REFERENCES

1. Wang Y, Li X, Liu W, Gan M, Zhang L, et al. Discovery of a subgenotype of human coronavirus NL63 associated with severe lower respiratory tract infection in China, 2018. Emerg Microbes Infect 2020;9:246-55.

2. Zhou F, Yu T, Du R, Fan G, Liu Y, et al. Clinical course and risk factors for mortality of adult inpatients with COVID-19 in Wuhan, China: a retrospective cohort study. Lancet 2020;395:1054-62.

3. Huang C, Wang Y, Li X, Ren L, Zhao J, et al. Clinical features of patients infected with 2019 novel coronavirus in Wuhan, China. Lancet 2020;395:497-506.

4. Shi H, Han X, Jiang N, Cao Y, Alwalid O, et al. Radiological findings from 81 patients with COVID-19 pneumonia in Wuhan, China: a descriptive study. Lancet Infect Dis 2020;20:425-34.

5. Chen T, Wu D, Chen H, Yan W, Yang D, et al. Clinical characteristics of 113 deceased patients with coronavirus disease 2019: retrospective study. BMJ 2020;368:m1091.

6. Wang D, Hu B, Hu C, Zhu F, Liu X, et al. Clinical Characteristics of 138 Hospitalized Patients With 2019 Novel Coronavirus-Infected Pneumonia in Wuhan, China. JAMA 2020;323:1061-9.

7. Zhu N, Zhang D, Wang W, Li X, Yang B, et al. A novel coronavirus from patients with pneumonia in China, 2019. N Engl J Med 2020;382:727-33.

8. Li Q, Guan X, Wu P, Wang X, Zhou L, et al. Early transmission dynamics in Wuhan, China, of novel coronavirus-infected pneumonia. N Engl J Med 2020;382:1199-1207.

9. Liu Y, Yang Y, Zhang C, Huang F, Wang F, et al. Clinical and biochemical indexes from 2019-nCoV infected patients linked to viral loads and lung injury. Sci China Life Sci 2020;63:364-74.

10. Zhang Y, Xiao M, Zhang S, Xia P, Cao W, et al. Coagulopathy and antiphosphlipid antibodies in Patients with COVID-19. N Engl J Med 2020;382:e38.

11. Liu CL, Lu YT, Peng MJ, Chen PJ, Lin RL, et al. Clinical and laboratory features of severe acute respiratory syndrome vis-a-vis onset of fever. Chest 2004;126:509-17.

12. Leong HN, Earnest A, Lim HH, Chin CF, Tan C, et al. SARS in Singapore--predictors of disease severity. Ann Acad Med Singapore 2006;35:326-31.

13. Ko JH, Park GE, Lee JY, Lee JY, Cho SY, et al. Predictive factors for pneumonia development and progression to respiratory failure in MERS-CoV infected patients. J Infection 2016;73:468-75.

14. Leem AY, Park B, Kim YS, Jung JY, Won S. Incidence and risk of chronic obstructive pulmonary disease in a Korean community-based cohort. Int J Chron Obstruct Pulmon Dis 2018;13:509-17.

15. Zhang J, Wang X, Jia X, Li J, Hu K, et al. Risk factors for disease severity, unimprovement, and mortality in COVID-19 patients in Wuhan, China. Clin Microbiol Infect 2020. Epub ahead of print. doi: 10.1016/j.cmi.2020.04.012

16. Gong J, Ou J, Qiu X, Jie Y, Chen Y, et al. A tool to early predict severe corona virus disease 2019 (COVID-19) : a multicenter study using the risk nomogram in Wuhan and Guangdong, China. Clin Infect Dis 2020. Epub ahead of print. doi: 10.1093/cid/ciaa443

17. Cohn EJ, Oncley JL, Strong LE, Hughes WL, Armstrong SH. Chemical, clinical, and immunological studies on the products of human plasma fractionation. I. the characterization of the protein fractions of human plasma. J Clin Invest 1944;23:417-32.

