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Clinical course of sepsis in children with acute leukemia admitted to the pediatric intensive care unit

Clinical course of sepsis in children with acute leukemia admitted
to the pediatric intensive care unit*

Kanakadurga Singer, MD, MA; Perla Subbaiah, PhD; Raymond Hutchinson, MD;Folafoluwa Odetola, MD, MPH; Thomas P. Shanley, MD Objective: To describe the clinical course, resource use, and
inotropic and/or vasopressor drugs (p ؍ .01), and renal replace-
mortality of patients with leukemia admitted to the pediatric
ment therapy (p ؍ .028) than nonsepsis admission. There was
intensive care unit with sepsis and nonsepsis diagnoses over a
higher mortality among children with sepsis than other diagnoses
10-yr period.
(52% vs. 17%, p ؍ .004). Also, mortality among children with
Design: Retrospective analysis.
sepsis was higher among those with acute lymphoblastic leuke-
Setting: Tertiary medical–surgical pediatric intensive care unit
mia (60% vs. 44%) compared with acute myelogenous leukemia.
at C.S. Mott Children’s Hospital, University of Michigan.
Administration of stress dose steroids was associated with higher
Patients: All patients with leukemia admitted to the pediatric
mortality (50% vs. 17%, p ؍ .005) and neutropenia. Patients with
intensive care unit from January 1, 1998, to December 31,
acute lymphoblastic leukemia and sepsis showed the greatest
mortality and resource use.
Interventions: None; chart review.
Conclusions: Patients with acute leukemia and sepsis had a
Measurements and Main Results: Clinical course was charac-
much higher mortality rate compared with previously described
terized by demographics, leukemia diagnosis, phase of therapy,
sepsis mortality rates for the general pediatric intensive care unit
leukocyte count on admission, presence of sepsis, steroid admin-
patient populations. Patients who received steroids had an in-
istration, intensity of care, and Pediatric Risk of Mortality score on
creased mortality rate, but given the retrospective nature of this
admission to the pediatric intensive care unit. The primary out-
study, we maintain a position of equipoise with regard to this
come was survival to pediatric intensive care unit discharge.
association. Variation in mortality and resource use by leukemia
Among 68 single admissions to the pediatric intensive care unit
type suggests further research is needed to develop targeted
with leukemia during the study period, 33 (48.5%) were admitted
intervention strategies to enhance patient outcomes. (Pediatr Crit
with sepsis. Admission to the pediatric intensive care unit for
Care Med 2011; 12:649 – 654)
sepsis was associated with greater compromise of hemodynamic
KEY WORDS: sepsis; leukemia; mortality; severity of illness;
and renal function and use of stress dose steroids (p ؍ .016),
length of stay; natural history
Sepsisisaleadingcauseofpe- velopmentofevidence-basedguidelines targetinterventionalrandomizedcon- limited by difficulty in performing ran- domized controlled trials in this patient pediatric deaths with associated signifi- often unclear, there is current consensus pediatric sepsis also relates to the wide that aggressive treatment of pediatric pa- tients with leukemia is appropriate given current positive long-term outcomes (3).
*See also p. 680.
The last reported 5-yr mortality for acute From the Department of Pediatrics and Communi- cable Diseases (KS, RH, FO, TPS), University of Mich- igan Health System, Ann Arbor, MI; and the Depart- of pediatric sepsis is to study pediatric ment of Mathematics and Statistics (PS), OaklandUniversity, Rochester, MI.
Supplemental digital content is available for this ar- ticle. Direct URL citations appear in the printed text and are provided in the HTML and PDF versions of this article nesses, in part related to aggressive anti- on the journal’s Web site (www.pccmjournal.org).
The authors have not disclosed any potential con- For information regarding this article, E-mail: (5, 6). Other related risk factors for de- severely ill children. As such, high-risk Copyright 2011 by the Society of Critical Care Medicine and the World Federation of Pediatric Inten- kemia include the use of central vascular catheters, frequent hospitalizations, and DOI: 10.1097/PCC.0b013e31821927f1
Pediatr Crit Care Med 2011 Vol. 12, No. 6 Data Source and Subject Identification. All Table 1. Relapse rates among patient groups
children 0 –20 yrs of age diagnosed with leu- kemia between January 1, 1998, and Decem- rence in patients with leukemia, even be- ber 31, 2008, were identified in the University fore the occurrence of sepsis (8). Current of Michigan Comprehensive Cancer CenterRegistry. Thereafter, their inpatient hospital- pediatric sepsis guidelines emphasize the ization records at the C.S. Mott Children’s Hospital were searched for with the EMERSE (12) search program to identify those patients do not address specific comorbid diagno- hospitalized in the PICU during the study pe- riod. Patients admitted to the neonatal inten- Study Variables. Patients with culture- positive sepsis were identified using the fol- lowing key terms: “sepsis,” “infection,” and all patients with leukemia admitted to the “culture.” To avoid potential bias toward over- diagnosing sepsis when these broader criteria administration of “stress” dose steroids in 75% were in initial treatment. As seen in are used, we decided a priori to report only on addition to the mainstay of broad-spectrum culture-positive sepsis to avoid potential cap- Table 1, most of the patients with relapse antibiotic therapy. For instance, during in- ture of patients exhibiting a systemic inflam- matory response as a result of nonspecific trig- there is often administration of high doses gers other than systemic infection (e.g., group. Of the 68 patients admitted to the of steroids with subsequent risk for adrenal adverse reaction to chemotherapy, viral upper insufficiency. On the other hand, patients respiratory illness, etc.) that is common in sepsis by clinical symptoms and a positive with AML do not typically receive steroids this cohort. Furthermore, given the retrospec- blood culture with bacteria (Enterobacter, during induction therapy and are expected tive nature of the study, it was not possible to Pseudomonas, Klebsiella, Enterococcus, ensure accurate identification of “culture- to be at lower risk of adrenal suppression.
