Comparison of automated red cell exchange transfusion and simple transfusion for the treatment of children with sickle cell disease acute chest syndrome

2013 ◽  
Vol 60 (12) ◽  
pp. 1952-1956 ◽  
Author(s):  
Robert L. Saylors ◽  
Benjamin Watkins ◽  
Suzanne Saccente ◽  
Xinyu Tang
Keyword(s):  
Sickle Cell Disease ◽  
Sickle Cell ◽  
Exchange Transfusion ◽  
Acute Chest Syndrome ◽  
Red Cell ◽  
Cell Disease

Red Blood Cell Exchange Transfusion, An Underutilized Effective and Reliable Therapeutic Modality in Sickle Cell Disease, Reduces Number of Admissions and Length of Hospital Stay

Blood ◽  
2008 ◽  
Vol 112 (11) ◽  
pp. 4822-4822
Author(s):  
Aref Agheli ◽  
Kirshma Khemani ◽  
Madhumati Kalavar ◽  
William Steier ◽  
Zili He
Keyword(s):  
Sickle Cell Disease ◽  
Hospital Stay ◽  
Sickle Cell ◽  
Blood Viscosity ◽  
Exchange Transfusion ◽  
Hemoglobin Level ◽  
Therapeutic Modality ◽  
Acute Chest Syndrome ◽  
Cell Disease ◽  
One Year

Abstract Background: The pathophysiology of sickle cell disease (SCD) is based on increased blood viscosity due to abnormal red blood cells (RBCs), which causes SCD complications, such as chronic hemolytic anemia, vaso-occlusive crisis with tissue hypoxemia, and organ dysfunction. Effective treatment of Sickle Cell Anemia is to reduce the blood concentration of Hemoglobin S (Hb S) RBCs. Exchange transfusion (ET) remains an effective but possibly underutilized therapy for the management of various acute and chronic complications of SCD such as acute chest syndrome, thromboembolic stroke, splenic and hepatic infarction, right upper quadrant syndrome, multi-organ failure syndrome, or in preparation for surgery by reducing HbS to less than 30%. RBC ET quickly replaces abnormal RBCs with normal RBCs, thus improving oxygen transport while reducing overall blood viscosity. Methodology: To determine the effectiveness of ET in SCD in reducing the total number of admissions and total in-hospital Length of Stay (LOS) in patients, admitted with any of acute complications of SCD, we retrospectively reviewed the medical records of 38 patients between June 15, 2007 and June 15, 2008. The eligibility criteria were age above 18 years old and admission to the hospital for any SCD complication. Nineteen patients had ET with Hb A containing RBCs, generally with an average packed RBC exchange volume of 70–80 ml/kg patient’s weight. Nineteen patients were treated with conventional managements. Three patients were excluded from the ET group because of prolonged LOS due to non-SCD- related complications. Four patients in the non-Exchange group signed against medical advice on the first day of admission and were excluded from analysis. Results: Sixteen (42.1%) patients were male and 22 (57.9%) patients were female. Their ages ranged from 19 to 67 years old, mean (SD) 30.2 (10.8). Of eligible patients, 19 (50%) patients received at least one therapeutic ET during the one year period of the study. In an independent-Samples T test analysis, the mean (SD) LOS were 7.5 (0.6) and 4.2 (0.6) days for the groups without ET and with ET respectively (95% CI = −5.2 to 1.5, p=.0011) (Figure 1). In this small studied group, this resulted average 3.3 days shorter in-hospital stay in ET group, could have saved 62 in-hospital days in the group who received conventional treatments. This number could have been easily much greater, since our hospital’s electronically stored data revealed that during year 2007, there had been 278 SCD admissions in all age groups. There was no mortality in the ET group, nor were any transfusion-related complications reported. In another analysis of one year follow up data, the number of admissions for the patients who never received ET ranged from 1 to 14, mean (SD) 1.7 (2.3) times in year 2007, while in patients who received at least one ET, the number of following admissions ranged from 0 to 2, mean (SD) 0.7 (1.3) times during the next year (95% CI = 0.16 to 1.7, p= .020). Hemoglobin level of patients in conventional treatment group on the day of discharge ranged from 6.5 to 10.7, mean (SD) 8.9 (1.9) and in ET group it ranged from 8.4 to 12.4, mean (SD) 10.2 (1.2) gr/dl (p= .045). Conclusion: Patients with SCD are frequently admitted to hospital for vaso-occlusive crisis and other complications. Exchange transfusion is a reliable, safe, and effective therapeutic modality in SCD patients, in particular during a catastrophic event. ET can significantly reduce the number of hospital admissions and in-hospital stay days in these patients. In addition, patients managed with ET have a better hemoglobin level on discharge. Figure Figure

