SciELO - Scientific Electronic Library Online

 
vol.33Tendencias de mortalidad por trastornos mentales y comportamentales relacionados con el consumo de alcohol en Brasil: 2010-2021Tendencia de incompletitud de variables de Clasificación de Robson en el Sistema de Información de Nacidos Vivos en Paraná, 2014-2020 índice de autoresíndice de materiabúsqueda de artículos
Home Pagelista alfabética de revistas  

Servicios Personalizados

Revista

Articulo

Indicadores

  • No hay articulos citadosCitado por SciELO

Links relacionados

  • No hay articulos similaresSimilares en SciELO

Compartir


Epidemiologia e Serviços de Saúde

versión impresa ISSN 1679-4974versión On-line ISSN 2237-9622

Epidemiol. Serv. Saúde vol.33  Brasília  2024  Epub 06-Mayo-2024

http://dx.doi.org/10.1590/s2237-96222024v33e2024008.en 

EXPERIENCE REPORT

Usefulness of minimally invasive autopsy in the diagnosis of arboviruses to increase the sensitivity of the Epidemiological Surveillance System in Ceará, Brazil

Utilidad de la autopsia mínimamente invasiva en el diagnóstico de arbovirus para aumentar la sensibilidad del Sistema de Vigilancia Epidemiológica en Brasil: experiencia de Ceará, Brasil

Livia Mendes de Almeida (orcid: 0000-0003-1021-7521)1  , Deborah Nunes de Melo (orcid: 0000-0002-7950-0424)2  , Manuella Mendonça da Silva (orcid: 0000-0001-5799-2678)1  , Pedro Mansueto Melo de Souza (orcid: 0000-0002-6814-8197)3  , Fernanda Kézia de Sousa Silva (orcid: 0000-0002-3485-1079)4  , Tania Mara Silva Coelho (orcid: 0000-0002-7266-037X)5  , Shirlene Telmos Silva de Lima (orcid: 0000-0003-4738-9626)7  , Anacelia Gomes de Matos Mota (orcid: 0000-0002-5477-7929)3  , Renata Aparecida de Almeida Monteiro (orcid: 0000-0002-6709-5943)8  , Paulo Hilario Nascimento Saldiva (orcid: 0000-0003-2005-8253)8  , Geraldo Gileno de Sa ́Oliveira (orcid: 0000-0001-6065-6480)9  , Luciano Pamplona de Góes Cavalcanti (orcid: 0000-0002-3440-1182)6 

1Centro Universitário Christus, Faculdade de Medicina, Fortaleza, CE, Brazil

2Universidade Federal do Ceará, Programa de Pós-Graduação em Patologia, Fortaleza, CE, Brazil

3Secretaria da Saúde do Estado do Ceará, Serviço de Verificação de Óbito Dr. Rocha Furtado, Fortaleza, CE, Brazil

4Universidade Federal do Ceará, Ambulatório de Pesquisa Clínica Replick, Fortaleza, CE, Brazil

5Secretaria da Saúde do Estado do Ceará, Fortaleza, CE, Brazil

6Universidade Federal do Ceará, Programa de Pós-Graduação em Saúde Coletiva, Fortaleza, CE, Brazil

7Laboratório Central de Saúde Pública do Ceará, Fortaleza, CE, Brazil

8Universidade de São Paulo, Faculdade de Medicina de São Paulo, São Paulo, SP, Brazil

9Fundação Oswaldo Cruz, Centro Gonçalo Moniz, Salvador, BA, Brazil

Abstract

Objective:

To create a protocol for performing minimally invasive autopsies (MIA) in detecting deaths from arboviruses and report preliminary data from its application in Ceará state, Brazil.

Methods:

Training was provided to medical pathologists on MIA.

Results:

A protocol was established for performing MIA, defining criteria for sample collection, storage methods, and diagnoses to be carried out according to the type of biological sample; 43 MIAs were performed in three months. Of these, 21 (48.8%) arrived at the Death Verification Service (SVO) with arboviruses as a diagnostic hypothesis, and seven (16.3%) were confirmed (six chikungunya cases and one dengue case); cases of COVID-19 (n = 9), tuberculosis (n = 5), meningitis (n = 4), cryptococcosis (n = 1), Creutzfeldt-Jakob disease (n = 1), breast cancer (n = 1), and human rabies (n = 1) were also confirmed.

