key: cord-1006336-ulnc9gdv
authors: Hammoud, H.; Bendari, A.; Bendari, T.; Bougmiza, I.
title: Post mortem pathological findings in COVID-19 cases: A Systematic Review
date: 2020-10-14
journal: nan
DOI: 10.1101/2020.10.11.20210849
sha: 99d513b0a98ab2fce67209139d9bbfbc77cac443
doc_id: 1006336
cord_uid: ulnc9gdv

Abstract Background: The current COVID-19 pandemic is considered one of the most serious public health crisis over the last few decades. Although the disease can result in diverse, multiorgan pathology, there have been very few studies addressing the postmortem pathological findings of the cases. Active autopsy amid this pandemic could be an essential tool for diagnosis, surveillance, and research. Objective: To provide a total picture of the SARS-CoV-2 histopathological features of different body organs in postmortem autopsies through a systematic search of the published literature. Methods: A systematic search of electronic databases (PubMed, ScienceDirect, Google scholar, Medrxiv & Biorxiv) was carried out from December 2019 to August, 15th 2020, for journal articles of different study designs reporting postmortem pathological findings in COVID-19 cases. PRISMA guidelines were used for reporting the review. Results: A total of 50 articles reporting 430 cases were included in our analysis. Postmortem pathological findings were reported for different body organs, pulmonary system (42 articles), cardiovascular system ( 23 articles), hepatobiliary system (22 articles), kidney (16 articles), spleen, and lymph nodes (12 articles), and central nervous system (7 articles). In lung samples, diffuse alveolar damage (DAD) was the most commonly reported findings in 239 cases (84.4%). Myocardial hypertrophy (87 cases by 51.2%), arteriosclerosis (121 cases by 62%), and steatosis ( 118 cases by 59.3%) were the most commonly reported pathological findings in the heart, kidney, and hepatobiliary system respectively. Conclusion: Autopsy examination as an investigation tool could help in a better understanding of SARS-CoV-2 pathophysiology, diagnosis, management, and subsequently improving patient care. Keywords: SARS-CoV-2, Histopathology, Autopsy, forensic pathology, COVID-19

The novel coronavirus disease (COVID-19) pandemic is considered one of the most challenging public health crisis in the past century. It first emerged in Wuhan, China, in late December 2019 and believed to be caused by infection with the severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) virus. (1) The first cases of COVID-19 in China were believed to be of zoonotic origin, but the global spread of the disease was mainly travel-related.

The disease has spread from China to affect nearly 200 countries all over the world. (2) The virus is easily transmissible via droplets and fomites or when bodily fluids of the infected individual come in contact with another person's face, mouth, eyes, or nose. (3) Regarding pathogenesis, Angiotensin-converting enzyme 2 (ACE2), which is highly expressed on the respiratory tract, acts as a receptor to SARS-CoV-2. The virus invades the human cells causing massive destruction and inflammation of different organs and subsequently affecting the vascular supply and even progression to fibrosis. (4) The main clinical manifestations include fever, cough, fatigue, and shortness of breath. Other less common symptoms include headache, sore throat, and rhinorrhea. Along with that, one-fifth of patients (20%) presented with severe symptoms such as respiratory failure, multiorgan failure, septic shock, all of which necessitate intensive care. (5) Although COVID-19 is mainly affecting the respiratory system, there have been reported cases of cardiogenic and renal involvement in patients without previously known heart or renal diseases. (6, 7) The case-fatality rate for COVID-19 is variable across different nations, between 11 .75% in Italy and 0.37% in South Africa. The mean recovery time is two weeks for mild cases and 3-6 weeks for severe or critical cases. (8) The diagnosis of COVID-19 relies mainly on reverse-transcription polymerase chain reaction (RT-PCR) with some emerging evidence on characteristic CT and laboratory findings. (9) COVID-19 is a member of the coronavirus family, including MERS-CoV and SARS-CoV. (10) Both MERS-CoV and SARS-CoV are . CC-BY 4.0 International license It is made available under a is the author/funder, who has granted medRxiv a license to display the preprint in perpetuity.

