial. Ann Intern Med. 1993;118:268-272.
  6. Tyring SK, Baker D, Snowden W. Valacyclovir for herpes simplex virus infection: long-term safety and sustained efficacy after 20 years' experience with acyclovir. J Infect Dis. 2002;186(suppl 1):S40-S46.
  7. Chosidow O, Drouault Y, Garraffo R, et al. Valaciclovir as a single dose during prodrome of herpes facialis: a pilot randomized double-blind clinical trial. Br J Dermatol. 2003;148:142-146.
  8. Spruance SL, Jones TM, Blatter MM, et al. High-dose, short-duration, early valacyclovir therapy for episodic treatment of cold sores: results of two randomized, placebo-controlled, multicenter studies. Antimicrob Agents Chemother. 2003;47:1072-1080.
  9. Baker D, Eisen D. Valacyclovir for prevention of recurrent herpes labialis: 2 double-blind, placebo-controlled studies. Cutis. 2003;71:239-242.
  10. Gilbert S, McBurney E. Use of valacyclovir for herpes simplex virus-1 (HSV-1) prophylaxis after facial resurfacing: a randomized clinical trial of dosing regimens. Dermatol Surg. 2000;26:50-54.
  11. Spruance SL, Rowe NH, Raborn GW, et al. Peroral famciclovir in the treatment of experimental ultraviolet radiation-induced herpes simplex labialis: a double-blind, dose-ranging, placebo-controlled, multicenter trial. J Infect Dis. 1999;179:303-310.
  12. Spruance SL, McKeough MB. Combination treatment with famciclovir and a topical corticosteroid gel versus famciclovir alone for experimental ultraviolet radiation-induced herpes simplex labialis: a pilot study. J Infect Dis. 2000;181:1906-1910.
  13. Wall SH, Ramey SJ, Wall F. Famciclovir as antiviral prophylaxis in laser resurfacing procedures. Plast Reconstr Surg. 1999;104:1103-1108.
Issue
Cutis - 74(1)
Issue
Cutis - 74(1)
Page Number
31-34
Page Number
31-34
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Therapeutic Options for Herpes Labialis, I: Oral Agents
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Therapeutic Options for Herpes Labialis, I: Oral Agents
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