Conclusion:

The protocol implemented enabled identification of a larger number of suspected arbovirus-related deaths, as well as confirmation of other diseases of interest for surveillance.

Keywords: Arbovirus Infections; Autopsy; Epidemiologic Surveillance Services; Investigative Techniques

Study contributions

Main results

A protocol was developed to perform minimally invasive autopsies (MIAs) in Death Verification Services (SVO), capable of expanding the system’s capacity to identify a greater number of deaths suspected to be due to arboviruses.

Implications for services

The experience suggests that in-service trained health professionals are able to perform MIA, and that use of this technique in SVOs has been shown to be capable of increasing the system’s sensitivity in detecting deaths of interest to public health.

Perspectives

Trained professionals will be able to collect biological material in hospitals, through MIA, in cases of interest for health surveillance and when family members do not allow a complete conventional autopsy to be performed.

Keywords: Arbovirus Infections; Autopsy; Epidemiologic Surveillance Services; Investigative Techniques

Resumen

Objetivo:

Estabelecer un protocolo utilizado para la realización de autopsias mínimamente invasivas (AMI) para la detección de muertes por arbovirus y presentar datos preliminares de este protocolo en Ceará, Brasil.

Métodos:

Se llevó a cabo la capacitación de médicos patólogos en AMI.

Resultados:

Se estableció un protocolo para la realización de AMI, que define los criterios para la toma de muestras, métodos de almacenamiento y diagnóstico; en tres meses se realizaron 43 AMI; de estas, 21 (48,8%) llegaron al Servicio de Verificación de Óbito (SVO) con una hipótesis diagnóstica de alguna arbovirosis y siete (16,3%) fueron confirmadas (seis casos de chikungunya y uno de dengue); también se confirmaron casos de Covid-19 (n = 9), tuberculosis (n = 5), meningitis (n = 4), criptococosis (n = 1), enfermedad de Creutzfeldt-Jakob (n = 1), neoplasia de mama (n = 1) y rabia humana (n = 1).

Conclusión:

El protocolo implementado permitió la identificación de un mayor número de muertes sospechosas de arbovirus, además de la confirmación de otras patologías de interés.

Palabras clave: Infecciones por Arbovirus; Autopsia; Servicios de Vigilancia Epidemiológica; Técnicas de Investigación

INTRODUCTION

Concerned with the arbovirus scenario in Brazil,1)-(3 the country’s Health Ministry recommends that deaths suspected to be due to this condition be investigated.4 Determining the cause of these deaths continues to be a challenge.5 Autopsy undoubtedly contributes to improving understanding of how microorganisms cause diseases, especially emerging and re-emerging diseases.6

Autopsies performed by the Death Verification Service (Serviço de Verificação de Óbito - SVO) of the Ceará State Health Department contributed to greater detection of deaths due to dengue, being one of the largest sources of notification of suspected deaths due to dengue in 2011-2012 and chikungunya in 2016-2017 in its territory.7)-(10

However, refusal to authorize autopsies is considerable, due to lack of information, prejudice or pressure from burial services.11),(12 Therefore, there is greater need to use safer and less invasive techniques to obtain organ samples for post-mortem analysis, potentially more acceptable to relatives or guardians of those who died.13 Another aspect to be mentioned about the issue was the emergence of the COVID-19 pandemic, which led most services to suspend autopsies for safety reasons.14)-(16

The objective of autopsies is to obtain more information about the pathological processes and determine the factors contributing to death.17 If, on the one hand, this practice has become increasingly difficult in cases in which the family does not allow it to be performed,11 on the other hand minimally invasive autopsy (MIA) has become an increasingly used method for collecting samples from key post-mortem organs.12),(17)-(19 MIA is a relatively simple technique for collecting tissue samples from various organs and body fluids; a quick, non-disfiguring procedure, easy to perform and capable of providing robust data for health surveillance.20)-(23

The objective of this study was to establish a protocol for performing MIAs in detecting deaths due to arboviruses, and to report preliminary data on its implementation in the state of Ceará, Brazil.

