scholarly journals A Rare Presentation of Transfusional Hemochromatosis: Hypogonadotropic Hypogonadism

2015 ◽  
Vol 2015 ◽  
pp. 1-4
Author(s):  
Rifki Ucler ◽  
Erdal Kara ◽  
Murat Atmaca ◽  
Sehmus Olmez ◽  
Murat Alay ◽  
...  
Keyword(s):  
Sexual Dysfunction ◽  
Iron Overload ◽  
Organ Dysfunction ◽  
Hypogonadotropic Hypogonadism ◽  
Thalassemia Major ◽  
Iron Deposition ◽  
Cellular Damage ◽  
Atypical Presentation ◽  
Rare Presentation ◽  
Parenchymal Cells

Hemochromatosis is a disease caused by extraordinary iron deposition in parenchymal cells leading to cellular damage and organ dysfunction.β-thalassemia major is one of the causes of secondary hemochromatosis due to regular transfusional treatment for maintaining adequate levels of hemoglobin. Hypogonadism is one of the potential complications of hemochromatosis, usually seen in patients with a severe iron overload, and it shows an association with diabetes and cirrhosis in adult patients. We describe a patient with mild transfusional hemochromatosis due toβ-thalassemia major, presenting with central hypogonadism in the absence of cirrhosis or diabetes. Our case showed an atypical presentation with hypogonadotropic hypogonadism without severe hyperferritinemia, cirrhosis, or diabetes. With this case, we aim to raise awareness of hypogonadotropic hypogonadism in patients with intensive transfused thalassemia major even if not severe hemochromatosis so that hypogonadism related complications, such as osteoporosis, anergia, weakness, sexual dysfunction, and infertility, could be more effectively managed in these patients.

Pituitary Iron and Volume in Transfusional Iron Overload.

Blood ◽  
2009 ◽  
Vol 114 (22) ◽  
pp. 2017-2017 ◽  
Author(s):  
Leila J Noetzli ◽  
Ashok Panigrahy ◽  
Mehrdad Joukar ◽  
Aleya Hyderi ◽  
Steven D Mittelman ◽  
...  
Keyword(s):  
Iron Overload ◽  
Anterior Pituitary ◽  
Research Funding ◽  
Hypogonadotropic Hypogonadism ◽  
Iron Concentration ◽  
Iron Toxicity ◽  
Iron Deposition ◽  
Delayed Puberty ◽  
Iron Loading ◽  
Z Score

