scholarly journals Assessment of Iron Overload Impact on QTc Interval in Patients with Sickle Cell Disease

Blood ◽  
2018 ◽  
Vol 132 (Supplement 1) ◽  
pp. 3673-3673
Author(s):  
Gilbert Bader ◽  
Gregory J. Kato ◽  
Suvankar Majumdar ◽  
James Pollard ◽  
Jarrod Knudson ◽  
...  
Keyword(s):  
Sickle Cell Disease ◽  
Iron Overload ◽  
Sickle Cell ◽  
Research Funding ◽  
Iron Toxicity ◽  
Conduction Delay ◽  
P Value ◽  
Qtc Interval ◽  
Cell Disease ◽  
Qtc Prolongation

Abstract Ischemic injuries and subsequent degenerative myocardial and conduction system abnormalities occur in patients with sickle cell disease (SCD). This may lead to conduction and repolarization delays reflected as QTc prolongation. Patients with SCD have increased risk of cardiac death, the basis of which remains uncertain. QTc prolongation may be a contributing factor. We decided to examine factors that can potentiate QTc prolongation in this population. In particular, we studied effect of iron overload estimated by serum Ferritin level on QTc. We performed a cross-sectional study in SCD patients older than 18 years, in steady state, followed in our clinic. Patients with acute illness or vaso-occlusive crisis in prior 2 weeks, patients with bundle branch block, pacemaker or arrhythmia and patients unable to give consent were excluded. Prolonged QTC was defined as >450 and >460 ms in men and women respectively. Patients were divided into 3 groups corresponding to mild, moderate and severe iron overload with Ferritin < 1000, between 1000 and 3000 and > 3000 ng/mL respectively. QTc was prolonged in 25/177 patients (14%). Those were older (p=0.041), had lower hemoglobin (Hb) (p<0.001) and higher Ferritin (p=0.019). Their mean age was 33.8 years, Hb 8.26 g/dL and Ferritin 3167 ng/mL compared to 29.2, 9.58 and 1735 respectively in patients with normal QTc. Twenty eight % of patients with prolonged QTc had comorbidities compared to 9% of patients with normal QTc (p=0.004). There was no difference between the 2 groups regarding gender, weight, blood pressure, Lactate dehydrogenase, electrolytes, Reticulocytes count or use of medications known to prolong QTc. Mean QTC was 429, 438 and 440 ms in groups 1,2 and 3 respectively (p=0.013). Linear regression analysis showed that QTc is expected to be longer in groups 2 and 3 compared to group 1. We also estimated QTc prolongation corresponding to 500 unit increment in Ferritin. QTc is expected to get prolonged by 0.83 ms for each 500 unit increment of Ferritin with p value of 0.028 in unadjusted model and by 0.79 ms with p value of 0.035 and 0.67 ms with p value of 0.085 in models where age and comorbidities were adjusted for respectively. Hb was found to be inversely correlated with Ferritin. Correlation coefficient was -0.39 with p value < 0.001. Although there was no significant correlation between Ferritin and JTc, analysis showed that QRS is expected to increase by 0.33 ms for each 500 unit increment in Ferritin with p value of 0.022. Comorbidities including diabetes mellitus, kidney and heart disease are known independent factors that can cause QTC prolongation. QTc increases with age. However, this mainly applies to people older than 50 years (J Geriatric Cardiol 2016 Sep;13(9):740-8). We don't believe age is an independent QTc prolonging factor in our patients especially that mean age of patients with prolonged QTc was 33.87 years. Probably older patients had longer exposure to iron toxicity which may be the true contributing factor to QTc prolongation. Patients with prolonged QTc had lower Hb. However, no correlation was found between Hb and QTc in patients with anemia caused by conditions other than SCD (Chin Med J 2015 Dec 20;128(24):3385-6). In addition, major cause of tissue injury in SCD patients is intracellular polymerization of HbS. However, there is no correlation between Hb concentration and intracellular HbS polymer content (Blood 1998 Mar 1;91(5):1777-83). Thus, we don't think Hb is an independent QTc prolonging factor. Probably patients with lower Hb received more transfusions and subsequently had more pronounced iron overload which may be the direct contributing factor to QTc prolongation. The negative correlation between Hb and Ferritin supports our hypothesis. Thus, we think that the model where just comorbidities were adjusted for is the best to reflect the association between Ferritin and QTc. Iron overload reduces overshoot ( Circulation 1999 Aug 10;100(6):675-83) which will compromise propagation of cardiac impulse and result in conduction delay. Iron also leads to production of free radicals. That will cause chronic inflammation and fibrosis. We showed that QRS is expected to get prolonged with iron overload in SCD patients which is consistent with the physiology of iron toxicity. QTc prolongation seems to be associated with iron overload in SCD patients. Conduction delay manifested by prolonged QRS may be the main contributor rather than repolarization delay. Disclosures Bader: NIMHD: Research Funding. Majumdar:NIMHD: Research Funding. Maher:NIMHD: Research Funding.