Clinical Benefit and Costs’ Evaluation of Erythocytapheresis Compared to Manual Exchange Transfusion for Children with Sickle Cell Disease: A Single Center Experience

Blood ◽  
2014 ◽  
Vol 124 (21) ◽  
pp. 4091-4091
Author(s):  
Laurence Dedeken ◽  
Phu Quoc Lê ◽  
Laurence Rozen ◽  
Hanane El Kenz ◽  
Sophie Huybrechts ◽  
...  
Keyword(s):  
Sickle Cell Disease ◽  
Adverse Events ◽  
Sickle Cell ◽  
Median Duration ◽  
Exchange Transfusion ◽  
Biological Data ◽  
Acute Chest Syndrome ◽  
Continuous Control ◽  
Cell Disease ◽  
Previously Treated

Abstract Chronic transfusion in sickle cell disease (SCD) remains the gold standard therapy for primary and secondary stroke prevention and is indicated for patients with recurrent severe vaso occlusive crisis (VOC) or acute chest syndrome (ACS). Automatized apheresis (AA) has several advantages compared to manual exchange transfusion (MET): shorter procedure, continuous control of fluid balance, etc. The aim of our study was to assess the safety and efficacy of AA in SCD patients previously treated with MET at Hôpital Universitaire des Enfants Reine Fabiola, Brussels, Belgium and to evaluate the change of the costs related to transfusion and chelation overtime. From January 2012, the AA program for SCD patients started in our institution. Patients on chronic transfusion program (CTP) and previously treated with MET were eligible to switch to AA if sufficient peripheral venous access to allow AA without the use of central venous line and if weight ≥ 30kg. On CTP, target HbS was <30% in case of stroke risk and <50% for other indications. Data on biological values, duration of the procedure, intervals between procedures as well as adverse events were recorded for the last 6 months on MET and compared to the data on AA. The overall costs of last year on MET, 1st year and 2nd year on AA were analysed. The cost of packed red blood cell (RBC), one-day care facility, apheresis kit and chelation were recorded. For patients on AA for less than 2 years, costs for the 2nd year were extrapolated taking into account the data from the 6 previous months. Data were collected for this analysis until June 2014. Friedman test was used to compare treatment across years and Dunn's Multiple Comparison Test to compare each year of treatment among them. Ten patients switched from MET to AA at a median age of 11.8 years (range, 9.6-16.8y). The median duration of MET before start of AA was 1.9 years (range 0.5-4.4y). The median duration of AA was 1.7 years (range 1-2.4y). Four patients are on AA for > 2 years, 4 ≥ 20 months and 2 > than 12 months. Indications for CTP were overt stroke (2), pulmonary hypertension (2), recurrent VOC/ACS (5) and poorly tolerated severe anemia (1). All patients remained stable without any SCD related event, except one child who presented seizures without evidence of new stroke and for whom anticonvulsivant therapy was resumed. HbS level remained in the target values for all patients despite a slightly but significantly higher value on AA. The ferritin level and the duration of the procedure decreased significantly (Table 1). The 2 patients on iron chelation stopped it after 10 and 1 AA procedures. Interval between 2 AA was significantly longer than on MET (P<0.0001). On 181 procedures, 9 adverse events (4.9%) required medical intervention: transient hypotension (1), symptomatic hypocalcemia (2), transient headache (2), fever (1), nausea-vomiting (1) and abdominal pain (2). On AA, the requirement of packed RBC was significantly higher than on MET. During the 1st year, costs of AA were significantly higher than MET (132937€ vs.107560€; P=0.01). Nevertheless, during the 2nd year of treatment, the costs of AA were not significantly different from those on MET (102965€ vs. 107560€). Indeed chelation could be stopped in patients previously treated. AA is useful and safe for SCD patients requiring exchange transfusion program. It is less time consuming for nurses and patients, improves iron overload and interval between 2 procedures is significantly reduced. Despite higher costs related to the increase packed RBC requirement, the costs of AA and MET in the Belgian Health Care System are the same as chelation could be stopped in previously treated patients. Abstract 4091. Table 1.Changes in age, weight, biological data and procedure parameters on MET and on AA On METOn AAP value 1st year 2nd yearMedianRangeMedianRangeMedianRangeMedian age (years)11,89,7-16,812,810,8-17,713,311,8-18,6<0,0001Median weight (kg)45,530,4-66,349,933,8-72,05336,1-76,0<0,0001Median height (cm)153,5138-178161143-180165145-182<0,0001Hb (g/L)9,958,6-10,89,958,8-10,6109,2-11,7NSHb S (%)33,525-424028,5-424631-480,0002Ferritin (µg/L)666182-151225552-8111489-622<0,001Duration of procedure (min)245195-36087,375,5-1269164-1540,0002Interval between procedures (d)2821-293428-35,54228-42<0,0001Packed RBC requirement (ml/kg)18,315,1-2032,227,4-36,13026,8-36<0,0001Packed RBC requirement (unit)39,515-796749-12065,538-137<0,0001 Disclosures No relevant conflicts of interest to declare.

