Introduction

The coronavirus disease 2019 (COVID-19) was detected in China and has rapidly become a pandemic (1). So far, there are 523 million cases of COVID-19 and approximately 6.7 million deaths worldwide (2). Kidney transplant (KT) recipients are at greater risk of developing severe disease in viral respiratory infections due to chronic immunosuppression and a significant comorbidity burden (3). The literature has reported an increase in COVID-19-related mortality in hospitalized KT patients compared to the immunocompetent population, 30% (4-11) versus 15% (12,13), respectively. Moreover, ICU admission is higher in KT patients than in the general population (14).

Before the development of the COVID-19 vaccines, the literature reported that kidney transplant patients had worse clinical outcomes and that the transplant groups were focused on prevention measures and immunosuppressive adjustment to treat kidney transplant recipients. Thus, the immunosuppressive status was considered a risk factor to predispose to severe COVID-19 disease, with mortality rates from 13% to 30% in solid organ transplant recipients (15). Therefore, immunosuppressive therapy was evaluated and adjusted according to the degree of severity of COVID-19 disease and the consensus of transplant societies that determined whether the take-off of antimetabolite agents comes first or the suspension of calcineurin inhibitors (16).

Conversely, Linares et al. reported that the clinical characteristics of transplant recipients and non-transplant populations could be alike. The literature showed that the main risk factors in mortality for patients with COVID-19 were advanced age, diabetes mellitus, arterial hypertension, elevated C-reactive protein, elevated D-dimer, and impaired renal function. Still, these risk factors were not associated with worse prognosis in transplant recipients compared to the general population with COVID-19 (17).

Locally, there is no publication about risk factors associated with KT recipients with COVID-19. In the first phase of our research, our transplant group published a descriptive study about KT recipients with COVID-19 without the association analysis of risk factors and clinical outcomes (18). We aim to evaluate patient and graft survival in kidney transplant (KT) recipients who were hospitalized or treated in Intensive Care Units (ICU) after contracting COVID-19. Additionally, demographics, symptoms, laboratory parameters, and clinical outcomes were evaluated as potential associated factors related to mortality.

Methodology

Study design and participants

A retrospective observational analysis was performed with adult kidney transplant recipients (KT) (≥18 years old) with COVID-19 diagnosis in Colombiana de Trasplantes. Our institution is a transplant centre with 4 headquarters in the main cities of Colombia that performs 21% of the national transplant activity. The study period was from June 1, 2020, to July 31, 2021. Demographics, symptoms, laboratory parameters, and clinical outcomes were collected from institutional medical records for our database. COVID-19 infection was defined as a patient with or without clinical symptoms and a positive result in nasopharyngeal swabs using SARS-CoV-2 real-time reverse transcription-polymerase chain reaction (RT-PCR) or a positive SARS-CoV-2 antigen test. The results of these tests were reviewed in a database associated with the National Health Institute in Colombia (Instituto Nacional de Salud- INS). The national health administrator confirmed every mortality case of KT recipients with COVID-19. We excluded the COVID-19 KT patients without clinical data and follow-up in our medical records. We determined the complete vaccination state as at least one dose of the COVID-19 vaccine for the period of study.

Variables and measurements

The sociodemographic, clinical and paraclinical variables and the outcomes of mortality, graft loss, and acute cell rejection were considered. Likewise, the definition under which acute kidney injury was estimated was according to the criteria set forth in the Acute Kidney Injury Network (19). On the other hand, the definition adopted for graft loss will be the requirement of dialysis for at least 12 weeks after transplant. Also, symptoms and outcomes were evaluated 30 days after the result of a positive COVID-19 test.

Statistical analysis

Descriptive statistics were used to report the demographic characteristics: frequencies and percentages for categorical variables, numerical variables using mean and standard deviation for normally distributed variables, and median and interquartile range (IQR) for nonnormally distributed variables. The death event was measured in the number of days from the first day of COVID-19 diagnosis to the date of patient death.

Comparisons between the two groups (the hospitalization-in-wards group and ICU group) were performed using Pearson’s chi-square test for categorical variables and the t-test for numerical variables. We performed a univariate and multivariate model and calculated odds ratios (OR) with 95% confidence intervals (CI) to identify independent risk factors for mortality associated with COVID-19 infection between two risk groups (hospitalization-in-wards group and ICU group).

