Message: Search Advanced Search Share COVID-19 articles Español EnglishEditorial Board Publish in this journal April 2021 Cutaneous Manifestations in Patients With COVID-19: Clinical Characteristics and... Home Articles in press Current Issue Archive Supplements Most Often Read Formación Journal Information Previous article | Next article Vol. 112. Issue 4. pages 314-323 (April 2021) Lee este artículo en Español Share Print Download PDF Outline Graphical abstract Abstract Keywords Resumen Palabras claves REVIEW DOI: 10.1016/j.adengl.2021.01.024 Open Access Cutaneous Manifestations in Patients With COVID-19: Clinical Characteristics and Possible Pathophysiologic Mechanisms Manifestaciones cutáneas en pacientes con COVID-19: características clínicas y mecanismos fisiopatológicos postulados F González Gonzáleza, , C Cortés Correab,c, E Peñaranda Contrerasc,d a Dermatología, Facultad de Medicina, Universidad Nacional de Colombia, Bogotá, Colombia b Dermatología, Facultad de Medicina, Universidad Nacional de Colombia, Bogotá, Colombia c Hospital Universitario de la Samaritana E.S.E., Bogotá, Colombia d Dermatología - Oncología, Facultad de Medicina, Universidad Nacional de Colombia, Bogotá, Colombia This item has received 964 Visits (Daily data update) Under a Creative Commons license Article informationAbstract Full Text Bibliography Download PDF Statistics ABSTRACT The rapid spread of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) infections soon led to a pandemic with serious health, economic, political, and cultural repercussions across the globe. The disease caused by SARS-CoV-2, coronavirus disease 2019 (COVID-19), is a multisystemic disease that requires a multidisciplinary approach involving specialists from all fields and levels of care. In this article, we review the literature on the diverse cutaneous manifestations associated with COVID-19. We also describe the pathophysiologic mechanisms proposed to date and their possible association with these manifestations. Finally, we propose a system for classifying the cutaneous manifestations of COVID-19 according to their underlying pathophysiologic mechanisms and prognosis. Keywords: CoronavirusCOVID-19Severe acute respiratory syndrome-related coronavirusSkin RESUMEN La infección por SARS-CoV-2 se ha convertido rápidamente en una pandemia con importantes implicaciones en ámbitos sanitarios, económicos, políticos y culturales en todo el planeta. La enfermedad que produce, llamada COVID-19, es considerada actualmente una patología florida y de obligatorio manejo multidisciplinario por todas las especialidades médicas y de servicios de salud. Este artículo presenta una revisión bibliográfica de las variadas manifestaciones cutáneas a causa de la COVID-19. Posteriormente, se mencionan los diversos engranajes fisiopatológicos que se han postulado hasta el momento y su posible relación con los hallazgos de la enfermedad en la piel. Por último, se propone una clasificación de las manifestaciones cutáneas según mecanismos fisiopatológicos de base y pronóstico de la enfermedad. Palabras claves: Coronavirusinfecciones por coronavirus COVID-19virus del Síndrome Respiratorio Agudo Severopiel FULL TEXT Introduction In December 2019, the Chinese health authorities reported multiple cases of acute respiratory illness in the province of Wuhan, mostly affecting workers at a small seafood market.1 It was not long before the causative agent was identified: a virus from the Coronaviridae family of likely zoonotic origin and whose original reservoir is the bat.2 Soon afterwards, the virus was named severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) to distinguish it from the other Coronaviridae viruses responsible for 2 other pandemics this century: SARS-CoV-1 and Middle East Respiratory Syndrome coronavirus (MERS-CoV).3,4 Although SARS-CoV-2 is associated with a case fatality rate of 2.3%,5 lower than that of SARS-CoV-1 (9.5%) and MERS-CoV (34.4%),6 it is highly contagious and quickly spread outside China; its high transmissibility—higher than that of SARS-CoV-17—can be partly explained by the higher viral loads in the respiratory tract. SARS-CoV-2 can also survive in aerosols for more than 3 hours, remains viable on a variety of surfaces for 72 hours, and has a relatively short incubation period (< 2 weeks).8 Early reports of coronavirus disease 2019 (COVID-19), the disease caused by SARS-CoV-2, indicated that most patients experienced fever, rhinorrhea, a cough without expectoration, asthenia, and adynamia.9 A small proportion required hospitalization due to severe pneumonia. In a cohort of 70 000 patients with SARS-CoV-2 infection in China, Wu et al.3 reported that 14% of patients developed severe pneumonia (dyspnea, tachypnea, desaturation, and a decreased arterial oxygen partial pressure to fractional inspired oxygen ratio) and that 5% required critical care. The case fatality rate was 2.3% for the general population and 14% for patients aged 80 years or older. Their findings were corroborated by later reports from Europe.10 The main risk factors for severe COVID-19 include male sex, diabetes, high blood pressure, chronic lung disease, and cardiovascular disease.11,12 Children younger than 10 years have mild symptoms and are much less likely than adults to develop complications or die.13 Reports from Asia, Europe, and the United States have described a wide range of cutaneous manifestations associated with COVID-19. Although these manifestations were initially considered to be nonspecific, the publication of an increasing number of cases revealed an apparent pattern and possibly even an association with prognosis. In this article, we review the literature on the diverse cutaneous manifestations described to date in patients with COVID-19. We then outline the different pathophysiologic mechanisms and hypotheses proposed so far to explain their occurrence. Results Cutaneous Manifestations in COVID-19 SARS-CoV-2 Infection and Onset of Nonspecific Rashes There are 39 coronavirus species. Seven of these, including SARS-CoV-1, SARS-CoV-2, and MERS-CoV, affect humans.14 The other viruses—HCoV-229E, HCoV-OC43, HCoV-NL63, and HCoV-HKU1—cause mild respiratory conditions such as the common cold. Like other respiratory viruses, many coronaviruses probably also cause viral rashes that go undetected because of the lack of specific testing. The first report mentioning cutaneous manifestations in patients with COVID-19 was published by Guan et al.15 in February 2020. The authors analyzed data for 1099 patients infected with SARS-CoV-2 and described 2 cases of skin lesions. They did not, however, specify the type of lesions or describe their clinical characteristics or time of onset, probably explaining why this early report was somewhat overlooked. The publication was followed by a report of a patient in Thailand presenting with a "morbilliform rash and multiple petechiae" and a low platelet count who was initially diagnosed with dengue and assigned to outpatient care.16 The patient, however, returned with respiratory symptoms and was diagnosed with SARS-CoV-2 infection by reverse-transcript polymerase chain reaction (PCR). This report alerted physicians to the importance of investigating cutaneous manifestations in patients with COVID-19.17,18 The first large report of cutaneous manifestations in COVID-19 came from a cohort of 88 patients in Italy.19 Of these, 18 (20.4%) had developed cutaneous manifestations: 8 during hospitalization and 10 following discharge. There were 14 cases of "erythematous rash", 3 of "widespread urticaria", and 1 of "chickenpox-like vesicles". The vast majority of patients had trunk lesions, which were largely asymptomatic, resolved spontaneously, and did not appear to be associated with disease severity. Unfortunately, no photographs were taken due to the hospital policies in place at the time of the study. As the days passed, new reports emerged of patients with confirmed SARS-CoV-2 infection and a range of very different cutaneous manifestations, including pruritic erythematous-yellowish plaques