Active surveillance as a management strategy for papillary thyroid microcarcinoma

Definition of AS

AS refers to the life-long application of meticulous diagnostic modalities to check for changes in the status of a disease without immediate therapeutic measures until the progression of the disease is evident. AS is a treatment option that involves regular testing and assessment of signs of cancer progression, followed by active treatment if the cancer progresses¹². Using AS means that the cancer is evaluated over time to determine if it starts to progress to a certain point, at which time treatment is necessary. AS has been applied to very low risk cancers such as prostate cancer¹², and this type of cancer is the most widely used in AS research.

Initiation of AS in low risk PTMCs

In 1993, Dr. Miyauchi first hypothesized that most PTMCs would remain small and would not develop into clinically significant disease or progression¹³. He proposed that AS was the best strategy to identify low risk PTMCs, which remain latent without disease progression. PTMCs without clinical evidence of metastases or local invasion and without convincing cytological or molecular aggressive characteristics were considered as low risk tumors². Dr. Miyauchi hypothesized that observation without immediate surgery could determine progressive PTMC, and that if slight progression was identified, a rescue surgery should be the effective treatment. The author believed that AS would result in more good than harm for PTMC patients. Cancer Institute Hospital of JFCR (Tokyo, Japan) started a similar AS trial in 1995¹⁴. To date, most of the findings with AS of PTMC were reported by these two institutes.

Candidate selection criteria for AS

In 2015, ATA guidelines recommended AS as a reasonable choice for PTMC treatment, and established its criteria for PTC risk classification². In the Republic of Korea, The Korean Thyroid Association (KTA) recommended the same guidelines as the ATA guidelines¹⁵. The Chinese Association of Thyroid Oncology (CATO) also proposed a selection criteria for AS, which first included information about the family history of thyroid carcinoma and a history of neck exposure to radiation during childhood or adolescence¹⁶. These guidelines stated that AS “can be considered” as an alternative to immediate surgery in patients with very low risk tumors. However, these guidelines were established for the management of thyroid carcinoma, but not for AS of PTMCs, until Brito et al.¹⁷ from the Memoria Sloan Kettering Cancer Center published a clinical framework, which established the risk stratification of AS for PTMCs. The stratification divided PTMCs into ideal, appropriate, and inappropriate cancers for AS, by comprehensively evaluating tumor ultrasound characteristics, patient characteristics, and medical team characteristics. Recently, Tuttle et al.¹⁸ updated the basic framework previously proposed and made some minor modifications based on their ongoing experience and other published data. They stated that PTCs with tumor sizes between 1.0 and 1.5 cm were also acceptable for appropriate AS participates. Moreover, isolated BRAF V600E mutations were considered appropriate for AS. For the inappropriate AS criteria, they considered patients with high risk molecular profiles (e.g., multiple mutations or driver mutations)¹⁹ and patients whose tumor sizes increased (3 mm in diameter or 50% in volume) during a very short time²⁰ to be at potentially higher risk of disease progression, and recommended excluding these patients from AS.

The Kuma Hospital recently published a contraindication for the AS of PTMC, which divided the contraindications into two categories. One was the presence of clinical node metastasis, distant metastasis at diagnosis, vocal cord paralysis due to invasion of the recurrent laryngeal nerve, or high grade malignancy or cytology. The other included PTMCs attached to the trachea or located along the path of the recurrent laryngeal nerve²¹, which was based on a previous study investigating the relationship between the possibility of tracheal invasion and the angles formed by the tumor and tracheal surfaces²². At the Kuma Hospital, PTMCs located within the thyroid lobe were ideal candidates for AS; moreover, those with minimal extra thyroid extension at the anterior or lateral surface of the thyroid were not considered as contraindications for AS²¹.

However, other guidelines like that of the American Association of Clinical Endocrinologists and British Thyroid Association do not suggest AS in the management of PTMC, so AS as an alternative to surgery remains controversial^23,24 (detailed criteria of different guidelines for AS are shown in the supplementary materials).

Once a patient is enrolled in the AS program, informed consent should be signed after an explanation of all the pros and cons of AS versus immediate surgery. We compared the different guidelines and different studies of adult AS candidate selection criteria as shown in Table 1.

Follow-up methods and schedules

For patients who give consent to enroll in AS, their PTMCs should be closely monitored according to the following protocols. Even though the follow-up protocols may have slight differences, a 6-month follow-up examination is suggested by most protocols. Particularly at Kuma Hospital, when a patient is identified as an AS candidate, he/she was assigned to a 6-month follow-up of ultrasound analysis after AS initiation. If no progressions were detected during the first follow-up, the next visit was scheduled 1 year later and then every 1 year thereafter. In the USA, the AS approach required ultrasound analysis of the neck every 6 months. After the first 2-year observation, if disease stability was documented, ultrasound exams were conducted every 1–2 year(s). Thyroid function tests were also suggested every year.