Prolonged QTc in Sickle Cell Disease: A Potential Risk Factor for Early Death?

Blood ◽  
2008 ◽  
Vol 112 (11) ◽  
pp. 2476-2476
Author(s):  
Sean Lindstedt ◽  
Lynne Neumayr ◽  
Gregory Kurio ◽  
Claudia Morris ◽  
Shanda Robertson ◽  
...  
Keyword(s):  
Pulmonary Hypertension ◽  
Sickle Cell Disease ◽  
Sudden Death ◽  
Iron Overload ◽  
Sickle Cell ◽  
Iron Toxicity ◽  
Control Group ◽  
Cell Disease ◽  
Qtc Prolongation ◽  
Cardiac Iron

Abstract Background: Sudden unexplained death is one of the leading causes of mortality in sickle cell disease (SCD). Prolonged QTc has been associated with sudden death in older patients and in those with cardiac disease. Sudden death due to cardiac arrhythmias occurs in thalassemia (Thal) patients from cardiac iron toxicity, and recently, QTc prolongation has also been identified in this transfusion-dependent population. Chronic transfusion and iron overload have become more frequent in patients with SCD due to treatment regimens aimed at stroke prevention and treatment of stroke, pulmonary hypertension (PH) and recurrent vaso-occlusive crisis. Cardiac iron toxicity is thought to be rare in SCD but other factors such as anemia, PH, and hemolysis-associated nitric oxide dysregulation may predispose SCD to prolongation of the QTc interval. The purpose of this study was to examine the prevalence of QTc prolongation in chronically transfused and iron-overloaded SCD (txSCD) patients compared to a control group of non-transfused SCD patients. Methods: In this study, electrocardiograms (EKGs) were reviewed from SCD patients participating in the MCSIO, a five-year prospective study of the complications of iron toxicity in SCD and Thal. Using Bazett’s formula, a subset of 96 EKGs were analyzed for QTc prolongation, defined as ≥ 0.45 seconds and borderline as 0.44 to 0.449 seconds. Echocardiograms (ECHOs) obtained within an average of seven months were analyzed for left ventricular dysfunction (LVD) --which was defined as an ejection fraction &lt; 55% or shortening fraction &lt; 28% --and the presence of PH, defined as a tricuspid regurgitant jet velocity (TRJV) of ≥ 2.5 m/second. Results: There was no difference in mean age (25.3 ± 13.6) or gender (64% female) between the 65 txSCD and 31 control SCD patients. The txSCD group had been transfused 10 ± 6.2 years and their baseline ferritin was 3107 compared to 116 in the controls. QTc prolongation was present in 32% of the txSCD and 29% of the control group (n.s.); borderline prolongation was seen in an additional 17% and 13%, respectively. Mean QTc in txSCD was also not significantly different from the SCD controls: 0.45±.04 vs. 43±.03 (n.s.). None of the 68 patients with ECHOs had LVD. 36 patients had TRJV measured during the study: 50% of the txSCD had PH compared to 30% of non-transfused SCD (n.s.). The average QTc in PH patients was 0.45 ± .04 compared to 0.43 ± .04 in those without PH (p=.09). However, the frequency of either prolonged or borderline QTc was significantly higher in patients with PH (72% vs. 22%, p= .007). No correlations between QTc and age, gender, or baseline laboratory values (hemoglobin, white blood count, or platelets) were found. In the txSCD, QTc was not correlated to ferritin or years of transfusion. Conclusions: Overall, QTc prolongation was found in 31 % of SCD patients and borderline prolongation in an additional 16%. QTc intervals ≥ 0.44 were more common in patients with PH. Transfusion exposure and iron overload were not associated with QTc prolongation in this group of txSCD patients. The frequency of QTc prolongation is concerning in SCD patients, who often have pulmonary hypertension and are treated with medications known to contribute to QTc prolongation. Routine screening for QTc prolongation appears warranted with treatment of high-risk SCD patients.

scholarly journals Three Months of Human Haptoglobin Treatment Decreases Iron Deposition in the Kidneys of Townes Sickle Mice

Blood ◽  
2015 ◽  
Vol 126 (23) ◽  
pp. 2163-2163
Author(s):  
Patricia A Shi ◽  
Erika Choi ◽  
Julia Nguyen ◽  
Xinhua Guo ◽  
Narla Mohandas ◽  
...  
Keyword(s):  
Treatment Group ◽  
Sickle Cell Disease ◽  
Sickle Cell ◽  
Research Funding ◽  
Urine Osmolality ◽  
Organ Damage ◽  
Iron Deposition ◽  
P Value ◽  
Cell Disease ◽  
Old Mice

