key: cord-0884926-1po91m7b authors: CHNG, W. J.; LAI, H. C.; EARNEST, A.; KUPERAN, P. title: Haematological parameters in severe acute respiratory syndrome date: 2005-02-01 journal: Clin Lab Haematol DOI: 10.1111/j.1365-2257.2004.00652.x sha: f4fa675e388e9b3cc70985c07901370d7578910c doc_id: 884926 cord_uid: 1po91m7b Clinical presentation of severe acute respiratory syndrome (SARS) is non‐specific and isolation of all suspected patients is difficult because of the limited availability of isolation facilities. We studied changes in haematological parameters in SARS patients using median values analysed according to the day of symptom onset. White cell (WCC), absolute neutrophil, absolute lymphocyte (ALC) and platelet counts followed a v‐shaped trend with the nadir at day 6 or 7 after symptom onset except for ALC in the ICU group that had not reached the nadir by day 12. None of our patients had a platelet count < 80 × 10(9)/l and WCC < 2 × 10(9)/l in the first 5 days of symptoms and these parameters may allow early stratification of febrile patients into likely and unlikely SARS cases to allow effective utilization of isolation facilities. On multivariate analysis, age is the only independent predictor for ICU admission. A global alert for the severe acute respiratory syndrome (SARS) was issued by the World Health Organization (WHO) in March 2001 (WHO, 2003) . One of the largest outbreaks occurred in Singapore with most of the patients managed in a single SARS-designated hospital. Mortality in patients requiring Intensive Care Unit (ICU) management was very high (Lew et al., 2003) . The cause of SARS has been identified as a novel coronavirus Ksiazek et al., 2003; Peiris et al., 2003a) . The WHO clinical case definition of SARS is highly insensitive highlighting the non-specific nature of presenting symptoms (Rainer et al., 2003) . Although sequencing of the coronavirus genome (Marra et al., 2003; Rota et al., 2003) has allowed the development of more specific diagnostic tests, none of these are fully validated and widely available. During the SARS outbreak, tremendous burden was placed on hospitals to provide isolation facilities because of the highly infectious nature of the coronavirus. It would be helpful if some routine laboratory tests could help to stratify patients with compatible clinical features early to allow for efficient use of limited isolation facilities. Furthermore, early identification of patients with a poor prognosis may allow early intervention to improve outcome. In a large cohort of confirmed SARS cases, we retrospectively analysed their haematological parameters with the aims of describing changes in these parameters as the infection progressed, identifying early haematological markers helpful in excluding SARS and predicting patients needing ICU admission. A retrospective review of SARS cases confirmed by serological testing or identification of viral RNA by reverse-transcriptase polymerase chain reaction (RT-PCT) from 15 March to 12 May 2003 was conducted. The following patients were excluded from the final analysis: patients not treated at the SARS-designated hospital; patient <9 years old and patients whose history of symptom onset is unclear. The study was approved by the hospital's ethics review board. The patients were divided into two groups, those admitted to ICU and those not. Sequential results of haematological indices including haemoglobin (Hb), white cell (WCC), platelet, absolute neutrophil (ANC) and absolute lymphocyte counts (ALC) were obtained for each patient and tabulated according to day of illness. The day of symptom onset is designated day 1 of illness. Other data collected include demographics, co-morbid conditions (chronic airways disease, cardiovascular disease, diabetes mellitus, acute or chronic renal failure), and days from symptom onset to hospital admission and ICU admission. The median and range were calculated for each haematological parameter. For predictors of ICU admission, the maximum or minimum value (whichever appropriate) from days 2 to 5 was used, and potential predictors were identified using univariate and multivariate logistic regression analysis. Data analysis was carried out in Stata (V7.0; StataCorp LP, College Station, TX, USA), and level of significance was set at 5%. A total of 185 