METHODS

This was a report of an experience developed in partnership between the Universidade Federal do Ceará Pathology and Public Health Postgraduate Programs, the Ceará State Health Department, the Dr. Rocha Furtado Death Verification Service (SVO), the Faculty of Medicine of the Centro Universitário Christus and the Ceará Central Public Health Laboratory (Laboratório Central de Saúde Pública - LACEN/CE), as well as the Hospital Clínic de Barcelona Department of Anatomic Pathology and Microbiology and the Instituto de Salud Global de Barcelona (ISGlobal), Spain, to implement the MIA technique in Ceará.

The project subsequently received funding from the Brazilian Health Ministry, which, among other items, paid for the team of pathologists from Spain to come to Brazil to provide in-service training at the Dr. Rocha Furtado SVO. However, the onset of the COVID-19 pandemic led to the closure of Fortaleza’s international airport; subsequently, autopsies were suspended in accordance with Ministry of Health guidelines.17 At that time of pandemic crisis, the service’s need to implement MIA increased, given the growing number of corpses arriving at the SVO without an established underlying cause, whereby several of those deaths occurred at home.

Given the urgent need to start using MIA, the Health Ministry facilitated negotiations between the Ceará group and the Universidade de São Paulo team to enable some Ceará pathologists to be trained. As part of this partnership, three professionals were sent to be trained in São Paulo (Figures 1A and 1B). The first experimental MIA in Ceará was performed in January 2021.24 As such the Ceará SVO was the second such service in Brazil to put this technique into practice (Figures 1C, 1D, 1E and 1F).

Figure 1 (A) training conducted on the Image Platform, Universidade de São Paulo Autopsy Room; (B) training conducted on the Image Platform, Universidade de São Paulo Autopsy Room; (C) performance of minimally invasive autopsy in Ceará; (D) performance of minimally invasive autopsy in Ceará; (E) performance of minimally invasive autopsy in Ceará; (F) performance of minimally invasive autopsy in Ceará 

As the pandemic subsided, it was possible to carry out training at the Ceará SVO, between November 7th and 11th, 2022, with the participation of and experience sharing between professionals from São Paulo, Barcelona/Spain, and the Health Ministry. Nine pathologists from Ceará received in-service MIA training. Once the local team had been trained, it was possible to establish work flows within the SVO and begin performing MIAs.

While the professionals were still considered to be in the training period, in those cases in which the family granted authorization, MIA was performed, followed by autopsy, with the aim of comparing the imaging findings with those of the biological samples sent to the reference laboratory. In those cases in which biological material was collected using both techniques, the procedures were performed by different pathologists. The result as to agreement between the two procedures occurred directly, by comparing the target organ macroscopic and microscopic findings.

The study project was approved by the Centro Universitário Christus Research Ethics Committee on February 20th 2020, as per Certificate of Submission for Ethical Appraisal No. 27162619.1.0000.5049 and Opinion No. 3.851.684.

RESULTS

During the first three months after in-service training, 43 MIAs were performed, of which 21 (48.8%) cases arrived at the SVO with arboviruses as a diagnostic hypothesis, while the remaining 22 (52.2%), were suspected cases of other conditions. Among the 21 deaths suspected to be due to arboviruses, seven (16.3%) were laboratory confirmed: six due to chikungunya and one due to dengue. The female sex predominated (79.2%) and average age was 54 years (< 1 to 100), with emphasis on the elderly (39% aged 70 or over).

Among the other conditions investigated, there were nine confirmed cases of COVID-19, five tuberculosis, four meningitis, one cryptococcosis, one Creutzfeldt-Jakob disease, one breast neoplasm and one human rabies case.

Both techniques (MIA and conventional autopsy) were performed in 30/43 (60.7%) of the cases. The samples sent to the LACEN/CE laboratory had IgM and RT-qPCR positive results, both in blood, cerebrospinal fluid and viscera (brain and spleen) samples. Percentage agreement between the findings using the two techniques was greater for the brain, heart, lung and liver, and more complex for the spleen. It was possible to clearly identify findings such as liver hepatocyte disarrangement, acute kidney tubular necrosis, in addition to pulmonary alveolar edema and hemorrhage (Figures 2 and 3).