Abstract Introduction: Haptoglobin (Hp), the scavenger for hemoglobin, and hemopexin (Hx), the scavenger for heme, are depleted in most patients with sickle cell disease due to chronic hemolysis. There is mounting evidence of the crucial role of free hemoglobin and/or free heme in mediating inflammatory and oxidative damage in sickle cell disease, including vaso-occlusion and acute chest syndrome. Purified Hp has been used in Japan for a variety of hemolytic conditions and has been proposed as a potential treatment for sickle cell disease. Although infusions of Hp or Hx have been shown to ameliorate vaso-occlusion, acute lung injury, and heme toxicity in sickle cell mouse models, no prior studies have examined the utility of chronic Hp treatment for amelioration of organ damage. We therefore studied the effect of 3 months of chronic Hp treatment in the Townes sickle mouse model. Methods: Male and female Townes mice (Stock number 013071, The Jackson Laboratory) were used for all experiments, starting at 1 or 3 months of age. SS genotype was confirmed by PCR and HPLC. Organ damage in the spleen, liver, and kidneys as previously described was confirmed. Human Hp solution was a kind gift from Bio Product Laboratory (BPL, Hertfordshire, UK). Hp or equivalent volume PBS control was administered intraperitoneally (IP) in the first cohort of 5 mice and then subcutaneously (SC) in the next two cohorts of 7 and 12 mice on a 48-72 hr dosing schedule of Monday, Wednesday, Friday for a period of 3 months. At the end of 3 months treatment, mice were evaluated by the following studies (with concurrent blinding to treatment group for most studies): plasma Hp (ELISA), plasma heme (QuantiChrom heme assay), urine osmolality (osmometer), urine albumin (ELISA), CBC (Advia 120), WBC differential (Advia 120 and manual count), red blood cell ektacyometry (ektacyometer), organ mass (percent of body weight), and organ histology. Results: Mouse Hp levels in SS Townes mice were confirmed to be markedly low compared to Townes AA mice (mean ± SD: SS 2 ± 1 versus AA 39 ± 4 ug/mL). Dose-finding experiments determined that a dose of 200-400 mg/kg IP or SC in SS mice resulted in a 24 hr peak concentration that was 5-14X supraphysiologic, variably physiologic at 48 hr, and absent or almost absent at 72 hr. Chronic dosing at the 400 mg/kg IP in SA mice showed no CBC or organ toxicity. Three successive cohorts of SS mice were treated with Hp (or equivalent volume of PBS): 200 mg/kg IP in 3-month old mice, 400 mg/kg SC in 3-month old mice, and 400 mg/kg SC in 1-month old mice. At the 400 mg/kg dosing levels, there was a significant decrease in iron deposition in the kidneys of both 4-month and 6-month old mice (treatment started at 1-month and 3 months, respectively) (Table 1). There was also a trend towards decreased liver infarction in 6-month old mice (Table 2). Discussion: Functional binding of the administered human Hp to the human Hb of the Townes mice likely occurred, as evidenced by the decrease in iron deposition in the kidneys, suggesting that formation of the complex prevents filtration of Hb into the kidneys. Surprisingly, kidney function as measured by urine osmolality or albumin excretion was not improved, which may be explained by continued heme-laden red cell microparticle filtration (Camus SM, Blood 2015). Encouragingly, however, a trend towards decreased liver infarction in older mice was observed. The less-than-expected effect of Hp on mouse disease severity may also be explained by: 1) continuous physiologic Hp concentrations not being maintained with the dosing frequency while continued hemolysis releases Hb every minute of the day, and 2) CD163-mediated uptake in mice seems to only account for a part of the Hb clearance as opposed to in humans (Etzerodt A, Antioxid Redox Signal 2013). Despite the limitations of the SCD mouse model, the current study suggests haptogobin infusions could be beneficial in SCD patients. Acknowledgment: The authors are grateful to Sandra Suzuka for performing the HPLC. Table 1. Table 1. Kidney iron deposition (scale 1-10) Treatment group 6-month old SS 4-month old SS 400 mg/kg Hp 4.0 ± 1.4 1 ± 1.1 PBS 9.3 ± 0.6 5 ± 2.9 p-value 0.002 0.02 Table 2. Liver infarction (scale 1-10) Treatment group 6-month old SS 4-month old SS 400 mg/kg Hp 2.6 ± 2.0 3.7 ± 2.8 PBS 6.3 ± 2.4 3.8 ± 2.3 p-value 0.07 0.91 Disclosures Belcher: Biogen Idec: Research Funding; Seattle Genetics: Research Funding; CSL Behring: Research Funding. Vercellotti:CSL Behring: Research Funding; Seattle Genetics: Research Funding; Cydan: Research Funding; Biogen Idec: Research Funding.

