Complete internal audit of a mammography service in a
                    reference institution for breast imaging

Badan, Gustavo Machado; Roveda Júnior, Décio; Ferreira, Carlos Alberto Pecci; Junior, Ozeas Alves de Noronha

doi:10.1590/S0100-39842014000200007

Abstracts

Objective

Undertaking of a complete audit of the service of mammography, as recommended by BI-RADS^®, in a private reference institution for breast cancer diagnosis in the city of São Paulo, SP, Brazil, and comparison of results with those recommended by the literature.

Materials and Methods

Retrospective, analytical and cross-sectional study including 8,000 patients submitted to mammography in the period between April 2010 and March 2011, whose results were subjected to an internal audit. The patients were followed-up until December 2012.

Results

The radiological classification of 7,249 screening mammograms, according to BI-RADS, was the following: category 0 (1.43%), 1 (7.82%), 2 (80.76%), 3 (8.35%), 4 (1.46%), 5 (0.15%) and 6 (0.03%). The breast cancer detection ratio was 4.8 cases per 1,000 mammograms. Ductal carcinoma in situ was found in 22.8% of cases. Positive predictive values for categories 3, 4 and 5 were 1.3%, 41.3% and 100%, respectively. In the present study, the sensitivity of the method was 97.1% and specificity, 97.4%.

Conclusion

The complete internal audit of a service of mammography is essential to evaluate the quality of such service, which reflects on an early breast cancer detection and reduction of mortality rates.

Breast cancer; Mammographic screening; BI-RADS; Audit of mammography service; Percutaneous biopsy; Positive predictive value

Objetivo

Realização de auditoria completa do serviço de mamografia de uma instituição privada, conforme preconizado pelo BI-RADS^®, e comparação dos resultados obtidos com os recomendados pela literatura em serviço de referência em diagnóstico de câncer mamário na cidade de São Paulo.

Materiais e Métodos

Estudo retrospectivo, analítico e transversal contendo casuística de 8.000 pacientes que realizaram mamografias no período de abril de 2010 a março de 2011, submetidas à auditoria, com base no resultado de sua mamografia. Houve seguimento dessas pacientes até dezembro de 2012.

Resultados

De acordo com a categorização BI-RADS, a classificação radiológica das 7.249 mamografias de rastreamento, em relação ao número de casos, foi a seguinte: categorias 0 (1,43%), 1 (7,82%), 2 (80,76%), 3 (8,35%), 4 (1,46%), 5 (0,15%) e 6 (0,03%). Verificou-se taxa de detecção para câncer mamário de 4,8 casos para cada 1.000 exames realizados. O total de carcinoma ductal in situ foi 22,8%. Foram encontrados valores preditivos positivos para as categorias 3, 4 e 5 de 1,3%, 41,3% e 100%, respectivamente. A sensibilidade do método aferida foi 97,1% e a especificidade, 97,4%.

Conclusão

A auditoria interna completa do serviço de mamografia retrata a qualidade do serviço, e com isso contribui para a detecção precoce e diminuição da mortalidade relacionada ao câncer mamário.

Câncer de mama; Rastreamento mamográfico; BI-RADS; Auditoria em serviço de mamografia; Biópsia percutânea; Valor preditivo positivo

INTRODUCTION

Breast cancer is the most frequent type of neoplasia affecting women worldwide, both in developed and developing countries. About 226,870 new cases with 39,510 deaths were reported in the United States of America in 2012(¹1 National Cancer Institute. Surveillance, Epidemiology and End Results (SEER). [acessado em 13 de agosto de 2012]. Disponível em: http://seer.cancer.gov.
http://seer.cancer.gov... ). In Brazil, according to Instituto Nacional de Câncer, 52,680 new cases of breast cancer were estimated in 2012, corresponding to an incidence of 52 cases per 100,000 women(²2 Brasil. Ministério da Saúde. Instituto Nacional de Câncer. Estimativa 2012: incidência de câncer no Brasil. [acessado em 16 de agosto de 2012]. Disponível em: http://www.inca.gov.br/estimativa/2012.
http://www.inca.gov.br/estimativa/2012... ).