18. Scatchard G, Batchelder AC, Brown A. Chemical,clinical and immunological studies on the products of human plasma fractonation. VI. The osmotic pressure of plasma and of serum albumin. J Clin Investt 1944;23:458-64.

19. Post J, Patek AJ. Serum proteins in relation to liver disorders. Bull N Y Acad Med 1943;19:815-30.

20. Thorn GW, Armstrong SH, Davemport VD. Chemical, clinical, and immunological studies on the products of human plasma fractionation. XXXI. The use of salt-poor concentrated human serum albumin solution in the treatment of hepatic cirrhosis. J Clin Invest 1946;25:304-23.

21. Kunkel HG, Labby DH, Ahrens EH, Shank RE, Hoagland CL. The use of concentrated human serum albumin in the tretment of cirrhosis oft he liver. J Clin Invest 1948;27:305-19.

22. Wilkinson P, Sherlock S. The effect of repeated albumin infusions in patients with cirrhosis. Lancet 1962;2:1125-9.

23. Gentilini P, Casini-Raggi V, Di Fiore G, Romanelli RG, Buzzelli G, et al. Albumin improves the response to diuretics in patients with cirrhosis and ascites: results of a randomized, controlled trial. J Hepatol 1999;30:639-45.

24. Caraceni P, Riggio O, Angeli P, Alessandria C, Neri S, et al. Long-term albumin administration in decompensated cirrhosis (ANSWER):an open label randomized trial. Lancet 2018;391:2417-29.

25. Patek AJ, Mankin H, Colcher H, Lowell A, Earle DP. The effects of intravenous injection of concentrated human serum albumin upon blood plasma,ascites and renal functions in three patients with cirrhosis oft he liver. J Clin Invest 1948;27:135-44.

26. Schindler C, Ramadori G. Albumin substitution improves urinary sodium excretion and diuresis in patients with liver cirrhosis and refractory ascites. J Hepatol 1999;31:1132.

27. Schindler C, Ramadori G. Humanalbumingaben zur Verbesserung der renalen Ausscheidungsfunktion bei Patienten mit therapierefractärem Aszites-Ein Erfahrungsbericht. Leber Magen Darm 1999;4:183-7.

28. Nolte W, Ramadori G. Albumin for refractory ascites. Gastroenterology 2003;125:1283-4.

29. Trotter J, Pieramici E, Everson GT. Chronic albumin infusions to achieve diuresis in patients with ascites who are not candidates for transjugular intrahepatic portosystemic shunt(TIPS). Dig Dis Sci 2005;50:1356-60.

30. Bajaj JS, Tandon P, O’Leary JG, Biggins SW, Wong F, et al. The impact of albumin use on resolution of hyponatremia in hospitalized patients with cirrhosis. Am J Gastroenterol 2018;113:1339.

31. Bai Z, Bernardi M, Yoshida EM, Li H, Guo X, et al. Albumin infusion may decrease the incidence and severity of overt hepatic encephalopathy in liver cirrhosis. Aging (Albany NY) 2019;11:8502-25.

32. Kaplan DE, Dai F, Aytaman A, Baytarian M, Fox R, et al; VOCAL Study Group. Development and performance of an algorithm to estimate the child-turcotte-pugh score from a national electronic healthcare database. Clin Gastroenterol Hepatol 2015;13:2333-41.e1-6.

33. Alberino F, Gatta A, Amodio P, Merkel C, Di Pascoli L, et al. Nutrition and survival in patients with liver cirrhosis. Nutrition 2001;17:445-50.

34. Paine CH, Biggins SW, Pichler RH. Albumin in cirrhosis: more than a colloid. Curr Treat Options Gastroenterol 2019;17:231-43.

35. Wujtewicz M, Dylczyk-Sommer A, Aszkiełowicz A, Zdanowski S, Piwowarczyk S, et al. COVID-19 - what should anaethesiologists and intensivists know about it? Anaesthesiol Intensive Ther 2020;52:34-41.

36. Alhazzani W, Møller MH, Arabi YM, Loeb M, Gong MN, et al. Surviving sepsis campaign:Guidelines on the management of critically ill adults with Coronavirus Disease 2019 (COVID-19). Intensive Care Med 2020;46:854-87.