Abstract Abstract 2017 Poster Board I-1039 Introduction: Hypogonadotropic hypogonadism (HH) is the most common endocrine problem in chronically transfused patients. Unfortunately, gonadotrophe iron toxicity is not readily detectable until puberty and stimulation tests can be difficult to interpret in adolescents. MRI can image preclinical pituitary iron deposition, similar to its use in the heart, liver and pancreas. Increased pituitary R2, a surrogate for iron, and decreased pituitary volume have both been shown to predict clinical and biochemical HH in iron overloaded adults 1,2. However, data regarding pituitary iron deposition and toxicity is lacking in younger patients with iron overload. We present baseline results from a two year observational trial of changes in pituitary R2 and volume in response to deferasirox therapy in patients with transfusional siderosis. Methods: We studied 22 chronically-transfused patients with Thalassemia Major and 2 patients with Diamond Blackfan Anemia. The average age was 13.1 ± 5.2 years (range: 3.7-23.6 years). All studies were performed on a 1.5 T Philips Achieva. Anterior pituitary R2 was assessed in the sagittal and coronal planes using multiple spin echoes from 15 to 120 ms. Pituitary volume was assessed using a 3D spoiled gradient echo sequence with 1 mm3 isotropic voxels. Pituitary R2 was calculated by pixelwise monoexponential fit, with median values used to represent the overall gland R2; boundaries were confirmed by a board-certified neuroradiologist. Normative data for pituitary iron and volume was drawn from another study in 49 normal volunteers. MRI estimates of hepatic iron concentration (HIC), cardiac iron (T2*), and pancreatic iron (R2*) were obtained as clinical standard of care. All statistics were performed using JMP5.1 (SAS, Cary, NC). Results: Patients were mild to moderately iron loaded, with a HIC of 10.2 ± 12.0 mg/g dry wt (median 4.5 mg/g, nl < 1.5 mg/g), cardiac T2* of 29.4 ± 9.2 ms (median 31.5 ms, nl > 20ms), and pancreas R2* of 136 ± 156 Hz (median 73 Hz, nl < 27 Hz). Fourteen patients were below the 10th percentile for height including 7 below the 5th percentile. One patient had been diagnosed with delayed puberty and was on estrogen replacement. Pituitary R2 was elevated in 13/24 patients, beginning in the first decade of life and worsening in patients older than 13 years of age (Figure 1, left). Mean Z-score was 3.2 ± 3.7 (median 2.5, range -0.5 to12.8). Pituitary R2 was correlated with HIC (r2=0.68) and pancreatic R2* (r2=0.40), but not cardiac R2*. Area under the receiver operator characteristic curve was 0.76 for both HIC and pancreatic iron for the prediction of pituitary iron loading. Anterior pituitary volumes were low-normal in the first decade of life but were below the 1st percentile in 4/16 patients older than 13 years of age (Figure 1, right); all 4 patients with severe pituitary shrinkage had significant pituitary iron loading (Z-scores ranging from 2.8 to 12.8). The patient having documented HH had an iron Z-score of 12.8 and a volume Z-score of –5.0. Discussion: HH remains one of the most difficult endocrinopathies to recognize and prevent in transfusional siderosis. The present data demonstrate that iron accumulation occurs early in these patients and worsens dramatically in the second decade of life. Pituitary R2 was closely correlated with liver and pancreatic iron suggesting more rapid iron transport kinetics than for the heart. The low-normal pituitary volumes in childhood may reflect ethnic mismatches between the control and study populations, early iron toxicity, or hypothalamic dysfunction from increased erythropoiesis and metabolic demand. However, severe pituitary volume loss was limited to the second decade of life and associated with markedly increased pituitary iron (R2). Thus, there appears to be a broad, preclinical window to reduce pituitary toxicity. MRI screening of pituitary size and iron concentration needs to be expanded, clinically, to explore this hypothesis and hopefully prevent the significant physiological and psychological sequelae associated with hypogonadism. Disclosures: Coates: Novartis: Consultancy, Honoraria, Research Funding, Speakers Bureau. Wood:Novartis: Research Funding.

Study of Renal Iron Overload by T2* MRI in a Large Cohort of Thalassemia Major Patients

Blood ◽  
2012 ◽  
Vol 120 (21) ◽  
pp. 5177-5177
Author(s):  
Antonella Meloni ◽  
Daniele De Marchi ◽  
Vincenzo Positano ◽  
Gaetano Giuffrida ◽  
Sabrina Armari ◽  
...  
Keyword(s):  
Iron Overload ◽  
Conflicts Of Interest ◽  
Left Kidney ◽  
Significant Negative Correlation ◽  
Thalassemia Major ◽  
Iron Deposition ◽  
Significant Difference ◽  
The Mean ◽  
The Right ◽  
T2 Mri