confirmed SARS cases met our inclusion criteria during the study period. Of these, 145 did not require ICU management. The characteristics of the two groups are presented in Table 1 . Proportion of patients with abnormal haematological indices at different stages of infection is presented in Table 2 . WCC < 2 · 10 9 /l 0 (0%) 0 (0%) 0 (0%) 3 (2.1%) 3 (8.1%) 6 (3.3%) WCC < 4 · 10 9 /l 21 (20.4%) 3 (15.8%) 24 (19.7%) 78 (54.5%) 12 (32.4%) 90 (50%) WCC > 10 · 10 9 /l 3 (2.9%) 3 (15.8%) 6 (4.9%) 7 (4.9%) 7 (18.9%) 14 (7.8%) Polymorphs < 1 · 10 9 /l 2 (1.9%) 0 (0%) 2 (1.6%) 7 (4.9%) 2 (5.4%) 9 (5%) Polymorphs < 2 · 10 9 /l 15 ( 145 (80.6%) Lymphocytes > 2 · 10 9 /l 2 (1.9%) 1 (5.3%) 3 (2.5%) 9 (6.3%) 1 (2.7%) 10 (5.6%) Platelet < 80 · 10 9 /l 0 (0%) 0 (0%) 0 (0%) 1 (0.7%) 1 (2.7%) 2 (1.1%) Platelet < 100 · 10 9 /l 3 (2.9%) 0 (0%) 3 (2.5%) 7 (4.9%) 3 (8.1%) 10 (5.6%) Platelet > 150 · 10 9 /l 86 ( Although leucopenia (WCC < 4 · 10 9 /l) occurred in 19.7 and 50% of patients with available blood tests by days 5 and 10 of symptom onset respectively, severe neutropenia (ANC < 1 · 10 9 /l) was rare (1.6 and 5% of patients by days 5 and 10 respectively). A WCC < 2 · 10 9 /l was also rare, affecting only 3.3% of patients and only occurring after day 5 of illness. Most patients (61.5% by day 5 and 80.6% by day 10) developed moderate lymphopenia (ALC < 1 · 10 9 /l) at some point during the first 10 days of illness. However, severe lymphopenia (ALC < 0.5 · 10 9 /l) was rare occurring in only 9.8 and 18.9% of patients by days 5 and 10 of symptoms respectively. Reactive lymphocytes commonly seen in viral infections were also conspicuously absent in patients with SARS. The majority of patients had a normal platelet count (>150 · 10 9 /l). 88.3% of patients never had a platelet count < 150 · 10 9 /l. In fact, none of the 122 patients who were tested during the first 5 days of illness had a platelet count < 80 · 10 9 /l. By day 10 of illness, only two of 180 patients (1.1%) tested had a platelet count < 80 · 10 9 /l. By plotting the median values for each haematological parameter over a period of 12 days from symptom onset, time trends for changes to Hb, WCC, platelet count, ANC and ALC were obtained (Figure 1 ). The Hb for both groups continued to fall during the first 12 days of illness (graph not shown). The WCC initially decreased, reaching a nadir at day 7 or 8 of illness. The median nadir WCC was 4 · 10 9 /l (range 2-12 · 10 9 /l for non-ICU and 2-14.5 · 10 9 /l for ICU group) for both groups. Changes in the ANC reflected changes in the WCC. The median nadir ANC was 2.66 · 10 9 /l (range 1.08-8.85 · 10 9 /l) for the non-ICU group and higher for the ICU group at 2.8 · 10 9 /l (range 1.29-12.7 · 10 9 /l). A striking feature of the ALC graphs was the lack of lymphocyte recovery in the ICU group. For non-ICU patients, the ALC reached a nadir at day 8 of illness at a median level of 0.79 · 10 9 /l (range 0.27-1.91 · 10 9 /l) but the nadir had not been reached by day 12 of symptoms for the ICU group. The platelet trend followed that of WCC and ANC. The platelet count reached a nadir at day 6 of illness for the non-ICU group and day 7 of illness for the ICU group with median nadir platelet count of 161 · 10 9 /l (range 81-377 · 10 9 /l) and 151 · 10 9 /l (range 61-314 · 10 9 /l) respectively. In the univariate analysis, sex, age, presence of co-morbid conditions, WCC and ANC were found to be significant predictors of ICU admission (Table 3) . However, in the multivariate analysis, only age was significant. SARS is an emerging infectious disease with many aspects of its pathophysiology and clinical behaviour still not fully understood. This has hampered progress in its diagnosis and effective management. One of the main symptoms of SARS is fever. Fever is also common in other viral infections including dengue which is very common in Asia where the possibility of another SARS outbreak exists. Due to the highly infectious nature of the coronavirus, every febrile patient suspected of SARS screened at the screening centre need to be isolated. This led to a high demand for isolation beds, which is a limited resource in most acute care hospitals, during the SARS outbreak. Furthermore, the more specific serological test only becomes positive late in the course of the disease (Peiris et