scholarly journals Comparison between Automated Erythrocytopharesis (AECP) and Manual Exchange Transfusion (M-Ex)) in Reducing Hb-S and in Recovery of Acute Chest Syndrome and Other Acute Presentations of Sickle Cell Disease Patients

Blood ◽  
2018 ◽  
Vol 132 (Supplement 1) ◽  
pp. 4928-4928
Author(s):  
Said Yousuf Ahmed ◽  
Sameh M. Saleh ◽  
Mohamed Shefan Hameed ◽  
Ahmed M. Ragheb ◽  
Telal M. Abbas ◽  
...  
Keyword(s):  
Saudi Arabia ◽  
Sickle Cell Disease ◽  
Pulmonary Artery ◽  
Sickle Cell ◽  
Exchange Transfusion ◽  
Acute Chest Syndrome ◽  
Cell Disease ◽  
Hemoglobin S ◽  
Artery Thrombosis ◽  
Hb S

Abstract Background: Sickle Cell Disease represents a national health problem in Saudi Arabia with close to 150 thousands of the population are afflicted with the disease. Patients are frequently admitted with life threatening complications like Acute chest syndrome (ACS), Hyperhemolysis (HH), pneumonia, thromboembolism including pulmonary Artery Thrombosis (PAT) or severe protracted painful vasoocclusive crises (VOC). Rapid lowering of Hemoglobin S helps in reducing sickling and in alleviating such complications and allowing rapid recovery. Exchange transfusion is the fastest way to remove pathogenetic sickling red blood cells and reducing Hb S level to a safe level. It can be done manually (Mex) or via Automated Erythrocytopharesis machine (AECP). In this study we compared manual exchange to AECP in achieving the targeted lowering of Hb S and in accelerating clinical recovery. Patients and Methods: Patients included are sickle cell disease patients (HbSS, HbSC, Hb S/thal) admitted to the ER of a central Hospital. Indications of exchange were: acute chest syndrome, acute severe painful vaso-occlusive crises refractory to standard ER protocol of analgesia, stroke, priapism, Hyperhemolysis, and acute pulmonary embolism. P value of significance was calculated using student t-test comparing between median Hb S achieved after manual exchange vs AECP. To assess the rapidity of reversal of desaturation in acute chest syndrome patients, the cumulative incidence of reversal of desaturation and normalization of Oxygen saturation on room air were plotted against time at 0 time of the start of exchange, 2 hours,4 , 12, 24, 48 and 72 hours/discharge (D/C) Results: Table 1 shows clinic-biological characteristics of patients who underwent exchange transfusion. A total of 230 patients-admissions were registered between Dec 1. 2017 to July 27, 2018 for painful VOC to ER; 51 (32%) had clinical indications for exchange (ACS 25, Stroke / fits 1, priapism 1, pulmonary artery thrombosis 1, Hyperhemolysis with VOC (n:7) , VOC with HLH (n:1), and the remaining with "refractory" painful VOC with or without infection. One patient died immediately at the time of arrival to ER before starting any standard resuscitative measures . Exchange transfusion was indicated and done for 53 (23%); 12 (22,6%) AECP and the remaining (77.4%) had Manual Exchange. The median Hb S after manual exchange was 44 % (range 31-74%) which was unsatisfactory and way higher than the targeted level while Automated ECP reached down satisfactorily to a median of 31%(range 8%-50%) ; 67% of whom achieved it with only one session. No mortalities or major procedure related complication reported with manual or automated ECP. Procedurally, 3 patients needed 2 automated sessions and 1 patient used 2 kits for one session. Manual exchange could not achieve the target Hemoglobin S level below or around 30% due to logistic and technical difficulties and sometimes patients' refusal while Automated ECP reached to a mean Hb s level of 28%( range 8%-50%) and nearly two thirds (67%) reached to as low as 31% Hb S level with only one session of Automated ECP and was associated with rapid improvement of the oxygenation within the first 2 hours of the procedure. Conclusions: Erythrocytopharesis (Automated RBC exchange) is effective, quick and safe procedure that is life saving for many patients with ACS and is associated with less difficulties and complications if compared with the manual exchange. Because SCA is a national problem in Saudi Arabia and acute chest syndrome and other acute major complications comprehensively kill SCD patients, Automated Erythocytopharesis should be available nation-wide like dialysis machines at all large hospitals in all cities and should be distributed according to the prevalence of SCA in the area or location. Disclosures No relevant conflicts of interest to declare.