Abstract Abstract 5177 Background. Renal dysfunction has been reported in adult subjects with thalassemia major (TM) since 1975. One of the main cause is the iron overload consequent to regular transfusions. Multiecho T2* MRI is a well-established technique for cardiac and hepatic iron overload assessment, but there very few report concerning the kidneys. The aims of this study were to describe the T2* values of the kidneys in patients with TM, to investigate the correlation between renal and myocardial or hepatic siderosis and biventricular cardiac function. Methods. 119 TM patients (58 men, 30. 7 ± 8. 2 years) enrolled in the Myocardial Iron Overload (MIOT) networks underwent MRI. For the measurement of iron overload, multiecho T2* sequences were used. The left ventricle was segmented into a 16-segments standardized model and the T2* value on each segment was calculated as well as the global value. In the liver, the T2* value was assessed in a single region of interest (ROI) in a homogeneous area of the parenchyma. For each kidney, T2* values were calculated in three different ROIs and were averaged to obtain a representative value for the kidney. The mean T2* value over the kidneys was also calculated. Cine images were obtained to quantify biventricular morphological and functional parameters in a standard way. Results. T2* values in the right kidney were significant lower than in the left kidney (40. 3±11. 9 ms vs 44. 1±12. 7 ms, P<0. 0001). The mean T2* value over the kidneys was 42. 2±11. 9 ms and 40 patients (33. 6%) had a pathological value (T2*<36 ms, lower limit of normal evaluated on 20 healthy subjects). The mean T2* value did not show a significant difference amongst men ad women (43. 2±11. 7 ms versus 41. 3±12. 1 ms, P=0. 378). The mean T2* values increased with age in a significant manner (r=0. 321, P<0. 0001). There was a significant negative correlation between serum ferritin levels and mean renal T2* values (r=-0. 446, P<0. 0001). Significant positive correlations of the mean T2* values were demonstrated for liver (r=0. 511, P<0. 0001) and global heart (r=0. 262, P=0. 004) T2* values (Figure 1). No correlation was found between renal iron overload and bi-ventricular function parameters. Conclusions. Systemic T2* differences between left and right kidneys were found, with significant lower values in the right one. Mean T2* value increased with age. We confirmed that kidney iron deposition was not very common in TM, but it was correlated with iron deposition in liver and heart. Disclosures: No relevant conflicts of interest to declare.

scholarly journals Frequency, Pattern, and Associations of Renal Iron Accumulation in Sickle Beta-Thalassemia

Blood ◽  
2021 ◽  
Vol 138 (Supplement 1) ◽  
pp. 3086-3086
Author(s):  
Alessia Pepe ◽  
Luigi Barbuto ◽  
Laura Pistoia ◽  
Vincenzo Positano ◽  
Francesco Massei ◽  
...  
Keyword(s):  
Iron Overload ◽  
Board Of Directors ◽  
Thalassemia Major ◽  
Iron Deposition ◽  
Beta Thalassemia ◽  
Advisory Committees ◽  
Frequency Pattern ◽  
Iron Load ◽  
Significant Difference ◽  
Chronic Hemolysis

