key: cord-0907639-7sesd5il
authors: Alonso, María Noelia; Mata-Forte, Tatiana; García-León, Natalia; Vullo, Paula Agostina; Ramirez-Olivencia, Germán; Estébanez, Miriam; Álvarez-Marcos, Francisco
title: Incidence, Characteristics, Laboratory Findings and Outcomes in Acro-Ischemia in COVID-19 Patients
date: 2020-11-24
journal: Vasc Health Risk Manag
DOI: 10.2147/vhrm.s276530
sha: adc3f6b7c4f354f79b9e492423aa35bd29241e76
doc_id: 907639
cord_uid: 7sesd5il
AIM: In addition to its respiratory impact of SARS-CoV2, skin lesions of probable vascular origin have been described. This study intends to quantify the incidence of acro-ischemic lesions in COVID-19 infected adult subjects in our population, describing clinical patterns and associated findings. METHODS: All adult confirmed cases of COVID-19 infection who presented with acro-ischemic lesions and received care in our institution were prospectively enrolled up to May 15th, 2020. The variables included demographics, comorbidities, analytical parameters, clinical presentations and COVID-19 treatment. RESULTS: We enrolled 24 patients. The overall rate of acro-ischemic findings in COVID-19 patients was 1.2% [0.6% for outpatients and 2.9% for hospitalized (ICU and non-ICU patients)], but the observed incidence for acro-ischemia in ICU patients was remarkably higher (23.0%, p<0.001). We have described four different clinical patterns of acroischemia: atypical Raynaud´s phenomenon (ARP), (4); pseudo-pernio (PP), (5); severe microcirculatory ischemia with preserved pulse (SMI), (6); and dry gangrene with arteriosclerosis obliterans (AO), (9). Kendall´s τ correlation with lung disease severity was 0.877 (95% CI, 0.756 to 0.968); p<0.01). ARP individuals were predominantly female, while SMI appeared lately in elderly hospitalized subjects with better prognosis. AO occurred in patients with more comorbidity and younger than those with SMI. We observed other associated lesions of suggestive ischemic nature in other organs in all groups (15 patients of total sample). Plasma procalcitonin was significantly higher in patients who developed SMI (median and interquartile range: 9.99 (4.2, 12.3) mg/mL vs 0.26 (0.11, 0.89) mg/mL; p<0.001), and D-dimer level at hospital admission was significantly higher in AO patients (median and interquartile range: 1166 (1050, 2111) mg/L vs 502 (448, 777) mg/L; p<0.001). CONCLUSION: The observed risk for acroischemia in COVID-19 is high in ICU patients (23%). We have described four different clinical patterns of acroischemia (ARP, PP, SMI and AO) associated with lung disease severity. Authors have communicated various lesions of suggestive ischemic nature in other organs. Raynaud-like pattern is reported as a ”novelty”.
Severe acute respiratory distress syndrome-coronavirus 2 (SARS-CoV-2) was initially identified in Wuhan, in December 2019 1 and later declared by the World Health Organization as a pandemic. 2 During the first wave, Spain was the second country in number of infected people, with 247,000 confirmed cases and 28,678 deaths on June 24 2020. Madrid was the most affected community, reaching more than 70,934 cases and 8931 deaths in the same period. 3 SARS-CoV-2 infects the endothelial cells using the angiotensin converting enzyme 2 (ACE2) receptor with subsequent severe endothelial injury. 4, 5 This endothelial disfunction would lead to the loss of these cells fibrinolytic function, predisposing to thrombus formation. [6] [7] [8] [9] Besides, the activation of the innate and adaptative immune cells and insufficient clearance of chemokines induce progressive thromboinflamatory response and hypercoagulability. 10 Clinical symptoms of COVID-19 vary widely. Most of the patients remain asymptomatic or present a mild form with flu-like symptoms. Additional symptoms may include shivering, throat pain, anosmia, headache, joint pain, nausea and diarrhea. In moderate forms, marked inflammation and progressive pneumonia may cause dyspnea, respiratory failure, acute respiratory distress syndrome (ARDS) and multiorgan failure, with death rates ranging from 4.4% to 10%. 11, 12 The severity of the disease depends on several co-factors (age, sex, etc.) and comorbidities. [13] [14] [15] Since the pandemic outbreak, new clinical features have been reported, such as neurological, myocardial, ophthalmic or cutaneous events. 16 Pseudo-chilblains in pauci-symptomatic children and adults have been widely described as a new late clinical manifestation. However, the true incidence of this type of skin injury remains unknown. [17] [18] [19] [20] More severe manifestations of thrombotic affectation, such as acro-ischemia and its complications, are also infrequent in adults and still do not have a well-quantified incidence and management pathway. Most of the reports on a high incidence of thrombotic complications are in relation to deep vein thrombosis and pulmonary embolism, while the evidence about arterial thrombosis in patients with COVID-19 is lower and limited to case reports. 10, [21] [22] [23] [24] [25] This study intends to quantify the incidence of acroischemic lesions (AIL) in COVID-19-infected adults in our population, describing clinical patterns and associated findings.