Legend: 1) Hepatocyte disarrangement in liver samples; 2) Acute tubular necrosis in kidney samples; 3) Alveolar edema and hemorrhage in lung samples.

Figure 2 Comparison of histological sections of samples collected via autopsy (on the left) and via minimally invasive autopy (on the right) (Hematoxylin-Eosin, 100x) 

Notes: Macroscopy = when the pathologist was able to collect fragments that, macroscopically, appeared to be from the puncture target organ; Microscopy = when it was confirmed, microscopically, that the fragment collected via puncture corresponded to the puncture target organ.

Figure 3 Percentage agreement between tissue collected via conventional autopsy and punctures via minimally invasive autopsies performed on the first 30 deaths investigated at the Ceará Death Verification Service (Serviço de Verificação de Óbito - SVO), January 29 - May 7, 2023 

Based on this initial experience, a work flow was created and the necessary routines for carrying out MIA at the SVO were established, in addition to defining the following selection criteria:

a) death referred to the SVO with arbovirus as a diagnostic hypothesis; or

b) death referred to the SVO whereby suspicion of arbovirus is raised following interview with family members; or

c) death for which family members or guardians do not authorize conventional autopsy; or

d) death due to high-risk disease, whereby autopsy is contraindicated.

If MIA was indicated by any of these criteria, family member authorization was requested for performing minimally invasive autopsy, upon completion of an Informed Consent Form regarding the procedures involved. Once such authorization was received, the post-mortem study was begun using MIA, separating and identifying all the material to be used. Semi-automatic coaxial needles, of the TRU-CUT type, 16G x 20 cm long for adults and 14G x 9 cm long for children were used to perform MIA. Individual needles were used for each organ biopsied: brain, heart, right lung, left lung, liver, spleen, right and left kidneys, in that order.

The fragments collected using MIA were distributed for biomolecular, immunohistochemical and histopathological analyses, according to the following protocol:

- eight needles, with their respective eight guide wires, for puncturing the eight key organs (brain, heart, right lung, left lung, liver, spleen, right kidney and left kidney);

- ten formaldehyde-free cryotubes, for fresh packaging of blood, cerebrospinal fluid and eight key organ samples, to be sent for serological and molecular biology analysis at the LACEN/CE laboratory;

- eight cryotubes containing 10% buffered formaldehyde, for packaging the fragments of each of the eight key organs, to be sent for immunohistochemical analysis at the LACEN/CE outsourced reference laboratory;

- eight cryotubes containing 10% buffered formaldehyde, for packaging the fragments of each of the eight key organs, to be processed for histopathological analysis at the SVO itself.

After performing all MIA punctures, the corpses were transferred from the stretcher to the necropsy table and underwent autopsy, involving opening the cranial and thoracoabdominal cavities. Fragments from all key organs were also collected and each of them were fully examined, choosing the best sample from each organ for analysis.

Once MIA and the conventional autopsy had been completed, all samples were sent to the laboratories and their results were later compared in order to validate the technique regarding arbovirus cases.

DISCUSSION

The creation and implementation of the protocol by the Ceará SVO enabled cases of deaths of interest to epidemiological surveillance in which the corpses did not have family authorization for performing a conventional autopsy to undergo the MIA technique, enabling the collection of biological material to investigate the cause of death. Use of MIA made it possible to increase both the number of suspect deaths to be investigated and also the sensitivity of the investigation system.