Abstract Background: Chronically transfused homozygous sickle cell disease (HbSS) patients were shown to have higher kidney iron deposition than thalassemia major patients, not associated to total body iron and mainly caused by chronic hemolysis. Kidney iron deposition has not been explored in sickle beta-thalassemia (Sβ-thal), resulting from the inheritance of both sickle cell and beta-thalssemia genes. Aim: This multi center study aimed to study frequency, pattern, and associations of renal iron accumulation in sickle beta-thalassemia. Methods: Thirty-three Sβ-thal patients (36.49±14.72 years; 13 females) consecutively enrolled in the Extension-Myocardial Iron Overload in Thalassemia (E-MIOT) network were considered. Moreover, 20 healthy subjects, 14 HbSS patients and 71 thalassemia major (TM) patients were included as comparison groups. Hepatic, cardiac, pancreatic, and renal iron overload was quantified by the gradient-echo T2* technique. In each kidney T2* was measured in anterior, posterolateral, and posteromedial parenchymal regions and the global T2* value was calculated as the average of the two kidneys T2* values. Results. Global renal T2* were significantly higher in healthy subjects versus both Sβ-thal patients (49.68±10.09 ms vs 43.19±8.07 ms; P=0.013) and HbSS patients (49.68±10.09 ms vs 26.21±17.07 ms; P&lt;0.0001). Sβ-thal patients showed comparable age, sex, frequency of regular transfusion, hematochemical parameters, and hepatic, cardiac and pancreatic iron load than HbSS patients, but they had a significant lower frequency of renal iron overload (global renal T2*&lt;31 ms) (9.1% vs 57.1%; P=0.001). Regularly transfused patients (16 Sβ-thal and 10 HbSS) were compared with TM patients, homogeneous for age and sex, but TM started regular transfusions significantly earlier and they were more frequently chelated. No significant difference was detected in terms of hepatic and cardiac iron levels, but TM patients had significantly lower pancreas T2* values than both the other two groups and significantly higher global renal T2* values than HbSS patients (42.87±9.43 ms vs 24.39±15.74 ms; P=0.001). In Sβ-thal patients no significant difference was detected between T2* values in left and right kidneys, and global renal T2* values were not associated to age, gender, splenectomy, and they were comparable between regularly transfused and non transfused patients. No correlation was detected between renal T2* values and serum ferritin levels or iron load in the other organs. Global renal T2* values were not associated with serum creatinine levels but showed a significant inverse correlation with serum lactate dehydrogenase (Figure 1). Conclusion. Renal iron deposition is not common in Sβ-thal patients, with a prevalence significantly lower compared to that of HbSS patients, but with a similar underlying mechanism due to the chronic hemolysis. Figure 1 Figure 1. Disclosures Pepe: Bayer S.p.A.: Other: no profit support; Chiesi Farmaceutici S.p.A: Other: no profit support. Maggio: Novartis: Membership on an entity's Board of Directors or advisory committees; Celgene Corp: Membership on an entity's Board of Directors or advisory committees; Bluebird Bio: Membership on an entity's Board of Directors or advisory committees.

Lack of Heart Iron Overload in Patients with Thalassemia Intermedia.

Blood ◽  
2006 ◽  
Vol 108 (11) ◽  
pp. 3822-3822
Author(s):  
Renzo Galanello ◽  
Mark Tanner ◽  
Gildo Matta ◽  
Susanna Barella ◽  
Patrizio Bina ◽  
...  
Keyword(s):  
Pulmonary Hypertension ◽  
Ejection Fraction ◽  
Iron Overload ◽  
Thalassemia Major ◽  
Left Ventricular ◽  
Left Ventricular Ejection ◽  
Cardiac Complications ◽  
Thalassemia Intermedia ◽  
Chronic Anemia ◽  
Parenchymal Cells

Abstract Iron loading in patients with thalassemia intermedia occurs slowly and is mainly due to increased gastrointestinal iron absorption secondary to chronic anemia, while in patients with thalassemia major iron overload is faster and secondary to the chronic transfusion therapy. Moreover, iron accumulation in thalassemia intermedia is prevalent in parenchymal cells, while in thalassemia major iron derived from red cell breakdown firstly accumulates in the reticulo-endothelial cells and subsequently in the parenchymal cells. Although heart disease represents the main determinant of survival in beta thalassemias, the cardiac complications are different in the two clinical forms, that are thalassemia major and thalassemia intermedia. In this study we evaluated liver and iron overload in patients with thalassemia intermedia. We have studied 8 patients with thalassemia intermedia with a mean age of 36 ± 12 years. All these patients were homozygotes for the beta zero 39 non-sense mutation (C→T) and were never transfused or had received only sporadic transfusions (less than 10 blood units throughout their life). Myocardial iron (heart T2*, Anderson et al 2001), echocardiographic left ventricular ejection fraction, serum ferritin (mean of the last 5 years) and hemoglobin (mean of the last 2 years) have been evaluated in each patient. Hepatic iron content was determined in 5 patients with atomic absorption after liver biopsy. Six patients were on chelation therapy with subcutaneous desferrioxamine (mean 2 ± 1 grams/week). Mean ferritin was 637 ± 497 ng/ml and mean hemoglobin 8.0 ± 1.0 g/dl. Heart T2* was normal in all patients (mean 46 ± 11 msec, range 36 – 62 msec). The mean left ventricle ejection fraction was 61 ± 6 % (range 51 – 70 %). Echocardiogram showed in all the patients a mild enlargement of both ventricles. Three patients had pulmonary hypertension and two had an extrasystolic arrhythmia. To our knowledge this is the first study reporting the results of heart T2* in thalassemia intermedia. As a consequence of the mechanism and rate of accumulation patients with thalassemia intermedia do not have heart iron overload, while liver iron concentration is quite relevant. Cardiac complications in thalassemia intermedia are mainly due to the hyperdynamic circulation associated with chronic anemia and to pulmonary hypertension.