on the heels (Fig. 1A),20 a morbilliform rash sparing acral sites,21 a generalized maculopapular morbilliform rash with cephalocaudal progress,22 urticaria-like lesions,23,24 a rash reminiscent of symmetrical drug-related intertriginous flexural exanthema,25 and even livedo reticularis on the lower extremities (Fig. 1B).26 As in the previous cases, biopsies were not performed due to hospital policies and the mild, self-limiting nature of the lesions. A, Hardened erythematous-yellowish plaques on the heels. Source: Estébanez et al.20 B, 67-year-old man with unilateral livedo reticularis on the right thigh. The patient also had gross hematuria. The hematuria and livedo both resolved within 24 hours. Source: Manalo et al.26 Figure 1. A, Hardened erythematous-yellowish plaques on the heels. Source: Estébanez et al.20 B, 67-year-old man with unilateral livedo reticularis on the right thigh. The patient also had gross hematuria. The hematuria and livedo both resolved within 24 hours. Source: Manalo et al.26 (0.09MB). In April, the Journal of the American Academy of Dermatology published a series of 22 patients with COVID-19 who developed a mild varicella-like rash after a median of 3 days from the onset of systemic symptoms; the rash cleared after a median of 8 days, leaving no residual scarring.27 Most of the patients were male (72.7%) and the mean age was 60 years. The varicella-like lesions were predominantly vesicles and were scattered in 72.7% of cases and diffuse in 27.3%. The trunk was affected in all cases. None of the reports mentioned facial or mucosal involvement (Fig. 2A and B). The most common symptom, present in almost half of the patients, was mild pruritus. A skin biopsy performed in 7 patients showed findings consistent with an acute viral infection (Fig. 2C and D). The authors suggested that this type of rash might be a specific manifestation of SARS-CoV-2 infection and as such could be useful for raising suspicion of COVID-19 in patients with mild disease. A and B, Patients with coronavirus disease 19 (COVID-19) with a papulovesicular rash on the trunk. Note the vesicles with a central varicella-like crust in the photograph on the left (A). C and D, Histopathologic changes in patients with COVID-19 and a varicella-like rash. C, Slightly atrophic epidermis, basket-weave hyperkeratosis, vacuolar degeneration of the basal layer with multinucleated, dyskeratotic hyperchromatic keratinocytes (hematoxylin-eosin, original magnification ×10). D, At higher magnification (hematoxylin-eosin, original magnification ×40), note the vacuolar alteration with disorganized keratinocytes with altered maturation and multinucleated keratinocytes with dyskeratotic cells. Figure 2. A and B, Patients with coronavirus disease 19 (COVID-19) with a papulovesicular rash on the trunk. Note the vesicles with a central varicella-like crust in the photograph on the left (A). C and D, Histopathologic changes in patients with COVID-19 and a varicella-like rash. C, Slightly atrophic epidermis, basket-weave hyperkeratosis, vacuolar degeneration of the basal layer with multinucleated, dyskeratotic hyperchromatic keratinocytes (hematoxylin-eosin, original magnification ×10). D, At higher magnification (hematoxylin-eosin, original magnification ×40), note the vacuolar alteration with disorganized keratinocytes with altered maturation and multinucleated keratinocytes with dyskeratotic cells. (0.23MB). Source: Marzano et al.27 A later publication described the case of a man in the fourth decade of life with PCR-confirmed SARS-CoV-2 infection, fever, and concomitant nonpruritic, annular, circinate, erythematous-edematous fixed plaques on the neck, thorax, abdomen, and upper limbs (symmetric distribution) (Fig. 3A-C).28 The lesions cleared after 7 days. The biopsy findings were consistent with a viral rash (Fig. 3D). A and B, Erythematous-edematous annular and circinate plaques on the anterior and posterior neck. C, Note the symmetric distribution on the upper limbs. D, Superficial perivascular lymphocytic infiltrate, papillary dermal edema, mild spongiosis, lichenoid and vacuolar interface dermatitis, occasional polymorphonuclear cells in the dermal infiltrate (hematoxylin-eosin, original magnification ×10). Figure 3. A and B, Erythematous-edematous annular and circinate plaques on the anterior and posterior neck. C, Note the symmetric distribution on the upper limbs. D, Superficial perivascular lymphocytic infiltrate, papillary dermal edema, mild spongiosis, lichenoid and vacuolar interface dermatitis, occasional polymorphonuclear cells in the dermal infiltrate (hematoxylin-eosin, original magnification ×10). (0.19MB). Source: Amatore et al.28 Cutaneous Manifestations Associated With Thrombosis or Microangiopathic Changes and Chilblain-like Lesions The Chinese group led by Zhang29 published a retrospective review of 7 patients with COVID-19 and pneumonia treated at an intensive care unit in Wuhan. The patients had multiple acro-ischemic manifestations, including acrocyanosis, retiform purpura, and gangrene (Fig. 4). Clinical and laboratory data were evaluated on admission to hospital, at the onset of the cutaneous manifestations, and after the use of anticoagulation therapy. They showed D-dimer, fibrinogen, and fibrinogen degradation product alterations related to the sequential events described. Five of the patients (71.42%) died. This was the first step in the formulation of a hypothesis on the existence of a hypercoagulable state per se in patients with SARS-CoV-2 infection. Progressive worsening in a patient with coronavirus disease 2019 and acro-ischemic manifestations who developed bullae and finally dry gangrene on his feet. Figure 4. Progressive worsening in a patient with coronavirus disease 2019 and acro-ischemic manifestations who developed bullae and finally dry gangrene on his feet. (0.08MB). Source: Zhang et al.29 Around the same time, multiple reports began to emerge from Europe, the Middle East, and the United States of chilblain-like lesions in young people who had been in close contact with a patient with confirmed or probable SARS-CoV-2 infection. The symptoms varied, but the chief complaints were pain and a burning sensation in the skin; the lesions resolved spontaneously and none of the patients developed SARS-CoV-2 pneumonia.30–32 Kolivras et al.33 reported the case of a young man who developed painful, acute-onset, violaceous plaques on the toes and lateral aspect of the feet (Fig. 5A and B) 3 days after the onset of upper respiratory symptoms. A skin biopsy showed findings consistent with chilblain lupus (Fig. 5C and D). The nasopharyngeal swab collected on admission was positive for SARS-CoV-2. A and B, Hardened violaceous plaques against an erythematous background on the dorsal aspect of the toes and sides of the feet. C and D, Biopsy of lesion on third toe of right foot (hematoxylin-eosin). C, Note the lymphocytic infiltrate with occasional plasma cells in close contact with the vessels and no evidence of fibrin or thrombi (hematoxylin-eosin, original magnification ×40). D, Perieccrine infiltrate (hematoxylin-eosin, original magnification ×40). Figure 5. A and B, Hardened violaceous plaques against an erythematous background on the dorsal aspect of the toes and sides of the feet. C and D, Biopsy of lesion on third toe of right foot (hematoxylin-eosin). C, Note the lymphocytic infiltrate with occasional plasma cells in close contact with the vessels and no evidence of fibrin or thrombi (hematoxylin-eosin, original magnification ×40). D, Perieccrine infiltrate (hematoxylin-eosin, original magnification ×40). (0.38MB). Source: Kolivras et al.33 In view of the enormous impact of the pandemic on the European continent, numerous groups started to publish studies aimed at characterizing the chilblain-like lesions observed in patients with COVID-19.34 In Italy, Recalcati et al.31 and Tosti et al.35 reported that these lesions were more common in younger patients (especially children [78.5%]), predominantly involved the feet (71% of cases), were self-limiting, and