scholarly journals Iron Overload Is Under-Recognized and Under-Treated in SCD: A Report from the Grndad Registry

Blood ◽  
2018 ◽  
Vol 132 (Supplement 1) ◽  
pp. 158-158
Author(s):  
Matthew Sears ◽  
Sophie Lanzkron ◽  
Carolyn Hoppe ◽  
Joshua J. Field ◽  
Payal C Desai ◽  
...  
Keyword(s):  
Sickle Cell Disease ◽  
Iron Overload ◽  
Sickle Cell ◽  
Research Funding ◽  
Chelation Therapy ◽  
Ferritin Level ◽  
Research Network ◽  
Cell Disease ◽  
Liver Iron ◽  
High Iron

Abstract Background: Chronic transfusion therapy (CTT) is a mainstay of prophylactic management and treatment for adults and children with high risk Sickle Cell Disease (SCD). We estimate that 10-20% of all adults with SCD managed at our centers, especially those with homozygous HbSS disease, are on CTT, for long-term management of cerebral vasculopathy, significant end organ damage, or chronic pain. Iron overload is a common complication of CTT and for patients receiving intermittent transfusion to treat acute complications. Each unit of transfused blood introduces approximately 250 mg of iron into the bloodstream, and with it, increased oxidative stress (A. Remacha, et al., "Guidelines on haemovigilance of post-transfusional iron overload," Blood Transfusion, vol. 11, no. 1, pp. 128-139, 2013). High iron levels in the blood cumulatively lead to systemic iron deposition, particularly in the liver and heart, and untreated may lead to organ dysfunction or death. Patients with high iron levels should be put on iron chelation. Recent NHLBI guidelines suggest that patients on CTT be monitored for iron accumulation with quarterly ferritin levels, and annual or semiannual liver iron scans to assess hepatic iron burden, though the optimal frequency of these scans has not been established (B. P. Yawn, et al., "Management of Sickle Cell Disease: Summary of the 2014 Evidence-Based Report by Expert Panel Members," JAMA, vol. 10, no. 312, pp. 1033-1048, 2014). We examined iron overload, its frequency, severity, and management, in a modern population of adults with SCD enrolled in the multi-center prospective sickle cell registry, Globin Research Network of Data and Discovery (GRNDaD). Methods: GRNDaD is a multi-site registry of both adult and pediatric SCD patients, currently accruing at 5 urban sickle cell centers, in Baltimore MD, Cleveland OH, Milwaukee WI, Columbus OH, and Oakland CA. It currently contains prospective baseline and annual update information on nearly 500 people with SCD. Additionally, approximately 150 more patients have consented, with data entry pending. The dataset comprises demographics as well as baseline and yearly lab values, complications, procedures, treatment, and vaccination history for each patient. Among these data are ferritin levels, liver iron scan results, and chelation therapy information. We analyzed ferritin levels in people with SCD, relative to genotype, age, gender, treatment type, liver iron scan results, and chelation therapy history. Results: There were 402 adults (age≥18 years) in GRNDaD who had a non-crisis ferritin level from a routine follow-up visit. This included people with phenotypic homozygous SCD (HbSS, n=255 and Sβ0 thalassemia, N=13), variant SCD (HbSC, n=80, or Sβ+ thalassemia, n=37), and other or unknown genotypes (n=17, Table 1). Nearly 3 in 10 of all patients with SCD (n=118, 29.3%) had a ferritin level at baseline ≥1500 mg/dL, which is an accepted threshold above which to initiate chelation. Most people with an elevated ferritin had phenotypic SCA (homozygous Hb S) (n=111, or 94%). Over half of all SCD patients with a critically elevated ferritin were on CTT (n=64, 54%), and a similar number of people with SCD and critical ferritin levels were on chelation (n=64, 54%). Less than 1 in 4 had had a liver iron scan within 3 years (n=27, 23%). More than 1 in 3 patients with critical ferritin levels and no chelation therapy remained on CTT (n=21, not shown). Conclusions: Our multi-site registry, GRNDaD, prospectively surveyed a sizable population of adults with SCD, including data about iron overload. Of the adults in the GRNDaD registry with iron overload, we identified an unacceptably high fraction, nearly half, who were not on chelation. Most of these patients were people with phenotypic homozygous SCD. We are systematically addressing this deficiency with educational tools through GRNDaD. Since GRNDaD sites are academic centers across the country which focus on the management of SCD, we speculate that the problem of undertreated iron overload nationally is probably both widespread and under-recognized. We anticipate that, as GRNDaD continues to add additional sites, it will evolve as a robust resource through which to highlight important opportunities for clinical quality improvement in the expanding young adult population with SCD. GRNDaD may be a model for identifying and addressing deficiencies in current clinical practices for management of SCD. Disclosures Lanzkron: selexys: Research Funding; Ironwood: Research Funding; PCORI: Research Funding; HRSA: Research Funding; Pfizer: Research Funding; NHLBI: Research Funding; GBT: Research Funding; Prolong: Research Funding. Field:Incyte: Research Funding; Prolong: Research Funding; Ironwood: Consultancy, Research Funding. Desai:University of Pittsburgh: Research Funding; Selexy/Novartis: Research Funding; NIH: Research Funding; Ironwood: Other: Adjudication Committee; FDA: Research Funding; Pfizer: Research Funding. Little:PCORI: Research Funding; NHLBI: Research Funding; Hemex: Patents & Royalties: Patent, no honoraria; Doris Duke Charitable Foundations: Research Funding.