al., 2003b) , whilst RT-PCR for the coronavirus RNA have a detection rate of 79 and 80% in nasopharyngeal aspirate and plasma respectively during the first 3 days of illness (Grant et al., 2003; Poon et al., 2003) . Any laboratory features in the first few days of fever that could suggest that the patient is unlikely to have SARS may obviate the need to isolate them in hospital. We chose to study haematological indices as they are common laboratory investigations performed on patients admitted to hospitals with fever. Blood counts often provide useful clues regarding the diagnosis and complications of infectious disease. Some interesting observations were made. In the first 5 days of illness, the majority of patients had a normal WCC with an elevated ANC and lymphopenia, and a normal Hb and platelet count. In this period, 61.5% of patients in our cohort had a moderate lymphopenia (<1 · 10 9 /l) although only 9.8% had ALC < 0.5 · 10 9 /l. This is comparable with other reported figures of 69.6 and 54% Lee et al., 2003) . The more recent Hong Kong study reported that 98% of their patients have moderate lymphopenia during the course of their illness . This is comparable with our figure of 81% of patients having moderate lymphopenia by day 10 of illness. One of the notable features in SARS was that reactive lymphocytes were not commonly seen in the peripheral blood film. This contrasts with the common finding of reactive lymphocytes around the fourth and fifth day of fever in dengue which coincided with the recovery of the lymphocyte counts in these patients (Thisyakorn et al., 1984) . The two Hong Kong studies reported thrombocytopenia (<150 · 10 9 /l) in 44.8% of patients on presentation and 55% of patients during the course of their illness respectively Wong et al., 2003) but this was not a feature in our patients. Only 11.6% of our patients had a platelet count < 150 · 10 9 /l by day 10 of illness. In fact, within the first 5 days of illness, no patients had a platelet count < 80 · 10 9 /l or a WCC < 2 · 10 9 /l. By day 10, only two patients had a platelet count < 80 · 10 9 /l. One of these patients had pre-existing hepatocellular carcinoma with liver cirrhosis. The source of these differences between our study and the Hong Kong studies is uncertain and may be due to different variants of the coronavirus (Ruan et al., 2003) exerting different effects on the patients or differences in treatment and study design. In contrast to our patients, the Hong Kong patients were routinely treated with prednisolone and ribavarin which may affect platelet and white cell count (Choi et al., 2003) . The analysis from Hong Kong included results from patients even after they were admitted to ICU. We only included blood results prior to ICU admission. This made our results more reflective of changes as a result of the coronavirus infection as they are not affected by the treatment given. The absence of significant thrombocytopenia contrasted with patients with dengue who commonly has significant thrombocytopenia including severe thrombocytopenia (<30 · 10 9 /l) during the first week of illness (Nimmannitya, 1987) . It would seem that patients presenting with severe thrombocytopenia (<80 · 10 9 /l) and a febrile illness are unlikely to have SARS. The same applies to patients presenting with a WCC < 2 · 10 9 /l. These parameters may therefore be helpful in stratification of febrile patients suspected of SARS into low and high-risk groups, and allow better allocation of the limited isolation rooms available. 1.06 (0.77-1.45) 0.720 WCC in 10 9 /l (1 · 10 9 /l increase) 1.20 (1.01-1.43) 0.034 ALC in 10 9 /l (0.1 · 10 9 /l increase) 0.91 (0.79-1.04) 0.171 Platelet count in 10 9 /l (50 · 10 9 /l increase) 1.00 (0.99-1.01) 0.506 Absolute neutrophil count (0.5 · 10 9 /l increase) 1.11 (1.02-1.21) 0.021 Haematological values taken on days 2-5 of symptoms. Some early and late differences were observed in the various haematological parameters between the ICU and non-ICU groups. There is a clear difference in the median values of the Hb, WCC and ANC at day 3 and 4 of illness ( Figure 1 ). The association of these parameters with ICU admission was tested in a logistic regression model incorporating other parameters like age and co-morbidities previously shown to have prognostic value Lee