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Predictors of dengue severity Please cite this article as: Halstead S. Predictors of dengue severity. J Pediatr (Rio J). 2016;92:429-31. ☆☆ ☆☆ Ver artigo de Pone et al. in pages 464-71.

Pone et al., in a study published in this Journal, have attempted to identify historical or observable signs or symptoms that reliably predict worsening of dengue disease in children.11 Pone SM, Hökerberg YH, de Oliveira RV, Daumas RP, Pone TM, Pone MV, et al. Clinical and laboratory signs associated to serious dengue disease in hospitalized children. J Pediatr (Rio J). 2016;92:464-71. In so doing, they have coined a new term "serious dengue disease" and adopted a new clinical outcome metric, "treatment modality." The "treatment modalities" chosen include administration of "amines, inotropes, colloids, mechanical ventilation, non-invasive ventilation, peritoneal dialysis or hemodialysis." Lethargy, abdominal distension, pleural effusion, and hypoalbuminemia were the most reliable markers of serious dengue disease identified in 145 children hospitalized in Rio de Janeiro in 2007-2008, who had direct or indirect evidence of recent dengue infection. The authors are among those who would agree that a more accurate identification of dengue predictors would best be derived from large protocol-based prospective studies of physiologically characterized laboratory confirmed dengue illnesses.

There is considerable historical precedent for this effort. Ever since the 1950s, when it was recognized that dengue viruses caused a severe and often fatal acute febrile disease of children, it has been the goal of researchers to describe the pathophysiology of dengue disease aiming to provide better treatment and to identify predictive early warning markers to improve triage.22 Quintos FN, Lim LE, Juliano L, Reyes A, Lacson P. Hemorrhagic fever observed among children in the Philippines. Philippin J Pediatr. 1954;3:1-19.,33 Halstead SB, Cohen SN. Dengue hemorrhagic fever at 60 years: early evolution of concepts of causation and treatment. Microbiol Mol Biol Rev. 2015;79:281-91. This was the motivation behind the creation of the case definitions, dengue hemorrhagic fever/dengue shock syndrome (DHF/DSS), in wide use since their adoption by WHO in 1975, and the new case definitions introduced in 2009.44 World Health Organization (WHO). Technical guides for diagnosis, treatment, surveillance, prevention and control of dengue haemorrhagic fever. Geneva: WHO; 1975.,55 World Health Organization (WHO). Dengue: guidelines for diagnosis, treatment prevention and control. Geneva: WHO; 2009. In the 1960s, dengue research programs in Southeast Asia found that children were dying of a new clinical entity, the dengue vascular permeability syndrome (DVPS; Fig. 1), characterized by a complex of physiologic abnormalities affecting multiple organ systems including the liver, blood coagulation, complement, hematopoiesis, serum proteins, and the vascular system that reach a maximal expression at defervescence.33 Halstead SB, Cohen SN. Dengue hemorrhagic fever at 60 years: early evolution of concepts of causation and treatment. Microbiol Mol Biol Rev. 2015;79:281-91.,66 Cohen SN, Halstead SB. Shock associated with dengue infection. I. Clinical and physiologic manifestations of dengue hemorrhagic fever in Thailand, 1964. J Pediatr. 1966;68:448-56.

7 Weiss HJ, Halstead SB. Studies of hemostasis in Thai hemorrhagic fever. J Pediatr. 1965;66:918-26.

8 Pathogenetic mechanisms in dengue haemorrhagic fever: report of an international collaborative study. Bull World Health Organ. 1973;48:117-33.

9 Bokisch VA, Top FH Jr, Russell PK, Dixon FJ, Müller-Eberhard HJ. The potential pathogenic role of complement in dengue hemorrhagic shock syndrome. N Engl J Med. 1973;289:996-1000.
-1010 Halstead SB. Pathogenesis of dengue: dawn of a new era. F1000Research. 2015;4:F1000 Faculty Rev-1353. doi:10.12688/f1000research.7024.1.
https://doi.org/10.12688/f1000research.7...
It soon was well understood that children with DVPS benefitted from early, physiologically relevant fluid resuscitation.66 Cohen SN, Halstead SB. Shock associated with dengue infection. I. Clinical and physiologic manifestations of dengue hemorrhagic fever in Thailand, 1964. J Pediatr. 1966;68:448-56. It was also observed that the fluid leak varied in severity from child to child and that a physiologically irreversible penalty might occur in just a matter of hours due to failure to maintain adequate blood volume.55 World Health Organization (WHO). Dengue: guidelines for diagnosis, treatment prevention and control. Geneva: WHO; 2009.,1111 Nimmannitya S. Clinical spectrum and management of dengue haemorrhagic fever. Southeast Asian J Trop Med Public Health. 1987;18:392-7.