scholarly journals Hemostatic abnormalities in children with thalassemia major and liver iron overload

2018 ◽  
Vol 58 (4) ◽  
pp. 175-9
Author(s):  
Pustika Amalia Wahidiyat ◽  
Stephen Diah Iskandar ◽  
Novie Amelia Chozie ◽  
Damayanti Sekarsari
Keyword(s):  
Iron Overload ◽  
Prothrombin Time ◽  
Thalassemia Major ◽  
Cross Sectional Study ◽  
Iron Deposition ◽  
Severe Liver ◽  
Liver Iron ◽  
Cross Sectional ◽  
Prolonged Aptt ◽  
Liver Iron Overload

Background Thalassemia major (TM) patients are susceptible to liver dysfunction due to iron deposition. Pediatric TM patients often present with bleeding. Blood loss necessitates transfusions, leading to increased iron absorption from the gut. Objective To study hemostatic abnormalities in children with TM and iron deposition in the liver. Methods This cross-sectional study involved 190 non-splenectomized children with TM. Liver iron deposition was evaluated using T2* MRI. Prothrombin time (PT), activated partial thromboplastin time (aPTT), and platelet counts were assessed from blood specimens. Results Most subjects were diagnosed with β-thalassemia and β-thalassemia/HbE. The majority of subjects were on deferiprone (DFP) treatment. Approximately 89.5% of subjects had liver iron overload. Prolongation of PT and aPTT, as well as thrombocytopenia were observed in 60%, 27.9%, and 19.5% of subjects, respectively. Prolonged aPTT and thrombocytopenia were observed three times more frequently in subjects with moderate - severe liver iron overload than in subjects with normal - mild liver iron overload (P=0.04 and 0.001, respectively). Conclusion Most TM subjects have liver iron overload ranging from mild to severe. Prothrombin time and prolongation, as well as aPTT prolongation, and thrombocytopenia are easily found in TM children. There were significantly more moderate - severe liver iron deposition patients with aPTT prolongation and thrombocytopenia than normal – mild patients with these conditions. Hence, we suggest that pediatric TM patients undergo liver iron deposition evaluations and use iron chelators in an optimal manner, in order to limit the risk of bleeding.

scholarly journals Guest Editor: Raffaella Origa IRON TOXICITY AND HEMOPOIETIC CELL TRANSPLANTATION: TIME TO CHANGE THE PARADIGM.

2019 ◽  
Vol 11 (1) ◽  
pp. e2019030 ◽  
Author(s):  
Federica Pilo
Keyword(s):  
Iron Overload ◽  
Cell Transplantation ◽  
Hematopoietic Cell Transplantation ◽  
Thalassemia Major ◽  
Organ Damage ◽  
Iron Toxicity ◽  
Cellular Damage ◽  
Hemopoietic Cell ◽  
The Impact

The issue of iron overload in hemopoietic cell transplantation has been first discussed in the field of transplantation for thalassemia. Thalassemia major is characterized by ineffective erythropoiesis and hemolysis leading to anemia in the majority of patients. Patients require regular blood transfusion therefore they develop iron overload causing organ damage and hematopoietic cell transplantation (HCT) is a consolidated reliably curative option. In this category of patients an important issue for transplant outcome is the iron burden before transplant and in the long-life post-transplant. Nevertheless, today the concept of the impact of iron overload / toxicity on the outcome of HCT) has been extended to other diseases characterized by periods of variable duration of transfusion dependence Recent preclinical data has shown how increased production of reactive oxygen species (ROS) resulting under iron overload condition, could impair the stem cells clonality capacity, proliferation and maturation. Also, microenvironment cells could be affected through this mechanism. For this reason, iron overload is becoming an important issue also in the engraftment period post-transplantThe aim of this review is to update consolidated knowledge about the role of iron overload/iron toxicity in the HCT setting in non-malignant and in malignant diseases introducing the concept of exposition of free toxic iron forms and related cellular damage in the different stage of transplant.