Our tertiary care hospital covers sanitary area of Carabanchel, one of the three most affected districts. All adult cases of COVID-19 infection who presented acroischemic lesions and received care in our institution (hospitalised or telematic) were prospectively enrolled in a database up to May 15th, 2020. In accordance with the criteria of the European Society for Vascular Surgery Statistical analysis was mostly descriptive. Categorical variables were described as frequencies, and quantitative variables using mean and standard deviation. If a distribution non-assumable to a Gaussian normal curve was detected, median and interquartile range were used instead. Frequencies were compared using Pearson's Chisquare test. Quantitative variables were compared using Mann-Whitney's U-test. Kendall´s tau and Spearman´s rank correlation coefficients (95% CI) were used to measure association strength of the main ordinal variables of the study. All calculations were performed using IBM SPSS version 25.0 (IBM Corp., Armonk, NY, USA).
A total of 2051 cases of COVID-19 were diagnosed in our institution's assigned area up to May 15th. Five hundred and fourteen (25,1%) of them needed a hospital admission and 39 (1.9%) were transferred to the intensive care unit. The overall rate of acro-ischemic findings in COVID-19 patients was 1.2% (0,6% for outpatients and 2.9% for hospitalized patients), but the observed incidence for acro-ischemia in ICU patients was remarkably higher (23.0%, p<0.001).
Four different clinical patterns of AIL could be identified ( Figure 1 ): ARP(4), PP(5), SMI(6) and AO (9) . All types were a late manifestation of COVID-19 infection and SMI debut was the one to appear the latest. None of the patients had fever documented in the days prior to the appearance of the acro-ischemic event.
Tables 1-3 show the demographic and clinical characteristics of the included patients. According to COVID-19 clinical severity, ARP and PP were considered mild manifestations and could be observed only in patients managed without in-hospital admission. ARP individuals were predominantly female (75%). SMI was considered as a moderate affectation and AO as severe; both were observed only in hospitalized patients. ARP episodes were painful with a mean duration of 15 minutes, and occurring mostly in the evenings. All cases referred a very characteristic frequency of appearance: the first episode occurred 10 days after the viral symptoms; the second one, 4-5 days after the first one; and the last one, 9-10 days from the second one, alternating between hands and feet. Headache was the commonest accompanying symptom, while two subjects presented strong low back pain of inflammatory characteristics. No one had a previous history of primary Raynaud´s phenomenon. No new episode occurred during follow-up.
PP injuries were more varied. Some lesions were multiple, mainly rounded and a few millimeters in size. While other cases referred a big lesion affecting the entire phalanx, with a clear preference for the metacarpophalangeal level. Initially they had a reddish-purple or bluish color and, afterwards, they became bullous. They mainly affected the toes, but not all of them at the same time. In some cases, even the plantar region and the heel were affected. They usually remained stable during the following days and evolved within 10 days with restitutio ad integrum. SMI lesions took longer to resolve. The 3 AO patients who survived underwent different types of minor amputations (1. Hand amputation, 2. Big toe amputation, 3. Multiple digital amputation of several toes).
