Abstracting and Indexing

  • PubMed NLM
  • Google Scholar
  • Semantic Scholar
  • Scilit
  • CrossRef
  • WorldCat
  • ResearchGate
  • Academic Keys
  • DRJI
  • Microsoft Academic
  • Academia.edu
  • OpenAIRE
  • Scribd
  • Baidu Scholar

Clinico-Pathological Evaluation of Carcinoma Thyroid

Article Information

Md. Nabid Alam1*, Md. Abdus Salam2, Md. Rafiqul Islam3, Md. Serajul Islam4, S M Yunus Ali5, Md. Nazrul Islam6, Md. Jahangir Hossain7

1Assistant Professor, Department of Urology, Bangabandhu Sheikh Mujib Medical University (BSMMU), Dhaka, Bangladesh

2Assistant Professor, Department of Urology, Bangabandhu Sheikh Mujib Medical University (BSMMU), Dhaka, Bangladesh

3Assistant Professor, Department of Urology, Bangabandhu Sheikh Mujib Medical University (BSMMU), Dhaka, Bangladesh

4Assistant Professor, Department of Urology, Bangabandhu Sheikh Mujib Medical University (BSMMU), Dhaka, Bangladesh

5Assistant Professor, Department of Urology, Bangabandhu Sheikh Mujib Medical University (BSMMU), Dhaka, Bangladesh

6Research Assistant, Department of Urology, Bangabandhu Sheikh Mujib Medical University (BSMMU), Dhaka, Bangladesh

7Assistant Professor, Department of Surgical Oncology, Bangabandhu Sheikh Mujib Medical University (BSMMU), Dhaka, Bangladesh

*Corresponding Author:  Md. Nabid Alam, Assistant Professor, Department of Urology, Bangabandhu Sheikh Mujib Medical University (BSMMU), Dhaka, Bangladesh.

Received: 07 November 2024; Accepted: 18 November 2024; Published: 21 November 2024

Citation: Md. Nabid Alam, Md. Abdus Salam, Md. Rafiqul Islam, Md. Serajul Islam, S M Yunus Ali, Md. Nazrul Islam, Md. Jahangir Hossain. Clinico- Pathological Evaluation of Carcinoma Thyroid. Archives of Nephrology and Urology. 7 (2024): 94-98

View / Download Pdf Share at Facebook

Abstract

 Background: Thyroid cancer varies from well-differentiated lesions with a favorable prognosis to nearly always fatal anaplastic carcinoma. Accounting for 1% of human cancers, its global annual incidence is estimated at 0.5 to 10 per 100,000 people. This study aimed to assess the clinicopathological features of thyroid carcinoma. Methods: This prospective study at the Department of Surgery, Bangabandhu Sheikh Mujib Medical University, analyzed 50 consecutive thyroid malignancy cases over 12 months, all confirmed post-surgery by histopathological examination. Results: The age of the patient ranged from 15 years to 75 years (mean age 36.54years) with a maximum incidence in 4th decade. Only 2 patients (2 females) aged below 21 years. Out of 50 patients, 30 patients (60%) were female and 20 patients (40%) were male with a female to male ratio 1.5:1. Presenting symptoms were neck swelling (painless or painful), pressure symptoms, (Dysphasia or dyspnea), voice change, cervical lymphadenopathy, cough and bone pain. Neck swelling (painful or painless) is the most common presentation (100%). All 50 patients were undergone total thyroidectomy and histopathological proved thyroid malignancy. Regarding the types of malignancy in this study, papillary carcinoma was the most common variety (66%) followed by follicular carcinoma (20%), medullary carcinoma (12%), and anaplastic carcinoma (2%). FNAC proved malignancy in 50 patients (100%). Conclusion: The risk of thyroid malignancy is seen in middle age. Females are more sufferer than male. The most common clinical presentation of thyroid malignancy is neck swelling. Also most common pattern of thyroid carcinoma was papillary carcinoma.

Keywords

Thyroid Carcinoma; Clinico-Pathological Evaluation; FNAC (Fine-Needle Aspiration Cytology); Total Thyroidectomy.

Thyroid Carcinoma articles; Clinico-Pathological Evaluation articles; FNAC (Fine-Needle Aspiration Cytology) articles; Total Thyroidectomy articles.

Article Details

1. Introduction

Cancer is becoming a leading cause of death in many countries around the world. Thyroid carcinoma is a relatively rare tumor but represents the most frequent form of carcinoma of the endocrine glands [1-5].  It represents 1% of human neoplasm and its annual incidence is estimated worldwide from 0.5 to 10: 100,000 subjects in the world population [6].

