Clinical Trials Logo

Clinical Trial Summary

These treatments are beta-glucans, polysaccharides of beta-D-glucose that, can influence the clearance of HPV infection. The objective of this study is to evaluate the efficacy of a gel with Carboxymethyl - β -Glucan and polycarbophil when applied intravaginally regarding the clearance of HPV infection.


Clinical Trial Description

Background Human papillomavirus (HPV) infection represents a significant source of morbidity and mortality worldwide. High-risk oncogenic HPVs cause 99.7% of cervical cancers. 80% of sexually active women will be infected with HPV at some point in their life. Most of these infections are transitory and only if they are persistent and caused by a high-risk oncogenic HPV are they an important risk factor for the development of cervical intraepithelial lesions and invasive cervical cancer. Immunity plays a key factor in eliminating HPV infection. The innate immune response constitutes the first line of defense against infection during the early stages of infection, promoting a cytokine-mediated inflammatory response which links innate immunity with the adaptive immune response. HPV evasion of these immune defense mechanisms is critical for the persistence of the infection and leads to the development of preneoplastic lesions and ultimately to cervical cancer. Through the use of adjuvant medical treatments represents a therapeutic strategy to avoid the evasion mechanisms of HPV. One of these most promising treatments is beta-glucans that seem capable of affecting the course of HPV infection. Justification β-glucans are a very diverse heterogeneous group of polysaccharides made up of D-glucose monomers linked by β-type glycosidic bonds. β-glucans have been previously described in bacteria, fungi, yeasts (including brewer's yeast), plants and algae, where they play an important structural role in the cell wall or reservoir. There are more than 6000 studies that have described the effects of glucans, mainly those of β-1,3 bonds, such as anti-inflammatory and antimicrobial properties. At least 4 receptors have been identified in mammals for the recognition of these molecules: lactosylceramide, scavengers, complement receptor 3 and dectin-1. Commercial production of 1,3-β-glucans has been carried out by cultivating bacteria, yeasts, fungi, and plants. Recent studies focusing on their influence on cytotoxic and helper T cells, APCs, inflammatory pathways, and oxidative burst (using reactive oxygen species to kill cells) have revealed that they may also have some anti-cancer properties. Some efforts have been made in the field of cervical cancer prevention and it has been shown that β-glucans can also affect HPV infection. Carboxymethyl β-glucan gel treatment was studied in a group of affected individuals by CIN1. This case-control study demonstrated that it has an anti-cervical cancer role in CIN1 regression. In 2010, two studies were conducted on the topic of "the influence of β-glucans" on HPV-related lesions in the genital area. "The first study found that β-glucans can treat infection-related lesions and the second study revealed the efficacy of beta-glucan treatment for HPVCIN1 lesions. These studies suggested that, in addition to the anticancer effects of beta-glucans, they also have some effects on infection by HPV, the main cause of cervical cancer. On the other hand, the local treatment of vaginal problems has been known since ancient times, and more recently it has been favored over oral treatments due to the achievement of higher local concentrations of drugs and fewer interactions of the active principles and interference with the gastrointestinal tract. Vaginal products are marketed in the form of tablets, capsules, pessaries or ovules and semisolid forms (creams, ointments and gels), being available as products for the treatment and prevention of vaginal infections. Conventional dosage forms are associated with poor distribution and retention, primarily due to the self-cleaning action of the vagina. Among the commercialized dosage forms, semisolids, in particular gels, have been considered the preferred ones as they spread easily over the vaginal surface area. Additionally, due to their high water content, they confer moisture and lubrication effects that help alleviate the symptoms of conditions associated with vaginal dryness. Bioadhesion refers to the binding of natural or synthetic macromolecules to a biological tissue. Mucoadhesion is considered a particular case of bioadhesion whenever the binding occurs with mucous glycoproteins (mucin) or mucous membranes. The translation of these concepts into pharmaceutical technology has been widely studied through the use of bioadhesive polymers. Among the most used in vaginal formulations are polyacrylates (such as carbomers and polycarbophils), cellulose derivatives (hydroxyethylcellulose (HEC), hydroxypropylcellulose (HPC), hydroxypropylmethylcellulose (HPMC), etc.), chitosan, hyaluronic acid and its derivatives, starch, pectin, natural gums and sodium alginate. In addition to increasing the retention time of vaginal formulations, thus promoting therapeutic duration and efficacy and improving patient comfort and adherence, these excipients also allow controlled drug release, thus improving local pharmacokinetics. Polycarbophil and carbomer (polyacrylate) vaginal applications have been specially studied in vitro and in vivo, and have been included in various proprietary formulations as well as actual marketed products. These polymers have the additional advantage of being acidic, allowing the correction and maintenance of vaginal pH, and their acid-buffering capacity has been explored as a strategy for the treatment of bacterial vaginosis and the prevention of vaginosis recurrence for prevent the proliferation of pathogens, while promoting the restoration of the protective flora of Lactobacillus. Polycarbophil, in particular, has been widely used for its bioadhesive properties, especially after a 1-3% polycarbophil gel was shown to maintain vaginal acidity for 3-4 days after a single application in postmenopausal women and A polycarbophil-carbomer vaginal gel was proven in women with suspected and confirmed bacterial vaginosis to show a reduction in vaginal pH in both trials, and a high clinical cure rate in confirmed vaginosis cases compared to placebo. The objective of this study is to evaluate the efficacy of a gel with Carboxymethyl - β -Glucan and polycarbophil when applied intravaginally regarding the clearance of HPV infection. ;