coagulase-positive Staphylococcus, Strep- negative” sepsis patients on the basis of clini- Knowledge of the outcomes of patients sub- tococcus), viruses (cytomegalovirus, para- cal judgment by the medical team. Data col- jected to steroid therapy is, however, very influenza), and fungi (Aspergillus, Can- demographic information (age, gender, length dida). Fifteen of the 33 patients with sepsis of PICU stay, source of admission), leukemia these patients has long been debated (10).
diagnosis (ALL or AML), phase of therapy, 35 patients without sepsis were diagnosed Specific studies have not been performed white blood cell count on admission, and in- tensity of PICU care. Indicators of the intensity admissions were for a variety of reasons, of care included use of mechanical ventilation, including 11% gastrointestinal, 11% post- mia impact outcomes from sepsis (11).
arterial catheterization, central venous cathe- therapy, use of inotropic and/or vasopressor in children with leukemia and the overall agents, and fluid resuscitation. Severity of pa- high mortality in patients with leukemia, tient illness was further characterized by the No significant differences were observed we conducted a retrospective study to in- Pediatric Risk of Mortality (PRISM) score on in age, gender distribution, or length of vestigate the clinical course among crit- admission to PICU when available (13). The stay among patients according to the diag- ically ill children with leukemia accord- primary outcome variable of the study was survival to PICU discharge or death.
Statistical Analysis. Continuous variables no sepsis. We present a large case series are presented as median values and categorical variables as frequencies. Comparisons among multiple groups of continuous variables were pediatric intensive care unit at C.S. Mott other intensive care units within the study made using the Kruskal-Wallis test. Compari- Children’s Hospital at the University of hospital, referring hospitals, emergency de- sons of proportions were made using Fisher’s exact test. A p value of .05 was taken as the threshold for statistical significance. Calcula- tions were performed on the Minitab software formulate a description of clinical course platform (Minitab 15, Minitab Inc., State Col- PICU resource use to try to identify fac- tors that could be used for potential treat- individual inpatients carried the diagno- MATERIALS AND METHODS
sis of acute leukemia and 68 of these were Subjects. A retrospective analysis with medical chart review was performed. Approval for the study was obtained from the institu- tional review board of the University of Mich- Pediatr Crit Care Med 2011 Vol. 12, No. 6 Table 2. Patient characteristics
ED, emergency department; OSH, outside hospital.
Tables 3 and 4 [see Supplemental DigitalContent 1, http://links.lww.com/PCC/A33]).
There was a significantly higher medianwhite blood cell count in patients with AMLwithout sepsis compared with all othergroups (p ϭ .009; Kruskal-Wallis test) asshown in Table 2.
Intensive Care Unit Course. To better characterize the intensity of illness andrequisite care in the PICU, use of PICUresources was compared among patientswith and without sepsis. There were nosignificant differences in the use of me-chanical ventilation, arterial catheteriza-tion, central venous catheterization, orfluid resuscitation among patients withand without sepsis (Table 4). However, agreater proportion of patients with sepsisreceived inotropic and/or vasopressoragents (p ϭ .001), stress dose steroids Figure 1. Median length of stay of patients admitted to the pediatric intensive care unit (PICU). ALL,
(p ϭ .016), and continuous renal replace- acute lymphocytic leukemia; AML, acute myelogenous leukemia.
ment therapy (p ϭ .028). This suggeststhat although there was significant ill-ness in both groups, the sepsis group had penic patients in the sepsis group (19 of portions of neutropenic patients in the sub- with sepsis was significantly higher than of 34 [41%]) is not statistically significant (p ϭ .218, Fisher’s exact test). In assess- significantly different (Supplemental Table 17%, p ϭ .0044). This increased mortal- ity and significant differences in use of basis of receiving received steroids or not portions of neutropenic patients in the four dant with their increased severity of ill- ceived steroids and were septic (17 of 24 also significantly associated with mortal- group eight of 15 [53%], sepsis death group ity (p ϭ .004). This relationship appeared with the other subclasses with neutropenia.