One limitation of the study that stands out is that, even though it is a safe, fast, accessible technique with greater acceptability, regardless of religious and ethical impediments,25),(26 use of MIA met with resistance from some pathologists. It is also worth mentioning the difficulty in identifying and puncturing small focal lesions, which affect only a small portion of a given organ. Focal lesions, such as nodules or abscesses, for example, may not be punctured if random punctures are performed. This limitation is partially resolved with the use of ultrasound, which enables identification of a large number of focal lesions, as well as enabling puncturing to be directed towards them. A further limitation relates to identifying focal lesions that do not show changes when using ultrasound, such as in areas of myocardial ischemia. For this type of lesion, however, there are no MIA techniques that satisfactorily replace the macroscopic analysis that conventional autopsy provides. Despite these limitations, it is worth highlighting that using MIA it is possible to identify the etiological agent in the majority of deaths due to infectious causes.21

Considering the primary objective of the protocol, i.e. to demonstrate the usefulness of MIA in diagnosing arboviruses, and given that it is known that arbovirus infections are systemic and affect organs in a diffuse manner, the limitations metioned above tend not to substantially jeopardize what was proposed. Even though it is not possible to identify focal lesions in the heart, for example, since myocarditis due to arbovirus is diffuse, the odds are high that this form of myocarditis can be detected by puncturing random portions of the myocardium.

It is important to make it clear that use of MIA should not be encouraged at the expense of performing autopsies. Autopsy remains the gold standard but, in cases in which there is no SVO or when the family does not authorize an autopsy, MIA is an alternative.

The first MIA in Brazil was performed in São Paulo, in March 2020,27 and later in the state of Ceará24 and then in the state of Bahia.28

Confirmation of a case of human rabies in Ceará, after several years with no record of the disease in the state, was evidence of the system’s increased sensitivity with the use of MIA: the family refused to authorize autopsy and the case would not have been investigated if MIA had not been performed at the hospital where the death occurred. This is, furthermore, an aspect to be discussed in this scenario of expanding the use of this technique to hospitals: i.e. whether or not MIA should be exclusively performed by pathologists. The experience of the Universidade de São Paulo points to the possibility of the procedure being performed by trained health professionals, even if they are not physicians. In Ceará, it was decided to only train pathologists, especially because it is they who have to provide histological diagnosis, as recommended by Brazilian legislation. In cases in which there is no SVO in the region, performance of MIA by other health professionals should be discussed and assessed. At the time of concluding this report, there is no consensus on the subject but it certainly deserves reflection, given the small number of pathologists available in the health system.

Even though the initial objective of the Ceará SVO was to use MIA in arbovirus cases, in a complementary way, indications for using MIA have been extended to other infectious diseases of public health concerrn, in order to increase the number of procedures performed by each pathologist, accelerating the learning curve of the technique and increasing sensitivity of death surveillance in Ceará.29

The SVO experience suggests that, when performing MIA, the corpse should be placed on a stretcher. Conventional necropsy tables have raised edges, which can make it difficult to puncture more dorsal structures, such as the kidneys. With the corpse in prone position, a suboccipital puncture is performed to collect cerebrospinal fluid from the cisterna magna. As there is no mandatory order for performing the procedure, it is recommended that each health service or professional should systemize it, so as to avoid forgetting to puncture one or more organ. The following puncture order has been established at the Ceará SVO: brain, heart, right lung, left lung, liver, spleen, right kidney and left kidney.

Regarding COVID-19 cases, it is worth mentioning that there are studies that report that corpses subjected to MIA had almost identical histological findings when compared to those subjected to autopsy.30

Initially, a needle was used for each organ due to the secondary objective of identifying which organ had positive laboratory results. Furthermore, the aim was to identify whether there was an organ with greater positivity than the others, with a view to prioritizing it when it was not possible to collect samples from all organs. This increases the cost of the procedure but, under normal conditions, needle consumption will be much lower.

There is no way of measuring the number of MIAs needed for a health professional to achieve a target organ success rate of 100%. The Ceará experience suggests that, with few autopsies performed, the professional has sufficient security and, if the service has ultrasound equipment and a radiologist, the MIA technique becomes more effective, facilitating completion of the process.

Historically, family members refusing to authorize autopsies has been greater in Ceará, which ends up motivating the search for less invasive alternatives; especially after the chikungunya epidemic, responsible for many deaths in elderly people whose relatives did not allow an autopsy to be performed.

Adopting MIA should not require new SVOs. Its use can expand the range of diseases observed through postmortem punctures, detection of emerging diseases and even diagnosis of chronic diseases.