Exploring AS in low risk PTMCs: worldwide outcomes

AS was introduced as an optimal management for all adult patients with low risk PTMCs for several years. At present, most studies involving AS for PTMC were conducted in Japan, and most conclusions were obtained from Japanese data. So far, none of the patients who underwent AS were reported to have life-threatening distant metastases or died from PTMC. The small minority of patients whose PTMC progressed during AS were treated with an appropriate surgery. The outcomes of AS and immediate surgery results were also excellent. Other countries also determined the usefulness of AS in PTMC treatment. Some studies obtained the same results as Kuma Hospital, and suggested AS as a first-line treatment for PTMC, while other studies did not make this recommendation. Based on this limited data, AS was not equally accepted by all clinicians in the world. Memorial Sloan Kettering Cancer Center suggested that accurate risk stratification should be taken for patients who underwent AS and initial risk stratification, and ongoing dynamic risk assessments should individualize treatment for each thyroid cancer patient. Reports from Australia also stated the concerns of clinicians regarding AS. We summarize the main finding of AS worldwide in Table 2.

Japan

Ito et al.²⁵ from Kuma Hospital first reported an observation trial of PTMC. They enrolled 162 PTMC patients undergoing AS with a median follow-up time of 46.5 months. During the follow-up period, 70% of the tumors showed a stable disease, while 27.5% showed enlargement in size and 1.2% had lateral neck lymph node metastasis. Subsequently, the investigators renewed their research in 2010 and 2014. In studies published in 2010, 340 patients undergoing observation were followed-up for an average of 74 months, which showed an enlargement of ≥ 3 mm in 6.4% (at 5 years) and 15.9% (at 10 years), and novel nodal metastasis was detected in 1.4% (at 5 years) and 3.4% (at 10 years)²⁶. Their report in 2014 found that PTMC in young patients may be more progressive than in older patients. Older patients with PTMC may therefore be the best candidates for observation²⁷.

Studies from the Cancer Institute Hospital of JFCR in Japan also showed similar results. In this study, 230 patients were enrolled, and 90% of PTMCs either did not change or decreased in size, when compared to their initial sizes at diagnosis; while 7% showed size enlargement, and 1% showed novel node metastasis during AS¹⁴. Furthermore, Sakai et al.²⁸ conducted a prospective trial of AS for 61 patients with T1bN0M0 PTC and 360 patients with T1aN0M0 PTC. After AS, 8% of the patients with T1aN0M0 PTC and 7% of the patients with T1bN0M0 showed an increase in tumor size. The development of lymph node metastasis was seen in 1% of the patients with T1aN0M0 and 3% of the patients with T1bN0M0. Insignificant differences were found between T1a and T1b. They suggested that AS was an option for selected patients with T1bN0M0 PTC. Most recently, Miyauchi et al.²⁹ reported tumor volume changes over time during AS of PTMCs, which showed a decrease in tumor volume in 17% of the tumors.

USA

Investigators in the USA have initiated AS as a management strategy for low risk PTMC patients since 2014. There are still a small number of AS cohort studies currently in progress. The first report of AS in the USA was from the Memorial Sloan Kettering Cancer Center, which observed 291 patients for a median AS of 25 months. They found no regional or distant metastasis during the AS, and only 3.8% (11 of 291) showed tumor growth in tumor diameter (> 3 mm). They suggested that a 3 mm increase in maximal dimension or a 50% increase in tumor volume may be allowed to continue if the nodule was small, confined to the thyroid, and grew very slowly over time (i.e., tumor volume doubling times greater than 3–5 years)²⁰. The progression of a tumor might be more suitable to evaluation by size enlargement if included with a time variable (tumor volume doubling time).

Republic of Korea

A study from the Asan Medical Center enrolled 2,863 PTMC patients, who were assigned into three groups according to the surgery delay periods (≤ 6 months, 6–12 months, and = 12 months). They found that delayed surgery was not associated with a higher risk of recurrence, when compared to immediate surgery³⁰. Later, a multi-center retrospective cohort study screening 370 PTMCs from the Asan Medical Center, Samsung Medical Center, and The Catholic University of Korea Seoul ST. Mary’s Hospital was followed-up for more than 1 year. They found a significant number of increased PTMCs during AS (6.9% at 2 years, 17.3% at 3 years, 28.3% at 4 years, 36.2% at 5 years, and 47% at 6 years), and tumor volume changes were a better method of evaluation than tumor diameters³¹. A 50% increase in tumor volume was too sensitive to determine the time for conversion to surgery. However, the use of volume or diameter to evaluate timing for surgery still needs more study.

