Melanoma Clinical Trial
Official title:
Sentinel Node Localisation and Staging With Superparamagnetic Iron Oxide-enhanced MRI and Magtrace®/Sentimag® in Patients With Malignant Melanoma of the Extremities. The MAGMEN Feasibility Study
To evaluate the use of superparamagnetic iron oxide (Magtrace®) as a tracer in sentinel node biopsy in malignant melanoma of the extremities, and to evaluate the possible role of Magtrace®-MRI for staging. Primary objective: • To evaluate if Magtrace®/Sentimag® can be used to identify SN in malignant melanoma with the same diagnostically reliability as the currently used method of Technetium 99m and Patent blue. Secondary objectives: • To evaluate if Magtrace®-MRI can predict sentinel node status in melanoma. This is a feasibility phase I, interventional single arm study. All patients included in the study will receive the same management. 20 patients will be included in the study. An enrollment time of 6-12 months is expected. Primary endpoint • To determine the detection rate of Magtrace®/Sentimag® in comparison to SNB using technetium and blue dye in patients with malignant melanoma of the extremities. Secondary endpoint • To evaluate Magtrace®-MRI sensitivity and specificity as a preoperative tool for staging in malignant melanoma.
Background Sentinel node biopsy (SNB) is a well-established technique for nodal staging of malignant disease, including breast cancer and malignant melanoma. The sentinel node (SN) is the first lymph node to receive cancer cells in a given lymph node basin. The status of the SN is often the most important prognostic factor, and determines potential adjuvant therapy and follow-up. The SN is detected by injection of a radioactive isotope (Technetium 99m) and a blue dye around the tumour or the scar following primary resection. This is achieved by a lymphoscintigraphy which is usually performed the day before surgery which necessitates a nuclear medicine department. At the time of surgery, a blue dye (Patent blue) is injected at the same area prior to incision. Thereafter the SN is identified by a handheld gamma-probe and the dye which colours the sentinel node blue. The so called hot and blue lymph node is removed surgically and sent to pathology for staging. The mortality of cutaneous malignant melanoma is high, especially when diagnosed in an advanced stage [4]. Accurate staging and prediction of outcome largely depend on the identification and examination of the SN. SNB is recommended in Sweden for melanomas with a Breslow thickness more than 1 mm. About 20% of SNs in patients with melanoma are positive, which affects follow-up and also potentially adjuvant therapies that recently have been approved. SNB is a surgical technique with associated risk for complications, mainly seroma, infections and lymph-edema. If nodal status could be determined by imaging, the dissection of the sentinel node biopsy could be avoided. However, current imaging techniques, such as MRI, CT and ultrasound are not accurate enough to stage the lymph nodes preoperatively. Motomura et al. recently reported a technique where superparamagnetic iron-oxide (SPIO) is injected into the tumour in patients with breast cancer, followed by MRI scan. They found a 100% sensitivity and 96% specificity for node staging when being compared to SNB. There has been an increasing interest in using SPIO for identifying the sentinel node in breast cancer and recent publications showed great accuracy when SPIO was used as the only tracer. The agent was injected intra tumoral or subcutaneously under the areola before surgery and the SN(s) was/were detected by use of a handheld probe (Sentimag, Endomagnetics Ltd). The Sentimag is a magnetometer, which measures the strength of the magnetic field created by the iron oxide particles in the SPIO. It is a handheld device that signals when it is close enough to a magnetic field. The method was compared for feasibility and sensitivity to the current method used for identifying the SN (Technetium and Patent blue) and it was found to be at least as reliable and accurate. Concerning melanoma, the SPIO method has not been used except recently when the MELAMAG trial was published. SPIO was compared to blue dye and radioisotope for identification of sentinel node in clinically node negative patients with melanoma. 97.7% of patients had a sentinel node identified with the standard technique, whereas 95.3% were identified with the magnetic tracer. In view of these results, using SPIO as the only tracer to identify the sentinel node, in melanoma patients, instead of the double technique, could also be feasible. This could also be combined to SPIO MRI before surgery so as to evaluate this as a non-interventional method. The primary aim of this study is to evaluate the detection rate of SPIO (Magtrace®) in patients with melanoma of the extremities compared to technetium and blue dye. The secondary aim is to evaluate the specificity and sensitivity of SPIO (Magtrace®)-MRI. STUDY OBJECTIVES AND DESIGN Study Objectives Primary objective • To evaluate if Magtrace®/Sentimag® can be used to identify SN in malignant melanoma with the same diagnostically reliability as the currently used method of Technetium 99m and Patent blue. Secondary objectives To evaluate if Magtrace®-MRI can predict sentinel node status in melanoma. Study design Patients diagnosed with malignant melanoma of the extremities being candidates