The copyright holder for this preprint this version posted October 14, 2020. . https://doi.org/10.1101/2020. 10.11.20210849 doi: medRxiv preprint believed to affect humans and cause interstitial pneumonia, pneumocyte hyperplasia, and acute diffuse alveolar damage. (11, 12) The diverse histopathological findings associated with COVID-19 infections suggest that multiple organs are affected by the virus, with the pulmonary system is the most common system to be affected. Carsana et al. showed in their study the variety of the pathological findings of COVID-19 in the respiratory system. They've found that the pneumocytes desquamation, pulmonary edema, and diffuse alveolar damage are the most common microscopic findings. (13) As of August 10 th, 2020, the number of COVID-19 cases worldwide surpassed 20,162,474 million cases, with almost 737,417 deaths. However, the number of studies addressing the postmortem autopsy findings of COVID-19 patients is still scarce compared to the number of deaths. This could be explained by the fears of contagiousness associated with COVID-19 infection.

Since the beginning of the pandemic, the Centers for Disease Control and Prevention (CDC) released interim guidelines for the collection and analysis of clinical specimens that might contain SARS-CoV-2. (14) Active autopsy amid emerging epidemic diseases has been identified as an essential tool for diagnosis, surveillance, and research. Pathologists are usually among the first health care professionals in identifying novel infectious agents outbreaks. (15) Our aim in this systematic review is to provide a total picture of the SARS-CoV-2 histopathological features of different body organs in postmortem autopsies through a systematic search of the published literature. We believe this will help in a better understanding of mechanisms of injury and pathophysiology of severe SARS-CoV-2 infection and subsequently improving patient care.

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This study followed the recommendations established by the Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA) statement. (Appendix-1) (16)

A predetermined protocol was used to perform this systematic review using the following databases: PubMed, Google Scholar, ScienceDirect, and MedRxiv. The search included articles published between December 2019 and August 15th, 2020. The reference lists of relevant studies were hand-searched to identify cited articles that were not captured by electronic search.

Articles were included if they met the following eligibility criteria: (1) addressed pathological reports of COVID-19 autopsies or postmortem cases, (2) involved human subjects (at least one case), (3) all study designs were involved (case report, case series, cross-sectional, case-control, randomized and non-randomized studies), (4) no language restrictions were applied.

The search terms and keywords across the different databases have been provided in (Appendix-2). The selection was broad to include as many studies as possible. In the initial phase, two independent reviewers (H.H. & A.B.) screened the titles and abstracts of the articles using the Rayyan QCRI ® website. As a result, all non-relevant articles were excluded. In the second phase, the full-texts of the remaining articles were independently reviewed for the final selection of eligible studies. Any disagreement between the two reviewers was resolved by a third reviewer (T.B.).

To assess the internal validity of the included studies, we used different tools according to study design. For cross-sectional studies, the Newcastle-Ottawa Quality Assessment Scale (NOS) . CC-BY 4.0 International license It is made available under a is the author/funder, who has granted medRxiv a license to display the preprint in perpetuity.

The copyright holder for this preprint this version posted October 14, 2020. . https://doi.org/10.1101/2020.10.11.20210849 doi: medRxiv preprint (modified for cross-sectional studies) was used after removing items that relate to comparability and adjustment. The tool contains three major subsections (Selection, Comparability, and Outcome). A score for quality, modified from the tool, was used to assess the appropriateness of study design, recruitment strategy, sample representativeness, reliability of the outcome, sample size provided, and appropriate statistical analyses. At least two reviewers (H.H., A.B., T.B.) independently ranked these domains. When the independent evaluations of the ranks differed between the two reviewers, they discussed disagreements to reach for mutual decision. For case reports and case series, a version of (NOS) checklist was adapted by Murad et al. to assess the methodological quality of case reports and case series. (17) By this approach, we assessed the quality of each study with regard to four domains: selection, ascertainment; causality; and reporting. From the results of each checklist, if 25% or less of the criteria were addressed, the article was scored as poor; if 26% to 50% of the criteria were addressed, the article was scored as fair; if 51% to 75% of criteria were addressed, the article was scored as good; and if 76% to 100% of the criteria were addressed, the article was scored as excellent.

A single author (A.B.) extracted the variables from each included study. The data from the final list of included articles onto an online Google sheet. Several study characteristics were extracted, including;  General characteristics as study type, country of origin, article language sample size.  Study population demographics like age and gender.

 Clinical findings like symptomatology, lab findings, and patient comorbidities.  Histopathologic and microscopic findings of different organs.

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A total number of 50 studies were included in our systematic review, with overall 430 cases. (Table 1) 

We used the GRADE framework for judging the precision and confidence estimate in the review. Generally speaking, the evidence derived from observational studies is classified as of low quality. (18) Regarding the risk of bias assessment in the review, 4 articles scored between 26 -50 %, which is considered "Fair" (19) (20) (21) (22) 26 articles scored between 51-75 %, which is . CC-BY 4.0 International license It is made available under a is the author/funder, who has granted medRxiv a license to display the preprint in perpetuity.