The association strength of lung disease severity with the different patterns of acro-ischemia is high: Kendall´s τ =0.877 (95% CI, 0.756 to 0.968) and Spearman´s Rho=0.915 (95% CI, 0.812 to 0.963); p<0.001).
Patients were followed for up to a mean of 38 days for ARP, 19 for PP, 44 for SMI and 54 for AO, as seen in Table 3 . Mortality rate was 0% (ARP, PP), 17% for SMI and higher (67%) in AO patients.
In addition to the cutaneous expressions of acro-ischemic origin already described, we observed other associated lesions of suggestive ischemic nature in other organs (Table 3) . One PP individual consulted his family practitioner for perceptual visual disturbances. He also described an intense night otalgia and often headache. Fundus autofluorescence detected abnormalities in branches of central retinal artery as these found in cholesterol emboli ( Figure 2 ). It resolved completely within a week. That scenario mimicked a mild Susac syndrome. Other PP patients consulted for painful limp during follow-up. Magnetic resonance imaging (MRI) was obtained in all cases, finding images interpretable as femoral condyle ischemia (Figure 3 ). Up to three SMI subjects showed a Sneddon-like syndrome. They presented unusual ischemic stroke with atypical clinical manifestations such as seizures, movement disorders and deficits in concentration, attention and visual perception. One of them presented a splinter hemorrhage as a warning sign of digital ischemia. Both MRI and CTscan were performed, finding that brain MRI was superior to
CT scan in detecting small infarctions. Rare patterns were observed, including occlusion of Percheron artery, deep white matter infarction due to thrombosis of deep perforating artery or ischemic lesions of branches of the middle cerebral artery (Figure 4 ). One severe SMI case presented a platypneaorthodeoxia syndrome during pneumonia evolution ( Figure 5 ). An echocardiography ruled out interatrial communication. A 99m Tc-macroaggregated albumin pulmonary perfusion scan in the sitting position allowed to confirm the presence of the intrapulmonary shunt.
One of the AO cases was diagnosed of deep vein thrombosis and peripheral neuropathy on the same leg, the day before appearance of acro-ischemic signs. Angio-CT and echocardiography were performed to rule out an embolic source. All imaging tests were negative. He finally died due to a terminal ileal perforation. Other AO individual died with One of the female finally died with an acute coronary syndrome. Acute kidney injury was always present in hospitalized patients with AO and 33.3% also presented liver failure. There was no significant improvement in clinical symptoms of patients with AO who were treated with low molecular weight heparin (LMWH).
Plasma procalcitonin was significantly higher in patients who developed SMI (median and interquartile range: 9.99 (4.
This study describes acro-ischemic lesions associated with COVID-19 infection, with follow-up over time and laboratory associated findings. The degree of severity was strongly related to the overall prognosis of the patient.