Statistical analysis was performed using R version 4.0.3. Data on mortality and graft loss rate were collected up to day 30 following a positive COVID-19 test. Based on this information, we utilized the Kaplan-Meier curve to estimate graft and patient survival. Additionally, we compared the survival distributions using a log-rank test.

Immunosuppressive protocol

The immunosuppression scheme is based on induction with polyclonal anti-thymocyte globulin. Protocol of maintenance immunosuppression included tacrolimus and mycophenolate mofetil, and steroids-free unless patients were transplanted by a different centre, where they might receive immunosuppression schemes with steroids.

Ethical Considerations

This study was approved by the Institutional Research Committee, acting in concordance with local (20) and international regulations (21).

Results

Sociodemographic and clinical characteristics

A total of 55 KT patients were analysed during the study period. Most patients were male in both groups (hospitalization-in-wards and ICU). The overall mean age for hospitalized and ICU patients were 48.4 ± 13.5 and 59.7 ± 9.6 years, respectively. There were no significant differences in the bivariate analysis of sex, clinical history of hypertension, smoking, heart disease, thyroid disease, and obesity. The recipient's age and the clinical history of diabetes mellitus had a significant difference between the hospitalization-in-wards and ICU groups in the bivariate analysis (p = 0.0124 and p = 0,0506), respectively. Neurological and cardiovascular symptoms of COVID-19 were more prevalent in ICU patients. Table 1 describes the demographics and clinical characteristics of KT patients with COVID-19. In addition, we evaluated the antibiotic requirement, which was more prevalent in the ICU (77.8%), although there were no significant differences between both groups (p = 0,315).

Table 1

Demographic and clinical characteristics of KT patients with COVID-19

Source: The authors.

Laboratory parameters

A higher mean level of C-reactive protein (CRP) was noted in KT recipients with COVID-19 in the ICU group compared to KT recipients with COVID-19 in the hospitalization-in-wards group (p = 0.01). In addition, the ICU group had a higher elevation in the mean absolute white blood cell count and neutrophil count than the hospitalization-in-wards group (p = 0.00593 and p = 0.0785, respectively). In terms of lymphocyte count, KT recipients in the ICU group developed a lower mean count than the KT recipients in the hospitalization-in-wards group (p = 0.0502). No significant associations were found for the mean concentration of haemoglobin, thrombocyte count, and D-dimer levels in the bivariate analysis. Laboratory parameters are shown in Table 2.

Table 2

Laboratory parameters in KT patients with COVID-19

Source: The authors.

Clinical Outcomes and in-hospital complications Associated with COVID-19

During the study period, KT patients with COVID-19 were analysed for clinical outcomes and in-hospital complications. One case of graft loss was registered in the hospitalization-in-wards group compared to six cases of graft loss in the ICU group (p = 0.006). A significant difference in mortality was found comparing the hospitalization-in-wards group with the ICU group (p = 0.0001). The bivariate analysis revealed that acute kidney injury, dialysis requirement, and concomitant infection were significant hospitalization complications that occurred more frequently in the ICU group compared to the hospitalization-in-wards group. The KT recipients in ICU had significantly major mechanical ventilation requirements (p < 0.001) and vasopressor infusion (p < 0.001).

Table 3

Clinical outcomes in KT patients with COVID-19

Source: The authors.

Associated risk factors for mortality in KT recipients with COVID-19

We performed a multivariate Cox analysis to identify risk factors associated with mortality in KT patients within 30 days after COVID-19 positive test. KT recipients with a clinical history of diabetes mellitus (p = 0,002026) and dialysis requirement (p = 0,0006) within the hospitalization-in-wards or ICU stay were significantly associated with risk of death (Table 4).

Table 4

Multivariate Cox analysis for mortality within 30 days after COVID-19 infection in KT patients

Source: The authors.

Patient and graft survival

During the study period, 7 (12.7%) KT patients with COVID-19 had graft loss. We performed a Kaplan-Meier survival analysis to determine the graft and patient survival in KT recipients of both study groups. The graft survival was 87.3% at 30 days after a COVID-19 positive test (Figure 1).