The copyright holder for this preprint this version posted October 14, 2020. . https://doi.org/10.1101/2020.10.11.20210849 doi: medRxiv preprint considered as "Good" (13, , and 20 articles scored more than 76 % which is considered as "Excellent." (48-67) A high degree of inconsistency was noticed in the review as the study populations were somehow heterogeneous in the main characteristics like age, gender, and comorbidities. Although there were no language restrictions applied in the review, publication bias may appear due to the fact that the number of the published literature was small, especially at the beginning of the pandemic. Moreover, a very small number of countries were reporting autopsy findings. Regarding the indirectness, the majority of included studies used the same tool in diagnosing COVID-19, which is (RT-PCR), the same tool in identifying histopathological findings, and the studied population varied between studies. Hence, the quality of evidence was rated as "Moderate." (Appendix-4)

The review described a total of 430 patients with COVID-19. Among the included patients, gender was reported in 349 patients as follows; 297 males (85.1%) and 133 (14.9 %) female.

Among the no patients for whom age was reported, the median age was (range: 11 to 94 years).

Regarding the presenting symptoms of patients whom clinical symptoms were reported (192 patients), fever was reported in 121 patients followed cough in 103 patients and dyspnea (91 patients). (19-26, 28-32, 34, 36, 38-42, 44-48, 51-53, 55-57, 59, 60, 62-66) Regarding the pre-existing co-morbidities in patients whom medical history was reported, hypertension was found in 210 patients (48.8%), followed by coronary heart disease in 190 (44%), Diabetes in 134 patient (31%), chronic kidney disease in 96 patients (22.3%), obesity in 64 patients (14.8%), chronic lung disease in 54 patients (12.5%) and cancer in 50 patients (11.6%). (13, 19, 20, 22-32, 34, 38-41, 44-65, 67) Regarding the included organs, this review described the histopathology of different organs as follows; Lung and pulmonary system was the most common described organ in 42 articles, ( is the author/funder, who has granted medRxiv a license to display the preprint in perpetuity.

The copyright holder for this preprint this version posted October 14, 2020. . https://doi.org/10.1101/2020.10.11.20210849 doi: medRxiv preprint 44-46, 48-52, 54, 63, 65, 66) , Liver in 21 articles (19, 20, 23, 24, 26, 28, 29, 31, 41, 44, 45, 48-52, 54, 61-63, 65) , Kidney in 16 articles, (20, 23, 27-29, 31, 46, 48-52, 54, 56, 65, 67) spleen and lymph nodes in 12 articles, (20, 28, 29, 31, 33, 38, 49, 50, 52, 54, 56) CNS in 7 articles, (19, 29, 45, 47, 51, 54, 64) Skin in 2 articles (43, 53) gall bladder (1 article), (42) Pharynx (1 article). (50) 

In all included studies, RT-PCR of Nasopharyngeal swab was the main method to confirm the positivity of COVID-19 in all patients. RT-PCR for COVID-19 of the Endotracheal Aspirate was reported in one patient. (66) RT-PCR for COVID-19 of the skin biopsy was reported in 7 patients. (43) Chest imaging, whether CT or CXR, was also reported in 206 patients (47.9%). ( 

In the 42 articles that described lung pathology. The most common reported pathological findings were diffuse alveolar injury in 239 cases (84.4%), (13, (13, 20-22, 28, 30-32, 35-37, 45, 48, 50-52, 54, 55, 57-60, 64, 65) fibrin exudation in 112 cases (39.8%), (13, 20, 21, 28, 32, 34, 36, 39-41, 44, 46, 48, 50, 51, 53, 55, 57, 60, 62) lung fibrosis in 97 cases (34.2%), (13, 19, 25, 29, 30, 32, 34, 37, 48, 50, 51, 55-57, 62, 66) intra-alveolar neutrophilic infiltration in 92 cases (32.5%), (13, 19, 21, 23, 26, 28, 30, 32, 36, 39, 41, 46, 48-50, 53, 57, 60) intra-alveolar hemorrhage in 86 cases (30.4%), (13, 26, 28, 29, 31, 32, 41, 44, 46, 48, 49, 51, 53, 56, 65) interstitial thickening in 80 cases (28.3%), (13, 19, 25, 26, 29, 31, 34, 36, 40, 48, 55, 58, 60, 65) vascular congestion in 77 cases (27.2%), (13, 20, 23, 25, 26, 28, 30, 39, 41, 45, 48, 49, 53, 56) pneumocyte . CC-BY 4.0 International license It is made available under a is the author/funder, who has granted medRxiv a license to display the preprint in perpetuity.