There are several possible reasons for the increase in thyroid cancer and include ionizing radiation, sex hormones, iodine deficiency and other factors but the findings are inconsistent. Exposure to ionizing radiation, changing levels of iodine in diet and better diagnostic facilities have all been proposed as explanations for a worldwide rise in the incidence of thyroid carcinoma over the past six decades [7-10]. The annual incidence of thyroid carcinoma varies considerably in different registries and is increasing in some European countries, USA and Canada [11].

Thyroid carcinomas originate from the two cell types found within the thyroid gland. The follicular cells, which are derived from the endoderm, are responsible for the development of papillary, follicular, and likely anaplastic carcinomas. The neuroendocrine-derived calcitonin-producing C cell gives rise to MTCs [9]. Thyroid lymphomas develop from lymphoid tissue within the thyroid, while sarcomas likely originate from the gland's connective tissue [4].

Thyroid carcinomas primarily arise from epithelial follicular cells, with differentiated types—papillary (PTC) and follicular (FTC) carcinomas—accounting for about 95%. In contrast, 1-2% are undifferentiated anaplastic carcinomas (ATC), which are invariably fatal [12]. The remaining 3-4% are medullary thyroid carcinomas (MTC) derived from the parafollicular C cells [13].

Fine-needle aspiration cytology (FNAC is the most important diagnostic tool in evaluating thyroid nodules [7]. The technique is affordable, simple to perform, and carries minimal risk of complications. Complications from FNAC are rare and generally mild, with the most common being minor hematoma, bruising, and localized discomfort [3]. Clinically significant hematoma and swelling are extremely uncommon. Accidental puncture of the trachea, carotid artery, or jugular vein typically does not lead to serious issues and can be managed by applying local pressure [6].

This study is to determine the clinical presentation of thyroid malignancy in respect of age and sex in our country and to assess the result of FNAC and routine histology. This study was carried out on 50 patients. So, it is probable that the result obtained from this study may provide incidence of malignancy in goiter and it will give an idea.

2. Methodology & Materials

This prospective observational study was conducted in the Department of Surgery at Bangabandhu Sheikh Mujib Medical University (BSMMU), Dhaka, from April 2011 to April 2012. Using consecutive sampling, 50 patients with fine-needle aspiration cytology (FNAC)-proven thyroid malignancy were enrolled, excluding those with recurrent thyroid malignancy or who did not undergo surgery after initial evaluation.

Data were collected from patients admitted to BSMMU using a pre-structured form, capturing demographic details, clinical findings, and preoperative investigations, along with perioperative and histopathological data. Clinical history focused on epidemiological factors and risk factors related to thyroid malignancy, followed by thorough examinations to document clinical presentations. FNAC-confirmed diagnoses of thyroid malignancy were subsequently validated through histopathology, with tumor grading assessed accordingly.

Data were analyzed using SPSS for Windows, version 16. Results were presented in tables, graphs, and charts for easy interpretation. To ensure ethical standards, ethical clearance was obtained from Bangladesh College of Physicians and Surgeons (BCPS) Ethical Review Committee, and permissions were secured from all relevant departments. Patients were fully informed about the study's nature, purpose, potential benefits, and any risks. Confidentiality was maintained, and participants were assured of their right to withdraw at any time. Written informed consent was obtained without coercion, following verbal explanations of the study design and participants’ rights.

3. Results

Table 1: Age distribution of the patients (n = 50).

Age (Years)

Number of Patients

Percentage (%)

1-10

0

0

11-20

2

4

21-30

14

28

31-40

16

32

41-50

10

20

51-60

6

12

61-70

2

4

In this study of 50 patients, age ranged from 15 years to 70 years. The number of patient of different age groups is shown in Table 1. Most of the patients belonged to the age group of 21-40 years (60%).  In this study, mean age was 36.54 years with majority of the patients were in 3rd, 4th & 5th decade.

Table 2: Sex distribution of the patients (n=50)

Sex

Number of patients

Percentage (%)

Male: Female

Male

20

40

01:01.5

Female

30

60

Sex distribution of the 50 patients in this study is shown in Table 2. Out of 50 cases 30 patients (60%) were female and 20 patients (40%) were male. Female to male ratio was 1.5:1.

Table 3: Age-sex relation

Age groups

Male (n=20)

Female (n=30)

P value

(years)

Number

Percentage (%)

Number

Percentage (%)

Nov-20

0

0

2

6.67

21-30

4

20

10

33.33

31-40

10

50

6

20

0.188

41-50

2

10

8

26.67

51-60

3

15

3

10

61-70

1

5

1

3.33

Table 3 shows below 21 years of age, there were only 2 female patients but no male patient. Above 21 years of age, there were 28 female patients and 20 male patients. The difference was statistically not significant between male and female (P<0.05).