Figure 1
Global graft survival in KT patients with COVID-19 in the hospitalization-in-wards and ICU group
Source: The authors.

The overall mortality rate was 25.5% (n = 14). The global patient survival was 74.5% after 30 days of follow-up. In the comparison of hospitalization-in-wards and ICU groups, patient survival was significantly higher in KT patients with COVID-19 in the hospitalization-in-wards group versus the ICU group (p = 0.0001) (Figure 2).

Figure 2
Patient survival in KT patients with COVID-19 after 30 days after a COVID-19 positive test. Note: Panel A. Global patient survival. Panel B. Patient survival in the hospitalization-in-wards and ICU group.
Source: The authors.

Discussion

The COVID-19 pandemic caused by coronavirus, 2 of the severe acute respiratory syndromes (SARS-CoV-2), has changed the world. So far, there are 532 million cases of COVID-19, including 6,305,358 deaths, and a total of 11,854,673,610 doses of the COVID-19 vaccine that have been administered according to the World Health Organization (WHO) (22).

Additionally, organ transplantation was significantly affected by COVID-19 disease, decreasing organ donation rates and transplant activities, which mainly affected organ solid recipients (23). COVID-19 infection has increased mortality, lethality, and morbidity rates in solid organ transplant patients. Also, the immunosuppression state of the organ solid transplant recipients has influenced their clinical outcomes after COVID-19 infection (23).

The first two articles that analysed the impact of COVID-19 on kidney transplant patients provided diverse results. The first case series was published in March 2020 and reported five cases of COVID-19 infection in kidney transplant patients in Wuhan, China. These patients had a good clinical evolution without death events. This study concluded that COVID-19 was not severe in these patients and calcineurin inhibitors were capable of blocking SARS-CoV-2 action (24).

The second publication was a case series reported by the transplant group of the Montefiore Hospital in New York (USA) in April 2020. This cohort included 36 kidney transplant patients with COVID-19 infection with a mortality rate of 27.7% (n = 10). They concluded that the mortality rate in kidney transplant recipients was higher than in the general population (1%-5%) and higher in elderly people over 70 years of age (8%-15%) (12).

A systematic review and meta-analysis of solid organ transplant recipients (SOT) with COVID-19 infection included 1,500 kidney transplant patients. The most common symptoms were fever and cough (70.2% and 63.8%, respectively), with results like our study. In our findings, the mortality rate was 18.6% versus 25.5% (25). Comparable to our results, a cohort of 11,875 KT patients from the Hospital do Rim at São Paulo-Brazil showed 491 cases of COVID-19 with a lethality rate of 28.5% (26). Interestingly, in this study, it was also observed that KT patients recovering from COVID-19 had permanent graft dysfunction (19%) with a lower graft loss than our findings (4% vs. 12,7%, respectively).

In the characterization of our KT population, we found that the most frequent comorbidities were arterial hypertension, thyroid disease, and diabetes mellitus. In the literature, high blood pressure and diabetes mellitus have been described as risk factors for mortality and severity of COVID-19 in KT recipients (27).

Second, we found that the clinical presentation of COVID-19 in transplant patients is analogous to the general population, where fever and respiratory symptoms predominate. These findings are consistent with previous reports showing fever in 77%-94% and cough in 68%-79% (28-30) as the main presentation of COVID-19 symptoms. Gastrointestinal symptoms ranked third in the clinical presentation and were clearly due to acute diarrheal disease. Gastrointestinal symptoms in the initial symptoms of COVID-19 have been documented to be an associated factor with greater recovery and lower mortality (31). Likewise, we found that a part of the patients was asymptomatic (10.2%) and were treated in the outpatient division with a favourable outcome similar to other cohorts (32).

Among the paraclinical findings, some studies reported lymphopenia and thrombocytopenia in KT patients and COVID-19 as factors associated with increased mortality risk and COVID-19 severity (33-37). In our cohort, the lymphocyte count was in the bivariate analysis, but it did not remain significant for the multivariate model. Thrombocytopenia was present in a low percentage of those evaluated. The procalcitonin level has also been associated as a predictor of mortality and severity in COVID-19 (5,24,38), but in our patients only one patient had procalcitonin value documented. Similarly, positive C-reactive protein (CRP) was identified in a quarter of our recipients. Although its association with mortality and severity was not analysed, it was related to higher mortality and COVID-19 severity in some studies (5,38).