The next challenge for the state of Ceará will be to train infectious disease specialists and neurologists from local reference hospitals - Hospital São José de Ciências Infecciosas and Hospital Geral de Fortaleza, both located in Ceará´s capital city - to use the technique in their hospitals, in cases that are of interest to health surveillance and, especially, in cases in which family members do not allow the corpse to be sent to the Death Verification Service. Greater use of minimally invasive autopsy will certainly contribute to reducing the number of deaths with ill-defined causes in Ceará.

REFERENCES

1. Carvalho FHC, Cavalcanti LPG. The triple epidemic of arboviroses in Brazil. What does this mean? Are we ready? Rev Med UFC. 2016;56(1):6-7. doi: 10.20513/2447-6595.2016v56n1p6-7. [ Links ]

2. Freitas ARR, Cavalcanti LPG, von Zuben PB, Donalísio MR. Excess mortality related to chikungunya epidemics in the context of cocirculation of other arboviruses in Brazil. PloS Curr. 2017;9(1):1-13. doi: 10.1371/currents.outbreaks.14608e586cd321d8d5088652d7a0d884. [ Links ]

3. Brito CAA. Alert: Severe cases and deaths associated with chikungunya in Brazil. Rev Soc Bras Med Trop. 2017;50:585-9. doi: 10.1590/0037-8682-0479-2016. [ Links ]

4. Ministério da Saúde (BR). Secretaria de Vigilância em Saúde. Boletim Epidemiológico: Monitoramento dos casos de dengue, febre de chikungunya e febre pelo vírus Zika até a Semana Epidemiológica 32 [Internet]. 2016 [citado 2023 Março 15];47(33). Disponível no link: Disponível no link: http://portalsaude.saude.gov.br/images/pdf/2016/setembro/16/2016-028---Dengue-SE32.pdf . [ Links ]

5. Cavalcanti LPG, Barreto FKA, Oliveira RMAB, Canuto IFP, Lima AAB, Lima JWO, et al. Thirty years of dengue in Ceará: history, contributions to science and challenges in the current scenario with triple arbovirus circulation. J Health Biol Sci. 2018;6(1):65-82. doi: 10.12662/2317-3076jhbs.v6i1.1415.p65-82.2018. [ Links ]

6. Ministério da Saúde (BR). Secretaria de Vigilância em Saúde. Departamento de Vigilância Epidemiológica. Guia de vigilância epidemiológica. 7. ed. Brasília: Ministério da Saúde; 2009. 816 p. [ Links ]

7. Cavalcanti LPG, Braga DNM, Silva LMA, Aguiar M, Castiglioni M, Silva-Junior JU, et al. Postmortem diagnosis of dengue as an epidemiological surveillance tool. Am J Trop Med Hyg. 2016;94(1):187-92. doi: 10.4269/ajtmh.15-0392. [ Links ]

8. Cavalcanti LPG, Escóssia KNF, Simião AR, Linhares PMC, Lima AAB, Lopes KW, et al. Experience of the Arbovirus Death Investigation Committee in Ceará, Brazil, in 2017: advances and challenges. Epidemiol Serv Saude. 2019;28(3):1-7. doi: 10.5123/S1679-49742019000300011. [ Links ]

9. Cavalcanti LPG, Braga DNM, Pompeu MML, Lima AAB, Silva LMA, Aguiar MG, et al. Evaluation of the WHO classification of dengue severity from autopsied, during an epidemic in 2011 and 2012, in Brazil. Rev Soc Bras Med Trop. 2015;48(6):658-64. doi: 10.1590/0037-8682-0287-2015. [ Links ]

10. Monteiro DCS, Souza NV, Amaral JC, Lima KB, Araújo FMC, Ramalho ILC, et al. Dengue: 30 years of cases in an endemic area. Clinics. 2019;74:e675. doi: 10.6061/clinics/2019/e675. [ Links ]

11. Simião AR, Barreto FKA, Oliveira RMAB, Cavalcante JW, Lima Neto SS, Barbosa RB, et al. A major chikungunya epidemic with high mortality in northeastern Brazil. Rev Soc Bras Med Trop. 2019;52:e20190266. doi: 10.1590/0037-8682-0266-2019. [ Links ]