According to large observational studies, the breast cancer mortality rate has decreased in 31% due principally to the contribution from annual mammographic screening programs leading to early disease detection in a considerable number of cases(³3 Tabár L, Vitak B, Chen TH, et al. Swedish two-county trial: impact of mammographic screening on breast cancer mortality during 3 decades. Radiology. 2011;260:658–63.–⁵5 Miranda CMNR, Santos CJJ, Maranhão CPM, et al. A tomografia computadorizada multislice é ferramenta importante para o esta-diamento e seguimento do câncer de mama? Radiol Bras. 2012;45:105–12.).

The National Commission of Mammography of Colégio Brasileiro de Radiologia e Diagnóstico por Imagem (Brazilian College of Radiology and Imaging Diagnosis) recommends annual mammographic screening for all women in the age range from 40 to 69 years, and mammography on an individual basis after such an age range(⁶6 Urban LABD, Schaefer MB, Duarte DL, et al. Recomendações do Colégio Brasileiro de Radiologia e Diagnóstico por Imagem, da Sociedade Brasileira de Mastologia e da Federação Brasileira das Associações de Ginecologia e Obstetrícia para rastreamento do câncer de mama por métodos de imagem. Radiol Bras. 2012;45:334–9.).

However, the mammographic screening started being followed by a high number of biopsies, and findings considered suspicious for malignancy may correspond to benign alterations. Thus, despite the high mammographic sensitivity and specificity, the positive predictive value (PPV) of biopsies reveals malignancy in only 15–40% of the procedures(⁷7 Kestelman FP, Souza GA, Thuler LC, et al. Breast Imaging Reporting and Data System – BI-RADS®: valor preditivo positivo das categorias 3, 4 e 5. Revisão sistemática da literatura. Radiol Bras. 2007;40:173–7.,⁸8 Hall FM, Storella JM, Siverstone DZ, et al. Nonpalpable breast lesions: recommendations for biopsy based on suspicion of carcinoma at mammography. Radiology. 1988;167:353–8.).

In order to ensure the early detection of breast cancer by mammography it is necessary that every diagnostic center has its activities carefully and systematically reviewed with the objective of verifying whether its results are in agreement with those reported in the literature(⁹9 Clark R, Geller B, Peluso N, et al. Development of a community mammography registry: experience in the breast screening program project. Radiology. 1995;196:811–5.–¹⁴14 Bassett LW, Hendrick RE, Bassford TL, et al. Quality determinants of mammography. Clinical practice guideline No. 13. AHCPR Publication No. 95-0632. Rockville, MD: Agency for Health Care Policy and Research, Public Health Service, U.S. Department of Health and Human Services. October 1994.).

Therefore, the medical audit is essential to evaluate a mammography center performance and, for such a purpose it is necessary to analyze PPVs for each category, rate of breast cancer detection, rate of recommendation for biopsy, rate of recall, amongst other parameters, to evaluate the effectiveness of each diagnostic center project(¹⁵15 Robertson CL. A private breast imaging practice medical audit of 25,788 screening and 1,077 diagnostic examinations. Radiology. 1993;187:75–9.).

The present study was aimed at undertaking a complete audit of a private institution mammography center, as recommended by BI-RADS^®, as well as comparing the results from such an audit with those reported in the literature.

MATERIALS AND METHODS

The present retrospective, analytical and cross-sectional study, involving a team with at least ten years of experience in breast imaging, undertook an internal audit of the results of the mammography center at FEMME – Laboratório da Mulher, São Paulo, SP, Brazil.

The study sample included patients enrolled in a single health plan of which the authors' institution was the only reference in diagnostic breast imaging. All the patients were referred by their respective doctors.

In the period from April 2010 to March 2011, 8,000 mammography studies were performed in the mentioned center, under the coverage of a single health plan, 7,249 of such studies in asymptomatic women with mean age of 66 years (age range = 33 to 86 years) who were selected and submitted to audit based on their mammograms results.

The center has a Lorad Selenia full field digital mammography system, and the mammographic study includes the following steps: 1) completion of a standard form (including identification, origin, etc.); 2) anamnesis based on the center's records; 3) clinical assessment of the breasts, whose results are also recorded on the form; 4) mammographic images acquisition according to the protocol, under the guidance of the assisting physician.