Regarding the main clinical outcomes, we found that most KT patients who lost the graft had severe COVID-19 disease. We found no evidence reporting a significant association between renal graft loss and COVID-19 infection. Other transplant groups have published similar survival analyses for graft loss (5,35).

AKI ranked fourth in clinical presentation, requiring renal support therapy, specifically haemodialysis, in 10.2% of cases. In other publications, the dialysis requirement for AKI has varied between 15.7% and 28.8% (36,39,40). Compared to the general population, kidney transplant patients have up to a 4-fold increased risk of AKI (34,40). In our findings, although the frequency of AKI was high, most patients returned to adequate renal function 30 days after the diagnosis of COVID-19 with a positive test.

Regarding the severity of the disease, we found that some publications define the severity of COVID-19 by the need for ICU admission and mechanical ventilation (34,35). Our ICU admission compared to other publications was similar (14,2% vs. 20%-21%) (35,37). The need for mechanical ventilation in our population was comparable with other results that presented frequencies between 12% and 35%. (33,35,36,41). The use of intravenous corticosteroids in COVID-19 patients with impaired oxygenation had lower mortality at 28 days follow-up, according to the RECOVERY study (42). In our study, the use of dexamethasone was significantly higher in patients admitted to the ICU compared to those hospitalized on the floor. However, its impact on patient mortality was not analysed. On the other hand, in the survival analysis of our kidney transplant and COVID-19 patients, significant differences were found between admission to hospitalization-in-wards vs. ICU, which is similar to the results of other publications (5,33,35).

Mortality in our population was lower than reported in previous international studies with transplant patients 18%-32% (5,12,43). Thus, during the pandemic period, mortality has been variable given the diversity of individual patient factors, factors of the health system of each country and experience acquired during the pandemic for the care of patients with COVID-19. We performed a multivariate Cox analysis to identify risk factors associated with mortality in KT patients within 30 days after COVID-19 infection. KT recipients with a clinical history of diabetes mellitus (p = 0.002026) and dialysis requirement (p = 0.0006) within the hospitalization-in-wards or ICU stay was significantly associated with death risk. Monhan et al. found that nearly one in six deaths (16%) among active transplant recipients in the United States in 2020 was attributed to COVID-19. Recipients who died of COVID-19 were younger, more likely to be obese, had lower educational attainment, and were likelier to belong to racial/ethnic minority groups than those who died of other causes in 2020 or 2019 (44).

The vaccination for COVID-19 was not completely available in the study period. A few percent of our population were vaccinated at the moment of admission to the hospital. That being the case, we could not measure the level of protection of the COVID-19 vaccination in our kidney transplant recipients. Benning et al. (45) reported lower seroconversion levels and impaired neutralization in kidney transplant patients with standard COVID-19 vaccination regimens against emerging COVID-19 variables (B.1.351 and B.1.617.2) in comparison with a healthy population (p < 0.001). The aftermath of this study concludes that kidney transplant patients need an additional booster of COVID-19 vaccination to have better protection.

The limitations of our study include selection bias since patients for whom we did not have a complete follow-up clinical history were excluded. It is also possible that there is an underreporting of COVID-19 cases of those patients who did not undergo a PCR or antigen test for COVID-19. It should be noted that treatment protocols were not uniform for all patients, given the continuous changes based on new evidence on COVID-19 and the severity of each patient that was reported during the study period. In the study period that we analysed, the patients did not have wide access to vaccination against COVID-19, which did not allow us to measure the vaccine's efficacy in the formulated outcomes. Finally, the study's retrospective nature could give rise to information bias.

Conclusions

KT patients diagnosed with COVID-19 are at higher mortality risk than the general population. Our study found that patients in the ICU group experienced worse clinical outcomes and higher mortality rates compared to those in the hospitalization-in-wards group. These findings underscore the importance of closely monitoring COVID-19-implicated KT patients and tailoring treatment plans to minimize risk and improve outcomes.

Acknowledgements

The authors thank Colombiana de Trasplantes for its support.