Pituitary Iron and Volume Predicts Hypogonadal Hypogonadism in Transfusional Iron Overload

Blood ◽  
2011 ◽  
Vol 118 (21) ◽  
pp. 1094-1094
Author(s):  
Leila Noetzli ◽  
Ashok Panigrahy ◽  
Steven D Mittelman ◽  
Aleya Hyderi ◽  
Ani Dongelyan ◽  
...  
Keyword(s):  
Iron Overload ◽  
Chelation Therapy ◽  
Iron Concentration ◽  
Thalassemia Major ◽  
Iron Deposition ◽  
Iron Loading ◽  
Volume Loss ◽  
Z Score ◽  
Liver Iron Concentration ◽  
Liver Iron

Abstract Abstract 1094 Introduction: Hypogonadotropic Hypogonadism (HH) is one of the most common morbidities in patients with transfusion-dependent anemias such as thalassemia major. Unfortunately, pituitary dysfunction is difficult to detect prior to puberty because of immaturity of the hypothalamic-pituitary-gonadal axis. We used MRI to measure pituitary R2 and volume to determine at what age these patients develop pituitary iron overload and volume loss. Additionally, we aimed to stratify the risk of clinical HH based on pituitary R2 and pituitary volume, and determine predictors of pituitary iron deposition and volume loss. Methods: We recruited 56 patients (52 with thalassemia major and 4 with Blackfan-Diamond syndrome) to have pituitary MRIs to measure pituitary R2 and volume. Diagnosis of HH was determined by either lack of secondary pubertal characteristics by age 13 for females or age 14 for males, by primary or secondary amenorrhea in females ages 16 or older, or by the need for testosterone administration in males. Patients also had pancreas R2*, heart R2*, and liver iron concentration measured by MRI. Normative pituitary R2 and volume trends were determined by a cohort of 100 control patients. Results: Patients were 20.4 ± 12.1 years old and well distributed by sex (31 males, 25 females). All subjects received blood transfusions every 2–4 weeks and were on appropriate chelation therapy as indicated by their physician. Mean pituitary R2 Z-score was 4.5 and mean anterior pituitary volume Z-score was −0.9. Figure 1 shows pituitary R2 values as a function of age, superimposed on normal trends from the control population. Patients with transfusional iron overload began to develop pituitary iron overload in the first decade of life; however, significant iron deposition were observed beginning in the second decade. Heavy pituitary iron deposition (Z-score > 5) and volume loss (Z-score < −2.5) were predictive of HH (Figure 2). Volume loss was highly specific (87%) but identified only half of HH cases. The remaining HH patients had heavy pituitary iron (Z-score > 5), but preserved pituitary volume. Pituitary R2 correlated significantly with serum ferritin as well as liver iron concentration, pancreatic R2*, and cardiac R2* by MRI. Discussion: Pituitary iron loading begins as early as the first decade of life in chronically transfused patients, meriting a pituitary MRI in children under 10 years old. Severe pituitary iron loading as well as volume loss throughout the second decade of life, and are predictive of HH, warranting more intensive screening in this age group. However, many patients with moderate-to-severe pituitary iron overload retained normal gland volume and function, representing a potential therapeutic window. This may also be explained by improvements in gland function observed following intensive chelation therapy. Serial tracking of pituitary iron and volume trends on age-appropriate nomograms should improve diagnostic accuracy and toxicity prophylaxis. Disclosures: Wood: Novartis: Research Funding; Ferrokin Biosciences: Consultancy; Cooleys Anemia Foundation: Honoraria, Membership on an entity's Board of Directors or advisory committees, Research Funding.