12 World Health Organization (WHO). Dengue haemorrhagic fever:diagnosis, treatment, prevention and control. 2 ed. Geneva: WHO; 1997.
-1313 World Health Organization (WHO). Guidelines for treatmentof dengue/dengue haemorrhagic fever in small hospitals. New Delhi: WHO Regional Office for South East Asia; 1999.

Figure 1
Dengue vascular permeability syndrome (DVPS).

The signs and symptoms of dengue and DVPS change from day to day. Those that precede shock have been identified as "warning signs." Warning signs of dengue infections were described long ago. Siler and Simmons, who recorded daily clinical and laboratory features of several hundred experimental dengue illnesses mostly in seronegative young adult male US Army volunteers, observed a profound mid-illness dengue leukopenia.1414 Siler JF, Hall MW, Hitchens AP. Dengue: its history, epidemiology, mechanism of transmission, etiology, clinical manifestations, immunity, and prevention. Philippine J Sci. 1926;29:1-304.,1515 Simmons JS, St John JH, Reynolds FH. Experimental studies of dengue. Philippine J Sci. 1931;44:1-252. More importantly, they found this leukopenia consisted of two components, a reduction in circulating lymphocytes and a destruction of mature polymorphonuclear leukocytes. The latter produced a diagnostic "cross," where there were greater numbers of immature than mature polys in blood smears.1515 Simmons JS, St John JH, Reynolds FH. Experimental studies of dengue. Philippine J Sci. 1931;44:1-252. It has been speculated that leukopenia and thrombocytopenia might be related to a remarkable phenomenon that regularly occurs in dengue infections before the onset of fever, a profound suppression of all cellular elements in the bone marrow.1616 Nelson ER, Bierman HR, Chulajata R. Hematologic findings in the 1960 hemorrhagic fever epidemic (dengue) in Thailand. Am J Trop Med Hyg. 1964;13:642-9.,1717 Bierman HR, Nelson ER. Hematodepressive virus diseases of Thailand. Ann Intern Med. 1965;62:867-84. In Thailand, three early warning signs were used in patient triage: thrombocytopenia and a positive tourniquet test were thought to herald dengue vascular permeability, while a fingertip microhematocrit was taken to establish a baseline value to monitor hemoconcentration.1818 Kalayanarooj S, Vaughn DW, Nimmannitya S, Green S, Suntayakorn S, Kunentrasai N, et al. Early clinical and laboratory indicators of acute dengue illness. J Infect Dis. 1997;176:313-21. Because platelet numbers decline and hematocrits rise quickly, multiple measurements must be performed and disease severity eventually is most accurately scored using modal high or low values. Some workers found that high levels of aspartate aminotransferase identified those children who proceeded to DVPS.1818 Kalayanarooj S, Vaughn DW, Nimmannitya S, Green S, Suntayakorn S, Kunentrasai N, et al. Early clinical and laboratory indicators of acute dengue illness. J Infect Dis. 1997;176:313-21. Careful physiological characterization of dengue illnesses in children has resulted in significant improvement in treatment and sharply reduced case fatality rates.1111 Nimmannitya S. Clinical spectrum and management of dengue haemorrhagic fever. Southeast Asian J Trop Med Public Health. 1987;18:392-7.,1919 Kalayanarooj S. Clinical manifestations and management of dengue/DHF/DSS. Trop Med Health. 2011;39:83-7.

