Clinical Trials Logo

Clinical Trial Summary

Research shows that most oral cancer patients are already locally advanced when first diagnosed. Even after surgery and radiation, nearly half of patients develop recurrence or metastasis. Even in patients who survive, there is a serious decline in quality of life due to the after-effects of surgery and radiation. Many patients therefore refuse surgery and lose the treatment opportunity. Many studies at home and abroad have found that preoperative induction chemotherapy for locally advanced tumors can reduce tumor load, reduce tumor scope, eliminate distant micro metastases, reduce the risk of recurrence and metastasis, and improve organ preservation rate. It has been confirmed in many clinical studies and our clinical practice of oral cancer MDT(Multi-Disciplinary Treatment) that induction chemotherapy with TPExtreme protocol (cetuximab + albumin-paclitaxel + cisplatin) for patients with locally advanced oral cancer can significantly reduce the tumor with a good objective response, which can create good conditions for surgery. Therefore, for patients sensitive to induction chemotherapy, there are no authoritative guidelines and clinical studies to say what is the scope of surgery. One option is for the thoroughness of the tumor resection, which is still the same as the scope of the tumor before induction therapy, but the scope of the surgery is still large, and the damage to the patient's quality of life is also serious. The other option is to perform modified radical surgery according to the scope of residual tumor lesions after induction therapy, with less trauma and less damage to the quality of life. Postoperative radiotherapy (chemical) therapy is to reduce the risk of recurrence. Our preliminary clinical practice also shows that Patients sensitive to induction chemotherapy can obtain better survival rate and quality of life after comprehensive treatment including modified radical surgery. This treatment mode is feasible, but the overall efficacy evaluation needs further study. Therefore, in this real world prospective clinical study, patients with oral cancer sensitive to induction chemotherapy will be treated with modified radical surgery or traditional radical surgery in full compliance with the patient's wishes. Through clinical observation and follow-up statistics. To explore the effects of two treatment regimens on survival rate and quality of life in order to find the best treatment mode.


Clinical Trial Description

Statistics showed that 65% of patients with oral cancer had been locally advanced when they were first diagnosed, and the tumor load was large. Even after radical surgical resection and radiotherapy, about 45% of patients with locally advanced oral cancer still have recurrence or metastasis, and the prognosis is poor. Even if the patients survive, due to the damage to tissues and organs caused by large-scale surgical excision, they often have a greater impact on the functions and appearance of the patients, such as chewing, swallowing, language, etc., the quality of life of the patients is generally poor and the medical costs are relatively high. Many studies at home and abroad have found that preoperative induction chemotherapy for advanced tumors can shrink tumor scope, eliminate distant micro metastases, reduce the risk of recurrence and metastasis, and improve organ preservation rate. It has been confirmed in many clinical practice that induction chemotherapy with TPExtreme protocol (cetuximab + albumin-paclitaxel + cisplatin) for patients with locally advanced oral cancer can significantly reduce the tumor volume with a good objective response rate (up to about 80%), which can create good conditions for surgery. The specific scheme was albumin paclitaxel 200mg/m2 D1; Cisplatin 75mg/m2, divided into 2-3 days; Cetuximab 400mg/m2 D1(250mg/m2 D8,D15), one cycle of treatment is 21 days, a total of 2 courses. However, for patients sensitive to induction chemotherapy, there has been no clear guideline on how to define the scope of surgical resection after tumor shrinkage or even disappearance, and there is also a lack of relevant clinical research to explore this. According to the RECIST 1.1 guideline for response evaluation criteria in solid tumors, equal or more than 50% reduction in lesion size can be included in this study. Patients fit the clinical trial criteria divide into two groups according to the patient's wishes. One group is radical surgery, patients receive surgery based on the tumor size before induction therapy, the other group is modified radical surgery who undergoes surgery based on the tumor size after induction therapy. Radical surgery is more extensive than modified radical surgery, and often requires mandibulectomy and internal fixation, as well as free flap transplantation to repair and reconstruct oral and maxillofacial defects, so it may need to use some special equipment. Such as titanium plate and titanium nail for internal fixation, microvascular anastomosis device, etc. However, modified radical surgery has a relatively small surgical range and is less likely to use the above devices. And during the operation, the incisal margin was 1~1.5cm outside the tumor boundary. If necessary, the lower lip and mandible could be incised, the facial skin could be excised, the mandibular bone could be segmental excision, and the defects could be repaired by pedicle or free skin (bone) flap. At the same time, improved radical neck dissection was performed on both sides of the affected neck. In operation, multiple incisal margin rapid disease examination was performed during the operation to ensure negative incisal margin and complete resection of the residual tumor lesion. Under this premise, minimize surgical trauma and preserve the patient's organs and appearance. Postoperative radiotherapy (or chemoradiotherapy) therapy to reduce the risk of recurrence. Postoperative radiotherapy was performed within 4-6 weeks after surgery. Linear accelerator/conformal intensity modulated radiotherapy was used for radiotherapy, and primary site radiotherapy was performed once a day, 5 times a week. The specific dose of radiotherapy is: PGTV(residue):66-70Gy/30-33f(2-2.2Gy/f), PGTVtb(no residue):60-66Gy/30-33f(2-2.2Gy/f) , PGTVnd/ndtb:60-70Gy/30-33f(2-2.2Gy/f), high risk PTV:60Gy/30f(2Gy/f), low risk PTV:54Gy/30f(1.8Gy/f)。Our preliminary clinical practice showed that more and more patients with oral cancer tend to accept relatively less traumatic surgical programs, and patients sensitive to induction chemotherapy can obtain better survival rates and quality of life through modified radical surgery and postoperative adjuvant radiotherapy. This treatment mode is feasible, but the overall efficacy evaluation needs further study. Therefore, in this real world prospective clinical study, patients with oral squamous cell carcinoma sensitive to induction chemotherapy will be treated with modified radical surgery or traditional radical surgery in full compliance with the patient's wishes (without any biased intervention in the patient's clinical medical treatment). Through clinical observation and follow-up statistics. To explore the effects of two treatment regimens on survival rate and quality of life in order to find the best treatment mode. ;