Non Transferrin Bound Labile Plasma Iron and Iron Overload in Sickle Cell Disease: a Comparative Study Between Sickle Cell Disease and β Thalassemic Patients.

Blood ◽  
2009 ◽  
Vol 114 (22) ◽  
pp. 4625-4625
Author(s):  
Ariel Koren ◽  
Daniel Fink ◽  
Osnat Admoni ◽  
Yardena Tennenbaum-Rakover ◽  
Carina Levin
Keyword(s):  
Sickle Cell Disease ◽  
Iron Overload ◽  
Sickle Cell ◽  
Research Funding ◽  
Iron Status ◽  
Blood Transfusions ◽  
Grey Zone ◽  
Cell Disease ◽  
Plasma Iron ◽  
Oncology Research

Abstract Abstract 4625 BACKGROUND Blood transfusions are the standard of care in β thalassemia and transfusions are also indicated in Sickle Cell Disease (SCD) patients with hypersplenism, recurrent vaso-occlusive crises and for stroke prevention. Iron overload caused by blood transfusions in thalassemia and in SCD may affect morbidity and mortality. Recent studies of iron overload in SCD suggest that the biologic features of SCD and the chronic inflammatory state may protect SCD patients from iron damage. DESIGNS AND METHODS In view of the controversy regarding the effect of iron overload in patients with SCD we studied the iron status, including non transferrin bound iron (NTBI) and labile plasma iron (LPI) levels in a cohort of thirty six SCD patients and compare the results with 43 thalassemia patients. RESULTS Our results indicate that none of the SCD patients had clinical symptoms of iron overload. Only two SCD patients had NTBI values in the grey zone (0.4 units) and none had positive values. By contrast, 14 patients with Thalassemia Major and 3 with Thalassemia Intermedia had NTBI values above 0.6, level that are in the positive pathological range. Similarly, four thalassemia patients, but only one SCD patient had positive LPI levels. CONCLUSIONS The parameters of iron status in SCD patients, even after frequent transfusions are different when compared to patients with thalassemia. The low NTBI and LPI levels found in patients with SCD are in keeping with the absence of clinical signs of iron overload in this disease. Disclosures: Koren: Novartis Oncology: Research Funding. Levin:Novartis Oncology: Research Funding.

Iron Trafficking and Distribution in Transfusional Overload: Insights From Comparing Diamond Blackfan Anemia with Sickle Cell Disease and Thalassemia

Blood ◽  
2012 ◽  
Vol 120 (21) ◽  
pp. 995-995 ◽  
Author(s):  
John B. Porter ◽  
Patrick B Walter ◽  
Lynne D Neumayr ◽  
Patricia Evans ◽  
Marcela G Weyhmiller ◽  
...  
Keyword(s):  
Sickle Cell Disease ◽  
Iron Overload ◽  
Sickle Cell ◽  
Research Funding ◽  
Hepatic Iron ◽  
Iron Loading ◽  
Cell Disease ◽  
Ineffective Erythropoiesis ◽  
Iron Distribution ◽  
Diamond Blackfan Anemia

