Clinical Research Directory

Metformin Hydrochloride in Preventing Oral Cancer in Patients With an Oral Premalignant Lesion

This phase IIa trial studies how well metformin hydrochloride works in preventing oral cancer in patients with an oral premalignant lesion (oral leukoplakia or erythroplakia). Oral premalignant lesions look like red or whitish plaques or lesions in the mouth that do not rub off and can be associated with a higher risk of cancer. Metformin hydrochloride may help prevent oral cancer from forming in patients with an oral premalignant lesion.

Low-cost Screening and Image-guided Photodynamic Therapy (PDT) of Premalignant and Malignant Oral Lesions

The primary goal of this study is to see if photodynamic therapy (PDT) is effective for treatment of lesions in the oral cavity which have high risk of becoming oral cancer. PDT treatment uses a drug, called a photosensitizer, which makes the diseased cells become light-sensitive such that they are destroyed when laser light is delivered to the target lesion. In this study a new handheld device, called SITOS (a "Screen, Image and Treat Optical System), is used. The ability of this device to simultaneously visualize the inside of the mouth and deliver laser light to the target site will be evaluated. The main questions this study seeks to answer are: * Can this treatment completely cure oral potentially malignant lesions (OPML) without need for surgery? * Do lesions recur after PDT treatment? * Is the SITOS device easy to use for the doctor and comfortable for the patient, both as an oral imaging device and as a treatment device?

Comparison of Topical Photodynamic Therapy With Topical Calcipotriol in Management of Oral Leukoplakia

(i)Rationale/ gaps in existing knowledge,: Oral cancer, one of the top three common cancers in India is usually preceded by Oral potentially malignant disorders in nearly two thirds of the cases like Oral leukoplakia. OL has a high prevalence and malignant transformation rates(0.13% - 40.8%). There are no universal protocols for management in OL ranging from preventive, conservative, medical and surgical interventions. They all have limitations and high recurrence rates requiring regular follow up. (ii)Novelty: Removal of pathological lesions are believed to reduce the risk of malignant transformation in OL. Surgical methods are associated with morbidity and high recurrence rates. Non -invasive methods (like Photodynamic therapy) that can remove the abnormal lesions would be preferred as they are cheaper, convenient, safe with less morbidity and better patient acceptability. They also have the advantage of repeatability with minimum morbidity and damage to adjacent normal tissues. Non -invasive medical management involves topical application of retinoids which are associated with systemic toxicity, recurrence and development of resistance. (iii)Objectives, Primary objective: To compare the effect of 2.5% Toluidine blue mediated topical photodynamic therapy and topical calcipotriol (0.005%) on clinical response after completion of treatment at 4 weeks from baseline during management of Oral leukoplakia Secondary objectives: To compare the effect of 2.5% Toluidine blue mediated topical photodynamic therapy with topical Calcipotriol (0.005%) on lesion size, lesion roughness/ whiteness, and oral health quality of life after completion of treatment at 4 weeks and 12 weeks from baseline during management of Oral leukoplakia To compare the effect of 2.5% Toluidine blue mediated topical photodynamic therapy with topical Calcipotriol (0.005%) on salivary molecular markers ( IL6, TNF-α, PCNA, Survivin and VEGF) after completion of treatment at 4 weeks from baseline To compare the adverse events, time to complete response and recurrence rates between the two groups (iv)Methods,: An open label randomized clinical trial where Group A (n=83) will receive 4 sessions of Toludine blue mediated photodynamic therapy (Fluence 15J/cm2); GroupB (n=83) will receive twice daily tropical application of Calcipotriol (0.005%) over a period of 4 weeks. The clinical response, lesion thickness/ whiteness, lesion size /area, OHIP-14 scores, adverse events and recurrence rates will be compared with baseline at 4 weeks and 12 weeks after completion of therapy. Sterile PVA ophthalmic sponges will be used to evaluate molecular markers ( IL6, TNF-α, PCNA, Survivin VEGF) from treatment site of lesion at baseline and 4 weeks after completion of treatment by ELISA. The data will be analyzed statistically using Intention to treat and as per protocol analysis at significance levels of p\<0.05. (v)Expected outcome.: The study will validate and verify the effectiveness of the TB mediated PDT protocol in the management of OL as compared to other non invasive method of topical Calcipotriol in terms of clinical response ( complete/ partial/ none), lesion thickness/ whiteness, lesion size and it's effect on oral health quality of life. Adverse events if any and recurrence rates or malignant transformation rates will also help in assessment of safety of the protocol. The molecular markers will help to monitor and determine prognosis of the lessons following treatment.

Evaluation of the Chemo-preventive Effect of Combined Topical and Systemic Metformin on Oral Leukoplakia

There is no consensus on treatment of leukoplakia but surgical excision is the preferred choice if suitable in size, which does not prevent clinical recurrence and malignant transformation. Chemoprevention is a new direction in the management of OL using various topical and systemic agents such as; vitamin A, lycopene, celecoxib, green tea extract, and metformin. While metformin cannot realistically be used as cancer mono-therapy, it can be used as an adjunct and can have a more promising effect on lesions that have yet to undergo malignant transformation. Thus, the aim of this study is to investigate the efficacy of combined chemo-preventive effect of topical and systemic Metformin on oral leukoplakia.