Remarkably, a Raynaud-like pattern of disease is described and has not been found elsewhere. In our study, various cases of acro-ischemia were managed with the help of telemedicine. This technique can be used for the delivery of health care services (diagnosis, treatment and prevention of disease), where distance or safety is a critical factor. In the current pandemic, DovePress telemedicine has played a key role in the management of such a highly contagious infectious disease. 26, 27 Besides, health workers represent between 3.8% and 20% of the infected population. In our sample, it reached 25%. They should be considered as an accessible study group in which data collection will be easier than in other population groups. 28 The pathophysiology of acro-ischemic injury in COVID-19 patients is probably multi-factorial and difficult to establish at this point. AIL seen in COVID-19 patients show signs that recall Virchow´s triad: altered blood flow, abnormalities in the platelet function and vascular endothelium that would lead to venous and arterial thromboses. 8, 29 One possible hypothesis is the ischemic lesions mimicking a faster Buerger's disease, being thereforea vasa-nervorumitis the eventual pathological substrate. In case of Buerger's disease, Rickettsia spp. has been postulated as causal agent and not tobacco itself. 30, 31 After pulmonary Raynaud´s phenomenon, proinflammatory biomarkers are increased in distance organs, which could explain all microvascular events of the disease´s inflammatory phases. 32, 33 The balance between the thrombotic and inflammatory states is only the response of each organism to a multisystemic ischemia-reperfusion syndrome. Davidson has reported that patients with higher morbidity/vascular age would have worse ischemic preconditioning with poor collateral vessels. Hence, reperfusion would generate devastating consequences related to the activation of macrophage response. 34 In contrast, older patients and these with less comorbidity would have a lower immunometabolic response, with the acro-ischemia pattern appearing later. 35 Therefore, in these cases, the ischemic pattern would be the most significant, as seen in the coagulation abnormalities found. Our outpatient data further suggest that women´s lower sensitivity to swelling may be related to higher ischemic tolerance. 36 The onset form of atypical Raynaud phenomenon (ARP) episodes (non-sustained and repetitive sub-lethal ischemic stimulation) would promote the release of autocrine bradykinine, which would play a key role as a systemic mediator of cytoprotective ischemic preconditioning. 37 Vasa-nervorumitis would explain why these patients show weak peripheral pulses, even in the absence of overt hypotension. 38, 39 However, in order to corroborate these claims, more exhaustive studies are definitely required. Sustained total hypoperfusion of the small vessels and then multisystemic ischemia-reperfusion syndrome would justify any clinical, analytical or imaging findings found in our sample. Headache and loin pain could be correlated with kidney and cerebral transient ischemia phenomena. Typical analytical findings of hospitalized COVID-19 patients include hyperglycemia, hypoproteinemia, hyperkalemia and hyponatremia, which also are common findings in the ischemia-reperfusion syndrome. 40 As said before, this pathophysiological hypothesis needs to see further confirmation, although it offers a reasonable explanation for all the involved clinical and laboratory findings ( Figure 6 ).
Pseudo-pernio (PP) is the skin lesion most frequently found in COVID-19 patients, according to Kluger et al, but the real incidence remains unknown. 41 The way these lesions are named can be controversial. We have used a doctor´s consensus to describe four clinical patterns but, unfortunately, there is no common terminology in the literature. Our study agrees with previously published dermatological research in PP being a mild late manifestation of COVID-19 in young patients. [17] [18] [19] In a Spanish cohort, SMI and AO appeared in elderly patients with a severe clinical grade. 17 In the Chinese AIL series, AO appears in patients who need critical care. As we did in our study, they concluded that anticoagulant treatment did not achieve skin restitutio ad integrum. 23 There is also a lack of consensus on D-dimer levels' role among the studies. Zhou describes percentual increments in D-Dimer figures (14-46%) for ischemic events in COVID-19. 13 In our case, this increment was as higher than 18.5%. Middeldrop et al propose to use D-dimer and lymphocytes as high-risk markers of thrombotic events. 42 As other authors, we saw that after the ischemic event, reperfusion was accompanied by lymphopenia. 43 In addition, patients in whom the D-dimer level at hospital admission was significantly elevated presented a worse therapeutic response, since they remained in a thrombo-inflammatory state. 10 This finding, together with the significant increase in procalcitonin levels in SMI cases, is concordant with clinical phenotypes of SARS-CoV-2 described by Rello et al. 44 As in our case, Violi reported high number of thrombotic complications in COVID-19 patients, even when receiving thrombo-prophylaxis. 45 Mild thrombocytopenia has been described in 5 to 20% of infected patients in the context of systemic microvascular thrombosis. 46 In our hospitalized subjects, platelet levels remained within the normal range. On the other hand, although Zhang described four cases of intravascular disseminated coagulation (ICD), in our sample we found abnormal coagulation parameters, but no CID. 22 Moreover, Magro obtained skin and lung biopsies from five patients with severe infection. They found a catastrophic inflammatory and thrombogenic syndrome with microvascular injury caused by systemic activation of lecithin-based complement pathways. However, the authors could not locate any viral cytopathic changes. 9