were associated with normal blood tests and an absence of systemic symptoms. A French study of skin lesions observed in 277 patients during 3 weeks of the COVID-19 pandemic found that 142 patients had acral lesions and that 106 of these (75%) were painful erythematous-violaceous edematous macules and papules consistent with chilblain lupus.36 Fernández-Nieto et al37 studied 132 nonhospitalized patients who consulted for acro-ischemic lesions over a period of 5 weeks. The mean age of the patients was 19.9 years; 40.9% had been in close contact with a patient with confir med SARS-CoV-2 infection and 14.4% tested positive. Over 90% of the lesions affected the fingers or toes, but mostly the toes (81.8%). Similarly to the other cases reported, the patients experienced mild disease. Magro et al.38 reported on patients with COVID-19 who developed cutaneous manifestations consistent with a procoagulant or microangiopathic state. A skin biopsy was performed in 3 patients who developed retiform purpura or livedo racemosa (Fig. 6A) associated with elevated D-dimer levels during the course of their respiratory illness, with findings showing pauci-inflammatory thrombogenic vasculopathy and C5b-9 and C4d deposition (Fig. 6B and C). This observation sparked the hypothesis of a link between mechanisms dependent on the alternative or lectin complement pathways and thrombotic events in patients with SARS-CoV-2 infection, and subsequently provided an explanation for the existence of procoagulant states in other organs.39 A, 32-year-old man with coronavirus disease 2019 who developed retiform purpura on his buttocks 4 days after initiation of mechanical ventilation due to acute respiratory failure. B, Skin biopsy showing extensive pauci-inflammatory vascular thrombosis with endothelial cell injury (hematoxylin-eosin, original magnification ×40). C, C5b-9 deposits in microvessels (diaminobenzidine, original magnification ×40). Figure 6. A, 32-year-old man with coronavirus disease 2019 who developed retiform purpura on his buttocks 4 days after initiation of mechanical ventilation due to acute respiratory failure. B, Skin biopsy showing extensive pauci-inflammatory vascular thrombosis with endothelial cell injury (hematoxylin-eosin, original magnification ×40). C, C5b-9 deposits in microvessels (diaminobenzidine, original magnification ×40). (0.24MB). Source: Magro et al.3 Spanish Consensus on the Classification of Cutaneous Manifestations of COVID-19 The British Journal of Dermatology published the results of a Spanish consensus study of 375 patients with confirmed or suspected SARS-CoV-2 infection who developed cutaneous manifestations without a clear explanation.40 Numerous factors were evaluated over a period of 2 weeks, including clinical manifestations, time of onset in relation to other symptoms, demographics, and associations with disease course and outcomes. The group, led by Galván Casa, divided the manifestations into 5 clinical patterns: 1) pseudo-chilblains (19%), 2) vesicular eruptions (9%), 3) urticarial lesions (19%), 4) maculopapular eruptions (47%), and 5) livedoid or necrotic lesions (6%). They found that livedoid and necrotic lesions affected older patients (mean age, 63 years) with severe disease (mortality rate, 10%), while pseudo-chilblain lesions (acral areas of erythema and edema with vesicles or pustules) were more common after the onset of respiratory symptoms (59% of cases) and occurred in young patien ts (mean age, 21.8 years) with mild COVID-19. The survival rate of patients with maculopapular eruptions was 98%. The Spanish findings were consistent with reports from other authors, especially in terms of the mild nature of these chilblain-like lesions.30–33 Pathophysiological Findings Pathophysiology of SARS-CoV-2 Infection and Possible Association With Cutaneous Manifestations Laboratory findings in patients with severe SARS-CoV-2 infection include leukocytosis, neutrophilia, lymphopenia, thrombocytopenia, increased lactate dehydrogenase and procalcitonin levels, and D-dimer and fibrinogen degradation product alterations.41 In some cases, these findings overlap with those observed in disseminated intravascular coagulation syndrome.42 Lippi and Favoro43 reported a directly proportional association between D-dimer levels and severe respiratory illness in patients with SARS-CoV-2 infection, supporting previous reports showing a link between elevated D-dimer levels and mortality in COVID-19.42 In humans, ferritin exerts a protective function during infection by limiting the amount of iron available to numerous pathogens,44 explaining also why ferritin levels increase during inflammatory states.45 Very high ferritin levels have been observed in patients with severe COVID-19 and linked to high morbidity and mortality.46 As mentioned, COVID-19 is characterized by a diverse range of biochemical changes. These changes, however, are reminiscent of findings observed in macrophage activation syndrome47 and highlight the important role of white blood cells, in particular T cells and macrophages, in the exaggerated cytokine and thrombotic immune response associated with COVID-19. Macrophages and T Cells at the Root of Acro-Ischemic Lesions in COVID-19 Preliminary studies characterizing the novel coronavirus identified the angiotensin converting enzyme 2 (ACE2) receptor as the main receptor in SARS-CoV-2 infection.2 SARS-CoV-2 uses the ACE2 receptor to enter human cells and has no affinity for receptors used by other coronavirus families, such as the dipeptidyl peptidase 4 receptor.48 The ACE2 receptor is found on the surface of pulmonary epithelial cells, in enterocytes of the small intestine, in arterial and venous endothelial cells, and in arterial smooth muscle cells in numerous organs, including the skin.49 Viral replication within cells causes direct cell injury, triggering the release of proinflammatory alarmins (direct viral effect). Viral particles can also trigger innate immune responses, including the activation of alveolar macrophages and the complement cascade through the lectin pathway.38,50 Complement activation and diverse immune responses promote the recruitment of leukocytes and an exaggerated proliferation of lymphocytes and massive release of proinflammatory cytokines (interleukin [IL] 1B, IL-6, IL-8), interferon-gamma (IFN-γ), and tumor necrosis factor alpha (TNF-α), among others. IFN-γ, in large quantities, drives macrophage activation and ferritin production,45 IL-6 causes fever,51 and hemophagocytosis causes pancytopenia.47,52 Macrophages also release plasminogen activator, and this is possibly one of the many mechanisms that would explain the thrombotic events and elevated D-dimer levels observed in severe COVID-19.53 It could also explain other findings such as the presence of antiphospholipid antibodies in patients with severe disease in the absence of comorbidities.54 Bowles et al.55 in the United Kingdom and Connel et al.56 in the United States confirmed the presence of antiphospholipid antibodies (especially lupus anticoagulant) in patients with SARS-C oV-2 infection. This might be linked to the observation of acro-ischemic presentations (other than chilblain-like lesions), necrosis, and even livedo reticularis and racemosa in certain patients with COVID-19 and concomitant multisystemic thrombotic responses. Viral sepsis has also been proposed to explain the systemic and cutaneous changes associated with COVID-19.57 This hypothesis, which came about following multiple reports of multiorgan damage in autopsy studies of patients who had died of severe COVID-19,58 holds that the massive release of cytokines, in particular TNF-α, would promote the death of infected cells via apoptosis-dependent pathways. In addition, SARS-CoV-2 may also be capable of infecting T cells, leading to lymphopenia. There is sufficient evidence to support direct viral injury to endothelial cells followed by diffuse endothelial inflammation and consequently vascular endothelial apoptosis,59 raising the question of whether COVID-19 may actually be an endothelial