A Taiwanese Oncogenetic Panel and Integrated Clinical Data Registry Study for Advanced Thyroid Cancer Patients (TOPICS-THYROID)

Last updated: November 21, 2023
Sponsor: National Health Research Institutes, Taiwan
Overall Status: Active - Recruiting

Phase

N/A

Condition

Thyroid Cancer

Treatment

A Taiwanese Oncogenetic Panel and Integrated Clinical Data Registry Study for Advanced Thyroid Cancer Patients

Clinical Study ID

NCT05541380
T2322
  • Ages > 20
  • All Genders

Study Summary

Because one cancer type may harbor various genetic aberrations, it is not enough to check only one or a few genes for a patient to choose the adequate treatment. Because the advance in multiplex genomic testing, several NGS-based cancer-associated genetic panel tests (oncopanel) have been developed and used to identify the genetic alterations, particularly the actionable genes, in each patient. Large scale checks of oncopanel have been executed in US. The study showed the genetic alterations in various cancer types and 11% of the patients had further molecular targeted therapy based on the result of the oncopanel test. Similar program was also conducted in Japan. Moreover, the oncopanel tests have been implicated in their clinical practice and the cost was reimbursed by the government of Japan and Korea recently. Precision medicine and such personalized treatment is the trend of cancer treatment. The trend of such treatment patterns is also observed in Taiwan. The genetic background for cancer treatment may also be different among different areas and races. There is short of genetic alteration data in Taiwanese cancer patients. To understand the landscape of genetic aberrations of cancer in Taiwan, large scale survey of the cancer patients is indicated. investigators propose to evaluate the landscape of genetic aberrations in cancer patients via oncopaenl test and collect the clinical data of the patients. The result of the oncopanel test will be provided to patients and their attending physicians as reference for their further treatment. In addition, investigators want to correlate the clinical outcome with the genetic aberrations of the cancer patients in Taiwan. Thyroid cancers are divided into differentiated thyroid cancer (DTC), medullary and anaplastic carcinoma. The majority of the patients are DTC. Different from other cancer type, radioactive iodine (RAI) therapy is usually the main treatment for advanced DTC. Multitargeted kinase inhibitors are indicated for advanced DTC refractory to RAI therapy and advanced medullary thyroid cancer. For anaplastic thyroid cancer, the prognosis is poor in spite of chemotherapy or radiation therapy. BRAF or NTRK targeted therapies are suggested if the patients have these genetic aberrations. Thyroid cancer patients have various genetic aberrations, including BRAF, RAS, RET, NTRK and others. Various gene specific kinase inhibitors have been developed and demonstrated the efficacy for the treatment of advanced thyroid cancer in addition to current standard therapies. Thyroid cancer is a cancer type with high percentage of driver gene aberration, however the genetic landscape of thyroid cancer is not well understood in Taiwan. In the current study, investigators want to investigate the genetic aberrations of advanced thyroid cancers by performing the NGS oncopanel.

Eligibility Criteria

Inclusion

Inclusion Criteria: Cohort A:

  1. Pathologically confirmed papillary thyroid carcinoma (PTC).
  2. The patient is in advanced stage, which includes recurrent, metastatic, unresectable,or persistent disease.
  3. The patients are RAI-refractory* or ineligible for RAI therapy**. *The definitions of RAI-refractory are one of the following criteria: no uptake of RAIin the tumor, uptake of RAI in some tumors but no uptake in other tumors, diseaseprogression in spite of RAI uptake in the tumors, or accumulated RAI dose ≥ 600 mCi. **the definitions of ineligible for RAI therapy are one of the following criteria:patients are unable to have RAI therapy due to some reasons, such as not receivedtotal thyroidectomy, unable to receive total thyroidectomy, or unable to haveself-care in the isolation room.
  4. The patient needs systemic therapy.
  5. There are archived tumor samples available and the date of archived tumor samplingmust be not more than 5 years from screening date. If there is no archived tumorsample available or the tumor sampling date is more than 5 years from screening date,re-biopsy is needed. If the quality of tumor sample is not fit for NGS oncopanel test,re-biopsy is needed.
  6. Age ≥ the legal age.
  7. Life expectancy greater than 6 months.
  8. Capable of understanding and complying with the protocol requirements and signedinformed consent. Cohort B:
  9. Pathologically confirmed differentiated thyroid cancer (DTC) other than PTC, whichincludes follicular thyroid cancer (FTC), Hurthle cell carcinoma, andpoorly-differentiated thyroid cancer.
  10. The patient is in advanced stage, which includes recurrent, metastatic, unresectable,or persistent disease.
  11. The patients are RAI-refractory* or ineligible for RAI therapy**. *The definitions of RAI-refractory are one of the following criteria: no uptake of RAIin the tumor, uptake of RAI in some tumors but no uptake in other tumors, diseaseprogression in spite of RAI uptake in the tumors, or accumulated RAI dose ≥ 600 mCi. **the definitions of ineligible for RAI therapy are one of the following criteria:patients are unable to have RAI therapy due to some reasons, such as not receivedtotal thyroidectomy, unable to receive total thyroidectomy, or unable to haveself-care in the isolation room.
  12. The patient needs systemic therapy.
  13. There are archived tumor samples available and the date of archived tumor samplingmust be not more than 5 years from screening date. If there is no archived tumorsample available or the tumor sampling date is more than 5 years from screening date,re-biopsy is needed. If the quality of tumor sample is not fit for NGS oncopanel test,re-biopsy is needed.
  14. Age ≥ the legal age.
  15. Life expectancy greater than 6 months.
  16. Capable of understanding and complying with the protocol requirements and signedinformed consent. Cohort C:
  17. Pathologically confirmed medullary thyroid carcinoma (MTC).
  18. The patient is in advanced stage, which includes recurrent, metastatic, unresectable,or persistent disease.
  19. There are archived tumor samples available and the date of archived tumor samplingmust be not more than 5 years from screening date. If there is no archived tumorsample available or the tumor sampling date is more than 5 years from screening date,re-biopsy is needed. If the quality of tumor sample is not fit for NGS oncopanel test,re-biopsy is needed.
  20. Age ≥ the legal age.
  21. Life expectancy greater than 6 months.
  22. Capable of understanding and complying with the protocol requirements and signedinformed consent. Cohort D:
  23. Pathologically confirmed anaplastic thyroid carcinoma (ATC).
  24. There are archived tumor samples available and the date of archived tumor samplingmust be not more than 5 years from screening date. If there is no archived tumorsample available or the tumor sampling date is more than 5 years from screening date,re-biopsy is needed. If the quality of tumor sample is not fit for NGS oncopanel test,re-biopsy is needed.
  25. Age ≥ the legal age.
  26. Capable of understanding and complying with the protocol requirements and signedinformed consent. Cohort E: The patients who had performed large NGS oncopanel test (ACTOnco) previously meet all theinclusion criteria of cohort A, B, C or D except the criteria of archived tumor samplerequirement. These patients do not need to take archived tumor sample for NGS oncopaneltest but need to take archived tumor sample for TERT promoter mutation and peripheral bloodsampling.

Exclusion

Exclusion Criteria: Cohort A:

  1. Inability and unwillingness to give informed consent.
  2. The patients have no evidence of disease before systemic treatment.
  3. The patients have stable residual disease or metastatic disease without progressionand do not need systemic therapies.
  4. The patients do not intend to have systemic therapies.
  5. Patients do not agree to provide archived tumor samples and blood samples or they donot agree to do tumor biopsy when archived tumor samples are not available orinadequate for NGS oncopanel test.
  6. The date of archived tumor sampling is more than 5 years from screening date.
  7. Patients refuse for collection of clinical data and follow-up.
  8. Mental status is not fit for further treatment or data collection. Cohort B:
  9. Inability and unwillingness to give informed consent.
  10. The patients have no evidence of disease before systemic treatment.
  11. The patients have stable residual disease or metastatic disease without progressionand do not need systemic therapies.
  12. The patients do not intend to have systemic therapies.
  13. Patients do not agree to provide archived tumor samples and blood samples or they donot agree to do tumor biopsy when archived tumor samples are not available orinadequate for NGS oncopanel test.
  14. The date of archived tumor sampling is more than 5 years from screening date.
  15. Patients refuse for collection of clinical data and follow-up.
  16. Mental status is not fit for further treatment or data collection. Cohort C:
  17. Inability and unwillingness to give informed consent.
  18. The patients have no evidence of disease before systemic treatment.
  19. Patients do not agree to provide archived tumor samples and blood samples or they donot agree to do tumor biopsy when archived tumor samples are not available orinadequate for NGS oncopanel test.
  20. The date of archived tumor sampling is more than 5 years from screening date.
  21. Patients refuse for collection of clinical data and follow-p.
  22. Mental status is not fit for further treatment or data collection. Cohort D:
  23. Inability and unwillingness to give informed consent.
  24. Patients do not agree to provide archived tumor samples and blood samples or they donot agree to do tumor biopsy when archived tumor samples are not available orinadequate for NGS oncopanel test.
  25. The date of archived tumor sampling is more than 5 years from screening date.
  26. Patients refuse for collection of clinical data and follow up. Cohort E: The patients do not meet all exclusion criteria of cohort A, B, C, or D except forproviding archived tumor sample.