The copyright holder for this preprint this version posted October 14, 2020. . damage in 73 cases (25.8%), (13, 20, 24, 26, 32, 34, 46, 48, 58, 60, 62) squamous metaplasia in 68 cases (24%), (13, 19, 28, 30, 31, 37, 44, 46, 50, 56, 59, 60, 66) viral inclusion in 45 cases (15.9%), (13, 25, 29, 31, 48, 54, 60) serous exudation in 19 cases (6.7%), (46, 48, 51, 58) fibrinoid vascular necrosis in 17 cases (6%), (19, 26, 44, 49, 53, 60) and pulmonary embolism in 14 cases (4.9%). (28, 29, 40, 49, 54, 57) (Appendix-3) 

In the 23 articles that described heart pathology. The most reported pathology was myocardial hypertrophy in 87 cases (51.2%), (26, 28, 29, 31, 48, 49, 51, 52, 54) followed by myocardial fibrosis in 85 cases (50%), (26, 28, 29, 31, 32, 40, 45, 46, (50) (51) (52) 54) (29, 49, 52) and myocardial necrosis in 9 cases (5.3%). (44, 46, 48, 49) (Appendix-3) 

In the 21 articles that described liver pathology .The most reported pathology was steatosis in 118 cases (59.3%), (20, 23, 24, 26, 28, 29, 31, 33, 41, 44, 45, 49, 51, 52, 54, (61) (62) (63) 65) followed by fibrosis in 62 cases (31.1%), (19, 28, 52, 54, 61, 65) hepatic congestion in 59 cases (29.6%), (29, 33, 44, (50) (51) (52) 65) cellular infiltrate in 54 cases (27.1%), (19, 24, 26, 29, 52, 61, 62, 65) hepatic necrosis in 44 cases (22.1%), (20, 26, 29, 41, 44, 48, 52, 61, 62) cholestasis in 8 cases (4%), (52) and cirrhosis in 4 cases (2%). (26, 51) (Appendix-3) 

In the 16 articles that described kidney pathology. The most reported pathology was arteriosclerosis in 121 cases (62%), (23, 27-29, 50, 54, 67) followed by nephrosclerosis in 91 cases (46.7%), (23, 29, 54, 67) acute tubular injury in 86 cases (44.1%), (20, 27, 31, 48, 49, 52, 54, 65, 67) glomerulosclerosis in 70 cases (35.9%), (27-29, 31, 46, 51, 52) tubular cast in 38 cases (19.5%), (20, . CC-BY 4.0 International license It is made available under a is the author/funder, who has granted medRxiv a license to display the preprint in perpetuity.

The copyright holder for this preprint this version posted October 14, 2020. . https://doi.org/10.1101/2020.10.11.20210849 doi: medRxiv preprint 27, 29, 48, 51) glomerular fibrin thrombus in 21 cases (10.7%), (20, 27-29, 54, 56, 65, 67) , and viral particles in 16 cases (8.2%). (20, 27, 28) (Appendix-3) 

In the 12 articles that described spleen pathology. The most reported pathology was lymphocyte depletion in 38 cases (31.4%), (20, 28, 29, 38, 48, 52, 54) followed by hemophagocytosis in Spleen in 12 cases (9.9%). (33, 38, 54, 56) In the 11 articles that described lymph node pathology, the most common pathology that had been reported was lymphocyte depletion in 23 cases (20.7%), (20, 33, 48, 52, 54) hemophagocytosis in the lymph nodes in 22 cases (19.8%). (29, 31, 33, 54, 56) 

In the 7 articles that described CNS pathology. The most common reported pathology was cerebral hemorrhage in 11 cases (15.5%), (29, 47, 51, 64) focal spongiosis in 11 cases (15.5%), (47, 51) and vascular congestion in 11 cases (15.5%), (51, 54) followed by diffuse or focal ischemic necrosis in 9 cases (12.7%). (51, 54)

In the 2 articles that described skin pathology, the most common reported pathology was thrombogenic vasculopathy in 4 cases (10,0.4%), (43, 53) followed perivascular inflammation in 2 cases (10,0.2%) (43, 53) and vasculitis in one case (43) 

In the one article that described gall bladder postmortem pathology, inflammatory infiltration and endoluminal obliteration of vessels with wall breakthrough, hemorrhagic infarction, and nerve hypertrophy were reported in one case report. (42) . CC-BY 4.0 International license It is made available under a is the author/funder, who has granted medRxiv a license to display the preprint in perpetuity.