The mammographic report includes the following topics:

Part 1 – Clinical data: patient's age, indication for the study, and clinical examination of the breasts.
Part 2 – Mammographic report itself, with description of the breasts pattern and radiological findings.
Part 3 – Radiological impression and classification corresponding to diagnostic impression and respective classification according to the Consensus about Mammographic Reports Standardization(¹⁶16 Santor RP, Koch HA, Menke CH, et al. I Reunião de consenso para padronização dos laudos mamográficos. Femina. 1998;26:625–6.) and BI-RADS(¹⁷17 Kopans DB, D'Orsi CJ, Adler DD, et al. Breast Imaging Reporting and Data System (BI-RADS). Reston, VA: American College of Radiology; 1998.,¹⁸18 Colégio Brasileiro de Radiologia. BI-RADS – Sistema de laudos e registro de dados de imagem da mama. São Paulo, SP: Colégio Brasileiro de Radiologia; 2005.).
Part 4 – Notes: further data, recommendations for mammography repetition for each case, as a function of the mammographic findings.

The follow-up of the diagnostic outcomes extend from September 2010 to December 2012, as the patients returned to the center to undergo new mammographic studies.

The following exclusion criteria were taken into consideration for the purposes of the present study: 1) mammograms of symptomatic patients (with signs and symptoms of breast disease); 2) mammographic studies covered by other health plans, since the follow-up of such cases was unfeasible.

RESULTS

Amongst the 8,000 mammographic studies selected in this study, 7,249 (90.6%) were performed in asymptomatic women, and 751 in symptomatic women (diagnostic mammography), the latter excluded from the study.

The radiological classification of the 7,249 screening mammography studies according to BI-RADS is shown on Table 1.

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Table 1—
- Distribution of mammographic cases according to BI-RADS categories.

Amongst the 7,249 asymptomatic patients, 826 presented mammographic alterations and classified as BI-RADS categories 0, 3, 4 or 5. In this group, 558 (67.5%) patients were followed-up and 268 (32.5%) were missed in the follow-up.

The relationship observed between the patients' age range and the diagnosed cases of cancer can be seen on Table 2 where one can also observe that most of the patients (45.45%) were included in the age range between 60 and 69 years, followed by 34% between 70 and 79 years, and 19.64% between 50 and 59 years.

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Table 2—
- Number of cancer cases detected per age range.

Amongst the 165 biopsies performed for mammograms classified as BI-RADS categories 0, 3, 4 and 5, 35 patients presented malignant results at histopathological analysis, as follows: 1 case in category 0; 1 in category 3; 26 in category 4; and 7 in category 5. The PPVs of the percutaneous biopsies were calculated for each BI-RADS category of positive screening mammography, and the respective results are shown on Table 3.

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Table 3—
- Distribution of cases with percutaneous biopsy in agreement with BI-RADS classification and histopathological diagnosis of malignancy or benignity.

Amongst the 35 cases which were positive for malignancy, 8 (22.8%) were ductal carcinomas in situ (DCIS), 24 (68.5%) invasive ductal carcinomas, and 3 (9%) invasive lobular carcinomas.

In the present study, the authors observed 221 positive screening mammograms (BI-RADS categories 0, 4 and 5, with 104, 106 and 11 cases, respectively), and 7,026 negative screening mammograms (BI-RADS categories 1, 2 and 3, with 567, 5,854 and 605 cases, respectively). Thirty-four cases of cancer were diagnosed by positive screening mammograms, while only one case was diagnosed to the present moment by negative screening mammography. Therefore, the present study recorded 34 true positive (TP) results, 187 false positive (FP) results, 7,025 true negative (TN) results, and 1 false negative (FN) result (Table 4).

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Table 4
- Mammography performance indicators (sensitivity and specificity).

With such indicators, the authors could establish the calculations for sensitivity and specificity by means of the following equations: sensitivity = TP (TP + FN) and specificity = TN (TN + FP). Thus, sensitivity was 97.1%, and specificity, 97.4%.

In the present study, the rate of recall related to the number of cases requiring further investigation (BI-RADS category 0) was 1.43%.