Study Design

Total Participants: 300
Treatment Group(s): 1
Primary Treatment: A Taiwanese Oncogenetic Panel and Integrated Clinical Data Registry Study for Advanced Thyroid Cancer Patients
Phase:
Study Start date:
August 29, 2022
Estimated Completion Date:
December 31, 2030

Study Description

Cancer is the most common cause of death in Taiwan since 1982. The incidence of cancer is increasing worldwide, including Taiwan. Cancers in early stage can usually be treated by surgery with a good prognosis. However, the prognosis for recurrent, locally advanced or metastatic cancers is poor with a shorter survival. Systemic treatments are usually indicated for these patients. Chemotherapy is the mainstay for advanced cancer patients. However, the advances in the understanding of cancer biology and identification of targeted therapeutics not only increase the treatment strategies of cancer but also improve the survival and quality of life of the cancer patients. There are more and more molecularly targeted therapy developed and approved for the treatment of advanced cancer patients currently, which makes the beginning of precision cancer medicine. There are more and more treatments can be used based on the genetic aberrations of the cancers. Because one cancer type may harbor various genetic aberrations, it is not enough to check only one or a few genes for a patient to choose the adequate treatment. Because the advance in multiplex genomic testing, several NGS-based cancer-associated genetic panel tests (oncopanel) have been developed and used to identify the genetic alterations, particularly the actionable genes, in each patient. Large scale checks of oncopanel have been executed in US. The study showed the genetic alterations in various cancer types and 11% of the patients had further molecular targeted therapy based on the result of the oncopanel test. Similar program was also conducted in Japan. Moreover, the oncopanel tests have been implicated in their clinical practice and the cost was reimbursed by the government of Japan and Korea recently. Precision medicine and such personalized treatment is the trend of cancer treatment. The trend of such treatment patterns is also observed in Taiwan. The genetic background for cancer treatment may also be different among different areas and races. There is short of genetic alteration data in Taiwanese cancer patients. To understand the landscape of genetic aberrations of cancer in Taiwan, large scale survey of the cancer patients is indicated. investigators propose to evaluate the landscape of genetic aberrations in cancer patients via oncopaenl test and collect the clinical data of the patients. The result of the oncopanel test will be provided to patients and their attending physicians as reference for their further treatment. In addition, investigators want to correlate the clinical outcome with the genetic aberrations of the cancer patients in Taiwan. Thyroid cancers are divided into differentiated thyroid cancer (DTC), medullary and anaplastic carcinoma. The majority of the patients are DTC. Different from other cancer type, radioactive iodine (RAI) therapy is usually the main treatment for advanced DTC. Multitargeted kinase inhibitors are indicated for advanced DTC refractory to RAI therapy and advanced medullary thyroid cancer. For anaplastic thyroid cancer, the prognosis is poor in spite of chemotherapy or radiation therapy. BRAF or NTRK targeted therapies are suggested if the patients have these genetic aberrations. Thyroid cancer patients have various genetic aberrations, including BRAF, RAS, RET, NTRK and others. Various gene specific kinase inhibitors have been developed and demonstrated the efficacy for the treatment of advanced thyroid cancer in addition to current standard therapies. Thyroid cancer is a cancer type with high percentage of driver gene aberration, however the genetic landscape of thyroid cancer is not well understood in Taiwan. In the current study, investigators want to investigate the genetic aberrations of advanced thyroid cancers by performing the NGS oncopanel. Then investigators can understand the genetic aberrations of these patients in Taiwan and help search potential treatment targets for these patients.

Connect with a study center

  • Kaohsiung Medical University Chung-Ho Memorial Hospital

    Kaohsiung,
    Taiwan

    Site Not Available

  • Kaohsiung Veterans General Hospital

    Kaohsiung,
    Taiwan

    Site Not Available

  • China Medical University Hospital

    Taichung,
    Taiwan

    Site Not Available

  • National Cheng Kung University Hospital

    Tainan,
    Taiwan

    Active - Recruiting

  • National Taiwan University Cancer Center

    Taipei,
    Taiwan

    Site Not Available

  • National Taiwan University Hospital

    Taipei,
    Taiwan

    Site Not Available

  • Taipei Veterans General Hospital

    Taipei,
    Taiwan

    Site Not Available

  • Tri-service General Hospital

    Taipei,
    Taiwan

    Site Not Available

  • Linkou Chang Gung Memorial Hospital

    Taoyuan,
    Taiwan

    Site Not Available

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