Table 4: Clinical presentation

Symptoms

Number of patients

Percentage (%)

Neck swelling (painless or painful)

50

100

Pressure symptoms (Dysphasia or/& dyspnea)

6

12

Voice changes

4

8

Thyrotoxicosis

3

6

Cough

3

6

Cervical lymphadenopathy

2

4

Bone pain

2

4

Clinical presentation of the 50 patients in this study is shown in Table 4. All patients presented with neck swelling (painless & painful). Only 6 patients had pressure symptoms.

Table 5: Histological pattern of malignancy (n=50)

Histological pattern

Number of patients

Percentage (%)

Papillary carcinoma

33

66

Follicular carcinoma

10

20

Medullary carcinoma

6

12

Anaplastic carcinoma

1

2

Lymphoma

0

0

Histological pattern of malignancy in goiter occurring in this study is shown in Table 5. Out of 50 thyroid malignancy, 33 patients (66%) had papillary carcinoma, 10 patients (20%) had follicular carcinoma, 6 patients (12%) had medullary carcinoma and 1 patient (2%) had anaplastic carcinoma.

Table 6: Results of FNAC and routine paraffin section in patients with thyroid carcinoma

Thyroid carcinoma

FNAC

Routine paraffin

P value

No.

%

No.

%

Yes

50

100

50

100

0.315

No

0

0

0

0

Table 6 shows all FNAC proved thyroid carcinoma were proved malignant by routine paraffin section.

4. Discussion

Thyroid carcinoma is the most frequent endocrine malignancy which represents 1% of all malignancy. Most of the study regarding incidence of thyroid malignancy was done worldwide, but rarely in Bangladesh.

This is a prospective study carried out in Department of Surgery, Bangabandhu Sheikh Mujib Medical University. Total 50 patients with thyroid malignancy have been studied prospectively during a period of 12 months to determine the clinic-pathological characters of thyroid carcinoma.  

In this study most of the patients (60%) were in between 21-40 years of age group. The mean age of the patients were 36.54 yrs. Pelizzo et al. [14] in their study of 41 patients of thyroid malignancy age ranged from minimum 17 years to maximum 78 years, mean age was 46 years. In another Waseem et al. [15] study reported thyroid malignancy can occur in all age group.

In this study, out of 50 patients 30 patients (60%) were female and 20 patients (40%) were male with female to male ratio 1.5:1. There was a female preponderance in this study that was firmly consistent with the study of Pelizzo [14]. In all age group the number of patients of thyroid malignancy was higher in female.

All the patients in this study presented with neck swelling (painless and painful) with features of thyroid malignancy of varying durations. Out of them, in addition to neck swelling, 6(12%) patients had pressure symptoms (dyspnea), 4(8%) patients had voice change, 3(6%) patients had Thyrotoxicosis, 3(6%) patients had cough, 2(4%) patients had cervical lymphadenopathy, 2(4%) patients had bone pain.

The diagnosis of malignancy in goitre is made by different methods such as history, clinical examinations, thyroid scanning, ultrasonogram of thyroid gland, fine needle aspiration cytology. Sometimes it is difficult to distinguish a nodule harboring malignancy clinically or radiologically requiring FNAC from it. This may makes the early detection of carcinoma in goitre a difficult task as sometimes FNAC may shows false negative results. However, the sensitivity of FNA was 79%, the false-negative rate 21%, and the inadequate rate is 12% [16].

Total thyroidectomy done in 50 patients due to malignancy, who were prescribed hormone therapy for rest of life.  In all patients (100%), malignant cell was seen in FNAC.

Regarding the types of malignancy in this study, papillary carcinoma was the most common variety (66%) followed by follicular carcinoma (20%), medullary carcinoma (12%), and anaplastic carcinoma (2%). Veroux et al. [17] reported thyroid malignancy involves 1.5% of all malignant tumours. It causes yearly 0.5% carcinoma mortality. A study in USA shows among the thyroid malignancy, 81% were papillary carcinoma. In this study, papillary carcinoma is 66% and follicular carcinoma is 20% whereas they found 10%. [18] Medullary carcinoma is 12% and anaplastic carcinoma is 2% in this study.

The results of this study reflect trends observed globally in thyroid carcinoma, including the predominance of papillary carcinoma and a higher incidence in females. However, the mean age of 36.5 years in this sample suggests that thyroid carcinoma may present at a relatively younger age in this population compared to Western data. The high sensitivity of FNAC in this study reaffirms its utility as a primary diagnostic tool, though the presence of false-negative results highlights the need for confirmatory histopathology. [19] Given that all patients underwent total thyroidectomy, surgical intervention appears to remain the standard approach for managing malignancy. Lifelong hormone therapy is essential for postoperative management, underscoring the importance of patient compliance and follow-up to monitor for recurrence and optimize outcomes. [20]

Limitations of the study

Sample size was small due to time constrain. This study was undertaken in a tertiary level hospital. So it does not reflex actual scenario of the country.