All the results observed in the present study and considered of interest for the purposes of the audit, are shown on Table 5(¹⁸18 Colégio Brasileiro de Radiologia. BI-RADS – Sistema de laudos e registro de dados de imagem da mama. São Paulo, SP: Colégio Brasileiro de Radiologia; 2005.–²⁰20 American College of Radiology. Breast Imaging Reporting and Data System (BI-RADS®). 4th ed. Reston, VA: American College of Radiology; 2003.).

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Table 5—
- Results clinically significant for the complete audit of the mammography center.

DISCUSSION

The Brazilian radiological literature has recently been concerned with the role played by imaging methods in the improvement of breast diseases diagnosis(²¹21 Rodrigues DCN, Freitas-Junior R, Corrêa RS, et al. Avaliação do desempenho dos centros de diagnóstico na classificação dos laudos mamográficos em rastreamento oportunista do Sistema Único de Saúde (SUS). Radiol Bras. 2013;46:149–55.–³¹31 Lykawka R, Biasi P, Guerini CR, et al. Avaliação dos diferentes métodos de medida de força de compressão em três equipamentos mamográficos diferentes. Radiol Bras. 2011;44:172–6.).

The detection of breast cancer at its earliest phases is the most effective measure in the management of the disease(³²32 Koch HA, Peixoto JE. Bases para um programa de detecção precoce do câncer de mama por meio da mamografia. Radiol Bras. 1998;31:329–37.,³³33 Sickles EA. Periodic mammographic follow-up of probably benign lesions: results in 3,184 consecutive cases. Radiology. 1991;179:463–8.). The mammography's contribution to such an early detection is dependent on appropriate mammographic equipment utilized in the context of a quality program and under the supervision of a responsible physician(³⁴34 Goto RE, Pires SR, Medeiros RB. Identificação de parâmetros de qualidade de impressão para a garantia da detecção de estruturas presentes na mamografia digital. Radiol Bras. 2013;46:156–62.). Additionally, it is imprescindible that the clinical team is trained and experienced in breast imaging, and that the mammography studies are performed and supervised according to the best imaging techniques(³⁵35 Wilson TE, Helvie MA, August DA. Breast cancer in the elderly patient: early detection with mammography. Radiology. 1994;190:203–7.).

The women's age range may affect the disease prevalence(¹³13 Tabár L, Fagerberg CJ, Gad A, et al. Reduction in mortality from breast cancer after mass screening with mammography. Randomised trial from the Breast Cancer Screening Working Group of the Swedish National Board of Health and Welfare. Lancet. 1985;1:829–32.). In the present study, mammography was performed in women in the age range between 33 and 86 years, and cancer was found in 35 of them. Breast cancer was detected in 4.8 per 1,000 patients, within the expected average range according BI-RADS, i.e., 2 to 10 cases per 1,000 mammograms(¹⁹19 American College of Radiology. Breast Imaging Reporting and Data System (BI-RADS). Reston, VA: American College of Radiology; 1993.,²⁰20 American College of Radiology. Breast Imaging Reporting and Data System (BI-RADS®). 4th ed. Reston, VA: American College of Radiology; 2003.,³²32 Koch HA, Peixoto JE. Bases para um programa de detecção precoce do câncer de mama por meio da mamografia. Radiol Bras. 1998;31:329–37.).

The rate of recall represented by the number of women called or with indication for further investigation(³⁶36 Orel SG, Kay N, Reynolds C, et al. BI-RADS categorization as a predictor of malignancy. Radiology. 1999;211:845–50.) corresponded to 104 (1.43%) patients, a number that is much inferior to the recommended standards (5% to 10%)(¹⁴14 Bassett LW, Hendrick RE, Bassford TL, et al. Quality determinants of mammography. Clinical practice guideline No. 13. AHCPR Publication No. 95-0632. Rockville, MD: Agency for Health Care Policy and Research, Public Health Service, U.S. Department of Health and Human Services. October 1994.). Such a fact is due to the acquisition of supplementary mammographic images at the moment of the routine mammography, as the physician evaluates the images before releasing the patient.