disease.60 This theory is supported by reports of death in patients with COVID-19 who had a history of diabetes mellitus or chronic cardiovascular disease and the observation of ischemic cutaneous manifestations, particularly at acral sites. Association Between IFN and Chilblain-like Lesions Patients with chilblain-like lesions,30–32 apart from being apparently younger, experience mild COVID-19, while those with severe acro-ischemic manifestations, such as gangrene29 and retiform purpura,38 develop more severe disease. The milder forms of disease associated with chilblain-like lesions may be linked to type I IFN. Kolivras et al.33 highlighted the robust activation of type I IFN in SARS-CoV-2 infection, stating that a similar response was induced in many other acute viral infections.61 Type I IFN levels are elevated in lupus erythematosus and interferonopathies such as Aicardi-Goutières syndrome, which is also characterized by microangiopathic changes at acral sites.62 The authors hypothesized that these changes are the result of early type I IFN responses, which would also explain the mild disease course, as IFN exerts an antiviral effect. In addition, because early type I IFN responses are capable of suppressing the uncontrolled release of diverse proinflammatory cytokines, they would reduce the risk of a cytokine storm. Elderly patients, however, or patients with comorbidities that alter the functioning of the immune system, would generate a delayed type I IFN response, leading to the release of cytokines, macrophage activation syndrome, elevated ferritin and D-dimer levels, true acro-isch emic lesions, and a much worse prognosis. Discussion The COVID-19 pandemic has created enormous challenges for health care professionals, including the need to keep abreast with the vast spectrum of clinical manifestations associated with this disease. COVID-19 is a multisystemic disease that affects multiple organs, including the skin. The occurrence of cutaneous manifestations, however, represents an advantage, as their recognition can lead to early suspicion of disease in some cases and provide clues about individual immune responses or complications in others. Based on the pathophysiological mechanisms hypothesized, we propose classifying the various cutaneous manifestations of COVID-19 into 2 groups: 1) manifestations primarily linked to a direct cytopathogenic effect on cells such as keratinocytes, which are involved in many known viral infections (morbilliform or urticarial rashes, reactions similar to drug eruptions, varicella-like lesions) and 2) manifestations linked to an uncontrolled release of cytokines due to alterations in specific white blood cells, such as T cells and macrophages. This second group could be divided into a further 2 groups: 1) manifestations characterized by features similar to those seen in macrophage activation syndrome (acral ischemia, gangrene, retiform purple, livedo racemosa) and associated with poor outcomes in terms of morbidity and mortality and 2) cutaneous manifestations with a mild, self-limiting disease course, observed in young patients and linked to the activation of an early type I IFN response (chilblain-like lesions) (Fig. 7). This hypothesis is one of the first in the literature to provide a possible explanation of the pathophysiological mechanisms underlying the main cutaneous manifestations of COVID-19; it also provides a means of classifying these manifestations and establishing their possible prognostic value. Pathophysiological hypothesis on the spectrum of cutaneous manifestations associated with SARS-CoV-2 infection. IFN indicates interferon; IL, interleukin; MAS, macrophage activation syndrome; SARS-CoV-2, severe acute respiratory syndrome coronavirus 2; TNF-α, tumor necrosis factor alpha. Figure 7. Pathophysiological hypothesis on the spectrum of cutaneous manifestations associated with SARS-CoV-2 infection. IFN indicates interferon; IL, interleukin; MAS, macrophage activation syndrome; SARS-CoV-2, severe acute respiratory syndrome coronavirus 2; TNF-α, tumor necrosis factor alpha. (0.26MB). We believe that it is paramount for physicians, nurses, respiratory therapists, health care professionals still in training, and even members of the general population to be aware of the relationship between SARS-CoV-2 infection and the skin and its various manifestations. Heightened awareness will promote an active search for manifestations and a detailed study of cases, adding to the scientific knowledge and our understanding of the pathophysiology of COVID-19 and ultimately contributing to the development of effective treatments and protocols that will mitigate the complications of this infection. Funding This study did not receive any specific funding from public sector bodies or commercial or nonprofit entities. Conflicts of Interest The authors declare that they have no conflicts of interest. ACKNOWLEDGMENTS To all the frontline health care professionals involved in caring for patients with COVID-19; their contribution to the history of medicine is invaluable. REFERENCES [1] N. Zhu, D. Zhang, W. Wang, X. Li, B. Yang, J. Song, et al. A novel coronavirus from patients with pneumonia in China, 2019. N Engl J Med., 382 (2020), pp. 727-733 http://dx.doi.org/10.1056/NEJMoa2001017 | Medline [2] P. Zhou, X. Yang, X. Wang, B. Hu, L. Zhang, W. Zhang, et al. 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Clinical and virological data of the first cases of COVID-19 in Europe: A case series. Lancet Infect Dis., 20 (2020), pp. 697-706 http://dx.doi.org/10.1016/S1473-3099(20)30200-0 | Medline [11] R.E. Jordan, P. Adab, K.K. Cheng. Covid-19: Risk factors for severe disease and death. BMJ, 368 (2020), pp. m1198 http://dx.doi.org/10.1136/bmj.m1198 | Medline [12] J. Yang, Y. Zheng, X. Gou, K. Pu, Z. Chen, Q. Guo, et al. Prevalence of comorbidities and its effects in coronavirus disease 2019 patients: A systematic review and meta-analysis. Int J Infect Dis., 94 (2020), pp. 91-95 http://dx.doi.org/10.1016/j.ijid.2020.03.017 [13] Y. Shi, X. Yu, H. Zhao, H. Wang, R. Zhao, J. Sheng, et al. Host susceptibility to severe COVID-19 and establishment of a host risk score: Findings of 487 cases outside Wuhan. Crit Care., 24 (2020), pp. 242 http://dx.doi.org/10.1186/s13054-020-2833-7 | Medline [14] J. Millán-Oñate, A. Rodriguez-Morales, G. Camacho-Moreno, H. Mendoza-Ramírez, I. Rodríguez-Sabogal, C. Álvarez-Moreno. A new emerging zoonotic virus of concern: The 2019 novel Coronavirus. Infectio, 24 (2020), pp. 187-192 http://dx.doi.org/10.22354/in.v24i3.848 [15] W. Guan, Z. Ni, Y. Hu, W. Liang, Ou Ch, J. He, et al. Clinical characteristics of coronavirus disease 2019 in China. N Engl J Med., (2020), http://dx.doi.org/10.1056/NEJMoa2002032 [16] B. Joob, V. Wiwanitkit. COVID-19 can present with a rash and be mistaken for Dengue. J Am Acad Dermatol., 82 (2020), pp. e177 http://dx.doi.org/10.1016/j.jaad.2020.03.036 | Medline [17] B. Joob, V. Wiwanitkit. Various forms of skin rash in COVID-19: A reply. J Am Acad Dermatol., (2020), http://dx.doi.org/10.1016/j.jaad.2020.04.035 [18] Y. Chen, S. Pradhan, S. Xue. What are we doing in the dermatology outpatient department amidst the raging of the 2019 novel coronavirus?. J Am Acad Dermatol., 82 (2020), pp. 1034 http://dx.doi.org/10.1016/j.jaad.2020.02.030 | Medline [19] S. Recalcati. Cutaneous manifestations in COVID-19: A first perspective. J Eur Acad Dermatol Venereol., 34 (2020), [20] A. Estébanez, L. Pérez-Santiago, E. Silva, S. Guillen-Climent, A. García-Vázquez, M.D. Ramón. Cutaneous manifestations in COVID-19: a new contribution. J Eur Acad Dermatol Venereol., 34 (2020), [21] M. Hunt, C. Koziatek. A case of COVID-19 pneumonia in a young male with full body rash as a presenting symptom. Clin Pract Cases Emerg Med., 4 (2020), pp. 219-221 http://dx.doi.org/10.5811/cpcem.2020.3.47349 | Medline [22] R. Avellana Moreno, E. Villa, V. Avellana Moreno, C. Estela Villa, M. Aparicio, A. Fontanella. Cutaneous manifestation of COVID-19 in images: A case report. J Eur Acad Dermatol Venereol., 34 (2020), [23] D. Henry, M. Ackerman, E. Sancelme, A. Finon, E. Esteve. Urticarial eruption in COVID‐19 infection. J Eur Acad Dermatol Venereol., 34 (2020), [24] C. Van Damme, E. Berlingin, S. Saussez, O. Accaputo. Acute urticaria with pyrexia as the first manifestations of a COVID-19 infection. J Eur Acad Dermatol Venereol., 34 (2020), [25] A. Mahé, E. Birckel, S. Krieger, C. Merklen, L. Bottlaender. A distinctive skin rash associated with Coronavirus Disease 2019?. J Eur Acad Dermatol Venereol., 34 (2020), [26] I.F. Manalo, M.K. Smith, J. Cheeley, R. Jacobs. A Dermatologic Manifestation of COVID-19: Transient Livedo Reticularis. Journal of the American Academy of Dermatology., 83 (2020), pp. P700 http://dx.doi.org/10.1016/j.jaad.2020.04.018 [27] A.V. Marzano, G. Genovese, G. Fabbrocini, P. Pigatto, G. Monfrecola, B.M. Piraccini, et al. Varicella-like exanthem as a specific COVID-19-associated skin manifestation: multicenter case series of 22 patients [published online ahead of print, 2020 Apr 16]. J Am Acad Dermatol., 83 (2020), pp. 280-285 http://dx.doi.org/10.1016/j.jaad.2020.04.044 | Medline [28] F. Amatore, N. Macagno, M. Mailhe, B. Demarez, C. Gaudy-Marqueste, J.J. Grob, et al. SARS-CoV-2 infection presenting as a febrile rash. J Eur Acad Dermatol Venereol., 34 (2020), pp. 304-306 http://dx.doi.org/10.1111/jdv.16528 [29] Y. Zhang, W. Cao, M. Xiao, Y.J. Li, Y. Yang, J. Zhao, et al. Clinical and coagulation characteristics of 7 patients with critical COVID-2019 pneumonia and acro-ischemia. Zhonghua Xue Ye Xue Za Zhi., 41 (2020), pp. E006 http://dx.doi.org/10.3760/cma.j.issn.0253-2727.2020.0006 | Medline [30] A. Alramthan, W. Aldaraji. A case of COVID-19 presenting in clinical Picture resembling chilblains disease. First report from the Middle East. Clin Exp Dermatol., 45 (2020), pp. 746-748 http://dx.doi.org/10.1111/ced.14243 | Medline [31] S. Recalcati, T. Barbagallo, L.A. Frasin, F. Prestinari, A. Cogliardi, M.C. Provero, et al. Acral Cutaneous Lesions in the Time of COVID-19. J Eur Acad Dermatol Venereol., 34 (2020), pp. 346-347 http://dx.doi.org/10.1111/jdv.16533 [32] V. Piccolo, I. Neri, C. Filippeschi, T. Oranges, G. Argenziano, V.C. Battarra, et al. Chilblain-like lesions during COVID-19 epidemic: A preliminary study on 63 patients. J Eur Acad Dermatol Venereol., 34 (2020), pp. 291-293 http://dx.doi.org/10.1111/jdv.16526 [33] A. Kolivras, F. Dehavay, D. Delplace, F. Feoli, I. Meiers, L. Milone, et al. Coronavirus (COVID-19) infection-induced chilblains: a case report with histopathological findings. JAAD Case Reports., 6 (2020), pp. 489-492 http://dx.doi.org/10.1016/j.jdcr.2020.04.011 | Medline [34] J.M. Carrascosa, et al. Manifestaciones cutáneas en el contexto de la infección por SARS-CoV-2 (COVID-19). Actas Dermosifiliogr., (2020), http://dx.doi.org/10.1016/j.ad.2020.08.002 [35] G. Tosti, A. Barisani, P. Queirolo, E. Pennacchioli, L. Villa, A.M. Lodeserto, et al. Skin Signs Resembling Vascular Acrosyndromes During the COVID-19 Outbreak in Italy. Clin Exp Dermatol., 45 (2020), pp. 757-758 http://dx.doi.org/10.1111/ced.14267 | Medline [36] A. de Masson, J.-D. Bouaziz, L. Sulimovic, C. Cassius, M. Jachiet, M.-A. Lonescu, et al. Chilblains are a common cutaneous finding during the COVID-19 pandemic: a retrospective nationwide study from France. J Am Acad Dermatol., 83 (2020), pp. 667-670 http://dx.doi.org/10.1016/j.jaad.2020.04.161 | Medline [37] D. Fernandez-Nieto, J. Jimenez-Cauhe, A. Suarez-Valle, O.M. Moreno-Arrones, D. Saceda-Corralo, A. Arana-Raja, et al. Characterization of acute acro-ischemic lesions in non-hospitalized patients: a case series of 132 patients during the COVID 19 outbreak. J Am Acad Dermatol., 83 (2020), pp. 61-63 http://dx.doi.org/10.1016/j.jaad.2020.04.093 [38] C. Magro, J. Mulvey, D. Berlin, G. Nuovo, S. Salvatore, J. Harp, et al. Complement associated microvascular injury and thrombosis in the pathogenesis of severe COVID-19 infection: A report of five cases. Translational Research., 220 (2020), pp. 1-13 http://dx.doi.org/10.1016/j.trsl.2020.04.007 | Medline [39] S. Cui, S. Chen, X. Li, S. Liu, F. Wang. Prevalence of venous thromboembolism in patients with severe novel coronavirus pneumonia. J Thromb Haemost., 18 (2020), pp. 1421-1424 http://dx.doi.org/10.1111/jth.14830 | Medline [40] C. Galván Casas, A. Català, G. Carretero Hernández, P. Rodríguez-Jiménez, D. Fernández Nieto, A. Rodríguez-Villa Lario, et al. Classification of the cutaneous manifestations of COVID-19: a rapid prospective nationwide consensus study in Spain with 375 cases. Br J Dermatol., 183 (2020), pp. 71-77 http://dx.doi.org/10.1111/bjd.19163 | Medline [41] G. Lippi, M. Plebani. Laboratory abnormalities in patients with COVID-2019 infection. Clin Chem Lab Med., 58 (2020), http://dx.doi.org/10.1515/cclm-2020-0198 | Medline [42] Y.D. Wang, S.P. Zhang, Q.Z. Wei, M.M. Zhao, H. Mei, Z.L. Zhang, et al. COVID-19 complicated with DIC: 2 cases report and literatures review. Zhonghua Xue Ye Xue Za Zhi., 41 (2020), pp. E001 http://dx.doi.org/10.3760/cma.j.issn.0253-2727.2020.0001 | Medline [43] G. Lippi, E.J. Favaloro. D-dimer is Associated with Severity of Coronavirus Disease 2019: A Pooled Analysis. Thromb Haemost., 120 (2020), pp. 876-878 http://dx.doi.org/10.1055/s-00401709650 | Medline [44] F.M. Pieracci, P.S. Barie. Iron and the risk of infection. Surg Infect (Larchmt)., 6 (2005), [45] K.F. Kernan, J.A. Carcillo. Hyperferritinemia and inflammation. Int Immunol., 29 (2017), pp. 401-409 http://dx.doi.org/10.1093/intimm/dxx031 | Medline [46] B. Zhou, J. She, Y. Wang, X. Ma. Utility of Ferritin, Procalcitonin, and C-reactive Protein in Severe Patients with 2019 Novel Coronavirus Disease. Research Square, (2020), http://dx.doi.org/10.21203/rs.3.rs18079/v1 [47] C. Bracaglia, G. Prencipe, F. De Benedett. Macrophage Activation Syndrome: different mechanisms leading to a one clinical syndrome. Pediatr Rheumatol., 15 (2017), http://dx.doi.org/10.1186/s12969-016-0130-4 [48] V.S. Raj, H. Mou, S.L. Smits, D.H. Dekkers, M.A. Müller, R. Dijkman, et al. Dipeptidyl peptidase 4 is a functional receptor for the emerging human coronavirus-EMC. Nature., 495 (2013), pp. 251-254 http://dx.doi.org/10.1038/nature12005 | Medline [49] I. Hamming, W. Timens, M.L. Bulthuis, A.T. Lely, G. Navis, H. van Goor. Tissue distribution of ACE2 protein, the functional receptor for SARS coronavirus. A first step in understanding SARS pathogenesis. J Pathol., 203 (2004), pp. 631-637 http://dx.doi.org/10.1002/path.1570 | Medline [50] F. Ciceri, L. Beretta, A.M. Scandroglio, S. Colombo, G. Landoni, A. Ruggeri, et al. Microvascular COVID-19 lung vessels obstructive thromboinflammatory syndrome (MicroCLOTS): An atypical acute respiratory distress syndrome working hypothesis. Crit Care Resusc., 31 (2020), pp. 685-690 http://dx.doi.org/10.1080/09537104.2020.1775189 [51] A. Eskilsson, E. Mirrasekhian, S. Dufour, M. Schwaninger, D. Engblom, A. Blomqvist. Immune-induced fever is mediated by IL-6 receptors on brain endothelial cells coupled to STAT3-dependent induction of brain endothelial prostaglandin synthesis. J Neurosci., 34 (2014), pp. 15957-15961 http://dx.doi.org/10.1523/JNEUROSCI.3520-14.2014 [52] M. Gauna, J. Bernava. Recomendaciones diagnósticas y terapéuticas ante la Respuesta Inmune Trombótica Asociada a Covid-19 (RITAC). CorSalud., 12 (2020), http://www.revcorsalud.sld.cu/index.php/cors/article/view/615 [53] N. Tang, H. Bai, X. Chen, J. Gong, D. Li, Z. Sun. Anticoagulant treatment is associated with decreased mortality in severe coronavirus disease 2019 patients with coagulopathy. J. Thromb. Haemost., 18 (2020), http://dx.doi.org/10.1111/jth.15102 | Medline [54] Y. Zhang, M. Xiao, S. Zhang, P. Xia, W. Cao, W. Jiang, et al. Coagulopathy and antiphospholipid antibodies in patients with Covid-19. N Engl J Med., 382 (2020), pp. e38 http://dx.doi.org/10.1056/NEJMc2013656 | Medline [55] L. Bowles, S. Platton, N. Yartey, M. Dave, K. Lee, D. Hart, et al. Lupus anticoagulant and abnormal coagulation tests in patients with Covid-19. N Engl J Med., (2020), [56] N. Connell, E. Battinelli, J. Connors. Coagulopathy of COVID-19 