37. Elmaouhoub A, Dudas J, Ramadori G. Kinetics of albumin- and alpha-fetoprotein-production during rat liver development. Histochem Cell Biol 2007;128:431-43.

38. Fanali G, di Masi A, Trezza V, Marino M, Fasano M, et al. Human serum albumin: from bench to bedside. Mol Aspects Med 2012;33:209-90.

39. Lin L, Jiang X, Zhang Z, Huang S, Zhang Z, et al. Gastrointestinal symptoms of 95 cases with SARS-CoV-2 infection. Gut 2020;69:997-1001.

40. Lechien JR, Chiesa-Estomba CM, De Siati DR, Horoi M, Le Bon SD, et al. Olfactory and gustatory dysfunctions as clinical presentation of mild-to-moderate forms of the coronavirus disease(COVID-19): a multicenter European study. Eur Arch Otorhinolaryngol 2020:1-11.

41. Lovato A, de Filippis C. Clinical presentation of COVID-19: a systematic review focusing on upper airway symptoms. Ear Nose Throat J 2020:145561320920762.

42. Russell B, Moss C, Rigg A, Hopkins C, Papa S, et al. Anosmia and ageusia are emerging as symptoms in patients with COVID-19: what does the current evidence say? Ecancermedicalscience 2020;14:ed98.

43. Baker T, Schell CO, Petersen DB, Sawe H, Khalid K, et al. Essential care of critical illness must not be forgotten in the COVID-19 pandemic. Lancet 2020;395:1253-4.

44. Dreher M, Kersten A, Bickenbach J, Balfanz P, Hartmann B, et al. Charakteristik von 50 hospitalisierten COVID-19-Patienten mit und ohne ARDS. Deutch Arztebl Int 2020;117:271-8.

45. Ramadori G, Christ B. Cytokines and the hepatic acute-phase response. Semin Liver Dis 1999;19:141-55.

46. Buckley MM, O’Brien R, Devlin M, Creed AA, Rae MG, et al. Leptin modifies the prosecretory and prokinetic effects of the inflammatory cytokine interleukin-6 on colonic function in Sprague-Dawley rats. Exp Physiol 2016;101:1477-91.

47. Goto J, Matsuda K, Harii N, Moriguchi T, Yanagisawa M, et al. Usefulness of a real-time bowel sound analysis system in patients with severe sepsis (pilot study). J Artif Organs 2015;18:86-91.

48. Groves HT, Higham SL, Moffatt MF, Cox MJ, Tregoning JS. Respiratory Viral Infection Alters the Gut Microbiota by Inducing Inappetence. mBio 2020;11:e03236-19.

49. Ramadori G, Sipe JD, Dinarello CA, Mizel SB, Colten HR. Pretranslational modulation of acute phase hepatic protein synthesis by murine recombinant interleukin 1 (IL-1) and purified human IL-1. J Exp Med 1985;162:930-42.

50. Ahmad G, Sial GZ, Ramadori P, Dudas J, Batusic DS, et al. Changes of hepatic lactoferrin gene expression in two mouse models of the acute phase reaction. Int J Biochem Cell Biol 2011;43:1822-32.

51. Sultan S, Pascucci M, Ahmad S, Malik IA, Bianchi A, et al. LIPOCALIN-2 is a major acute-phase protein in a rat and mouse model of sterile abscess. Shock 2012;37:191-6.

52. Sheikh N, Dudas J, Ramadori G. Changes of gene-expression of iron regulatory proteins during turpentin-oil induced acute-phase response in the rat. Lab Invest 2007;87:713-25.

53. Sheikh N, Batusic DS, Dudas J, Tron K, Neubauer K, et al. Hepcidin and hemojuvelin gene expression in rat liver damage: in vivo and in vitro studies. Am J Physiol Gastrointest Liver Physiol 2006;291:G482-90.

