Safety and Efficacy of VP-102, a Proprietary, Drug-Device Combination Product Containing Cantharidin, 0.7% (w/v), in Children and Adults With Molluscum Contagiosum
IMPORTANCE Molluscum contagiosum (MC) is a common viral skin infection that primarily affects children. Cantharidin, a topical vesicant, has a long history of use for MC in compounded formulations, but the safety and efficacy of doses, regimens, and application methods have not been demonstrated in large-scale trials. OBJECTIVE To determine the safety and efficacy of VP-102, a drug-device combination containing cantharidin, 0.7% (w/v), compared with vehicle in individuals with MC. DESIGN, SETTING, AND PARTICIPANTS Two phase 3, randomized, double-blind, vehicle-controlled trials of identical design (Cantharidin Application in Molluscum Patients [CAMP-1 and CAMP-2]) were conducted in 31 centers across the US. A total of 528 individuals aged 2 years or older with MC participated. CAMP-1 was conducted from March 21 to November 26, 2018, and CAMP-2 was conducted from February 14 to September 26, 2018. INTERVENTIONS Participants were randomized (3:2) to topical application of VP-102 or vehicle to all treatable lesions every 21 days until complete lesion clearance or up to 4 treatments. MAIN OUTCOMES AND MEASURES The primary efficacy outcome was the proportion of VP-102-treated participants achieving complete clearance of all MC lesions (baseline and new) compared with those who received the vehicle at the end-of-study visit on day 84. Intent-to-treat analysis was conducted for the efficacy population. Secondary efficacy outcomes included the proportion of participants achieving complete clearance of lesions at days 21, 42, and 63. Safety outcomes included assessment of adverse events, including expected local skin reactions. RESULTS Of the 528 participants enrolled, 527 received treatment (CAMP-1, n = 265; CAMP-2, n = 262). A total of 267 of 527 participants (50.7%) were male; mean (SD) ages for CAMP-1 and CAMP-2 were 7.5 (5.3) years and 7.4 (8.0) years for the VP-102 groups and 6.3 (4.7) years and 7.3 (6.7) years for the vehicle groups. Treatment with VP-102 demonstrated superior efficacy to vehicle in the percentage of participants with complete clearance of MC lesions at the end of the study visit for CAMP-1 (VP-102: 46.3% vs vehicle: 17.9%; P < .001) and CAMP-2 (VP-102: 54.0% vs vehicle: 13.4%; P < .001). Adverse events were observed in 99% (CAMP-1) and 95% (CAMP-2) of VP-102-treated participants and 73% (CAMP-1) and 66% (CAMP-2) of vehicle-treated participants. The most common adverse events included application site vesicles, pain, pruritus, erythema, and scab. Most adverse events were mild or moderate in severity. CONCLUSIONS AND RELEVANCE In the 2 phase 3 trials reported herein, VP-102 was statistically significantly superior to vehicle in achieving complete clearance of MC lesions at the end of the study visit in both trials, with adverse events that were generally mild to moderate and confined to application sites. These findings show that VP-102 is potentially an effective and safe treatment for MC, a common skin condition with no US Food and Drug Administration-approved treatments. TRIAL REGISTRATIONS Clini...