and Antiphospholipid Antibodies. J Thromb Haemost., (2020), http://dx.doi.org/10.1111/jth.14893 [57] H. Li, L. Liu, D. Zhang, J. Xu, H. Dai, N. Tang, et al. SARS-CoV-2 and viral sepsis: Observations and hypotheses. The Lancet., 395 (2020), pp. 1517-1520 http://dx.doi.org/10.1016/S0140-6736(20)30920-X [58] X.H. Yao, T.Y. Li, Z.C. He, Y.F. Ping, H.W. Liu, S.C. Yu, et al. A pathological report of three COVID-19 cases by minimally invasive autopsies. Chinese Journal of Pathology., 49 (2020), pp. 411-417 http://dx.doi.org/10.3760/cma.j.cn112151-20200312-00193 | Medline [59] Z. Varga, A.J. Flammer, P. Steiger, M. Haberecker, R. Andermatt, A.S. Zinkernagel, et al. Endothelial cell infection and endotheliitis in COVID-19. Lancet., 395 (2020), pp. 1417-1418 http://dx.doi.org/10.1016/S0140-6736(20)30937-5 | Medline [60] C. Sardu, J. Gambardella, M.B. Morelli, X. Wang, R. Marfella, G. Santulli. Is COVID-19 an Endothelial Disease? Clinical and Basic Evidence. Preprints, (2020), [61] L. Ivashkiv, L. Donlin. Regulation of type I interferon responses. Nat Rev Immunol., 14 (2014), pp. 36-49 http://dx.doi.org/10.1038/nri3581 | Medline [62] A. Kolivras, A. Aeby, Y.J. Crow, G.I. Rice, U. Sass, J. André. Cutaneous histopathological findings of Aicardi-Goutières syndrome, overlap with chilblain lupus. J Cutan Pathol., 35 (2008), pp. 774-778 http://dx.doi.org/10.1111/j.1600-0560.2007.00900.x | Medline ☆ Please cite this article as: González González F, Cortés Correa C, Peñaranda Contreras E. Manifestaciones cutáneas en pacientes con COVID-19: características clínicas y mecanismos fisiopatológicos postulados. Actas Dermosifiliogr. 2021;112:314–323. Copyright © 2020. 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The rapid spread of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) infections soon led to a pandemic with serious health, economic, political, and cultural repercussions across the globe. The disease caused by SARS-CoV-2, coronavirus disease 2019 (COVID-19), is a multisystemic disease that requires a multidisciplinary approach involving specialists from all fields and levels of care. In this article, we review the literature on th e diverse cutaneous manifestations associated with COVID-19. We also describe the pathophysiologic mechanisms proposed to date and their possible association with these manifestations. Finally, we propose a system for classifying the cutaneous manifestations of COVID-19 according to their underlying pathophysiologic mechanisms and prognosis. Severe acute respiratory syndrome-related coronavirus La infección por SARS-CoV-2 se ha convertido rápidamente en una pandemia con importantes implicaciones en ámbitos sanitarios, económicos, políticos y culturales en todo el planeta. La enfermedad que produce, llamada COVID-19, es considerada actualmente una patología florida y de obligatorio manejo multidisciplinario por todas las especialidades médicas y de servicios de salud. Este artículo presenta una revisión bibliográfica de las variadas manifestaciones cutáneas a causa de la COVID-19. Posteriormente, se mencionan los diversos engranajes fisiopatológicos que se han postulado hasta el momento y su posible relación con los hallazgos de la enfermedad en la piel. Por último, se propone una clasificación de las manifestaciones cutáneas según mecanismos fisiopatológicos de base y pronóstico de la enfermedad. infecciones por coronavirus COVID-19 virus del Síndrome Respiratorio Agudo Severo IntroductionIn December 2019, the Chinese health authorities reported multiple cases of acute respiratory illness in the province of Wuhan, mostly affecting workers at a small seafood market.1 It was not long before the causative agent was identified: a virus from the Coronaviridae family of likely zoonotic origin and whose original rese rvoir is the bat.2 Soon afterwards, the virus was named severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) to distinguish it from the other Coronaviridae viruses responsible for 2 other pandemics this century: SARS-CoV-1 and Middle East Respiratory Syndrome coronavirus (MERS-CoV).3,4 Although SARS-CoV-2 is associated with a case fatality rate of 2.3%,5 lower than that of SARS-CoV-1 (9.5%) and MERS-CoV (34.4%),6 it i s highly contagious and quickly spread outside China; its high transmissibility—higher than that of SARS-CoV-17—can be partly explained by the higher viral loads in the respiratory tract. SARS-CoV-2 can also survive in aerosols for more than 3 hours, remains viable on a variety of surfaces for 72 hours, and has a relatively short incubation period (< 2 weeks).8 Early reports of coronavirus disease 2019 (COVID-19), the disease caused by SARS-CoV-2, indicated that most patients experienced fever, rhinorrhea, a cough without expectoration, asthenia, and adynamia.9 A small proportion required hospitalization due to severe pneumonia. In a cohort of 70 000 patients with SARS-CoV-2 infection in China, Wu et al.3 reported that 14% of patients developed severe pneumonia (dyspnea, tachypnea, desaturation, and a decreased arterial oxygen partial pressure to fractional inspired oxygen ratio) and that 5% required critical care. The case fatality rate was 2.3% for the general population and 14% for patients aged 80 years or older. Their findings were corroborated by later reports from Europe.10 The main risk factors for severe COVID-19 include male sex, diabetes, high blood pressure, chronic lung disease, and cardiovascular disease.11,12 Children younger than 10 years have mild symptoms and are much less likely than adults to develop complications or die.13 Reports from Asia, Europe, and the United States have described a wide range of cutaneous manifestations associated with COVID-19. Although these manifestations were initially considered to be nonspecific, the publication of an increasing number of cases revealed an apparent pattern and possibly even an association with prognosis. In this article, we review the literature on the diverse cutaneous manifestations described to date in patients with COVID-19. We then outline the different pathophysiologic mechanisms and hypotheses proposed so far to explain their occurrence. ResultsCutaneous Manifestations in C OVID-19SARS-CoV-2 Infection and Onset of Nonspecific RashesThere are 39 coronavirus species. Seven of these, including SARS-CoV-1, SARS-CoV-2, and MERS-CoV, affect humans.14 The other viruses—HCoV-229E, HCoV-OC43, HCoV-NL63, and HCoV-HKU1—cause mild respiratory conditions such as the common cold. Like other respiratory viruses, many coronaviruses probably also cause viral rashes that go undetected because of the lack of specific testing. The first report mentioning cutaneous manifestations in patients with COVID-19 was published by Guan et al.15 in February 2020. The authors analyzed data for 1099 patients infected with SARS-CoV-2 and described 2 cases of skin lesions. They did not, however, specify the type of lesions or describe their clinical characteristics or time of onset, probably explaining why this early report was somewhat overlooked. The publication was followed by a report of a patient in Thailand presenting with a "morbilliform rash and multiple petechiae" and a low platelet count who was initially diagnosed with dengue and assigned to outpatient care.16 The patient, however, returned with respiratory symptoms and was diagnosed with SARS-CoV-2 infection by reverse-transcript polymerase chain reaction (PCR). This report alerted physicians to the importance of investigating cutaneous manifestations in patients with COVID-19.17,18 The first large report of cutaneo us manifestations in COVID-19 came from a cohort of 88 patients in Italy.19 Of these, 18 (20.4%) had developed cutaneous manifestations: 8 during hospitalization and 10 following discharge. There were 14 cases of "erythematous rash", 3 of "widespread urticaria", and 1 of "chickenpox-like vesicles". The vast majority of patients had trunk lesions, which were largely asymptomatic, resolved spontaneously, and did not appear to be associated with disease severity. Unfortunately, no photographs were