Based on our experience, from now on, we suggest to routinely perform non-invasive tests to improve diagnosis, such as capillaroscopy or fundus autofluorescence. We suggest analytic determinations up to three times a week (D-dimer, lymphocytes, procalcitonin, triglycerides, ferritin and C-reactive protein) for patients in whom a worse ischemic preconditioning can be identified. Endothelium stabilizing drugs (ACE inhibitors, statins and antiplatelet drugs) during the viral replication phase with anticytokine may have a role to play. The role of halogenated gases, such as sevoflurane, isoflurane and desflurane, in preventing cell damage at the time of reperfusion is partially elucidated. If we extrapolate the protective action of gases and hypnotic agents (propofol) to peripheral arteries, we could suggest that its administration would reduce the ischemic-reperfusion damage and, thus, diminish the morbimortality of COVID patients. 47 , 48 We could not find any studies of sevoflurane being used in acro-ischemia induced by COVID. The reason may be that Anesthetic Conserving Devices (AnaConDa) are not so commonly found in adults Intensive Care Units (ICU). All our severe COVID patients underwent deep sedation with propofol, but it is really difficult to assess the benefit of its administration. That is because all ICU patients received vasoactive drugs (norepinephrine) related to the hypotension provoked by the systemic inflammatory responses caused by the viral infection, by the decrease in peripheral vascular resistance associated to the hypnotic and, probably, by the vasanervorumitis. The administration of vasoactive amines can generate a bias on the vasoconstrictor alteration caused by the virus per se.
In terms of treatment, we believe that the prevention and optimal management of vascular complications with adequate hydration and vasodilators can significantly improve the prognosis in symptomatic patients, reducing multi-organ failure and consequently the mortality rate and sequelae. Restoring blood flow produces a complex cellular and systemic response that depends on the affected tissue, the duration of the ischemia and the ability of the tissues to reperfuse. Thus, some regional blocks can also be performed to prevent vascular spasm and improve distal perfusion. 29 This is why more research is needed to determine the vascular bed damage caused by this virus. With our study, we have tried to improve the understanding of how SARS-CoV-2 works at the skin level. However, regulation of skin vascular tone is complex because it involves not only endothelium-derived mediators but also peripheral and central neurogenic mechanisms. 39 More studies are needed to assess the possibility that vasa-nervorumitis is the main physiopathological cause of acroischemic lesions. The multisystemic ischemia-reperfusion syndrome hypothesis and demographic-clinical phenotypes would benefit the optimization of therapies and improve outcomes (Supplementary material Table S1 ).
The major limitation of this study is the sample size. There are also some parameters that we could not collect due to lack of outpatients´ access to health centers and that could have modified our estimations. As a result, we were also unable to obtain lesion biopsies and proceed with a histological study. Determination of autoimmunity parameters would have also been useful. In addition, it would have been highly desirable to have factor VIII and von Willebrand factor measurements to assess endothelial damage caused by the virus binding to its ACE2 receptor. 49
The observed risk for acroischemia in COVID-19 is high in ICU patients (23%). We have described four different clinical patterns of acroischemia (ARP, PP, SMI and AO) associated with lung disease severity. Authors have communicated various lesions of suggestive ischemic nature in other organs. Raynaud-like pattern is reported as a "novelty".
AIL, acro-ischemic lesions; ARP, atypical Raynaud phenomenon; PP, pseudo-pernio; SMI, severe microcirculatory ischemia; AO, arteriosclerosis obliterans.
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Vascular Health and Risk Management
Vascular Health and Risk Management is an international, peerreviewed journal of therapeutics and risk management, focusing on concise rapid reporting of clinical studies on the processes involved in the maintenance of vascular health; the monitoring, prevention and treatment of vascular disease and its sequelae; and the involvement of metabolic disorders, particularly diabetes
MEMBERS OF THE ANTI-COVID-19 TEAM FROM HOSPITAL CENTRAL DE LA DEFENSA "GÓMEZ-ULLA". All of them provided and cared for study patients.
The authors report no conflicts of interest for this work.