Stool microbiome, pH and short/branched chain fatty acids in infants receiving extensively hydrolyzed formula, amino acid formula, or human milk through two months of age
Background Early infant feeding with intact or extensively hydrolyzed (EH) proteins or free amino acids (AA) may differentially affect intestinal microbiota composition and immune reactivity. This multicenter, double-blind, controlled, parallel-group, pilot study compared stool microbiota from Baseline (1–7 days of age) up to 60 days of age in healthy term infants who received mother’s own milk (assigned to human milk [HM] reference group) (n = 25) or were randomized to receive one of two infant formulas: AA-based (AAF; n = 25) or EH cow’s milk protein (EHF; n = 28). Stool samples were collected (Baseline, Day 30, Day 60) and 16S rRNA genes were sequenced. Alpha (Shannon, Simpson, Chao1) and beta diversity (Bray Curtis) were analyzed. Relative taxonomic enrichment and fold changes were analyzed (Wilcoxon, DESEq2). Short/branched chain fatty acids (S/BCFA) were quantified by gas chromatography. Mean S/BCFA and pH were analyzed (repeated measures ANOVA). Results At baseline, alpha diversity measures were similar among all groups; however, both study formula groups were significantly higher versus the HM group by Day 60. Significant group differences in beta diversity at Day 60 were also detected, and study formula groups were compositionally more similar compared to HM. The relative abundance of Bifidobacterium increased over time and was significantly enriched at Day 60 in the HM group. In contrast, a significant increase in members of Firmicutes for study formula groups were detected at Day 60 along with butyrate-producing species in the EHF group. Stool pH was significantly higher in the AAF group at Days 30 and 60. Butyrate increased significantly from Baseline to Day 60 in the EHF group and was significantly higher in study formula groups vs HM at Day 60. Propionate was also significantly higher for EHF and AAF at Day 30 and AAF at Day 60 vs HM. Total and individual BCFA were higher for AAF and EHF groups vs HM through Day 60. Conclusions Distinct patterns of early neonatal microbiome, pH, and microbial metabolites were demonstrated for infants receiving mother’s own milk compared to AA-based or extensively hydrolyzed protein formula. Providing different sources of dietary protein early in life may influence gut microbiota and metabolites. Trial registration ClinicalTrials.gov Identifier: NCT02500563. Registered July 28, 2015.
Background: This Phase 2, open-label study evaluated the safety, efficacy, systemic exposure, and impact on quality of life (QoL) with treatment using VP-102, a drug-device combination containing cantharidin (0.7% w/v) in subjects with molluscum contagiosum (MC). Study Design: Pediatric subjects with MC (2-15 years of age) were eligible to enroll in this 12-week study. MC lesions were treated topically with VP-102 every 21 days until clearance (maximum of 4 treatments). Adverse events (AEs) and QoL outcomes (using the Children's Quality of Life Index, CDLQI) were documented at each visit. Rate of complete clearance and the percent reduction in lesions were measured at each visit on days 21, 42, 63, and 84 (end of study [EOS] visit). A group of 17 subjects with at least 21 MC lesions was evaluated for systemic cantharidin exposure via plasma samples obtained before the first application of VP-102, and at 2 hours, 6 hours, and 24 hours post-application. Results: A total of 33 subjects enrolled in the study (n=17 systemic exposure group, n=16 standard group). There were an equal number of male and female subjects. Subject mean (SD, range) age was 6.7 (3.3, 2-15) years, with a mean lesion count of 30 (26.1, 3-113). Complete lesion clearance was achieved in 48.5% of subjects, with a 90.4% reduction in lesions from baseline to the EOS visit. Mean CDLQI score decreased from 2.6 at baseline to 0.38 at the EOS visit. AEs were mild to moderate in severity and expected due to the pharmacodynamic action of cantharidin. There were no serious treatment-related adverse events and no study discontinuations due to treatment. In the systemic exposure group plasma cantharidin levels were below the lower limit of quantitation (LLOQ, 2.5 ng/ mL) in 65 of 66 samples. Conclusions: VP-102 treatment resulted in a reduction in lesion counts and improved QoL. Treated subjects had a 48.5% rate of complete clearance of molluscum lesions. Negligible systemic cantharidin exposure was observed in the systemic exposure group. This data demonstrates safety and efficacy of treatment with VP-102 in MC; a widespread viral infection that does not have any current FDA-approved treatments. Significant Finding: Treatment of subjects with MC using VP-102 resulted in negligible systemic cantharidin exposure, as well as a reduction in lesion counts, improved QoL, and a demonstrated efficacy in clearance of new and baseline MC lesions. Meaning: Results of this Phase 2 study demonstrate efficacy and safety outcomes in using VP-102 in MC subjects, and large randomized clinical trials are warranted to compare topical VP-102 with a vehicle control in order to fully evaluate the use of the medication. ClinicalTrials.gov identifier: NCT03186378