11 of 17 [65%]) are homogeneous (p ϭ The proportions of neutropenic patients in .226, chi-square test). Similarly, the pro- sepsis, although it was not statistically portions of neutropenic patients in the four significant (Table 5). Similar associations sepsis (non sepsis nonsteroid group ten of 20 [50%], nonsepsis steroid group four of eight [25%], sepsis steroid group 17 of 24 [71%]) are significantly different (p ϭ .033, (p ϭ .873, chi-square test) (Supplemental Pediatr Crit Care Med 2011 Vol. 12, No. 6 Table 3. Distribution of patients in subgroups of steroid use, neutropenia, and death
NN, not neutropenic; N, neutropenic; ND, not death; D, death.
aIn both the nonsepsis/steroid group and sepsis/no steroid group, a single patient had no absolute neutrophil count data recorded and thus was not Table 4. Comparison of intensive care unit course in patients with and without sepsis
comes of patients with acute leukemiaadmitted to the PICU at a single tertiary care center over a 10-yr period. Patients with leukemia who were admitted forsepsis had higher illness severity and pre- scoring and ultimately higher death rates than those admitted for other reasons.
The mortality rate in this specific cohort Median Pediatric Risk of Mortality severity of illness Median Pediatric Risk of Mortality-predicted mortality much broader, heterogeneous population(1, 8, 14). Studies of severe sepsis havereported higher mortality rates (17%), Table 5. Mortality rates among patients receiving
steroids during the intensive care unit course that rate (15, 16). This subgroup mortal- ity is also much higher then the reported and without sepsis. A significantly larger sis received fluid resuscitation, continu- in sepsis patients alone of 7.4% (18).
out sepsis (Table 6). Consequently, given without sepsis, who still required inten- sive care. Interestingly, similar differ- without sepsis (Table 6). Interestingly, no of illness measure was not available for all significant differences in intensive care require further investigation, but one po- tential contributor this observed differ- sepsis group, n ϭ 31 in nonsepsis group), there was significantly increased severity (Table 6). There were no significant dif- of illness (p ϭ .036) and predicted mor- tality (p ϭ .013) among patients with mortality scores in the subgroup analysis.
pression profiles that may be activated in sepsis vs. those without sepsis. This dif- the setting of sepsis. A number of inves- DISCUSSION
expression profiles with notable differ- Pediatr Crit Care Med 2011 Vol. 12, No. 6 Table 6. Comparison of frequency of use of intensive care unit technology and outcomes among
no benefit (34) from the use of cortico- patient subgroups with acute myelogenous leukemia and acute lymphocytic leukemia steroids in the treatment of septic shock.
It is unclear what protocol to follow in children, and this question is the subjectof ongoing debate, but our observations inquiry merits further investigation, par-ticularly in this high-risk cohort (35, 36).
help identify those with adrenal insuffi- we suggest a position of clinical equipoise with regard to the association of steroids ciency may serve as a stratification tool.
Some studies have suggested the poten- tial association between levels of C-reac- associated molecular patterns (19 –22).
may be as long as 4 – 8 months (26 –28).
tive protein or interleukin-8 with patient outcomes and therefore serve as a strati- itary–adrenal axis with the low-dose ad- fication method for subsequent targeting renocorticotropin test (27, 29), baseline of therapies (39, 40). However, interleu- leukemia cohorts may differ to influence have focused only on adult populations.
lation were mostly in a relapse state and their applicability to the pediatric popu- tients with acute leukemia with sepsis for CONCLUSIONS
that this population used more resources, likely as a result of heightened severity of adrenal axis suppression, the use of cor- parison to other populations of critically ill children with sepsis. This study sug- ticosteroids is often prompted by a state gests the need for further investigation of of “relative adrenal insufficiency” in cohort, it is also likely that PRISM may be the differential mortality and significant gree of physiological stress (31). Eighty- ological progression of organ failure oc- overall increased mortality in individuals receiving steroid treatment, but given the ing timeframe of the initial 24 hrs of care steroids during hospitalization died, al- though it is difficult to ascertain in this maintain a position of equipoise with re- initiated and what doses of steroids were used. Overall, the group of patients with roids at induction, it is possible that ALL mortality. Formal testing for adrenal in- tions in sepsis may lead to better patient thalamic–pituitary–adrenal axis occurs REFERENCES
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ALGAS E ESPONJAS: UMA FONTE DE SUBSTÂNCIAS COM ATIVIDADE ANTIVIRAL Odinéia do S. Pamplona*1; Bruno F. dos Santos2; Suzi M. Ribeiro3; Lísia M. Gestinari1; Maria Teresa V. Email: odineia@ufam.edu.br Instituições: *Universidade Federal do Amazonas (UFAM), Instituto de Ciências Exatas e Tecnologia (ICET); 1 Núcleo em Ecologia e Desenvolvimento Sócio-Ambiental de Macaé/Univers

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