Efficacy of Topical Coenzyme Q10 and Curcumin for Oral Leukoplakia Treatment

Oral leukoplakia (OL) is recognized as the most common potentially malignant disorder of the oral mucosa. The pathogenesis of OL is complex and multifactorial, with oxidative stress playing a central role. Topical antioxidants have gained attention as therapeutic options to help stabilize lesions and potentially prevent malignant transformation. Both CoQ10 and curcumin have demonstrated a clinical success as strong antioxidants showing their capacity to reduce the lesion size and to stabilize the disease, ultimately preventing progression into oral malignancy. Aim: This study aims to clinically and biochemically assess the effectiveness of topical Coenzyme Q10 and Curcumin in the management of homogeneous oral leukoplakia.

Evaluation of Artificial Intelligence in Diagnosis and Risk Assessment of Oral Potentially Malignant Disorders

Oral potentially malignant disorders (OPMDs) are mucosal lesions that carry a risk of malignant transformation into oral cancer. Unfortunately, a general lack of knowledge and awareness of OPMDs is common among general dental practitioners. While thorough clinical examinations coupled with biopsy can identify most OPMDs, the absence of reliable non-invasive diagnostic tools and standardized risk stratification often delays early diagnosis and treatment of oral squamous cell carcinoma (OSCC).Early detection of suspicious oral lesions is crucial for reducing OSCC-related mortality and improving patient outcomes. Histopathological assessment of biopsied tissue remains the gold standard for diagnosis. However, since biopsy is invasive and may be associated with patient discomfort; numerous noninvasive diagnostic technologies have emerged to enhance the detection and diagnosis of oral mucosal lesions.Toluidine blue (TB) staining is one such adjunctive tool, where the degree of color retention aids in lesion characterization. Dark blue staining is considered positive for lesions highly suspicious for malignancy; light blue retention is considered positive for premalignant lesions pending histopathological confirmation, while lesions showing no stain retention are classified as negative.Exfoliative cytology represents another non-invasive diagnostic approach, wherein cells obtained via brushing the oral mucosa are spread on a slide for cytological evaluation. This technique, widely accepted and increasingly utilized, has proven valuable for early cancer detection. Notably, confocal microscopy has demonstrated high sensitivity and specificity (93%) in detecting malignant cells in exfoliative cytology specimens. Currently, TB staining and confocal microscopy remain the most commonly utilized non-invasive screening techniques in clinical practice.In recent years, artificial intelligence (AI) applications have shown remarkable promise in oncology, achieving high diagnostic accuracy across various cancer types. Deep learning models, in particular, offer exceptional performance, suggesting that AI-based solutions may be feasible for widespread community screening programs following further validation. In many cases, AI models have produced diagnostic outcomes that match or surpass those of experienced pathologists. Moreover, the combined application of AI with expert human evaluation has been shown to reduce diagnostic errors and improve diagnostic precision, particularly for poorly differentiated tumors and rare cases.Several studies have been done using different AI Models and revealed a promising application of AI in diagnosing OPMDs and cancers in different body sites.

Pioglitazone-Metformin Combination Treatment for High Risk Oral Preneoplasia

This is a Phase IIa oral cavity leukoplakia study of pioglitazone 15mg and metformin 500mg BID for 12 weeks. The primary objective is to determine the clinical and histologic changes of leukoplakia from baseline following a 12 week course of twice daily pioglitazone-metformin. Outcomes are defined as are a reduction of the leukoplakia grade in \> 50% of treated participants and a partial or complete clinical response defined as 50% or greater reduction in the sum of measured targeted lesions. In addition, participants who show clinical and histologic improvement should correlate with a significant reduction of Ki-67 proliferative indices in lesions of these participants as compared to baseline.

Metformin for the Prevention of Oral Cancer in Patients With Oral Leukoplakia or Erythroplakia

This phase IIb trial tests whether metformin works in preventing oral cancer in patients with oral leukoplakia (white patches) or erythroplakia (red patches). Metformin is in a class of drugs called biguanides. Metformin helps to control the amount of glucose (sugar) in the blood. It decreases the amount of glucose patients absorb from food and the amount of glucose made by the liver. Metformin also increases the body's response to insulin, a natural substance that controls the amount of glucose in the blood. This trial may help researchers determine if metformin can stop changes in the mouth that are related to pre-cancer growths in the mouth.

Fenretinide Mucoadhesive Patch: Evaluation of Oral Cancer Prevention Efficacy in Adults With Premalignant Oral Lesions.