Stool pH and Short/Branched Chain Fatty Acids in Infants Receiving Extensively Hydrolyzed Formula, Amino Acid Formula, or Human Milk Through Two Months of Age (P11-076-19)
Objectives Infant feeding influences early development of the gut microbiome, colonization pattern, and community structure. Metabolites, including short- and branched-chain fatty acids (S/BCFA) (e.g., butyrate, propionate), produced by colonic bacteria serve as signaling molecules, influence immunity, and reduce luminal pH in the gastrointestinal environment. The objective of this study was to evaluate stool S/BCFA and pH in infants fed with different sources of dietary protein. Methods In this multicenter, double-blind, controlled, parallel-group, pilot study, healthy term infants were randomized to receive one of two infant formulas (IF): amino-acid based (AAF; n = 25) or extensively hydrolyzed cow's milk protein (EHF; n = 28) from Baseline (1-7 days of age) up to 60 days of age. A human milk reference group (HM; n = 25) received mother's own milk over the same period. Diethyl ether extractions of S/BCFA from stool samples (Baseline, Day 30, and Day 60) were quantified by gas chromatography (Clarus 580; PerkinElmer) using a fused silica capillary column (Nukol 30m × 0.25mm id × 0.25μm film). Mean stool S/BCFA (μmol/g) and pH were analyzed by repeated measures analysis of variance (ANOVA). Results Complete stool data (all study time points) were available for 49 participants. Stool pH (∼6) was similar among groups at Baseline with no significant changes for HM and EHF groups through Day 60. The AAF group was significantly higher at Days 30 and 60 (Figure 1). Total SCFA were similar for all groups through Day 60. Butyrate increased significantly from Baseline to Day 60 in the EHF group (P = 0.026) and was significantly higher vs HM at Days 30 and 60 (P = 0.0009 and 0.0004 respectively). Butyrate was significantly higher for AAF vs HM at Day 60 only (P = 0.038). Propionate was significantly higher for EHF and AAF at Day 30 (P = 0.0009 and < 0.0001 respectively) and AAF only at Day 60 (P = 0.005) vs HM. Total and individual BCFA increased for AAF and EHF groups vs HM through Day 60. Conclusions Distinct patterns of pH and microbial metabolites were demonstrated for infants receiving mother's own milk compared to amino acid-based or extensively hydrolyzed protein formula. Providing different sources of dietary protein early in life may influence gut microbiota and metabolites. Funding Sources Mead Johnson Pediatric Nutrition Institute. Supporting Tables, Images and/or Graphs
Stool Microbiota in Infants Receiving Extensively Hydrolyzed Formula, Amino Acid Formula, or Human Milk Through Two Months of Age (FS04-07-19)
Objectives Infant feeding practices play a central role in development of gut microbiome and community structure. Our goal was to test the hypothesis that diets with intact or extensively hydrolyzed proteins or free amino acids may differentially affect the intestinal microbiota composition and immune reactivity. Methods This multicenter, double-blind, controlled, parallel-group, pilot study compared stool microbiota outcomes from Baseline (1-7 days of age) up to 60 days of age in healthy term infants. Infants received mother's own milk (assigned to human milk [HM] reference group) (n = 25) or were randomized to receive one of two infant formulas: amino-acid based (AAF; n = 25) or extensively hydrolyzed cow's milk protein (EHF; n = 28). Neither study formula included added Lactobacillus rhamnosus GG. DNA was extracted (Baseline, Day 30, Day 60), 16S rRNA genes were amplified and sequenced (Illumina MiSeq), and exact amplicon sequence variants (ASV) were assigned using the DADA2 model. Alpha (Shannon, Simpson, Chao1) and beta diversity (Bray Curtis distance) and differential abundance in taxa were analyzed. Relative ASV enrichment (Baseline vs Day 60) was visualized using heat maps and taxa abundance was analyzed by DESEq2 in R (ver 3.4.3). Results Complete stool data (all study time points) were available for 49 participants. Baseline alpha diversity measures were similar among groups. The HM group remained stable throughout the study. However, alpha diversity measures by Day 60 were significantly higher for AAF and EHF groups compared to HM. Significant group differences in beta diversity at Day 60 were detected (P < 0.001); AAF and EHF clustered more closely compared to the HM group. Relative Bifidobacterium abundance increased over time and was significantly enriched at Day 60 in the HM group (Figure, A). At Day 60, a significant increase in members of Firmicutes was detected for AAF and EHF groups; a decrease in Enterobacteriaceae (Escherichia) was observed for EHF (Figure, B). Conclusions Distinct patterns of early neonatal microbiome establishment were demonstrated for infants receiving mother's own milk compared to amino acid-based or extensively hydrolyzed protein infant formulas. Providing different sources of dietary protein early in life may impact gut microbiome development. Funding Sources Mead Johnson Pediatric Nutrition Institute. Supporting Tables, Images and/or Graphs
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