References

Zhu N, Zhang D, Wang W, Li X, Yang B, Song J, et al. . 382 2020; 8 N Engl J Med 727-33. https://doi.org/10.1056/NEJMoa2001017 A Novel Coronavirus from Patients with Pneumonia in China, 2019

Oxford University. Coronavirus Pandemic (COVID-19) - Our World in Data. 2022. https://ourworldindata.org/coronavirus#explore-the-global-situation

Razonable RR. Infections in transplant recipients. Clin Infect Dis Second Ed. 2015;101573-84. https://doi.org/10.1017/CBO9781139855952.101

Akalin E, Azzi Y, Bartash R, Seethamraju H, Parides M, Hemmige V, et al. Covid-19 and Kidney Transplantation. N Engl J Med. 2020;3822475-2477. https://doi.org/10.1056/NEJMc2011117

Cravedi P, Mothi SS, Azzi Y, Haverly M, Farouk SS, Pérez-Sáez MJ, et al. COVID-19 and kidney transplantation: Results from the TANGO International Transplant Consortium. Am J Transplant. 2020;20113140-8. https://doi.org/10.1111/ajt.16185

Fernández-Ruiz M, Andrés A, Loinaz C, Delgado JF, López-Medrano F, San Juan R, et al. COVID-19 in solid organ transplant recipients: A single-center case series from Spain. Am J Transplant Off J Am Soc Transplant Am Soc Transpl Surg. 2020 Jul;2071849-58. https://doi.org/10.1111/ajt.15929

Nair V, Jandovitz N, Hirsch JS, Nair G, Abate M, Bhaskaran M, et al. COVID-19 in kidney transplant recipients. Am J Transplant Off J Am Soc Transplant Am Soc Transpl Surg. 2020 Jul;2071819-25. https://doi.org/10.1111/ajt.15967

Chen TY, Farghaly S, Cham S, Tatem LL, Sin JH, Rauda R, et al. COVID-19 pneumonia in kidney transplant recipients: Focus on immunosuppression management. Transpl Infect Dis. 2020 Oct;225e13378. https://doi.org/10.1111/tid.13378

Aziz H, Lashkari N, Yoon YC, Kim J, Sher LS, Genyk Y, et al. Effects of Coronavirus Disease 2019 on Solid Organ Transplantation. Transplant Proc. 2020 Nov;5292642-53. https://doi.org/10.1016/j.transproceed.2020.09.006

Coll E, Fernández-Ruiz M, Sánchez-Álvarez JE, Martínez-Fernández JR, Crespo M, Gayoso J, et al. COVID-19 in transplant recipients: The Spanish experience. Am J Transplant Off J Am Soc Transplant Am Soc Transpl Surg. 2021 May;2151825-37. https://doi.org/10.1111/ajt.16369

Azzi Y, Parides M, Alani O, Loarte-Campos P, Bartash R, Forest S, et al. COVID-19 infection in kidney transplant recipients at the epicentre of pandemics. Kidney Int. 2020 Dec;9861559-67. https://doi.org/10.1016/j.kint.2020.10.004

Montefiore A. Covid-19 and Kidney Transplantation. 2020;2020-2.

Richardson S, Hirsch JS, Narasimhan M, Crawford JM, McGinn T, Davidson KW, et al. Presenting Characteristics, Comorbidities, and Outcomes among 5700 Patients Hospitalized with COVID-19 in the New York City Area. JAMA - J Am Med Assoc. 2020;323202052-9. https://doi.org/10.1001/jama.2020.6775

Fishman JA, Grossi PA. Novel Coronavirus-19 (COVID-19) in the immunocompromised transplant recipient: #Flatteningthecurve. Am J Transplant. 2020;2071765-7. https://doi.org/10.1111/ajt.15890

Azzi Y, Bartash R, Scalea J, Loarte-Campos P, Akalin E. COVID-19 and Solid Organ Transplantation: A Review Article. Transplantation. 2021;105137-55. https://doi.org/10.1097/TP.0000000000003523

Miarons M, Larrosa-García M, García-García S, Los-Arcos I, Moreso F, Berastegui C, et al. COVID-19 in Solid Organ Transplantation: A Matched Retrospective Cohort Study and Evaluation of Immunosuppression Management. Transplantation. 2021;138-50. https://doi.org/10.1097/TP.0000000000003460