The goal of this clinical trial is to determine the effect of a mucoadhesive system that releases the vitamin A derivative, fenretinide (FMS), on precancerous surface epithelial (lining tissue inside your mouth) changes. Specifically, does application of the FMS induce specific changes: 1) reduction in the clinical size, 2) reduction in the histologic grade of precancerous changes (determined by microscopic examination), 3) reduce the nuclear LOH events (changes in copy number of key genes to prevent oral cancer). The first part of this study entails a single FMS application to persons having their wisdom teeth removed. This study is done to confirm how long the FMS needs to remain in place to release the cancer-preventive agent. Participants will: 1) Have the FMS applied over the impacted wisdom tooth for 15 minutes, 2) FMS is removed, saliva is collected, and blood is drawn from a vein in the arm. 3) Tissue overlying the impacted wisdom tooth is removed and analyzed. The second, multi-FMS application entails patients who have precancerous oral surface epithelial changes. These patients will have: 1) a piece of the precancerous tissue removed (biopsy) and examined under a microscope to ensure the diagnosis. Blood is drawn from a vein in the arm., 2) One week after the biopsy, return to discuss the results. If the changes are precancerous, this person will be given FMS to apply to the site twice a day. 3) Patients return every 7 to 10 days (for a total of six weeks) for an oral exam and clinical pictures, return the FMS, and obtain new FMS for the upcoming week., 4) At week 3 (midway), blood is drawn from a vein in the arm., 5) After the six weeks of treatment, clinical pictures are obtained, blood is drawn from a vein in the arm and all of the remaining treated tissue is completely removed. The patient is securely contacted and results are discussed. 6) Approximately 6 weeks after the final surgery, patients return for a complete oral examination and clinical pictures are obtained.

SYsteMatical Trained learnIng aLgorithms for Oral carcInogenesiS Interpretation by Optical Coherence Tomography

This clinical trial aims to assess the efficacy of Optical Coherence Tomography (OCT) in the early diagnosis of oral cancer. It focuses on Oral Potentially Malignant Disorders (OPMDs) as precursors to Oral Squamous Cell Carcinoma (OSCC). Despite the availability of oral screening, diagnostic delays persist, underscoring the importance of exploring non-invasive methodologies. The OCT technology provides cross-sectional analysis of biological tissues, enabling a detailed evaluation of ultrastructural oral mucosal features. The trial aims to compare OCT preliminary evaluation with traditional histology, considered the gold standard in oral lesion diagnosing. It seeks to create a database of pathological OCT data, facilitating the non invasive identification of carcinogenic processes. The goal is to develop a diagnostic algorithm based on OCT, enhancing its ability to detect characteristic patterns such as the keratinized layer, squamous epithelium, basement membrane, and lamina propria in oral tissues affected by OPMDs and OSCC. Furthermore, the trial aims to implement Artificial Intelligence (AI) in OCT image analysis. The use of machine learning algorithms could contribute to a faster and more accurate assessment of images, aiding in early diagnosis. The trial aims to standardize the comparison between in vivo OCT images and histological analysis, adopting a site-specific approach in biopsies to improve correspondence between data collected by both methods. In summary, the trial not only evaluates OCT as a diagnostic tool but also aims to integrate AI to develop a standardized approach that enhances the accuracy of oral cancer diagnosis, providing a significant contribution to clinical practice.

Prediction of Malignant Transformation of Oral Leukoplakia Using a MAGE-A-based Immunoscore

Oral squamous cell carcinomas (OSCC) is among the most common malignancies worldwide. Early detection and prevention of OSCC is thought to have the highest potential to reduce morbidity and mortality. In prevention, the main focus is on precancerous lesions, especially oral leukoplakia (OLP), as up to 67% of OSCC arise on the basis of OLP. The determination of the transformation risk of OLP by histological determination of the degree of dysplasia is unreliable. A promising marker for the timely development of a OSCC is the detection of antigens of the MAGE-A gene family. The special feature of MAGE-A is that they can be detected in 93% of all OSCC and in approx. 85% of OLP that transform to OSCC. The detection of MAGE-A could also indicate changes in the immunological environment that occur prior to malignant OLP transformation and could be used for immunotherapies. Aim of this study is to investigate MAGE-A as a predictive marker for the malignant transformation of OLP in the setting of a prospective, multicenter study and to establish it as a diagnostic parameter in addition to classical histology. In addition, the association of MAGE-A expression with the occurrence of immunological changes in OLP will be investigated in order to evaluate the possibility of minimally invasive immunotherapy of OLP. The study is intended to include 500 biopsies of non-selected patients with OLP from university institutions and private practices. The follow-up should be at least 3 years, whereby it is examined whether an OSCC on the basis of the original OLP developed. After three years, an interim evaluation of the results with statistical evaluation will be carried out. In order to ensure that the course of the disease is monitored for at least three years for all OLPs, an extension of the monitoring period to 5 years is planned. The study could establish a routine diagnostic parameter to supplement the histo-morphological diagnosis of OLP and evaluate the possibility of immunotherapy of OLP.