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One study described pharyngeal postmortem pathology. The study included 8 cases, 7 of which reported mild to pronounced lymphocytic pharyngitis. (50) this 'new' disease with a poor understanding of its pathological mechanism, especially at the beginning of the pandemic. (68) Moreover, in some countries, the number of safe autopsy rooms is very low, which, according to the WHO & CDC guidelines, is considered one of the barriers that contributed to the scarce evidence. (69) (70) (71) 

Regarding the postmortem pulmonary pathology, our review showed that different histopathological findings had been identified among COVID-19 cases. Diffuse alveolar injury, hyaline membrane formation, pneumocyte hyperplasia, microthrombi, fibrin . CC-BY 4.0 International license It is made available under a is the author/funder, who has granted medRxiv a license to display the preprint in perpetuity.

The copyright holder for this preprint this version posted October 14, 2020. the focal deposition of fibrin along the exposed basement membrane. (12, 73) On the other hand and in non-coronaviruses pulmonary infection like H1N1 cases, histopathological findings as septal inflammation, congestion, and thickening of alveolar septae, patchy peripheral hemorrhage, and diffuse alveolar hemorrhage have been reported by different studies. (74) (75) (76) (77) . CC-BY 4.0 International license It is made available under a is the author/funder, who has granted medRxiv a license to display the preprint in perpetuity.

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Regarding the postmortem cardiac pathology, there were 23 studies with a total number of 87 cases addressing the histopathological findings in the heart. Myocardial hypertrophy, small coronary vessels, cardiac fibrosis, cardiac cell infiltrate, and cardiac amyloidosis are the main findings. Although viral myocarditis has been reported in patients with SARS-Cov-2 virus, lymphocyte infiltrate was found only in one case reported by Buja et al. during Immunohistochemical (IHC) staining. (28, 78) These pathological findings could be attributed to the comorbidities of affected patients, as most of them suffered from hypertension, diabetes, or coronary heart disease. On the other hand, myocardial edema and fibrosis have been recorded in deceased patients with SARS and MERS-CoV. (72, 79, 80) As the studies in this review reported that nephrosclerosis, arteriosclerosis, glomerulosclerosis, and acute tubular injury were the most commonly reported findings in the postmortem renal biopsies, other pathological findings like hyaline arteriolosclerosis, patchy interstitial inflammation, and granular casts have been reported in other coronavirus cases like SARS & MERS-CoV. (72, 81, 82) Regarding the pathological findings in the hepatobiliary system, our review found that hepatic fibrosis, steatosis, cirrhosis, and interstitial inflammations were the main findings. In contrast, other pathological findings were reported in patients with SARS-CoV-1 infection like lymphocytic infiltrate and balloon degeneration. (83) As for histopathological findings of the spleen and lymph nodes, lymphocyte depletion and hemophagocytosis of the Spleen and lymph nodes were the main findings. Our results were consistent with similar pathological findings from other coronavirus infections. (79, 84) Although the SARS-CoV-2 virus hasn't been detected in the spinal fluid, our study suggests that COVID-19 had been capable of infecting the central nervous system via olfactory and trigeminal nerves causing cerebral hemorrhage, focal spongiosis, and vascular congestion. (85) On the contrary, and in the case of SARS infection, RT-PCR has detected the genomic . CC-BY 4.0 International license It is made available under a is the author/funder, who has granted medRxiv a license to display the preprint in perpetuity.

The copyright holder for this preprint this version posted October 14, 2020. . https://doi.org/10.1101/2020.10.11.20210849 doi: medRxiv preprint sequences of the virus in cerebral spinal fluid and brain tissue specimens and was responsible for brain edema and neuronal degeneration. (81, 86) 

As a part of any research, we faced many limitations while conduction the review. First, in this study, we focused on the available studies in certain databases in the first months of the pandemic, so government reports and other relevant grey literature weren't included in this review, so publication bias is a possibility. Second, due to the scarcity of the evidence, we decided to include pre-prints. These publications have not yet undergone peer review.

However, since we assessed the risk of bias of these studies, we feel that the benefits of including the data from these pre-prints in our review outweigh the risks. Third, we've included only 50 articles, but we can't ignore the fact that the number of publications is increasing daily, and we might have missed the recently published ones. Fourth, missing information in some of the published articles has been a challenge. Many articles didn't report the basic characteristics of the cases like gender, comorbidities, and clinical course of the disease. . CC-BY 4.0 International license It is made available under a is the author/funder, who has granted medRxiv a license to display the preprint in perpetuity.

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