Linares L, Cofan F, Diekmann F, Herrera S, Marcos MA, Castel MA, et al. A propensity score-matched analysis of mortality in solid organ transplant patients with COVID-19 compared to non-solid organ transplant patients. PLoS One. 2021 Mar 1;163. https://doi.org/10.1371/journal.pone.0247251

Celis-Conde S, Anaya-Taboada M, Lozano-Castañeda F, Pinto-Ramírez J, García-López A, Patino-Jaramillo FG-L N. COVID-19 infection in kidney transplant patients. Medicina (B Aires). 2022;44140-50. https://doi.org/10.56050/01205498.1660

Mehta RL, Kellum JA, Shah SV, Molitoris BA, Ronco C, Warnock DG, et al. Acute Kidney Injury Network: report of an initiative to improve outcomes in acute kidney injury. Crit Care. 2007 Mar 1;112. https://pubmed.ncbi.nlm.nih.gov/17331245/

Ministerio de Salud y Proteccion Social. Resolución 2378 de 2008 - Buenas prácticas clínicas. 2008;1-93.

World Medical Association Declaration of Helsinki. Declaration of Helsinki. 1975.

World Health Organization Dashboard. Index @ Covid19.Who.Int. 2022. p. 1. Https://Covid19.Who.Int/

Duro-García V, Pêgo-Fernandes PM. Organ transplantation and COVID-19. Sao Paulo Med J. 2021;1394301-4. https://doi.org/10.1590/1516-3180.2021.139420052021

Zhou F, Yu T, Du R, Fan G, Liu Y, Liu Z, et al. Clinical course and risk factors for mortality of adult inpatients with COVID-19 in Wuhan, China: a retrospective cohort study. Lancet. 2020 Mar 28;395102291054-62. https://doi.org/10.1016/S0140-6736(20)30566-3

Cristelli MP, Viana LA, Dantas MTC, Martins SBS, Fernandes R, Nakamura MR, et al. The Full Spectrum of COVID-19 Development and Recovery Among Kidney Transplant Recipients. Transplantation. 2021;10571433-44. https://doi.org/10.1097/TP.0000000000003751

Orlandi PF, Cristelli MP, Aldworth CAR, Freitas TV de S, Felipe CR, Silva Junior HT, et al. Long-term outcomes of elderly kidney transplant recipients. J Bras Nefrol. 2015;372212-20. https://doi.org/10.5935/0101-2800.20150034

Celis-conde S, Anaya-taboada M, Lozano-castañeda F, Camargo-salamanca A. Infección por covid-19 en pacientes con trasplante renal. Revista Medicina. 2022;44140-50. https://doi.org/10.56050/01205498.1660

Zhou F, Yu T, Du R, Fan G, Liu Y, Liu Z, et al. Clinical course and risk factors for mortality of adult inpatients with COVID-19 in Wuhan, China: a retrospective cohort study. Lancet. 2020 Mar;395102291054-62. https://doi.org/10.1016/S0140-6736(20)30566-3

Guan W, Ni Z, Hu Y, Liang W, Ou C, He J, et al. Clinical characteristics of coronavirus disease 2019 in China. N Engl J Med. 2020;382181708-20. https://doi.org/10.1056/NEJMoa2002032

Goyal P, Choi JJ, Pinheiro LC, Schenck EJ, Chen R, Jabri A, et al. Clinical Characteristics of Covid-19 in New York City. N Engl J Med. 2020;3822372-2374. https://doi.org/10.1056/NEJMc2010419

Crespo M, Mazuecos A, Rodrigo E, Gavela E, Villanego F, Sánchez-Alvarez E, et al. Respiratory and Gastrointestinal COVID-19 Phenotypes in Kidney Transplant Recipients. Transplantation. 2020;2225-33. https://doi.org/10.1097/TP.0000000000003413

Bossini N, Alberici F, Delbarba E, Valerio F, Manenti C, Possenti S, et al. Kidney transplant patients with SARS-CoV-2 infection: The Brescia Renal COVID task force experience. Am J Transplant Off J Am Soc Transplant Am Soc Transpl Surg. 2020 Nov;20113019-29. https://doi.org/10.1111/ajt.16176

Hilbrands LB, Duivenvoorden R, Vart P, Franssen CFM, Hemmelder MH, Jager KJ, et al. COVID-19-related mortality in kidney transplant and dialysis patients: results of the ERACODA collaboration. Nephrol Dial Transplant. 2020 Nov 1;35111973-83.