taken due to the hospital policies in place at the time of the study. As the days passed, new reports emerged of patients with confirmed SARS-CoV-2 infection and a range of very different cutaneous manifestations, including pruritic erythematous-yellowish plaques on the heels (Fig. 1A),20 a morbilliform rash sparing acral sites,21 a generalized maculopapular morbilliform rash with cephalocaudal progress,22 urticaria-like lesions,23,24 a rash reminiscent of symmetrical drug-related intertriginous flexural exanthema,25 and even livedo reticularis on the lower extremities (Fig. 1B).26 As in the previous cases, biopsies were not performed due to hospital policies and the mild, self-limiting nature of the lesions. In April, the Journal of the American Academy of Dermatology published a series of 22 patients with COVID-19 who developed a mild varicella-like rash after a median of 3 days from the onset of systemic symptoms; the rash cleared after a median of 8 days, leaving no residual scarring.27 Most of the patients were male (72.7%) and the mean age was 60 years. The varicella-like lesions were predominantly vesicles and were scattered in 72.7% of cases and diffuse in 27.3%. The trunk was affected in all cases. None of the reports mentioned facial or mucosal involvement (Fig. 2A and B). The most common symptom, present in almost half of the patients, was mild pruritus. A skin biopsy performed in 7 patients showed findings consistent with an acute viral infection (Fig. 2C and D). The authors suggested that this type of rash might be a specific manifestation of SARS-CoV-2 infection and as such could be useful for raising suspicion of COVID-19 in patients with mild disease. A later publication described the case of a man in the fourth decade of life with PCR-confirmed SARS-CoV-2 infection, fever, and concomitant nonpruritic, annular, circinate, erythematous-edemat ous fixed plaques on the neck, thorax, abdomen, and upper limbs (symmetric distribution) (Fig. 3A-C).28 The lesions cleared after 7 days. The biopsy findings were consistent with a viral rash (Fig. 3D). Cutaneous Manifestations Associated With Thrombosis or Microangiopathic Changes and Chilblain-like LesionsThe Chinese group led by Zhang29 published a retrospective review of 7 patients with COVID-19 and pneumonia treated at an intensive care unit in Wuh an. The patients had multiple acro-ischemic manifestations, including acrocyanosis, retiform purpura, and gangrene (Fig. 4). Clinical and laboratory data were evaluated on admission to hospital, at the onset of the cutaneous manifestations, and after the use of anticoagulation therapy. They showed D-dimer, fibrinogen, and fibrinogen degradation product alterations related to the sequential events described. Five of the patients (71.42%) died. This was the first step in the formulation of a hypothesis on the existence of a hypercoagulable state per se in patients with SARS-CoV-2 infection. Around the same time, multiple reports began to emerge from Europe, the Middle East, and the United States of chilblain-like lesions in young people who had been in close contact with a patient with confirmed or probable SARS-CoV-2 infection. The symptoms varied, but the ch ief complaints were pain and a burning sensation in the skin; the lesions resolved spontaneously and none of the patients developed SARS-CoV-2 pneumonia.30–32 Kolivras et al.33 reported the case of a young man who developed painful, acute-onset, violaceous plaques on the toes and lateral aspect of the feet (Fig. 5A and B) 3 days after the onset of upper respiratory symptoms. A skin biopsy showed findings consistent with chilblain lupus (Fig. 5C and D). The nasopharyngeal swa b collected on admission was positive for SARS-CoV-2. In view of the enormous impact of the pandemic on the European continent, numerous groups started to publish studies aimed at characterizing the chilblain-like lesions observed in patients with COVID-19.34 In Italy, Recalcati et al.31 and Tosti et al.35 reported that these lesions were more common in younger patients (especially children [78.5%]), predominantly involved the feet (71% of cases), were self-limiting, and were associated with normal blood tests and an absence of systemic symptoms. A French study of skin lesions obser ved in 277 patients during 3 weeks of the COVID-19 pandemic found that 142 patients had acral lesions and that 106 of these (75%) were painful erythematous-violaceous edematous macules and papules consistent with chilblain lupus.36 Fernández-Nieto et al37 studied 132 nonhospitalized patients who consulted for acro-ischemic lesions over a period of 5 weeks. The mean age of the patients was 19.9 years; 40.9% had been in close contact with a patient with confirmed SARS-CoV-2 infection and 14.4% tested positive. Over 90% of the lesions affected the fingers or toes, but mostly the toes (81.8%). Similarly to the other cases reported, the patients experienced mild disease. Magro et al.38 reported on patients with COVID-19 who developed cutaneous manifestations consistent with a procoagulant or microangiopathic state. A skin biopsy was performed in 3 patients who developed retiform purpura or livedo racemosa (Fig. 6A) associated with elevated D-dimer levels during the course of their respiratory illness, with findings showing pauci-inflammatory thrombogenic vasculopathy and C5b-9 and C4d deposition (Fig. 6B and C). This observation sparked the hypothesis of a link between mechanisms dependent on the alternative or lectin complement pathways and thrombotic events in patients with SARS-CoV-2 infection, and subsequently provided an explanation for the existence of procoagulant states in other organs.39 Spanish Consensus on the Classification of Cutaneous Manifestations of COVID-19The British Journal of Dermatology published the results of a Spanish consensus study of 375 patients with confirmed or suspected SARS-CoV-2 infection who developed cutaneous manifestations without a clear explanation.40 Numerous factors were evaluated over a period of 2 weeks, including clinical manifestations, time of onset in relation to other symptoms, demographics, and associations with disease course and outcomes. The group, led by Galván Casa, divided the manifestations into 5 clinical patterns: 1) pseudo-chi lblains (19%), 2) vesicular eruptions (9%), 3) urticarial lesions (19%), 4) maculopapular eruptions (47%), and 5) livedoid or necrotic lesions (6%). They found that livedoid and necrotic lesions affected older patients (mean age, 63 years) with severe disease (mortality rate, 10%), while pseudo-chilblain lesions (acral areas of erythema and edema with vesicles or pustules) were more common after the onset of respiratory symptoms (59% of cases) and occurred in young patients (mean age, 21.8 years) with mild COVID-19. The survival rate of patients with maculopapular eruptions was 98%. The Spanish findings were consistent with reports from other authors, especially in terms of the mild nature of these chilblain-like lesions.30–33 Pathophysiological FindingsPathophysiology of SARS-CoV-2 Infection and Possible Association With Cutaneous ManifestationsLaboratory findings in patients with severe SARS-CoV-2 infection include leukocytosis, neutrophilia, lymphopenia, thrombocytopenia, increased lactate dehydrogenase and procalcitonin levels, and D-dimer and fibrinogen degradation product alterations.41 In some cases, these findings overlap with those observed in disseminated intravascular coagulation syndrome.42 Lippi and Favoro43 reported a directly proportional association between D-dimer levels and severe respiratory illness in patie nts with SARS-CoV-2 infection, supporting previous reports showing a link between elevated D-dimer levels and mortality in COVID-19.42 In humans, ferritin exerts a protective function during infection by limiting the amount of iron available to numerous pathogens,44 explaining also why ferritin levels increase during inflammatory states.45 Very high ferritin levels have been observed in patients with severe COVID-19 and linked to high morbidity and