scholarly journals Acute Chest Syndrome in Children with Sickle Cell Disease in Italy: Results of a National Survey from the Italian Association of Pediatric Hematology Oncology (AIEOP)

Blood ◽  
2019 ◽  
Vol 134 (Supplement_1) ◽  
pp. 2301-2301
Author(s):  
Vania Munaretto ◽  
Raffaella Colombatti ◽  
Serena Ilaria Tripodi ◽  
Corti Paola ◽  
Simone Cesaro ◽  
...  
Keyword(s):  
Risk Factors ◽  
Sickle Cell Disease ◽  
Sickle Cell ◽  
Exchange Transfusion ◽  
Acute Chest Syndrome ◽  
Cell Disease ◽  
Italian Association ◽  
Pediatric Hematology ◽  
Frequent Event ◽  
Regional Hospitals

Background: Acute Chest Syndrome (ACS) is the second cause of hospitalization in Sickle Cell Disease (SCD), burdened by significant morbidity and mortality. The guidelines regarding management of ACS are sometimes difficult to follow in the real world and the prevention and treatment strategies of ACS are often applied in an uneven manner in the various settings (community care, regional hospitals, reference university centers). Moreover, epidemiology, clinical phenotype and outcomes as well as risk factors could vary in different populations according to ethnicity, genotype or health care system organization. Aims and Methods: A retrospective multicenter observational study was conducted to investigate the epidemiology of ACS and to the evaluate the diagnostic and therapeutic pathways of ACS in children with SCD (age 0-18 years) in the 2013-2018 period, after the publication of the Italian Association of Pediatric Hematology Oncology (AIEOP) Guidelines for the Management of SCD in Childhood in Italy in 2012. Results: 126 children were recruited and 122 included in the analysis, with 208 evaluable episodes of ACS (range: 1-6 episodes /patient) from 11 AIEOP Centers. 73 M, 49 F. Mean age was 10.9 years. 85% patients were of African origin, 92% were HbSS/SB°; mean age at diagnosis of SCD of the entire cohort was 25,3 months (range 0-16,8). 44.2% of patients had more than one episode of ACS during the study period; 37% had had a previous episode before 2013. 58% had comorbidities, mostly respiratory (asthma or allergy). 75% of the patients underwent disease modifying treatment during study period (73% hydroxyurea, 2% chronic transfusion). The seasonality of ACS episodes was important in our country: 75% of episodes occured between October and March. 95% of ACS episodes were secondary to a Vaso-Occlusive Crisis. 76% of the admissions occurred in SCD reference centers, 24% in regional hospitals, but 30% later required transfer to reference centers for worsening of clinical conditions or need of exchange transfusion. The mean length of hospitalization was 9.6 days (range 1-46); one patient died of pneumococcal sepsis; 6 episodes required transfer to the Intensive Care Unit, mechanical ventilation was required in one episode. A good adherence to the AIEOP Guidelines was documented for some aspects: 99% of the patients were hospitalized, 98% performed chest X-ray for the diagnosis of ACS and in 99% antibiotic therapy was started. Others aspects were less satisfactory and in need of improvement: incentive spirometry was only performed in 19% of admissions; oxygen therapy was performed only in 75% of patients even if SatO2 was<95%; transfer to reference centers was not always timely. During 75% of ACS episodes a simple red cell transfusion was required for Hb>8g/dl, while in 16% an exchange transfusion was performed for severe respiratory distress (of these 71% were performed in patients transfered from regional hospitals); 38% required inhaled bronchodilators, 6% steroids. A preliminay evaluation of risk factors for recurrent ACS showed that in our cohort allergy to inhaled allergens (p 0.02) and enuresis (p 0.01) were associated with increased prevalence of recurrent ACS; patients with asthma/wheezing also presented more recurrent ACS compared to patients wihout them (23% vs 13%) but this data did not reach statistical significance. Conclusion: This study represents the first analysis in Italy of ACS, which is confirmed as a frequent event in our cohort, with a significant proportion of patients who experience recurrent ACS. Steps need to be undertaken to improve management of ACS and adherence to the AIEOP guidelines at a national level: stimulate the application of early preventive measures that are still under-utilized, increase the appropriateness of multidisciplinary specialist approach (transfusion specialist, acute care physicians, pneumologists, hematologists) strengthen the dissemination of information through training events for all the Hospitals of the network. Disclosures Colombatti: AddMedica: Consultancy; Global Blood Therapeutics: Consultancy; Novartis: Consultancy.