Abstract Abstract 995 Background: β-thalassemia major (TM) is the paradigm for chronic transfusional iron overload, in which the extra-hepatic organ failure is best described. In Sickle Cell Disease (SCD), these consequences appear later and at a lower frequency. In chronically transfused Diamond Blackfan Anemia (DBA), extra-hepatic iron overload, although less well documented, appears to occur early and at high frequency. A Multicenter Study of Iron Overload (MCSIO) aims to explore how key candidate factors affect iron distribution; including inflammation, ineffective erythropoiesis, level of iron overload, and hepcidin synthesis. Plasma non-transferrin bound iron (NTBI) could be a key mechanism by which iron is delivered to tissues and may determine the propensity for extra-hepatic iron distribution. Here we focus on how markers of ineffective erythropoiesis (IE) and erythron expansion impact iron distribution, with particular reference to NTBI and iron distribution determined by MRI. Methods: Iron-overloaded patients (5 TM, 5 SCD, and 5 DBA) with ferritin > 1500 g/dl or LIC > 7 mg/g dry wt, age ≥16, age 0 to 9 at initiation of transfusion and 10 to 20 years of transfusion exposure were enrolled from 3 sites in the US and Europe. 5 non-transfused healthy controls were also enrolled. A detailed medical, transfusion and chelation history were obtained with standardized MRI evaluations for hepatic, cardiac, and pituitary iron deposition. Fasting, early morning blood samples were obtained one day prior to transfusion. Chelation was held for 72 hours prior to each sample. Results: Results are shown in the table as median values. DBA patients had the highest NTBI prior to transfusion despite having the lowest ferritin and LIC levels. GDF15 levels were highest in TM, with similar levels in SCD and DBA. EPO levels were nearly two orders of magnitude higher in DBA than TM or SCD. DBA patients also had the highest median cardiac R2*; two patients showing values above the control range. Whereas the median pituitary R2 in DBA was not above control, two of the patients had the highest R2 values, suggesting heavy iron deposition. EPO values in DBA are nearly two orders of magnitude higher that in SCD or TM despite similar pre-transfusion Hb values. GDF15 values are approximately three times controls, while soluble transferrin receptors (sTfR) values are almost undetectable. With SCD, no patients had increased cardiac iron loading, despite median SF and LIC being the highest in this group. Surprisingly all SCD patients had pituitary R2 values above the upper limit of normal. 1 TM patient had increased cardiac R2* whereas three had increased pituitary iron. In TM, NTBI was strongly correlated with GDF15 (Pearson's Rho=0.93) but in DBA, GDF15 was inversely correlated with NTBI (-.95). Conclusions: High GDF15 levels have been reported in conditions associated with IE, such as TM, but not in DBA. GDF15 reputedly suppresses hepcidin synthesis, thereby increasing iron absorption and potentially NTBI levels. The increased GDF15 in DBA, while sTfr remain less than controls, suggests that erythropoietic precursors do not reach the stage where sTfr are expressed and that this occurs at a later differentiation stage than GDF15. Increasing NTBI in TM with increasing GDF15 is consistent with IE contributing to NTBI formation, but the lack of this relationship in DBA suggest another mechanism for high NTBI. As the erythron is destroyed at a pre-hemoglobinised stage in DBA, IE would not contribute directly to NTBI formation. However, the extremely high EPO levels in DBA may inhibit hepcidin synthesis, as in other conditions, thereby increasing NTBI. This in turn may account for the extra-hepatic iron distribution demonstrated by MRI in DBA. The increased pituitary iron without cardiac loading in the heavily loaded SCD patients suggests that with prolonged exposure to heavy iron overload, the pituitary iron loading may be the first indicator of extra-hepatic deposition. Disclosures: Porter: Novartis: Consultancy, Research Funding. Walter:Novartis: Research Funding. Harmatz:Novartis: Research Funding; Ferrokin: Research Funding. Wood:Ferrokin Biosciences: Consultancy; Shire: Consultancy; Apotex: Consultancy, Honoraria; Novartis: Honoraria, Research Funding. Vichinsky:Novartis: Consultancy, Research Funding; ApoPharma: Consultancy, Research Funding; ARUP Research lab: Research Funding.

Growth differentiation factor-15 in young sickle cell disease patients: Relation to hemolysis, iron overload and vascular complications

2014 ◽  
Vol 53 (4) ◽  
pp. 189-193 ◽  
Author(s):  
Azza Abdel Gawad Tantawy ◽  
Amira Abdel Moneam Adly ◽  
Eman Abdel Rahman Ismail ◽  
Yasser Wagih Darwish ◽  
Marwa Ali Zedan
Keyword(s):  
Sickle Cell Disease ◽  
Iron Overload ◽  
Sickle Cell ◽  
Vascular Complications ◽  
Cell Disease ◽  
Growth Differentiation Factor 15 ◽  
Differentiation Factor

scholarly journals Serum ferritin and total units transfused for assessing iron overload in adults with sickle cell disease