12. Maixenchs M, Anselmo R, Sanz A, Castillo P, Macete E, Carrilho C, et al. Healthcare providers’ views and perceptions on post-mortem procedures for cause of death determination in Southern Mozambique. PLoS One. 2018;13(7):e0200058, 2018. doi: 10.1371/journal.pone.0200058. [ Links ]

13. Hurtado JC, Quintó L, Castillo P, Carrilho C, Fernandes F, Jordao D, et al. Postmortem interval and diagnostic performance of the autopsy methods. Sci Rep. 2018;8(1):16112. doi: 10.1038/s41598-018-34436-1. [ Links ]

14. Hanley B, Lucas SB, Youd E, Swift B, Osborn M. Autopsy in suspected COVID-19 cases. J Clin Pathol. 2020;73(5):239- 42. doi: 10.1136/jclinpath-2020-206522. [ Links ]

15. Rakislova N, Ismail MR, Martinez A, Carrilho C, Martínez MJ, Bassat Q, et al. Minimally Invasive Autopsy: a more feasible and safer alternative to conventional autopsy in the COVID-19 pandemic era? Med Clin Sci. 2020;2(3):1-5. [ Links ]

16. Ministério da Saúde (BR). Secretaria de Vigilância em Saúde. Departamento de Análise em Saúde e Vigilância de Doenças não Transmissíveis. Manejo de corpos no contexto do novo coronavírus COVID-19 [Internet]. Brasília: Ministério da Saúde; 2020 [citado 2023 Março 15]. 32 p. Disponível em: Disponível em: https://pesquisa.bvsalud.org/bvsms/resource/pt/biblio-1087614 . [ Links ]

17. Costache M, Lazaroiu AM, Contolenco A, Costache D, George S, Sajin M, et al. Clinical or postmortem? The importance of the autopsy; a retrospective study. Maedica. 2014;9(3):261. [ Links ]

18. Chapman AR. Assessing the universal health coverage target in the Sustainable Development Goals from a human rights perspective. BMC Int Health Hum Rights. 2016;16(1):33. doi: 10.1186/s12914-016-0106-y. [ Links ]

19. Centers for Disease Control and Prevention. National Health and Nutrition Examination Survey (NHANES): anthropometry procedures manual. Atlanta: Centers for Disease Control and Prevention; 2007. p. 15-6. [ Links ]

20. Castillo P, Ussene E, Ismail MR Jordao D, Lovane L, Carrilho C, et al. Pathological methods applied to the investigation of causes of death in developing countries: minimally invasive autopsy approach. PLoS One. 2015;10(6):e0132057. doi: 10.1371/journal.pone.0132057. [ Links ]

21. Martínez MJ, Massora S, Mandomando I, Ussene E, Jordao D, Lovane L, et al. Infectious cause of death determination using minimally invasive autopsies in developing countries. Diagn Microbiol Infect Dis. 2016;84(1):80-6. doi: 10.1016/j.diagmicrobio.2015.10.002. [ Links ]

22. Maixenchs M, Anselmo R, Pérez GM, Oruko K, Agnandji ST, Minsoko PCA, et al. Socio-anthropological methods to study the feasibility and acceptability of the minimally invasive autopsy from the perspective of local communities: lessons learnt from a large multi-centre study. Glob Health Action. 2019;12(1):155949. doi: 10.1080/16549716.2018.1559496. [ Links ]

23. Maixenchs M, Anselmo R, Zielinski-Gutiérrez E, Odhiambo FO, Akello C, Ondire M, et al. Willingness to know the cause of death and hypothetical acceptability of the minimally invasive autopsy in six diverse African and Asian settings: a mixed methods socio-behavioural study. PLoS Med. 2016;13(11):e1002172. doi: 10.1371/journal.pmed.1002172. [ Links ]

