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Thyroid cancer is the most common endocrine malignancy in the world. Generally, thyroid cancer could be divided into well-differentiated and poorly-differentiated. Well-differentiated thyroid cancers usually have two different patterns, including papillary thyroid cancer and follicular thyroid cancer. Thyroid sonography is convenient to obtain repeatedly for the images of nodular goiter. However, cytology and pathology are still the golden rules to make the final diagnosis. Under the basis of sono-guided fine needle aspiration cytology, diagnosis of papillary thyroid cancer is typically using fine needle aspiration cytology based on the presentation of typical cytologic features. On the other hand, thyroid follicular lesion cannot be interpretated via cytology because the evidence of capsular invasion or vascular permeation of capsule will not be available in fine needle aspiration cytology. Surgical intervention with pathological specimens is the only pathway to make the final diagnosis. Interestingly, both patterns of well-differentiated thyroid cancer shared the same follow-up tumor marker, i.e. serum thyroglobulin. Up to date, pre-operative diagnosis of follicular thyroid cancer is still one of the unresolved issues in endocrine oncology.
Thyroid cancer is one of the most popular malignancy in the past several decades all over the world. For poorly-differentiated thyroid cancer, therapeutic strategy of costly target therapy together with immune therapy will be the pivotal one because of its poor prognosis. The average 5-year relative survival rate of anaplastic thyroid cancer is only 3 to 31 % on the stage from distant metastasis to localized disease.
However, it will be very different for well-differentiated thyroid cancer, and the average 5-year relative survival rate of both thyroid papillary or follicular thyroid cancer is more than 98 %. Therefore, the most important treatment strategy for endocrinologists will consider the development of biomarkers for early diagnosis and postoperative follow-up, rather than measuring serum thyroglobulin alone, which is the only biomarker in the current medical guidelines, and there is no choice. Our research team tried to find the newer biomarker together with serum thyroglobulin for post-operative longitudinal follow-up of well-differentiated thyroid cancer in the past five years. The investigators used urinary exosomal proteins as target and did find several peptides to be helpful, including our published urinary exosomal thyroglobulin (UExTg). In Taiwan, goiter and thyroid cancer are prevalent diseases. Although papillary thyroid cancer could be diagnosed via reliable sono-guided fine needle aspiration cytology, follicular thyroid cancer is still an unresolved issue in daily medical practice, especially in cytology. the investigators need to find a practicably earlier biomarker, which should be convenient, non-invasive and repeatable in sample collection. In our previous research and published data, urine will be a reliable source of data.
Exosomes are nano-vesicles, containing DNA, RNA and proteins, and usually secreted by cells into extracellular spaces. Generally, the vesicles of exosomes are only 40 to 150 nm in diameter. Exosomes may carry and transfer the messages between different tissues. Now, the existing evidences revealed that exosomes may represent certain messages from malignant cells, including diagnosed biomarkers or prognostic predictors. Previously, published data of exosomal studies in thyroid cancer focused on serum microRNA, long coding RNA and circular RNA, but only few published data on peptides, which were named as liquid biopsy. However, cell-secreted exosomes of malignancy could be collected not only in plasma, body fluid, but also from urine, which is the non-invasive pathway but valuable wastes of human body. Our research group had developed experienced technique to collect urinary exosomes via our pilot study in the past several years.
Since the investigators proved the role of urinary exosomal thyroglobulin, UExTg, in post-operative follow-up in well-differentiated thyroid cancer in the past three years, from 2018-2020, the investigators also found several peptides to be the candidates of prognostic predictors in our preliminary studies, including Calprotectin A8/A9, Annexin-2, Angiopoietin-1.
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| Measure | Description | Time Frame |
|---|---|---|
| Change of serum thyroglobulin level | Thyroid function test | Within 36 months |
| Change of serum free T4 level | Thyroid function test | Within 36 months |
| Change of serum TSH level | Thyroid function test | Within 36 months |
| Change of anti-thyroglobulin level | Thyroid function test | Within 36 months |
| Urinary exosomal thyroglobulin detection | Urinary exosomal biomarker | Within 36 months |
| Urinary exosomal galectin-3 detection | Urinary exosomal biomarker | Within 36 months |
| Urinary exosomal calprotectin A9 detection | Urinary exosomal biomarker | Within 36 months |
| Urinary exosomal transketolase detection | Urinary exosomal biomarker | Within 36 months |
| Urinary exosomal keratin 19 detection |
| Measure | Description | Time Frame |
|---|---|---|
| Thyroid fine needle aspiration cytology | Urinary exosomal biomarker | Within 36 months |
| Ultrasonography of thyroid nodules | Urinary exosomal biomarker |
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Inclusion Criteria:
Exclusion Criteria:
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Clinical study was designed as prospective pattern, and enrolled patients with nodular goiter or multinodular goiter, who had received fine needle aspiration cytology and/or thyroidectomy. Cytology and complete surgical pathology survey will be recorded for cytological and surgical samples. This study will enroll 50 consecutive patients with nodular goiter or multinodular goiter in 2nd and 3rd years.
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| Name | Affiliation | Role |
|---|---|---|
| CHIH-YUAN WANG, Doctor | Department of Internal Medicine, National Taiwan University Hospital | Principal Investigator |
| Facility | Status | City | State | ZIP | Country | Contacts |
|---|---|---|---|---|---|---|
| National Taiwan University Hospital | Taipei | Taiwan |
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Urinary exosomal biomarker
| Within 36 months |
| Urinary exosomal angiopoietin-1 detection | Urinary exosomal biomarker | Within 36 months |
| Urinary exosomal tissue inhibitor of metalloproteinase detection | Urinary exosomal biomarker | Within 36 months |
| Urinary exosomal keratin 8 detection | Urinary exosomal biomarker | Within 36 months |
| Urinary exosomal calprotectin A8 detection | Urinary exosomal biomarker | Within 36 months |
| Urinary exosomal annexin II detection | Urinary exosomal biomarker | Within 36 months |
| Urinary exosomal afamin detection | Urinary exosomal biomarker | Within 36 months |
| Within 36 months |
| ID | Term |
|---|---|
| D013964 | Thyroid Neoplasms |
| D018263 | Adenocarcinoma, Follicular |
| ID | Term |
|---|---|
| D004701 | Endocrine Gland Neoplasms |
| D009371 | Neoplasms by Site |
| D009369 | Neoplasms |
| D006258 | Head and Neck Neoplasms |
| D004700 | Endocrine System Diseases |
| D013959 | Thyroid Diseases |
| D000230 | Adenocarcinoma |
| D002277 | Carcinoma |
| D009375 | Neoplasms, Glandular and Epithelial |
| D009370 | Neoplasms by Histologic Type |
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