2012 ◽  
Vol 157 (5) ◽  
pp. 645-647 ◽  
Author(s):  
Emma Drasar ◽  
Nisha Vasavda ◽  
Norris Igbineweka ◽  
Moji Awogbade ◽  
Marlene Allman ◽  
...  
Keyword(s):  
Sickle Cell Disease ◽  
Iron Overload ◽  
Sickle Cell ◽  
Serum Ferritin ◽  
Cell Disease

scholarly journals COVID Symptoms and COVID Anxiety in Sickle Cell Disease

Blood ◽  
2020 ◽  
Vol 136 (Supplement 1) ◽  
pp. 16-17
Author(s):  
Wally R Smith ◽  
Benjamin Jaworowski ◽  
Shirley Johnson ◽  
Thokozeni Lipato ◽  
Daniel M Sop
Keyword(s):  
Sickle Cell Disease ◽  
Sickle Cell ◽  
Research Funding ◽  
Telephone Survey ◽  
Cell Disease ◽  
Weighted Mean ◽  
The Us ◽  
Associated Symptoms ◽  
At Home

Background Even before the US upswing of the current COVID pandemic, the number of sickle cell disease (SCD) patients coming to hospitals and EDs appeared to fall drastically. This happened despite SCD patients having often been heavy utilizers of the ED and hospital for their iconic vaso-occlusive crises (VOC). Though ambulatory SCD clinics quick converted largely to telehealth in order to comply with stay-at-home orders designed to suppress person-to-person transmission, some SCD patients appeared to avoid care, delay care, or refuse doctors' invitations for care. Presumably patients did so out of COVID fears, but this has not been confirmed in the literature. Further, whether these patients had COVID symptoms but stayed at home has not been studied. As part of quality improvement (QI) to conduct COVID surveillance in an adult sickle cell program, we sought to explain and predict SCD health care utilization patterns we were observing, as well as to determine urgent physical and mental health needs of patients who appeared to be avoiding care. Methods Fifteen staff in the Adult Sickle Cell Medical Home at Virginia Commonwealth University, a large urban academic medical center, conducted a telephone survey ("wellness check"was used when we talked to patients) of all known adults with SCD over 19 days in 2020. A staff member confirmed the patient had SCD, asked permission to proceed, then asked about symptoms consistent with COVID-19. At the end of the telephone survey, respondents wer invited to complete an email survey of sickle cell and COVID-19 utilization attitudes (19-33 items, depending on the response pattern, either drawn from the National Health Interview Survey, from the Adult Sickle Cell Quality of Life Measurement quality of care survey, or drafted by the authors), the Sickle Cell Stress Survey-Adult (SCSS-A, a 10-item previously validated survey), and anxiety and depression (PHQ9 of the PRIME-MD). Results Of 622 adults approached by phone call, 353 responded to the following yes/no screening questions regarding the prior 14 days: fever over 100 F 0/353 (0.00%); cough 3/353(0.01%); difficulty breathing 0/353(0.00%); unexplained shortness of breath 2/353(0.01%); sore throat 2/353 (0.01%); unexplained muscle soreness 2/353(0.01%);contact with anyone who tested positive for COVID-19 2/353(0.01%); testing for COVID 19 6/353(0.02%). For QI purposes, we set a threshold of three or more COVID-associated symptoms or the presence of fever as criteria requiring intense telephone or in-person staff monitoring for the following week. Only three patients met criteria. A total of 219/353 had email surveys sent. Of 63 patients (28.8%) who returned email surveys by June 10, 2020, 35.9% had already managed a "pain attack" at home 4 or more times in the prior 12 months, and 45.5% of these said their bad ER experiences were very or somewhat important in that decision. In the prior 14 days, although 30/64 reported a crisis for at least one day, only 4/64 had visited the Emergency Department for pain. On a 0-10 scale, 21/61 patients endorsed "0" for worry that they would be COVID-infected by going for medical care (weighted mean 3.9), but 18/59 endorsed "10" for worry they were more at risk of COVID because of SCD (weighted mean 6.31), and 22/60 endorsed "10" for worry they would fare worse than others if COVID infected (weighted mean 6.97). Many patients forwent "needed" care (16/62) or delayed "needed" care by at least a day (36/61). Eleven patients met criteria for moderately severe to severe depression on the PHQ-9, and 28/63 somewhat or strongly agreed with the statement "death is always on the back of my mind" on the SCSS-A. Conclusions In adolescents and adults with SCD, many were already reticent to come to the ED for pain, but a significant portion reported delays or avoidance of needed care during the early stages of the US COVID pandemic, and few reported using the ED despite over half reporting at least one crisis day in 14. Patients nonetheless reported very few COVID-associated symptoms. Fears of COVID infection/susceptibility may limit visits for needed sickle cell care among adults. Acknowledgements: Mica Ferlis RN, FNP, Caitlin McManus, RN, FNP, Emily Sushko, RN, FNP, Justin West, RN, Kate Osborne, RN, Stefani Vaughan-Sams, Marla Brannon, BS, Nakeiya Williams, BS Disclosures Smith: GlycoMimetics, Inc.: Consultancy; Emmaeus Pharmaceuticals, Inc.: Consultancy; Novartis, Inc.: Consultancy, Other: Investigator, Research Funding; Global Blood Therapeutics, Inc.: Consultancy, Research Funding; Shire, Inc.: Other: Investigator, Research Funding; NHLBI: Research Funding; Patient-Centered Outcomes Research Institute: Other: Investigator, Research Funding; Health Resources and Services Administration: Other: Investigator, Research Funding; Incyte: Other: Investigator; Pfizer: Consultancy; Ironwood: Consultancy; Novo Nordisk: Consultancy; Imara: Research Funding; Shire: Research Funding.