There has been considerable disagreement about the utility of most warning signs or laboratory tests in wide use for predicting the outcome of dengue infections.2020 Horstick O, Farrar J, Lum L, Martinez E, San Martin JL, Ehrenberg J, et al. Reviewing the development, evidence base, and application of the revised dengue case classification. Pathog Glob Health. 2012;106:94-101. One approach to identify predictors has been to look for universal components in DSS. A meta-analysis identified the significant associations of shock as age, female sex, neurological signs, nausea/vomiting, abdominal pain, gastrointestinal bleeding, hemoconcentration, ascites, pleural effusion, hypoalbuminemia, hypoproteinemia, hepatomegaly, levels of alanine transaminase and aspartate transaminase, thrombocytopenia, prothrombin time, activated partial thromboplastin time, fibrinogen level, primary/secondary infection, and DENV-2.2121 Huy NT, Van Giang T, Thuy DH, Kikuchi M, Hien TT, Zamora J, et al. Factors associated with dengue shock syndrome: a systematic review and meta-analysis. PLoS Negl Trop Dis. 2013;7:e2412. The vast expansion of dengue infection globally has placed great stress on clinical facilities, generating further efforts to improve patient triage by validating early warning signs.2222 Jaenisch T, Tam DT, Kieu NT, Van Ngoc T, Nam NT, Van Kinh N, et al. Clinical evaluation of dengue and identification of risk factors for severe disease: protocol for a multicentre study in 8 countries. BMC Infect Dis. 2016;16:120.

23 Brady OJ, Gething PW, Bhatt S, Messina JP, Brownstein JS, Hoen AG, et al. Refining the global spatial limits of dengue virus transmission by evidence-based consensus. PLoS Negl Trop Dis. 2012;6:e1760.

24 Bhatt S, Gething PW, Brady OJ, Messina JP, Farlow AW, Moyes CL, et al. The global distribution and burden of dengue. Nature. 2013;496:504-7.
-2525 Stanaway JD, Shepard DS, Undurraga EA, Halasa YA, Coffeng LE, Brady OJ, et al. The global burden of dengue: an analysis from the Global Burden of Disease Study 2013. Lancet Infect Dis. 2016;16:712-22. One such study will enroll 7000-8000 children with a febrile disease who are admitted to outpatient departments in eight dengue-endemic countries.2222 Jaenisch T, Tam DT, Kieu NT, Van Ngoc T, Nam NT, Van Kinh N, et al. Clinical evaluation of dengue and identification of risk factors for severe disease: protocol for a multicentre study in 8 countries. BMC Infect Dis. 2016;16:120. This large prospective study, now in progress, includes three sites in Brazil. As of December 2015, a total of 7096 participants had been enrolled, with dengue confirmed in 2510/5996 (42%). Enrolment will continue until June 2016. It is hoped that sufficient numbers of children with acute dengue infections will proceed on to severe dengue, providing unequivocal laboratory or clinical predictors, specifically for DSS.

  • Please cite this article as: Halstead S. Predictors of dengue severity. J Pediatr (Rio J). 2016;92:429-31.
  • ☆☆
    Ver artigo de Pone et al. in pages 464-71.