54. Christiansen H, Sheikh N, Saile B, Reuter F, Rave-Fränk M, et al. x-Irradiation in rat liver: consequent upregulation of hepcidin and downregulation of hemojuvelin and ferroportin-1 gene expression. Radiology 2007;242:189-97.

55. Moriconi F, Ahmad G, Ramadori P, Malik I, Sheikh N, et al. Phagocytosis of gadolinium chloride or zymosan induces simultaneous upregulation of hepcidin- and downregulation of hemojuvelin- and Fpn-1-gene expression in murine liver. Lab Invest 2009;89:1252-60.

56. Sheikh N, Tron K, Dudas J, Ramadori G. Cytokine-induced neutrophil chemoattractant-1 is released by the noninjured liver in a rat acute-phase model. Lab Invest 2006;86:800-14.

57. Ramadori P, Sheikh N, Ahmad G, Dudas J, Ramadori G. Hepatic changes of erythropoietin gene expression in a rat model of acute-phase response. Liver Int 2010;30:55-64.

58. Tron K, Novosyadlyy R, Dudas J, Samoylenko A, Kietzmann T, et al. Upregulation of heme oxygenase-1 gene by turpentine oil-induced localized inflammation: involvement of interleukin-6. Lab Invest 2005;85:376-87.

59. Krause A, Neitz S, Mägert HJ, Schulz A, Forssmann WG, et al. LEAP-1, a novel highly disulfide-bonded human peptide, exhibits antimicrobial activity. FEBS Lett 2000;480:147-50.

60. Ruot B, Breuillé D, Rambourdin F, Bayle G, Capitan P, et al. Synthesis rate of plasma albumin is a good indicator of liver albumin synthesis in sepsis. Am J Physiol Endocrinol Metab 2000;279:E244-51.

61. Flaim KE, Liao WS, Peavy DE, Taylor JM, Jefferson LS. The role of amino acids in the regulation of protein synthesis in perfused rat liver. II. Effects of amino acid deficiency on peptide chain initiation, polysomal aggregation, and distribution of albumin mRNA. J Biol Chem 1982;257:2939-46.

62. Lee JL, Oh ES, Lee RW, Finucane TE. Serum albumin and prealbumin in calorically restricted, nondiseased individuals: a systematic review. Am J Med 2015;128:1023.e1-22.

63. Ramadori G, Sipe JD, Colten HR. Expression and regulation of the murine serum amyloid A (SAA) gene in extrahepatic sites. J Immunol 1985;135:3645-7.

64. Perez L. Acute phase protein response to viral infection and vaccination. Arch Biochem Biophys 2019;671:196-202.

65. Zhou Y, Zhang Z, Tian J, Xiong S. Risk factors associated with disease progression in a cohort of patients infected with the 2019 novel coronavirus. Ann Palliat Med 2020;9:428-36.

66. Chen L, Xiong J, Bao L, Shi Y. Convalescent plasma as a potential therapy for COVID-19. Lancet Infect Dis 2020;20:398-400.

67. Shen C, Wang Z, Zhao F, Yang Y, Li J, et al. Treatment of 5 critically ill patients with COVID-19 with convalescent plasma. JAMA 2020;323:1582-9.

68. Duan K, Liu B, Li C, Zhang H, Yu T, et al. Effectivness of convalescent plasma therapy in severe COVID-19 patients. Proc Natl Acad Sci 2020;117:9490-6.

69. Zhang B, Liu S, Tan T, Huang W, Dong Y, et al. Treatment with convalescent plasma for critically ill patients with SARS-CoV-2 infection. Chest 2020. Epub ahead of print. doi: 10.1016/j.chest.2020.03.039

70. Bloch EM, Shoham S, Casadevall A, Sachais BS, Shaz B, et al. Deployment of convalescent plasma fro prevention and treatment of COVID-19. J Clin Invest 2020. Epub ahead of print. doi: 10.1172/JCI138745

71. Roback JD, Guarner J. Convalescent plasma to treat COVID-19: possibilities and challenges. JAMA 2020. Epub ahead of print. doi: 10.1001/jama.2020.4940

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