Prevalence of Sickle Cell Anemia In Eastern India

Blood ◽  
2010 ◽  
Vol 116 (21) ◽  
pp. 4822-4822
Author(s):  
Abhijit Chakraborty ◽  
Jayasri Basak ◽  
Deboshree Majumdar ◽  
Soma Mukhopadhyay ◽  
Sagnik Chakraborty ◽  
...  
Keyword(s):  
Risk Factor ◽  
Sickle Cell Disease ◽  
Sickle Cell ◽  
Sickle Cell Anemia ◽  
West Bengal ◽  
Conflicts Of Interest ◽  
Acute Chest Syndrome ◽  
Red Cell ◽  
Cell Disease ◽  
Cell Counts

Abstract Abstract 4822 Background: Sickle cell disease is an inherited disorder of hemoglobin synthesis. This is due to replacement of Valine for Glutamic Acid in position six of the Beta globin chain of hemoglobin. This genetic alteration yields unstable RBC which lasts for 10–20 days. In stressful conditions the cells become sickle shaped and get lysed. There are about 20 million people with sickle cell disease in India. During January 2009- May2010 camps were held in various parts of West Bengal, Jharkhand, Chattisgarh. Along with various mutations of thalassemia, we also observed sickle cell anemia among them. This triggered our interest to study the spectrum of the sickle mutation co-inheritant with different mutations such as Homozygous Sickle Cell, Sickle Cell-Beta0 Thalassemia, Sickle Cell-Beta+ Thalassemia, Severe β+ thalassemia genes, Moderate β+ thalassemia genes, Mild β+ thalassemia genes Sickle cell-HbE Thalassaemia, Sickle cell-HPFH Thalassaemia, in said part of India. Since Indian patients with SS disease had higher hemoglobin, red cell counts and higher HbF levels and lower HbA2, MCHC, MCV, and reticulocyte counts, hence a high hemoglobin is a risk factor for painful crises and may also be a risk factor for avascular necrosis of the femoral head, proliferative sickle retinopathy, and acute chest syndrome. Methods: We have screened 332 individuals in eastern part of India during the period January 2009- May 2010. 3ml of peripheral blood was collected in EDTA vial from each individual. NESTROFT (Naked Eye Single Tube Red Cell Osmotic Fragility Test) was performed on spot. Then Complete Blood Count was done within 24 hours of collection. HPLC (High Performance Liquid Chromatography) was performed to identify the samples for confirmation. In our observation in case of sickle cell anaemia HbF (Fetal haemoglobin), Hb (haemoglobin), MCV (mean corpuscular volume) values ranges between 0–10 %, ≤7-10g/dl, 65–90fl respectively. ARMS (Amplification Refractory Mutation System) PCR (polymerase chain reaction) was done to confirm the mutation. Result: Conclusion: Of the total samples collected in the camps held at various places of Jharkand, Chattisgarh & West Bengal 87 of them was carriers of sickle cell anemia. There was 7 homozygous (SS), 14 sickle beta, 12 double heterozygous for HPFH (High Persistance of Fetal Hemoglobin) & sickle cell anemia. In conclusion, the manifestations of sickle cell disease are influenced by a variety of other genetic and environmental factors. The occurrence of the disease against different genetic and environmental backgrounds provides experimental models that contribute to understanding the variability in clinical and hematological expression of the disease. Disclosures: No relevant conflicts of interest to declare.

Children with Sickle Cell Disease on Chronic Red Cell Transfusion Experience Fewer Hospitalizations for Acute Vaso-Occlusive Episodes Irrespective of the Indication for Transfusion

Blood ◽  
2014 ◽  
Vol 124 (21) ◽  
pp. 4282-4282
Author(s):  
Carmen C Wallace ◽  
Hilda Mata ◽  
Nancy J Wandersee ◽  
J. Paul Scott ◽  
Amanda M Brandow ◽  
...  
Keyword(s):  
Sickle Cell Disease ◽  
Sickle Cell ◽  
Admission Rate ◽  
T Test ◽  
Acute Chest Syndrome ◽  
Red Cell ◽  
Cell Disease ◽  
Splenic Sequestration ◽  
Red Cell Transfusion ◽  
The Impact