Study Design


Related Conditions & MeSH terms


NCT number NCT04781023
Study type Interventional
Source Uriach Consumer Healthcare
Contact Jesus de la Fuente Valero, MD
Phone +34669264966
Email jesus.fuente@salud.madrid.org
Status Not yet recruiting
Phase N/A
Start date June 15, 2021
Completion date September 1, 2023

See also
  Status Clinical Trial Phase
Recruiting NCT05329961 - Immunogenicity of the 9vHPV Vaccination 2-dose Regimen Among Children 4 to 8 Years Old, An Exploratory Immunogenicity Study Early Phase 1
Completed NCT05862844 - Promise Women Project N/A
Active, not recruiting NCT04199078 - Clinical Trial to Explore Papilocare Gel Efficacy to Repair of the Cervico-vaginal Mucosa With HPV High Risk Lesions. N/A
Recruiting NCT05566106 - Anal Follow-up of Patients With a Gynecological History of High-grade Lesion and More Induced HPV
Not yet recruiting NCT06436274 - Efficacy of Human Papillomavirus (HPV) Vaccination to Prevent Infection Among Women Living With HIV. Phase 4
Not yet recruiting NCT06229353 - Developing and Evaluating a Novel Approach to Improve HPV Vaccination Coverage Among High-risk, Under-immunized Adults Via the Emergency Department
Completed NCT01757392 - Candin Safety & Efficacy Study for the Treatment of Warts Phase 2
Active, not recruiting NCT04716127 - A Proximity-incentive Strategy for Cervical Cancer Screening N/A
Recruiting NCT05210348 - Clinical Evaluation of Detection of High Risk HPV in Urine
Recruiting NCT05835947 - Anal Cancer Risk In Women
Not yet recruiting NCT03947775 - HPV-SAVE_Merck_Sub-Study for Preventing Recurrence of HSIL Phase 2
Terminated NCT03404310 - Zinc Sulfate for Human Papillomavirus (HPV) N/A
Recruiting NCT03302858 - A Safety and Efficacy Trial of Circumferential Anal Canal Radiofrequency Ablation for High-Grade Anal Intraepithelial Neoplasia Using the BARRX™ Anorectal Wand Phase 2
Completed NCT03082950 - HPV Infections, Cancer of the Vulva and Therapeutical Success
Active, not recruiting NCT04950101 - Prevalence of Anal High-risk Human Papilloma Virus Infection and Abnormal Anal Cytology in Men Who Have Sex With Men Using Pre Exposure Prophylaxis N/A
Recruiting NCT05146895 - A Cohort Study of Hyperthermia and Imiquimod for the Treatment of Flat Warts N/A
Completed NCT04002154 - Clinical Trial to Explore the Papilocare Gel Efficacy to Repair the Cervico-vaginal Mucosa With Lesions Caused by HPV N/A
Recruiting NCT04232917 - Study of 2LPAPI® on the Clearance of Genital HR-HPV Infections. Phase 4
Active, not recruiting NCT03729518 - TORS De-Intensification Protocol Version 2.0: Dose and Volume Reduction in the Neck N/A
Recruiting NCT05640700 - Vaginal Microbiome and HPV Pre-malignant and Cervical Dysplasia