et al., 2003) . In the univariate analysis, sex, age, presence of co-morbid conditions, WCC and ANC were found to be significant predictors. However, only age remained significant in the multivariate model. The recent Hong Kong study also failed to identify any haematological parameters predictive of ICU admission or death on multivariate analysis . Our results contrasted with other studies that also identified elevated ANC and co-morbid conditions as independent predictors of poor outcome. However, these studies may not be directly comparable as we use the day of illness onset as our basis for data analysis rather than the day of presentation. Late differences (from days 7 to 12 of symptom onset) included a greater increase in the WCC and the ANC following the nadir, and lack of recovery in the ALC by day 12 of illness in the ICU group. These differences may be a reflection of the greater severity of infection in the ICU group. Whether the persistent lymphopenia in the ICU group is as a result of the inability of these patients to mount an immune response resulting in more serious infection or because of bone marrow suppression caused by the virus is unknown. This detailed study of haematological changes in one of the largest cohort of SARS patients managed in a single institution is strengthened by the use of the day of illness as the basis for data analysis compared with the day of presentation used by previous studies Lee et al., 2003) . This method removes the confounding effect caused by variation in the day of presentation. As laboratory measurements were not taken every day, one limitation of the study is the amount of missing data that could bias our results. In conclusion, most haematological indices follow a v-shaped pattern in SARS. An exception is the ICU group who had not recovered their ALC by day 12 of symptoms. A platelet count < 80 · 10 9 /l and a WCC < 2 · 10 9 /l were not encountered in any SARS patient in the first 5 days of illness. Moderate lymphopenia is common but ALC < 0.5 · 10 9 /l was uncommon in the early phase of the illness. The absence of reactive lymphocytes is another important feature distinguishing SARS from other viral infections. These features may be helpful in the early stratification of patients with clinical features compatible with SARS into a low risk group possibly obviating the need for isolation. Clinical features and short-term outcomes of 144 patients with SARS in the Greater Toronto area Outcomes and prognostic factors in 267 patients with severe acute respiratory syndrome in Hong Kong Identification of a novel coronavirus in patients with severe acute respiratory syndrome Detection of SARS coronavirus in plasma by realtime RT-PCR A novel coronavirus associated with severe acute respiratory syndrome A major outbreak of severe acute respiratory syndrome in Hong Kong Acute respiratory distress syndrome in critically ill patients with severe acute respiratory syndrome The genome sequence of SARS-associated coronavirus Clinical spectrum and management of dengue haemorrhagic fever Coronavirus as a possible cause of severe respiratory syndrome Clinical progression and viral load in a community outbreak of coronavirus-associated SARS pneumonia: a prospective study Early diagnosis of SARS coronavirus infection by real time RT-PCR Evaluation of WHO criteria for identifying patients with severe acute respiratory syndrome out of hospital: prospective observational study Characterization of a novel coronavirus associated with severe acute respiratory syndrome Comparative full-length genome sequence analysis of 14 SARS coronavirus isolates and common mutations associated with putative origins of infection Atypical lymphocyte in dengue hemorrhagic fever. Its value in diagnosis Haematological manifestations in patients with severe acute respiratory syndrome: retrospective analysis World Health Organization (WHO) (2003) WHO issues a global alert about cases of atypical pneumonia We would like to acknowledge all the doctors and nurses who have been involved in the care of patients with SARS. We would also like to thank Dr B.H. Hong for providing information from the SARS database and Ms H.Y. Liew for compiling all the haematological results. Finally, we would also like to thank Dr T. Barkham for help with the manuscript.