mortality.46< /span> As mentioned, COVID-19 is characterized by a diverse range of biochemical changes. These changes, however, are reminiscent of findings observed in macrophage activation syndrome47 and highlight the important role of white blood cells, in particular T cells and macrophages, in the exaggerated cytokine and thrombotic immune response associated with COVID-19. Macrophages and T Cells at the Root of Acro-Ischemic Lesions in COVID-19Preliminary studies characterizing the novel coronavirus identified the angiotensin converting enzyme 2 (ACE2) receptor as the main receptor in SARS-CoV-2 infection.2 SARS-CoV-2 uses the ACE2 receptor to enter human cells and has no affinity for receptors used by other coronavirus families, such as the dipeptidyl peptidase 4 receptor.48 The ACE2 receptor is found on the surface of pulmonary epithelial cells, in enterocytes of the small intestine, in arterial and venous endothelial cells, and in arterial smooth muscle cells in numerous organs, including the skin.49 Viral replication within cells causes direct cell injury, triggering the release of proinflammatory alarmins (direct viral effect). Viral particles can also trigger innate immune responses, including the activation of alveolar macrophages and the complement cascade through the lectin pathway.38,50 Complement activation and diverse immune responses promote the recruitment of leukocytes and an exaggerated proliferation of lymphocytes and massive release of proinflammatory cytokines (interleukin [IL] 1B, IL-6, IL-8), interferon-gamma (IFN-γ), and tumor necrosis factor alpha (TNF-α), among others. IFN-γ, in large quantities, drives macrophage activation and ferritin production,45 IL-6 causes fever,51 and hemophagocytosis causes pancytopenia.47,52 Macrophages also release plasminogen activator, and this is pos sibly one of the many mechanisms that would explain the thrombotic events and elevated D-dimer levels observed in severe COVID-19.53 It could also explain other findings such as the presence of antiphospholipid antibodies in patients with severe disease in the absence of comorbidities.54 Bowles et al.55 in the United Kingdom and Connel et al.56 in the United States confirmed the presence of antiphospholipid antibodies (especially lupus anticoagulant) in pat ients with SARS-CoV-2 infection. This might be linked to the observation of acro-ischemic presentations (other than chilblain-like lesions), necrosis, and even livedo reticularis and racemosa in certain patients with COVID-19 and concomitant multisystemic thrombotic responses. Viral sepsis has also been proposed to explain the systemic and cutaneous changes associated with COVID-19.57 This hypothesis, which came about following multiple reports of multiorgan damage in autopsy studies of patients who had died of severe COVID-19,58 holds that the massive release of cytokines, in particular TNF-α, would promote the death of infected cells via apoptosis-dependent pathways. In addition, SARS-CoV-2 may also be capable of infecting T cells, leading to lymphopenia. There is sufficient evidence to support direct viral injury to endothelial cells followed by diffuse endothelial inflammation and consequently vascular endothelial apoptosis,59 raising the question of whether COVID-19 may actually be an endothelial disease.60 This theory is supported by reports of death in patients with COVID-19 who had a history of diabetes mellitus or chronic cardiovascular disease and the observation of ischemic cutaneous manifestations, particularly at acral sites. Association Between IFN and Chilblain-like LesionsPatients with chilblain-like lesions,30–32 apart from being apparently younger, experience mild COVID-19, while those with severe acro-ischemic manifestations, such as gangrene29 and retiform purpura,38 develop more severe disease. The milder forms of disease associated with chilblain-like lesions may be linked to type I IFN. Kolivras et al.33 highlighted the robust activation of type I IFN in SARS-CoV-2 infection, stating that a similar response was induced in many other acute viral infections.61 Type I IFN levels are elevated in lupus erythematosus and interferonopathies such as Aicardi-Goutières syndrome, which is also characterized by microangiopathic changes at acral sites.62 The authors hypothesized that these changes are the result of early type I IFN responses, which would also explain the mild disease course, as IFN exerts an antiviral effect. In addition, because early type I IFN responses are capable of suppressing the uncontrolled release of diverse proinflammatory cytokines, they would reduce the risk of a cytokine storm. Elderly patients, however, or patients with comorbidities that alter the functioning of the immune system, would generate a delayed type I IFN response, leading to the release of cytokines, macrophage activation syndrome, elevated ferri tin and D-dimer levels, true acro-ischemic lesions, and a much worse prognosis. DiscussionThe COVID-19 pandemic has created enormous challenges for health care professionals, including the need to keep abreast with the vast spectrum of clinical manifestations associated with this disease. COVID-19 is a multisystemic disease that affects multiple organs, including the skin. The occurrence of cutaneous manifestations, however, represents an advantage, as their recognition can lead to early suspicion of disease in some cases and provide clues about individual immune responses or complications in others. Based on the pathophysiological mechanisms hypothesized, we propose classifying the various cutaneous manifestations of COVID-19 into 2 groups: 1) manifestations primarily linked to a direct cytopathogenic effect on cells such as keratinocytes, which are involved in many known viral infections (morbilliform or urticarial rashes, reactions similar to drug eruptions, varicella-like lesions) and 2) manifestations linked to an uncontrolled release of cytokines due to alterations in specific white blood cells, such as T cells and macrophages. This second group could be divided into a further 2 groups: 1) manifestations characterized by features similar to those seen in macrophage activation syndrome (acral ischemia, gangrene, retiform purple, livedo racemosa) and associated with poor outcomes in terms of morbidity and mortality and 2) cutaneous manifestations with a mild, self-limiting disease course, observed in young patients and linked to the activation of an early type I IFN response (chilblain-like lesions) (Fig. 7). This hypothesis is one of the first in the literature to provide a possible explanation of the pathophysiological mechanisms underlying the main cutaneous manifestations of COVID-19; it also provides a means of classifying these manifestations and establishing their possible prognostic value. We believe that it is paramount for physicians, nurses, respiratory therapists, health care professionals still in training, and even members of the general population to be aware of the relationship between SARS-CoV-2 infection and the skin and its various manifestations. Heightened awareness will promote an active search for manifestations and a detailed study of cases, adding to the scientific knowledge and our understanding of the pathophysiology of COVID-19 and ultimately contributing to the development of effective treatments and protocols that will mitigate the complications of this infection. FundingThis study did not receive any specific funding from public sector bodies or commercial or nonprofit entities. Conflicts of InterestThe authors declare that they have no conflicts of interest. To all the frontline health care professionals involved in caring for patients with COVID-19; their contribution to the history of medicine is invaluable. Please cite this article as: González González F, Cortés Correa C, Peñaranda Contreras E. Manifestaciones cutáneas en pacientes con COVID-19: características clínicas y mecanismos fisiopatológicos postulados. Actas Dermosifiliogr. 2021;112:314–323. | View on the web | |
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