In the present study, the PPV based on percutaneous biopsy (TP results/number of biopsies in categories 4 and 5) was 48.6%, superior to the expected range according to the literature (15% to 40%)(¹⁴14 Bassett LW, Hendrick RE, Bassford TL, et al. Quality determinants of mammography. Clinical practice guideline No. 13. AHCPR Publication No. 95-0632. Rockville, MD: Agency for Health Care Policy and Research, Public Health Service, U.S. Department of Health and Human Services. October 1994.,³⁷37 Sickles EA, Ominsky SH, Sollitto RA, et al. Medical audit of a rapid-throughput mammography screening practice: methodology and results of 27,114 examinations. Radiology. 1990;175:323–7.–⁴²42 Azevedo AC, Koch HA, Canella EO. Auditoria em centro de diagnóstico mamário para detecção precoce de câncer de mama. Radiol Bras. 2005;38:431–4.). Remarkably, category 3 presented a PPV of 1.3%, reproducing the values reported by Sickles et al.(³⁷37 Sickles EA, Ominsky SH, Sollitto RA, et al. Medical audit of a rapid-throughput mammography screening practice: methodology and results of 27,114 examinations. Radiology. 1990;175:323–7.). Table 6 compares the study results with those expected by relevant studies in the literature and correlates the data with the distribution of cases according to the BI-RADS classification.

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Table 6—
- Distribution of cases according BI-RADS classification and predictive value for malignancy as compared with data in the literature(¹⁴14 Bassett LW, Hendrick RE, Bassford TL, et al. Quality determinants of mammography. Clinical practice guideline No. 13. AHCPR Publication No. 95-0632. Rockville, MD: Agency for Health Care Policy and Research, Public Health Service, U.S. Department of Health and Human Services. October 1994.,³⁷37 Sickles EA, Ominsky SH, Sollitto RA, et al. Medical audit of a rapid-throughput mammography screening practice: methodology and results of 27,114 examinations. Radiology. 1990;175:323–7.–⁴²42 Azevedo AC, Koch HA, Canella EO. Auditoria em centro de diagnóstico mamário para detecção precoce de câncer de mama. Radiol Bras. 2005;38:431–4.).

In the present study, the sensitivity was 97.1% because until the end of the patients follow-up, in December 2012, only one case of cancer (BI-RADS category 3) was found. Such a result is superior to the one reported by Sickles et al.⁽³⁷⁾ (93.1%) and by Baines et al.⁽³⁸⁾ (69%), but reproduces the recommendations by Basset et al.⁽¹⁴⁾ (> 85%). The specificity observed in the present study was 97.4% and studies in the literature recommend results > 90%^{(14,37,38,42)}. The authors attribute such results to the experience of the medical team (minimum 10-year training in breast imaging) and also to the quality of the mammography services provided by the center.

CONCLUSION

The complete internal audit of the mammography center is essential and depicts the quality of the service. The authors believe that the present study results reproduce the best results reported by international publications, ensuring the correct classification according BI-RADS categories, as well as the performance of appropriate percutaneous biopsies, thus contributing for the early breast cancer detection and reduction of the mortality associated with the disease.

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» http://seer.cancer.gov
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» http://www.inca.gov.br/estimativa/2012
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⁶
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⁷
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¹⁴
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¹⁵
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³¹
Lykawka R, Biasi P, Guerini CR, et al. Avaliação dos diferentes métodos de medida de força de compressão em três equipamentos mamográficos diferentes. Radiol Bras. 2011;44:172–6.
³²
Koch HA, Peixoto JE. Bases para um programa de detecção precoce do câncer de mama por meio da mamografia. Radiol Bras. 1998;31:329–37.
³³
Sickles EA. Periodic mammographic follow-up of probably benign lesions: results in 3,184 consecutive cases. Radiology. 1991;179:463–8.
³⁴
Goto RE, Pires SR, Medeiros RB. Identificação de parâmetros de qualidade de impressão para a garantia da detecção de estruturas presentes na mamografia digital. Radiol Bras. 2013;46:156–62.
³⁵
Wilson TE, Helvie MA, August DA. Breast cancer in the elderly patient: early detection with mammography. Radiology. 1994;190:203–7.
³⁶
Orel SG, Kay N, Reynolds C, et al. BI-RADS categorization as a predictor of malignancy. Radiology. 1999;211:845–50.
³⁷
Sickles EA, Ominsky SH, Sollitto RA, et al. Medical audit of a rapid-throughput mammography screening practice: methodology and results of 27,114 examinations. Radiology. 1990;175:323–7.
³⁸
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Data availability

Data citations

National Cancer Institute. Surveillance, Epidemiology and End Results (SEER). [acessado em 13 de agosto de 2012]. Disponível em: http://seer.cancer.gov.