Australia

Two studies from Australia discussed physicians’ and patients’ concerns regarding AS. Nickel et al.³² using semi-structured qualitative questionnaires to interview 25 PTMC patients, which stated that clinicians may not be ready to accept AS until the appearance of much stronger evidence. Both these studies suggested that PTMCs were being over diagnosed, and management guidelines are now recommending more conservative management options for these lesions when making treatment decisions³³. Dr. Miyauchi from Kuma Hospital explained that a PTMC patient who selected immediate surgery might be made vulnerable by a second surgery if lymph node metastasis was found after the first surgery¹³. The outcomes of 1 or 2 surgeries were both excellent. However, patients and clinicians remained concerned about the delay in surgery by AS, which may result in disease progression and the appearance of lymph node metastasis. Based on this limited data, AS has not been equally accepted by all physicians in the world.

China

Qian et al.³⁴ evaluated PTMC patients using two screening criteria for AS (the CATO and Kuma criteria). A total of 72.6% of the 778 enrolled patients met the Kuma criteria, while only 14.4% met the CATO criteria. In this study, the CATO low risk subgroup had lower recurrence and longer disease-free survival than the CATO high risk subgroup. However, no difference was found between the Kuma low risk and high risk groups. They suggested that the CATO criteria, which included a family history of thyroid carcinoma and a history of neck exposure to radiation during childhood or adolescence, was more strict and could be more suitable for Chinese PTMC patients who selected AS.

Other countries

Sanabria et al.³⁵ examined 57 Colombian PTMC patients (Bethesda V to VI) who were treated using AS and found that the tumors of 2 (3.5%) patients grew more than 3 mm. In this study, PTMCs with tumor sizes between 1–1.5 cm were enrolled in AS. This was the first study that provided AS data from Latin America.

Molinaro et al.³⁶ used a prospective-observational study to evaluate the feasibility of AS in PTMC patients in Italy. After a median follow-up of 19 months, only 3% of PTMC patients showed disease progression. They concluded that AS was an achievable and effective alternative management strategy for PTMC patients in Italy.

Necessity of cytological or pathological confirmation

Whether tumors with a high suspicion of PTMC undergo cytological or pathological confirmation depends on the country. In Japan, guidelines established by JAES/JSTS suggested that PTMC should be diagnosed by cytological or pathological confirmations. Kuma Hospital insisted on a biopsy for two reasons. First, if the cytological test was not performed at Kuma Hospital, the patient might visit other physicians who might perform cytological tests, and they might suspect that Kuma Hospital had missed the diagnosis of cancer, and suggest immediate thyroid surgery. The other reason was that without a cytological diagnosis, patients may lose the opportunity for AS outside of Kuma Hospital. In the Memorial Sloan Kettering Cancer Center in the USA, cytological or pathological confirmation was not a requirement for AS of PTMC. When the patients were suspected of malignant disease after clinical or ultrasound imaging tests, AS was also provided. In their AS management program, a biopsy was not required for the enrollment of patients¹⁷. However, in a later report from the Memorial Sloan Kettering Cancer Center, which observed 291 patients for an AS of 25 months (median), the patients enrolled in the study had PTC (Bethesda category IV) or suspicious PTC (Bethesda V) with suspicious ultrasound imaging characteristics²⁰. The 2015 ATA guidelines do not recommend cytological examination for PTMC for tumors < 10 mm (even if they have suspicious ultrasound features), unless they are associated with clinical symptoms or lymphadenopathy². Until now, most of the long-term follow-up data of AS were based on PTMCs that were cytologically diagnosed. Researchers also suggested that it was reasonable to apply these selection criteria to sonographically suspicious cases, without a biopsy³⁷. Without a cytological confirmation of PTMC, patients with suspicious nodules would be undergoing an ultrasound image analysis at follow-up. However, ultrasound imaging has its limitations in distinguishing small medullary thyroid carcinomas from PTMCs³⁸; therefore a calcitonin measurement might be helpful to distinguish small medullary thyroid carcinomas from PTMCs. For patients with suspicious nodules = 5 mm, a cytological or pathological confirmation test may be suggested before enrollment for AS. Cytological diagnosis by an experienced clinician is also important. For those patients with suspicious nodules <5 mm, cytological or pathological confirmation is not recommended, so an ultrasound follow-up may be the best choice.