References

  • 1
    Pone SM, Hökerberg YH, de Oliveira RV, Daumas RP, Pone TM, Pone MV, et al. Clinical and laboratory signs associated to serious dengue disease in hospitalized children. J Pediatr (Rio J). 2016;92:464-71.
  • 2
    Quintos FN, Lim LE, Juliano L, Reyes A, Lacson P. Hemorrhagic fever observed among children in the Philippines. Philippin J Pediatr. 1954;3:1-19.
  • 3
    Halstead SB, Cohen SN. Dengue hemorrhagic fever at 60 years: early evolution of concepts of causation and treatment. Microbiol Mol Biol Rev. 2015;79:281-91.
  • 4
    World Health Organization (WHO). Technical guides for diagnosis, treatment, surveillance, prevention and control of dengue haemorrhagic fever. Geneva: WHO; 1975.
  • 5
    World Health Organization (WHO). Dengue: guidelines for diagnosis, treatment prevention and control. Geneva: WHO; 2009.
  • 6
    Cohen SN, Halstead SB. Shock associated with dengue infection. I. Clinical and physiologic manifestations of dengue hemorrhagic fever in Thailand, 1964. J Pediatr. 1966;68:448-56.
  • 7
    Weiss HJ, Halstead SB. Studies of hemostasis in Thai hemorrhagic fever. J Pediatr. 1965;66:918-26.
  • 8
    Pathogenetic mechanisms in dengue haemorrhagic fever: report of an international collaborative study. Bull World Health Organ. 1973;48:117-33.
  • 9
    Bokisch VA, Top FH Jr, Russell PK, Dixon FJ, Müller-Eberhard HJ. The potential pathogenic role of complement in dengue hemorrhagic shock syndrome. N Engl J Med. 1973;289:996-1000.
  • 10
    Halstead SB. Pathogenesis of dengue: dawn of a new era. F1000Research. 2015;4:F1000 Faculty Rev-1353. doi:10.12688/f1000research.7024.1.
    » https://doi.org/10.12688/f1000research.7024.1
  • 11
    Nimmannitya S. Clinical spectrum and management of dengue haemorrhagic fever. Southeast Asian J Trop Med Public Health. 1987;18:392-7.
  • 12
    World Health Organization (WHO). Dengue haemorrhagic fever:diagnosis, treatment, prevention and control. 2 ed. Geneva: WHO; 1997.
  • 13
    World Health Organization (WHO). Guidelines for treatmentof dengue/dengue haemorrhagic fever in small hospitals. New Delhi: WHO Regional Office for South East Asia; 1999.
  • 14
    Siler JF, Hall MW, Hitchens AP. Dengue: its history, epidemiology, mechanism of transmission, etiology, clinical manifestations, immunity, and prevention. Philippine J Sci. 1926;29:1-304.
  • 15
    Simmons JS, St John JH, Reynolds FH. Experimental studies of dengue. Philippine J Sci. 1931;44:1-252.
  • 16
    Nelson ER, Bierman HR, Chulajata R. Hematologic findings in the 1960 hemorrhagic fever epidemic (dengue) in Thailand. Am J Trop Med Hyg. 1964;13:642-9.
  • 17
    Bierman HR, Nelson ER. Hematodepressive virus diseases of Thailand. Ann Intern Med. 1965;62:867-84.
  • 18
    Kalayanarooj S, Vaughn DW, Nimmannitya S, Green S, Suntayakorn S, Kunentrasai N, et al. Early clinical and laboratory indicators of acute dengue illness. J Infect Dis. 1997;176:313-21.
  • 19
    Kalayanarooj S. Clinical manifestations and management of dengue/DHF/DSS. Trop Med Health. 2011;39:83-7.
  • 20
    Horstick O, Farrar J, Lum L, Martinez E, San Martin JL, Ehrenberg J, et al. Reviewing the development, evidence base, and application of the revised dengue case classification. Pathog Glob Health. 2012;106:94-101.
  • 21
    Huy NT, Van Giang T, Thuy DH, Kikuchi M, Hien TT, Zamora J, et al. Factors associated with dengue shock syndrome: a systematic review and meta-analysis. PLoS Negl Trop Dis. 2013;7:e2412.
  • 22
    Jaenisch T, Tam DT, Kieu NT, Van Ngoc T, Nam NT, Van Kinh N, et al. Clinical evaluation of dengue and identification of risk factors for severe disease: protocol for a multicentre study in 8 countries. BMC Infect Dis. 2016;16:120.
  • 23
    Brady OJ, Gething PW, Bhatt S, Messina JP, Brownstein JS, Hoen AG, et al. Refining the global spatial limits of dengue virus transmission by evidence-based consensus. PLoS Negl Trop Dis. 2012;6:e1760.
  • 24
    Bhatt S, Gething PW, Brady OJ, Messina JP, Farlow AW, Moyes CL, et al. The global distribution and burden of dengue. Nature. 2013;496:504-7.
  • 25
    Stanaway JD, Shepard DS, Undurraga EA, Halasa YA, Coffeng LE, Brady OJ, et al. The global burden of dengue: an analysis from the Global Burden of Disease Study 2013. Lancet Infect Dis. 2016;16:712-22.

Publication Dates

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    Sep-Oct 2016
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