Brasil. Ministério da Saúde. Instituto Nacional de Câncer. Estimativa 2012: incidência de câncer no Brasil. [acessado em 16 de agosto de 2012]. Disponível em: http://www.inca.gov.br/estimativa/2012.

Publication Dates

Publication in this collection
Mar-Apr 2014

History

Received
23 July 2013
Accepted
25 Oct 2013

This is an Open Access article distributed under the terms of the Creative Commons Attribution Non-Commercial License, which permits unrestricted non-commercial use, distribution, and reproduction in any medium, provided the original work is properly cited.

[1] ¹
National Cancer Institute. Surveillance, Epidemiology and End Results (SEER). [acessado em 13 de agosto de 2012]. Disponível em: http://seer.cancer.gov.
» http://seer.cancer.gov

[2] ²
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Age range (years)	Number of patients	Number of cancer cases	%
30 to 39	21	0	0
40 to 49	45	1	3.8
50 to 59	1,424	5	15.4
60 to 69	3,295	9	23.1
70 to 79	2,464	20	57.7
Total	7,249	35	100

BI-RADS	Histopathological diagnosis				Total
	Benign		Malignant		Total
	n	%	n	%	n	%
0	17	94.5	1	5.5	18	10.90
3	76	98.7	1	1.3	77	46.66
4	37	58.7	26	41.3	63	38.18
5	0	0	7	100	7	4.24
Total	130		35		165	100

		Biopsy results
		Positive (malignancy demonstrated by biopsy within one year)	Negative (benignity in biopsy study or no cancer detected withir one year)
Screening mammography	Positive mammography (categories 0, 4, 5)	34 (TP)	187 (FP)
	Negative mammography (categories 1, 2, 3)	1 (FN)	7,025 (TN)

Item	Results
1. Total number of screening mammograms	7,249
2. Rate of recall	104 (1.43%)
3. Total number of cases classified as BI-RADS 4	106 (1.46%)
4. Total number of cases classified as BI-RADS 5	11 (0.15%)
5. Total number of cases classified as BI-RADS 4 and 5 submitted to percutaneous biopsy	70
5a. Number of such cases found to be benign	36 (51.4%)
5b. Number of such cases found to be malignant (PPV)	34 (48.6%)
6. Total number of cases of tumors in situ	8 (22.8%)
7. Total number of cases of invasive ductal/invasive lobular tumors	27 (77.2%)
8. Number of cases of cancer per 1,000 mammograms	4.8
9. Sensitivity	97.1%
10. Specificity	97.4%

BI-RADS	Distribution of cases according to BI-RADS classification	Observed PPV	Expected PPV
0	104 (1.43%)	5.5%	< 10%
1	567 (7.82%)	0	0
2	5,854 (80.76%)	0	0
3	605 (8.35%)	1.3%	< 2%
4	106 (1.46%)	41.3%	< 30%
5	11 (0.15%)	100%	95%
6	2 (0.03%)	–	100%
Total	7,249 (100%)

BI-RADS category	Number of cases	%
0	104	1.43
1	567	7.82
2	5,854	80.76
3	605	8.35
4	106	1.46
5	11	0.15
6	2	0.03
Total	7,249	100

Brasil

Brasil

Complete internal audit of a mammography service in a reference institution for breast imaging* * Study developed at FEMME – Laboratório da Mulher, São Paulo, SP, Brazil.

Abstracts

Objective

Materials and Methods

Results

Conclusion

Objetivo

Materiais e Métodos

Resultados

Conclusão

INTRODUCTION

MATERIALS AND METHODS

RESULTS

DISCUSSION

CONCLUSION

REFERENCES

Data availability

Data citations

Publication Dates

History

Complete internal audit of a mammography service in a reference institution for breast imaging^* * Study developed at FEMME – Laboratório da Mulher, São Paulo, SP, Brazil.