24. Secretaria Estadual de Saúde (CE). Serviço de Verificação de Óbitos realiza autópsia minimamente invasiva, técnica inédita no Ceará [Internet]. Fortaleza: Secretaria Estadual de Saúde; 2021 [atualizado 2021 Jan 28, citado 2023 Maio 09]. Disponível em: Disponível em: https://www.saude.ce.gov.br/2021/01/28/servico-de-verificacao-de-obitos-realiza-autopsia-minimamente-invasiva-procedimento-inedito-no-ceara/ . [ Links ]

25. Ben‐Sasi K, Chitty LS, Franck LS, Thayyil S, Judge-Kronis L, Taylor AM, et al. Acceptability of a minimally invasive perinatal/paediatric autopsy: healthcare professionals' views and implications for practice. Prenat Diagn. 2013;33(4):307-12. doi: 10.1002/pd.4077. [ Links ]

26. Wagensveld IM, Weustink AC, Kors JA, Blokker BM, Hunink MGM, Oosterhuis JW. Effect of minimally invasive autopsy and ethnic background on acceptance of clinical postmortem investigation in adults. PloS One. 2020;15(5):e0232944. doi: 10.1371/journal.pone.0232944. [ Links ]

27. Monteiro RAA, Duarte-Neto AN, Silva LFF, Oliveira EP, Theodoro Filho J, Santos GAB, et al. Ultrasound-guided minimally invasive autopsies: a protocol for the study of pulmonary and systemic involvement of COVID-19. Clinics. 2020;75:e1972. doi: 10.6061/clinics/2020/e1972. [ Links ]

28. Instituto Gonçalo Moniz - Fiocruz Bahia. Primeira necropsia minimamente invasiva da Bahia é realizada em projeto de Covid-19 [Internet]. Salvador: Instituto Gonçalo Moniz - Fiocruz Bahia; 2021 [atualizado 2021 Mar 1; citado 2023 Março 15]. Disponível em: Disponível em: https://www.bahia.fiocruz.br/primeira-necropsia-minimamente-invasiva-da-bahia-e-realizada-em-projeto-de-covid-19/ . [ Links ]

29. Cavalcanti LPG, Escóssia KNF, Simiao AR, Linhares PMC, Lima AAB, Lopes KW et al. Experiência do Comitê de Investigação de Óbitos por Arboviroses no Ceará em 2017: avanços e desafios. Epidemiol Serv Saude. 2019;28(3):e2018397. doi: 10.5123/S1679-49742019000300011. [ Links ]

30. Rakislova N, Marimon L, Ismail MR, Carrilho C, Fernandes F, Ferrando M, et al. Minimally invasive autopsy practice in COVID-19 cases: biosafety and findings. Pathogens. 2021;10(4):412. doi: 10.3390/pathogens10040412. [ Links ]

FUNDING This research received funding from the Brazilian Health Ministry Department of Science and Technology (File No. 421724/2017-0) and from the Brazilian Health Ministry Health Surveillance Secretariat (File No. 707272/19-002). Luciano Pamplona de Góes Cavalcanti receives a productivity grant from the Conselho Nacional de Desenvolvimento Científico e Tecnológico / Ministério da Ciência, Tecnologia e Inovações (CNPq/MCTI): File No. 310579/2022-8.

Received: January 17, 2024; Accepted: March 04, 2024

Correspondence: Luciano Pamplona de Góes Cavalcanti. E-mail: pamplona.luciano@gmail.com

AUTHOR CONTRIBUTIONS

Almeida LM, Melo DN, Souza PMM, Silva FKS, Coelho TMS and Cavalcanti LPG contributed to the study concept and design, analysis and interpretation of the results, drafting and critically reveiwing the contents of the manuscript. Almeida LM, Melo DN, Souza PMM, Lima STS, Oliveira GGS and Cavalcanti LPG contributed to data analysis and interpretation, drafting and critically reviewing the contents of the manuscript. All the authors have approved the final version of the manuscript and are responsible for all aspects thereof, including the guarantee of its accuracy and integrity.

CONFLICTS OF INTEREST

The authors declare they have no conflicts of interest.

Associate editor:

Taís Freire Galvão - https://orcid.org/0000-0003-2072-4834

Creative Commons License This is an open-access article distributed under the terms of the Creative Commons Attribution License