Study Design


Related Conditions & MeSH terms


NCT number NCT05872880
Study type Observational
Source Xiangya Hospital of Central South University
Contact anjie min
Phone 1817313127
Email 403535180@qq.com
Status Recruiting
Phase
Start date April 1, 2022
Completion date September 2026

See also
  Status Clinical Trial Phase
Recruiting NCT04543266 - Predicting Metastatic Oral Squamous Cell Carcinomas With Molecular Biomarkers Using Machine Learning
Not yet recruiting NCT06438939 - NBI for Early Diagnosis of OPMD/OSCC N/A
Recruiting NCT05024383 - Dissecting the Heterogeneity of Oral Cancer Pain N/A
Recruiting NCT06031337 - Salivary Expression of SOX7 in Oral Squamous Cell Carcinoma: Diagnostic Accuracy Study
Not yet recruiting NCT06174428 - Validity of Viome's Oral/Throat Cancer Test
Recruiting NCT05098119 - Neoadjuvant Sintilimab Combined With Reduction of Cycles of Chemotherapy in Resectable Oral Cavity or Oropharyngeal Squamous Cell Carcinoma (OOC-002) Phase 2
Recruiting NCT05069857 - Neoadjuvant Personalized Anti-PD-1 and Anti-VEGFR Therapy in OSCC Patients Phase 2
Not yet recruiting NCT03619304 - Assessment of Anti-cancerous Effect of Green, Roasted and Decaffeinated Coffee on Oral Squamous Cell Carcinoma Cell Line N/A
Active, not recruiting NCT01772706 - Laser Mucite ORL : Effectiveness of Laser Therapy for Mucositis Induced by a Radio-chemotherapy in Head and Neck Cancer N/A
Recruiting NCT05893888 - Safety and Efficacy Study of PRV211 in Subjects With Oral Squamous Cell Carcinoma Phase 1/Phase 2
Recruiting NCT05125055 - Neoadjuvant Anti-PD-1 and TP Versus TPF on Pathological Response in OSCC Phase 2/Phase 3
Not yet recruiting NCT06055868 - People Living With HIV, Oral and Oropharyngeal Cancer, and Health Equity
Not yet recruiting NCT06130007 - A Prospective, Single-arm Phase II Clinical Trial of Tislelizumab Combined With Platinum Doublet Neoadjuvant Therapy to Improve Mandibular Preservation in Resectable Locally Advanced Oral Squamous Cell Carcinoma. Phase 2
Recruiting NCT05798793 - Neoadjuvant Anti-PD-1 Immunotherapy With Chemotherapy in Resectable Locally Advanced Oral Squamous Cell Carcinoma Phase 3
Recruiting NCT02739204 - Concurrent Radiotherapy and/or Cisplatin With or Without Celecoxib in Patients With Primary Oral Squamous Cell Carcinoma Phase 2
Completed NCT05708209 - The Long Non Coding MALAT1 as a Potential Salivary Diagnostic Biomarker in Oral Squamous Cell Carcinoma Through Targeting mi RNA 124
Recruiting NCT05862168 - Neoadjuvant Treatment of Tislelizumab Combined Chemotherapy for Locally Advanced Oral Squamous Cell Carcinoma :A Single-arm, Prospective, Phase II Trial Phase 2
Recruiting NCT05451303 - Detection of Oral and Throat Cancers Using OralViome Cancer Testing System
Recruiting NCT05902455 - Differential Mobility Spectrometry (DMS) Based Oral Tumor Analysis
Not yet recruiting NCT05803915 - Neoadjuvant Toripalimab Plus Nimotuzumab in Oral Squamous Cell Carcinoma Prior to Radical Therapy Phase 2