Abstract While there is strong evidence that chronic red cell transfusion is effective in preventing primary stroke and reducing the risk of recurrent stroke in sickle cell disease (SCD), it is less clear whether chronic transfusions will prevent admissions for other acute vaso-occlusive complications, including pain, priapism and/or acute chest syndrome. To our knowledge, no study to date has investigated the effect of chronic transfusion on the frequency of admissions for acute vaso-occlusive complications in children with all diagnoses of SCD and treated with chronic transfusion for a variety of indications. In addition, this study included a special focus on the effect of chronic transfusion on children who were transfused specifically for recurrent vaso-occlusive episodes. We performed a single-site retrospective chart review. We selected subjects from all children aged 0 to 19 years who were treated (lived in the Milwaukee area) and followed by the Wisconsin Sickle Cell Center at Children’s Hospital of Wisconsin from 1984 to May 2014 (n=695 subjects). Data was extracted from any individual who was enrolled in a chronic transfusion program for a minimum of six months. Data on admissions for painful vaso-occlusive crises, acute chest syndrome (ACS), other SCD complications as well as sickle diagnosis, age at time of transfusion, CBC, reticulocyte count, and percent sickle hemoglobin (HbS%) were collected for 24 months prior to onset of transfusion and for all months during transfusion until the age of 19 yrs. Unless otherwise indicated, all statistical analyses on extracted data were done by paired Student’s t-Test. We extracted data from 103 unique subjects for 108 chronic transfusion programs (as defined above); 5 subjects were chronically transfused twice, separated by at least 4 years without chronic transfusion. 55% were female; average age was 8.6 ± 5.6 (mean ± SD) years and the sickle diagnosis included 94% SS, 3% SC, 2% Sβ°-Thalassemia and 1% SD. The indication for transfusion included pain (n=31), priapism (n=6), ACS (n=5), central nervous system complications (n=37, including stroke, TIA, and abnormal TCD), splenic sequestration (n=25), pulmonary hypertension (n=2), retinopathy (n=1) and osteomyelitis (n=1). The hemoglobin level increased from a baseline of 7.6 ± 2.2 gm/dL to 9.6 ± 0.8 gm/dL during transfusion (p<0.0001, paired t-Test). HbS% was also reduced from a baseline of 84.2 ± 10.8% to 35.8 ± 0.3% during transfusion (p<0.0001). We found that rate of admissions for acute painful episodes, including priapism, dropped from 2.2 ± 2.9 admits/yr during the 24 months pre-transfusion to 1.0 ± 1.9 admits/yr during transfusion (p<0.0001). Similarly, the rate of admission for ACS decreased from 0.3 ± 0.5 admits/yr for 24 months pre-transfusion to 0.1 ± 0.3 admits/yr during transfusion (p=0.0001). Subanalyses were performed on specific indications for transfusion. For children transfused due to frequent acute vaso-occlusive complications (pain, priapism and ACS were arbitrarily included in this group), the average age at initiation of transfusion was 11.9 ± 4.4 yr, and admissions for acute painful episodes dropped from 4.0 ± 3.2 admits/yr during the 24 months pre-transfusion to 2.1 ± 2.6 admits/yr during transfusion (p=0.003). When the indication for transfusion was splenic sequestration (age 2.3±2.7 yr), the admission rate for acute painful episodes did not change (0.8±1.7 vs 0.3±0.5 admits/yr, p= 0.14). For children transfused for CNS complications (age 8.5±4.6 yr), the admission rate for pain improved from 0.9±1.3 to 0.2±0.5 admissions/yr (p=0.007). In agreement with previous studies, our data also showed an increase in the rate of admissions for pain (nontransfused) as subjects aged (r2=0.19, p<0.0001). Thus, the significant improvement in admission rate for pain during transfusion, while the child continues to age, further accentuates the impact of transfusion on the natural history of pain in SCD. In summary, our data suggest that chronic transfusion reduces hospital admissions for pain and acute chest syndrome in children with SCD. Our data also support the notion that chronic transfusion is an effective treatment to prevent not only stroke, but also other painful, life-threatening and life-limiting complications of sickle cell disease. Disclosures No relevant conflicts of interest to declare.