scholarly journals Clinical and Biomarker Predictors for Avascular Necrosis in Sickle Cell Disease

Blood ◽  
2021 ◽  
Vol 138 (Supplement 1) ◽  
pp. 3091-3091
Author(s):  
Michael Rabaza ◽  
Maria Armila Ruiz ◽  
Liana Posch ◽  
Faiz Ahmed Hussain ◽  
Franklin Njoku ◽  
...  
Keyword(s):  
Risk Factors ◽  
Sickle Cell Disease ◽  
Board Of Directors ◽  
Avascular Necrosis ◽  
Sickle Cell ◽  
Research Funding ◽  
Medical Attention ◽  
Cell Disease ◽  
Advisory Committees ◽  
Early Management

Abstract Introduction Sickle cell disease (SCD) affects 1 in 365 African Americans and approximately 25 million people world-wide. A common skeletal system complication is avascular necrosis (AVN), which can cause substantial pain and a reduced quality of life. While early management of AVN is focused on increasing range of motion with physical therapy and pain relief, there are no clear predictors for who is more likely to develop AVN and earlier institution of these preventive measure could help decrease disease progression. Vascular endothelial growth factor (VEGF) is a biomarker of endothelial injury and may indicate reduced vascular supply to the femoral or humeral head. Here we describe potential risk factors and biologic pathways for AVN in SCD, as understanding these may lead to improvements in future monitoring, early detection, and early intervention practices. Methods We investigated clinical and laboratory risk factors associated with AVN in a cohort of 435 SCD patients from our center. Blood samples, clinical, and laboratory data were collected at the time of enrollment during a clinic visit. Genotyping for alpha thalassemia was performed by PCR and the serum concentration of VEGF was measured by ELISA. AVN status was confirmed by review of the medical record and available imaging. We conducted a cross-sectional analysis comparing categorical and linear variables by AVN status using the chi-square and Kruskal-Wallis test, respectively. The independent association of the clinical and laboratory variables with AVN status was determined by logistic regression analysis. The initial model included variables with a P-value &lt; 0.1 on univariate analysis and the final model was ascertained by stepwise forward and backward selection. Median values and interquartile range (IQR) are provided. Results The median age of the cohort was 32 (IQR, 24 - 43) years, 57% (250/435) were female, and 46% (198/435) were on hydroxyurea. AVN was observed in 34% (149/435) of SCD patients. SCD patients with AVN were older, had more frequent vaso-occlusive crises requiring medical attention, and had a higher body mass index (Table I) (P ≤ 0.002). We measured VEGF in 241 of the SCD patients with serum samples available at the time of enrolment. Serum VEGF concentrations trended higher in SCD patients with versus without AVN (420 vs. 359 pg/mL, respectively; P = 0.078). In the multivariate analysis model, AVN was independently associated with increased number of vaso-occlusive crises (OR 1.1, 95% CI: 1.0 - 1.14; P = 0.02), AST concentration (natural log OR 0.5, 95% CI: 0.2 - 0.9; P = 0.03), VEGF concentration (natural log OR 1.4, 95% CI: 1.0 - 1.9; P = 0.047), and tobacco use (OR 1.9, 95% CI: 0.9 - 3.7; P = 0.078). Discussion In conclusion, we demonstrate a high prevalence of AVN in an adult cohort of SCD patients. The presence of AVN was independently associated with a greater frequency of vaso-occlusive pain episodes, which may demonstrate a shared pathophysiology between AVN and vaso-occlusion that merits further investigation. We demonstrate that serum VEGF concentrations are higher in SCD patients with AVN and may be a clinical tool to identify those at high-risk and for earlier intervention for this complication. Figure 1 Figure 1. Disclosures Gordeuk: Modus Therapeutics: Consultancy; Novartis: Research Funding; Incyte: Research Funding; Emmaus: Consultancy, Research Funding; Global Blood Therapeutics: Consultancy, Research Funding; CSL Behring: Consultancy. Saraf: Pfizer: Research Funding; Global Blood Therapeutics: Membership on an entity's Board of Directors or advisory committees, Research Funding; Novartis: Membership on an entity's Board of Directors or advisory committees, Research Funding.

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