Progression evaluation

Medical costs and cost-effectiveness analysis

The medical costs of immediate surgery ($8,437 US dollars) was 4.1 times higher than the costs of AS for a 10 year management ($2,052 US dollars), including conversion surgery and the salvage surgery cost⁴⁷. Lang et al.⁴⁸ first examined the cost-effectiveness of the AS strategy for PTMC. They found that AS was more cost-effective during the first 16 years than immediate surgery. When only considering costs, after 17 years, AS costs more than immediate surgery, although the cost of immediate surgery is significantly higher than AS at the very beginning. However, AS cost more over time because of continuing examinations and the accumulating possibility of a more expensive “delay” surgery. When considering quality-adjusted life years, AS is more effective than immediate surgery because the AS strategy may result in less complications than immediate surgery. Investigators used cost-effectiveness analyses using Markov models for AS and hemithyroidectomy. They found that for patients under AS, the cost-effectiveness of hemithyroidectomy decreased both the QoL and life expectancy⁴⁹. Lin et al.⁵⁰ compared the costs of surgery versus hypothetic AS for PTMC in an Australian cohort of 349 patients. They found that the estimated cost of PTMC surgical treatment ($10,226 Australian dollars) was equivalent to the cost of 16.2 years of AS ($756 Australian dollars/year). In Australia, surgery might have a long-term economic advantage for younger PTMC patients. The cost of surgery varied greatly in different countries, so the conclusions obtained from cost-benefit analyses in different countries can only be applied to the clinical practice in those countries.

TSH suppression

TSH suppression is a common strategy to prevent papillary carcinoma recurrence or progression. However, there has been no large-scale report, which examined the efficacy of TSH suppression of PTMC. Some physicians at Kuma Hospital prefer to perform mild thyrotropin suppression, which means setting serum TSH levels lower than the lower normal limit. Based on the judgement of the physician, only 51 patients out of 1,235 patients underwent TSH suppression, and most of the PTMC patients enrolled in this TSH suppression study were clinically stable²⁷. Nevertheless, Sugitani et al.¹⁴ reported that serum TSH level was not associated with progression during their observation of PTMC. Because TSH suppression may induce osteoporosis in elderly female patients, 2015 ATA guidelines suggested that TSH suppression was not routinely recommended in low risk differentiated thyroid cancer after surgery, especially for older patients. TSH suppression may therefore be more suitable for PTMCs in young patients, whose disease is slightly more progressive than the more stable PTMC in elderly patients. However, further studies with more samples are needed to obtain more definitive conclusions.

QoL

QoL is a very important issue for AS of PTMC. In prostate cancer studies, where AS is frequently used, the QoL was similar between the AS group and the immediate surgery group⁵¹. Investigators reported that anxiety and fear may decrease during AS, and a greater complication rate may contribute to a lower QoL. Oda et al.⁵² investigated the unfavorable events between AS and immediate surgery of PTMC patients, by studying 179 PTMC patients who underwent AS and 94 PTMC patients who underwent immediate surgery. The results showed that surgical complications (including temporary vocal cord paralysis, temporary/permanent hypoparathyroidism, skin surgical scar, and/or postsurgical hematoma) were more frequent in the immediate surgery group. However, these studies were found to contain misleading results because of the use of an inappropriate study population. Oda et al. compared the complication rate between immediate surgery and the total AS group. When excluding patients without surgery and considering only those who received delayed surgery, they reanalyzed the data and showed that the complication rate was higher in the patients who underwent delayed surgery when compared with those who underwent immediate surgery. The reason for this result was that patients may have had a chance of developing lymph node metastasis during AS, resulting in more extensive surgery, which may have a greater chance of surgical complications. In summary, patients do not suffer from surgical complications if they select AS and delayed surgery; however, they might experience higher rates of surgical complications if they are treated with delayed surgery.

Kong et al.⁵³ recently evaluated the QoL of 203 patients who selected AS and 192 patients who underwent immediate surgery, using interim analyses of a multi-center prospective cohort study in the Republic of Korea (MAeSTro). The QoL of the two groups were evaluated by a thyroid-specific QoL questionnaire, and the evaluations were conducted both at the time of diagnosis and after a median of 8 months of follow-up. They found that the AS group had better psychological health at baseline, and the physical and psychological health of the AS group during the follow-up were better than that of the immediate surgery group. Davies et al.⁵⁴ described the patients’ burden of cancer concern in the longest-standing and largest PTMC AS cohort at Kuma Hospital (Japan). By surveying 243 patients with AS, it was found that cancer concerns were common among patients with AS. The number of patients who stated that they did not worry increased from 14% at the time of diagnosis to 25% after 3 years of follow-up. Cancer concerns of AS PTMC patients and surgery PTMC patients were similar. Cancer concerns should not necessarily be viewed as uniformly prohibitive to successful AS in thyroid cancer. However, the follow-up time was relatively short for the current study, so studies with longer follow-up periods are warranted.