Recommendations

It needs to study of long duration with large number of patients. Clinical data and further studies were needed to produce evidence-based recommendations.

5. Conclusion

This study shows most common pattern of thyroid carcinoma were papillary carcinoma. Second most common were follicular carcinoma then medullary carcinoma and anaplastic carcinoma. Thyroid carcinoma is more common predominant in female. Although most common clinical presentation were Neck swelling (painless or painful) and the pressure symptom (Dysphasia or dyspnea).  The association of thyroid swelling and thyroid carcinoma should always be carefully considered. The risk of thyroid malignancy should not be underestimated as majority of the patients with thyroid carcinoma present with asymptomatic goitre in middle age.

Declarations

Acknowledgements

I would like to express my sincere gratitude for the invaluable support and cooperation provided by the staff, participants, and my co-authors/colleagues who contributed to this study.

Financial support and sponsorship

No funding sources.

Ethical approval

The study was approved by the Institutional Ethics Committee.

Conflict of interest

There are no conflicts of interest.

References

  1. Spenser FC. Daly JM. Fisher JE, et al., Principles of Surgery 7th Ed. Singapore: Mc Graw Hill (1999): 1661-1663.
  2. Beg MHA, Mirza RA. Editorial: endemic goiter and realities specialist. The professional Medical Journal 7 (2010): 2-5.
  3. Tjandra JJ, Clunie GJA, Kaye AH, et al., Historical notes on thyroid neoplasms. In David Cristopher ed. Text Book of Surgery 1 (2008): 631-642.
  4. Ramachandran N, Poole A. Clinical cases and OSCEs in Surgery. 1st ed. Edinburgh. Chirchill livinstone 1 (2003): 25-26.
  5. Malik AZ, Latif S, Anwar A, et al., Giant multinodular goiters: Surgical experiences in northern Pakistan. J of Surg Pak 3 (2008): 25-27.
  6. Franceschi S. Epidemiologia del carcinoma della tiroide. In: Miani P eds. II Carinoma della tiroide. Pisa : Pacini Editore 1 (1992): 13-29.
  7. Salabe GB. Aetiology of thyroid cancer: an epidemiological overview. Thyroidology 6 (2004):11-19.
  8. Dos Santos Silva I, Swerdlow AJ, Thyroid Cancer epidemiology in England and Wale: time trends and geographical distribution Br J cancer 63 (2011): 773-781.
  9. Lind P, Langsteger W, Molnar M, et al., Epidemiology of thyroid disease in iodine sufficiency. Thyroid 8 (2008): 1179-1183.
  10. Galanti MR, Sparen P, Karlsson A, et al., Is residence in areas of endemic goiter a risk factor for thyroid cancer? Int J cancer 61(1995) :615-621.
  11. Davies L, Welch HG, Increasing incidence of thyroid cancer in the united states, 1973-2002. JAMA 295 (2006): 2164-2167.
  12. Baldini E, Sorrenti S, Gioia CD, et al., Antonelli A. Cervical Lymph Node Metastases From Thyroid Cancer. BMC Clin Pathol 13 (2013): 120-228.
  13. Kloos RT, Eng C, Evans DB, et al., American Thyroid Association Guidelines Task Force: Medullary thyroid cancer: management guidelines of the American Thyroid Association. Thyroid 19 (2009): 565-612.
  14. Pelizzo MR, Bernante P, Toniato A. et al., Frequency of Thyroid Carcinoma In a recent study of 539 consecutive thyroidectomies for multinodular goitre, Tumori 83 (1997): 653-655.
  15. Waseem M, Tariq WK, Abdul S, et al., Incidence of thyroid carcinoma in multinodular goiters. Rawal Med J Jan 35 (2010): 65-67.
  16. Koh KB, Chang KW, Carcinoma in multinodular goiter. Br-J-Surg 79 (2012): 266-267.
  17. Veroux P, Fazzi C, Nicosia AS, et al., Chir Ital 49 (2007): 15-27.
  18. Cady B. Comparative analysis of thyroid carcinoma in Germany and the U.S. Cancer 89 (2000): 202-217.
  19. Omata K, Iguchi K, Iida R, et al., Clinico-pathological study of thyroid carcinomas detected by mass screening. Gan No Rinsho 32 (2006):740-748.
  20. Liu S, Semenciw R, Ugnat AM, et al., Increasing thyroid cancer incidence in Canada: time trends and age-period-cohort effects. Br J Cancer 85 (2011): 1335-1339.

Journal Statistics

Impact Factor: * 2.3

CiteScore: 2.9

Acceptance Rate: 73.59%

Time to first decision: 10.4 days

Time from article received to acceptance: 2-3 weeks

Discover More: Recent Articles

© 2016-2024, Copyrights Fortune Journals. All Rights Reserved!