Caillard S, Chavarot N, Francois H, Matignon M, Greze C, Kamar N, et al. Is Covid-19 infection more severe in kidney transplant recipients?. Am J Transplant. 2021;2131295-1303. https://doi.org/10.1111/ajt.16424

Kute VB, Bhalla AK, Guleria S, Ray DS, Bahadur MM, Shingare A, et al. Clinical Profile and Outcome of COVID-19 in 250 Kidney Transplant Recipients: A Multicenter Cohort Study From India. Transplantation. 2021;1054851-60. https://doi.org/10.1097/TP.0000000000003593

Azzi Y, Parides M, Alani O, Loarte-Campos P, Bartash R, Forest S, et al. COVID-19 infection in kidney transplant recipients at the epicenter of pandemics. Kidney Int. 2020 Dec 1;9861559-67. https://doi.org/10.1016/j.kint.2020.10.004

Oto OA, Ozturk S, Turgutalp K, Arici M, Alpay N, Merhametsiz O, et al. Predicting the outcome of COVID-19 infection in kidney transplant recipients. BMC Nephrol. 2021 Dec 1;221. https://doi.org/10.1186/s12882-021-02299-w

Caillard S, Chavarot N, Francois H, Matignon M, Snanoudj R, Tourret J, et al. Clinical Utility of Biochemical Markers for the Prediction of COVID-19−Related Mortality in Kidney Transplant Recipients. Kidney Int Reports. 2021 Oct 1;6102689-93. https://doi.org/10.1016/j.ekir.2021.06.034

Arikan H, Ozturk S, Tokgoz B, Dursun B, Seyahi N, Trabulus S, et al. Characteristics and outcomes of acute kidney injury in hospitalized COVID-19 patients: A multicenter study by the Turkish society of nephrology. PLoS One. 2021 Aug 1;168. https://doi.org/10.1371/journal.pone.0256023

Piñeiro GJ, Molina-Andújar A, Hermida E, Blasco M, Quintana LF, Rojas GM, et al. Severe acute kidney injury in critically ill COVID-19 patients. J Nephrol. 2021 Apr 1;342285-93. https://doi.org/10.1007/s40620-020-00918-7

Requião-Moura LR, de Sandes-Freitas TV, Viana LA, Cristelli MP, de Andrade LGM, Garcia VD, et al. High mortality among kidney transplant recipients diagnosed with coronavirus disease 2019: Results from the Brazilian multicenter cohort study. PLoS One. 2021 Jul 1;167. https://doi.org/10.1371/journal.pone.0254822

The RECOVERY Collaborative Group. Dexamethasone in Hospitalized Patients with Covid-19. N Engl J Med. 2021 Feb 25;3848693-704. https://doi.org/10.1056/NEJMoa2021436

Pereira MR, Mohan S, Cohen DJ, Husain SA, Dube GK, Ratner LE, et al. COVID-19 in solid organ transplant recipients: Initial report from the US epicenter. Am J Transplant Off J Am Soc Transplant Am Soc Transpl Surg. 2020 Jul;2071800-8.

Mohan S, King KL, Husain SA, Schold JD. COVID-19-associated mortality among kidney transplant recipients and candidates in the United States. Clin J Am Soc Nephrol. 2021;16111695-703. https://doi.org/10.2215/CJN.02690221

Benning L, Morath C, Bartenschlager M, Nusshag C, Kälble F, Buylaert M, et al. Neutralization of SARS-CoV-2 Variants of Concern in Kidney Transplant Recipients after Standard COVID-19 Vaccination. Clin J Am Soc Nephrol. 2022 Jan 1;17198-106. https://doi.org/10.2215/CJN.11820921

How to cite:

Conflicts of Interest

Funding

Author’s contributions

Ethical statement

Author notes

*aegarcia@colombianadetrasplantes.com