scholarly journals Metastatic Prostate Cancer Involving the Sphenoid Sinus and Mandible

2021 ◽  
pp. 014556132110060
Author(s):  
Fadlullah Ba’th ◽  
Tanisha Hutchinson ◽  
Annie Meares ◽  
David Hamlar
Keyword(s):  
Prostate Cancer ◽  
Sphenoid Sinus ◽  
Metastatic Prostate Cancer ◽  
The United States ◽  
Endoscopic Examination ◽  
Atypical Presentation ◽  
Rare Presentation ◽  
The Third ◽  
Pathological Evaluation ◽  
Low Threshold

Prostate cancer is the third most leading cause of cancer in men in the United States. Although expected metastatic spread to bone, liver, and lymph nodes are often monitored, there are other rare presentations that can occur. This case report demonstrates a rare presentation of prostate cancer spreading to the paranasal sinuses and orbit. Not only did this case have an atypical presentation mimicking infection, the diagnosis was also only achieved through pathological evaluation after an endoscopic examination and biopsy. This case demonstrates the importance of a low threshold for endoscopic examinations in uncertain sinonasal presentations, and consistent biopsies when performing endoscopic examinations.

β-Thalassemia Major: Thin-Section CT Features and Correlation with Pulmonary Function and Iron Overload

Radiology ◽  
2003 ◽  
Vol 229 (2) ◽  
pp. 507-512 ◽  
Author(s):  
Pek-Lan Khong ◽  
Godfrey C. F. Chan ◽  
So-Lun Lee ◽  
Wing Y. Au ◽  
Daniel Y. T. Fong ◽  
...  
Keyword(s):  
Iron Overload ◽  
Pulmonary Function ◽  
Thin Section ◽  
Thalassemia Major ◽  
Ct Features

scholarly journals Liver Enzymes in Children with beta-Thalassemia Major: Correlation with Iron Overload and Viral Hepatitis

2015 ◽  
Vol 3 (2) ◽  
pp. 287-292 ◽  
Author(s):  
Khaled M. Salama ◽  
Ola M. Ibrahim ◽  
Ahmed M. Kaddah ◽  
Samia Boseila ◽  
Leila Abu Ismail ◽  
...  
Keyword(s):  
Blood Transfusion ◽  
Iron Overload ◽  
Viral Hepatitis ◽  
Serum Ferritin ◽  
Liver Enzymes ◽  
Transferrin Saturation ◽  
Thalassemia Major ◽  
Beta Thalassemia ◽  
Elevated Liver Enzymes ◽  
Hcv Antibody

BACKGROUND: Beta Thalassemia is the most common chronic hemolytic anemia in Egypt (85.1%) with an estimated carrier rate of 9-10.2%. Injury to the liver, whether acute or chronic, eventually results in an increase in serum concentrations of Alanine transaminase (ALT) and Aspartate transaminase (AST).AIM: Evaluating the potentiating effect of iron overload & viral hepatitis infection on the liver enzymes.PATIENTS AND METHODS: Eighty (80) thalassemia major patients were studied with respect to liver enzymes, ferritin, transferrin saturation, HBsAg, anti-HCV antibody and HCV-PCR for anti-HCV positive patients.RESULTS: Fifty % of the patients were anti-HCV positive and 55% of them were HCV-PCR positive. Patients with elevated ALT and AST levels had significantly higher mean serum ferritin than those with normal levels. Anti-HCV positive patients had higher mean serum ferritin, serum ALT, AST and GGT levels and higher age and duration of blood transfusion than the negative group. HCV-PCR positive patients had higher mean serum ferritin and serum ALT and also higher age and duration of blood transfusion than the negative group.CONCLUSION: Iron overload is a main leading cause of elevated liver enzymes, and presence of HCV infection is significantly related to the increased iron overload.

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