for wide local excision and SNB, will be considered for enrollment. Patients should have a primary melanoma located to one extremity, without clinically suspected lymph nodes metastasis on palpation and be planned for a SNB. A total of 20 patients that complete the study will be included. The study will be presented both by verbal and written means by one of the investigators. If the patient accepts enrolment, a written informed consent will be signed by both parties. Patients will undergo an MRI of the lymph node basin (axillary or inguinal). Then they will receive an interstitial injection of Magtrace® with or without local anaesthesia up to a total of 2 ml divided in 4 doses injected in 4 quadrants around the previous excision scar. Care shall be taken for the injection not to exceed the excision area and thus cause a permanent skin discoloration after the wide local excision. After a minimum of 2 hours a new MRI (Magtrace®-MRI) of the same lymph node basin will be performed. The surgery will be scheduled within 7 days from the Magtrace® injection. The results of the Magtrace®-MRI will be evaluated to decide potential SNs and their status with the radiologist prior to surgery. The SN will be considered non-metastatic (negative) if it shows homogenous, low intensity signal on T2 weighted images compared to pre- Magtrace® images. A node will be considered as metastatic (positive) if the whole node or parts of it does not show a low intensity signal on T2 weighted image or if there is a high signal on water excitation compared to pre- Magtrace® images.All SNs identified by MRI will be considered for excision if they can be identified by using the Sentimag® probe. A lymphoscintigraphy with Technetium-99m will be performed the day before surgery, in accordance to our current practice. Results will be investigated thoroughly and compared to the Magtrace®-MRI results, in order to identify discrepancies between the two methods. During surgery, the current double technique, with the gamma probe and the blue dye, will be combined with the Sentimag, Endomagnetics Ltd probe and the intraoperative findings will be registered and analysed by the investigators, so as to test the feasibility of the method in comparison to the double method. All the nodes harvested will be sent to pathology and the final results will be compared to the Magtrace®-MRI results prior to surgery. CRF will be completed at the end of surgery and then when definitive pathology report is available. Data from all 20 patients included in this trial will be analysed at the end of the study. Patients will be followed according to clinical routine, no specific follow-up is required for this study. ;
Status | Clinical Trial | Phase | |
---|---|---|---|
Recruiting |
NCT05094804 -
A Study of OR2805, a Monoclonal Antibody Targeting CD163, Alone and in Combination With Anticancer Agents
|
Phase 1/Phase 2 | |
Completed |
NCT03979872 -
Risk Information and Skin-cancer Education for Undergraduate Prevention
|
N/A | |
Recruiting |
NCT04986748 -
Using QPOP to Predict Treatment for Sarcomas and Melanomas
|
||
Enrolling by invitation |
NCT00068003 -
Harvesting Cells for Experimental Cancer Treatments
|
||
Recruiting |
NCT05707286 -
Pilot Study to Determine Pro-Inflammatory Cytokine Kinetics During Immune Checkpoint Inhibitor Therapy
|
||
Active, not recruiting |
NCT05470283 -
Phase I, Open-Label, Study of Tumor Infiltrating Lymphocytes Engineered With Membrane Bound IL15 Plus Acetazolamide in Adult Patients With Metastatic Melanoma
|
Phase 1 | |
Recruiting |
NCT05077137 -
A Feasibility Study Utilizing Immune Recall to Increase Response to Checkpoint Therapy
|
Phase 1 | |
Active, not recruiting |
NCT02721459 -
XL888 + Vemurafenib + Cobimetinib for Unresectable BRAF Mutated Stage III/IV Melanoma
|
Phase 1 | |
Completed |
NCT00341939 -
Retrospective Analysis of a Drug-Metabolizing Genotype in Cancer Patients and Correlation With Pharmacokinetic and Pharmacodynamics Data
|
||
Recruiting |
NCT05839912 -
Excision of Lymph Node Trial (EXCILYNT) (Mel69)
|
N/A | |
Recruiting |
NCT04971499 -
A Study of Dapansutrile Plus Pembrolizumab in Patients With PD-1 Refractory Advanced Melanoma
|
Phase 1/Phase 2 | |
Recruiting |
NCT05263453 -
HL-085+Vemurafenib to Treat Advanced Melanoma Patients With BRAF V600E/K Mutation
|
Phase 2 | |
Active, not recruiting |
NCT05060432 -
Study of EOS-448 With Standard of Care and/or Investigational Therapies in Participants With Advanced Solid Tumors
|
Phase 1/Phase 2 | |
Not yet recruiting |
NCT06413680 -
A First-In Human (FIH) Trial to Find Out if REGN10597 is Safe and How Well it Works for Adult Participants With Advanced Solid Organ Malignancies
|
Phase 1/Phase 2 | |
Completed |
NCT03348891 -
TNF in Melanoma Patients Treated With Immunotherapy
|
N/A | |
Terminated |
NCT03399448 -
NY-ESO-1-redirected CRISPR (TCRendo and PD1) Edited T Cells (NYCE T Cells)
|
Phase 1 | |
Completed |
NCT03171064 -
Exercise as a Supportive Measure for Patients Undergoing Checkpoint-inhibitor Treatment
|
Phase 2 | |
Not yet recruiting |
NCT05539118 -
Interferon-α1b Combined With Toripalimab and Anlotinib Hydrochloride in Advanced Unresectable Melanoma
|
Phase 1/Phase 2 | |
Recruiting |
NCT05171374 -
pRospective Evaluation of Clinical Outcomes in Patients With metAsTatIс melanOma Treated With dabrafeNib and trAmetinib in reaL practicE
|
||
Withdrawn |
NCT02854488 -
Yervoy Pregnancy Surveillance Study
|