Erythrapheresis Improves Blood Viscosity Compared to Manuel Procedure in Sickle Cell Disease

Blood ◽  
2016 ◽  
Vol 128 (22) ◽  
pp. 2449-2449 ◽  
Author(s):  
Ait Abdallah Nassim ◽  
Connes Philippe ◽  
Di Liberto Gaetana ◽  
Offredo Lucile ◽  
Ranque Brigitte ◽  
...  
Keyword(s):  
Sickle Cell Disease ◽  
Sickle Cell ◽  
Blood Viscosity ◽  
Exchange Transfusion ◽  
Acute Chest Syndrome ◽  
Cell Disease ◽  
Blood Exchange ◽  
Genotype 2 ◽  
Blood Exchange Transfusion ◽  
The Impact

Abstract Blood transfusion is a cornerstone of the treatment in sickle cell disease (SCD). Guidelines and clinical trials indicate their use in several acute and chronic SCD manifestations such as cerebral vasculopathy prevention and acute chest syndrome. Two methods of blood exchange transfusion are available for physicians and patients: manual exchange transfusion (MET) and erythrapheresis, i.e. an automated exchange transfusion (AET). MET consists in a phlebotomy followed by a transfusion while erythrapheresis corresponds to the replacement of only sickle RBCs by healthy RBCs by controlling hematocrit. To our knowledge, no study has compared the impact of these two methods on blood viscosity and the ratio of hematocrit to blood viscosity (HVR); i.e., an index of red blood cell oxygen transport effectiveness (Alexy et al, 2006). Herein we aimed to compare those two procedures in term of biological parameters and blood viscosity, in order to offer new physiological parameters to guide the therapeutic management of SCD patients. This prospective, monocenter, observational study included sickle cell patients, ≥18 years old, treated by Blood Exchange Transfusion (BET) in our university hospital's Adult Sickle-Cell Referral Center. The primary end point was the change in blood viscosity during the BET procedure. Secondary end-points included the change in HVR, blood viscosity and HVR at the end of the procedure. Blood viscosity was measured after full oxygenation of the blood, at native hematocrit and at a shear rate of 225 s-1using a cone/plate viscometer (Brookfield DVII+ with CPE40 spindle, Brookfield Engineering Labs, Natick, MA, USA) (Baskurt et al, 2009). This study was approved by the local Institutional Review Board. All patients gave their signed informed consent for the genetic studies in accordance with the Declaration of Helsinki. All data were rendered anonymous to protect patients' privacy and confidentiality. Twelve patients in AET group and 31 patients in MET group were included. Thirty-nine patients had a SS genotype, three patients had a S-β0 thalassemia genotype (2 AET, 1 MET) and one had a S-β+thalassemia genotype (AET). The proportion of hydroxyurea-treated patients was not different between the two groups (20/31 in MET group and 5/12 in the AET group; p=0.17). The BET indication was cerebral vasculopathy in 11/12 and vaso-occlusive crisis in 1/12 in the AET group. BET indications in the MET group were: frequent vaso-occlusive crisis (10/31), severe organ dysfunction or organ transplant (12/31), provisory hydroxyurea interruption due to pregnancy, breastfeeding, paternity desire (4/31) and leg ulcers (3/31). Differences between groups before BET were only a higher percentage of HbF in the MET group and a higher percentage of HbA in the AET group. Both AET and MET procedures decreased HbS level, leucocytes and platelets counts, and increased HbA level (p ranging from < 0.01 to < 0.001). The decrease in HbS (p < 0.001), HbF (p < 0.05), HbA2 (p < 0.05), leucocytes (p < 0.001) and platelets (p < 0.001) levels was higher in the AET than in the MET condition. MET caused a significant rise in hematocrit and hemoglobin (p < 0.001). In contrast, AET did not change hematocrit and induced a slight increase in hemoglobin (p < 0.05). The percentage of change in hemoglobin and hematocrit was higher in the MET than in the AET condition (p < 0.01 and p < 0.05, respectively). The median blood viscosity after AET was significantly lower (3.77 cP [3.78-4.25]) compared to before (4.47 cP [3.88-5.22 ]; (p=0.0001)), whereas there was no difference before (4 cP [3.7-4.25]) and after (4.15 cP [3.73-4.88]) BET in the MET group (p=0.11). The percentage of variation in blood viscosity between AET and MET was significantly different (p < 0.01). Both AET and MET significantly increased HVR (p < 0.001 and p < 0.01, respectively) and the percentage of variation was not significantly different between the two procedures (p = 0.138). Conclusion: Automated exchange transfusion and not manual exchange transfusion improved blood viscosity. This might be due to the control of hematocrit allowed by the automated procedure, while decreasing the HbS percentage. Automated exchange transfusion should be preferred in acute and chronic SCD manifestations to improve blood rheology. Disclosures No relevant conflicts of interest to declare.

Safety, tolerability, and outcomes of regular automated red cell exchange transfusion in the management of sickle cell disease

2016 ◽  
Vol 31 (6) ◽  
pp. 545-550 ◽  
Author(s):  
Dimitris A. Tsitsikas ◽  
Bala Sirigireddy ◽  
Ruben Nzouakou ◽  
Alexander Calvey ◽  
Joanne Quinn ◽  
...  
Keyword(s):  
Sickle Cell Disease ◽  
Sickle Cell ◽  
Exchange Transfusion ◽  
Red Cell ◽  
Cell Disease

scholarly journals Role of Automated Red Cell Exchange in Acute and Chronic Complications of Sickle Cell Disease

Blood ◽  
2018 ◽  
Vol 132 (Supplement 1) ◽  
pp. 3674-3674
Author(s):  
Shivi Jain ◽  
Adam Rock ◽  
Caitlin Lopes ◽  
Santosh L. Saraf ◽  
Xu Zhang ◽  
...  
Keyword(s):  
Sickle Cell Disease ◽  
Iron Overload ◽  
Sickle Cell ◽  
Exchange Transfusion ◽  
Hematological Parameters ◽  
Red Cell ◽  
Cell Disease ◽  
Chronic Complications ◽  
The Mean ◽  
The Difference

Abstract Background. Automated red cell exchange transfusion (ARCET) is commonly used in patients with sickle cell disease, but objective data on its impact on acute and chronic complications are limited. Methods. Fifty-two sickle cell disease patients at the University of Illinois at Chicago underwent exchange transfusion from January 2011 to January 2016. Six patients were excluded due to incomplete data leaving 46 patients available for analysis. We collected data from the year before, year after and the year of ARCET to study the impact of red cell exchange on clinical, biological and hematological parameters. Results. There were 435 procedures with average of 9.45 per patient (range 4-14). The mean age of our cohort was 58.2 years. There were 22 (47.8%) males and 24 (52.2%) females. Genotypes include 42 (91.3%) HbSS, 1 (2.2%) HbSC, 1 (2.2%) HbSBeta+thalassemia and 2 (4.3%) HbSBeta0thalassemia. The most common indication for ARCET in our cohort was prior stroke in 32 patients (69.6%) and prevention of stroke in 7 patients (15.2%), followed by frequent vaso-occlusive crisis (VOC) 8 patients (17.4%), multiple acute chest syndrome 6 patients (13%), pulmonary hypertension 6 patients (13%) and chronic kidney disease 5 patients (8.9%). Iron overload, sickle hepatopathy, cardiomyopathy and seizure were some of the other indications. Twenty-five patients (54.3%) had more than one indication to undergo the ARCET. Thirty-one patients (67.4%) are still continuing the treatment. Thirty patients (65.2%) were on hydroxyurea (HU) prior to ARCET and 8 patients (17.4%) were still on HU while on ARCET. The mean frequency of ARCET was every 6 weeks. The mean pre and post ARCET values for hemoglobin(Hb), hematocrit (Hct), Hemoglobin S %(HbS), white cell count (wbc) and platelets(plt) are shown in Table 1. Paired t-test and Wilcoxon signed-rank test were used to analyze the clinical and hematological parameters. Analysis shows increase in mean Hb and Hct post ARCET and decrease in mean wbc, plt and HbS % post ARCET and the difference is statistically significant. (Table 3). Post ARCET body mass index (BMI) and weight are increased and the difference is statistically significant with p value 0.002 for BMI and 0.003 for weight. (Table 3). Ten (21.7%) patients showed decrease in the ferritin level post exchange. Thirty patients (65%) had VORTEX port whereas 29 patients (63%) had central venous access for procedures prior to Vortex placement (17/29, 59%). Nine patients (20%) had peripheral access mostly power port (for access) with one peripheral vein for return (6/9 67%). There were 10 access related complications and there were 3 port replacements due to septum damage and infection. There were 10 procedure related complications and 10 transfusion reactions as described in Table 2. ED admissions were decreased in 13(28.3%) patients from mean 7.69 to 2.92 admissions. The annual inpatient admissions showed a decrease in 18(39.2%) patients from mean 4.6 days pre ARCET to 1.6 admissions post ARCET. The acute care admissions showed an increase due to program expansion of our acute care center during this study period. Discussion. Our study shows that red cell exchange is an effective treatment modality for patients with sickle cell disease. It contributes to improvement in weight, increase in Hb and Hct and decrease in wbc, plt, HbS% and iron overload. It also decreases inpatient and ED admissions. The procedure is safe and tolerable with minimal complications. Long term studies are needed study the efficacy of this treatment modality and its contribution to improvement of quality of life and life expectancy in sickle cell disease patients. Disclosures No relevant conflicts of interest to declare.

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