Lung function in beta-thalassemia patients : a longitudinal study

Patients with \u3b2-thalassemia often present with a restrictive pattern at pulmonary function tests (PFTs) due to several pathogenetic factors. However, the long-term evolution is unknown. We performed a longitudinal study of pulmonary function in asymptomatic, non-smoking patients with \u3b2-thalassemia major and intermedia. We looked fortemporal changes in lung function and characteristics that would predict the development of PFT abnormalities. In 1996, 18 patients with major \u3b2-thalassemia (9 males and 9 females; age range: 18-35 years) and 11 patients with intermediate \u3b2-thalassemia (5 males and 6 females; age range: 25-51 years) underwent clinical assessment and PFT, including body plethysmography and gas transfer study (carbon monoxide diffusion capacity, DLCO). Patients were reassessed in 2003. An echocardiographic evaluation was also obtained to exclude pulmonary hypertension. In 55.5% of major and 45.4% of intermediate \u3b2-thalassemia patients, a restrictive pattern was found in 1996; in 2003 only 38.8 and 27.2% of patients, respectively, exhibited total lung capacities below the predicted values. DLCO was unchanged in both groups of patients, being reduced in 5 thalassemia major patients and within the normal range in intermediate patients. We conclude that asymptomatic patients with \u3b2-thalassemia have a high prevalence of PFT abnormalities, but without significant increases over time. An improvement may be observed when good control of the iron balance is reached with optimal chelation therapy. Copyrigh

Beta-thalassemia and pulmonary function

BACKGROUND AND OBJECTIVE: The survival of patients with beta-thalassemia major and intermedia has improved considerably. This has focused attention on the long-term sequelae of the disease itself and its treatment. The effect of hemosiderosis in major organs (heart, liver, etc) are well-recognized, but the pathophysiology of any lung damage is less clearly understood. We studied lung function changes in 32 patients with beta-thalassemia. DESIGN AND METHODS: Respiratory function tests, CO diffusion and arterial blood gas analysis were performed on 19 patients with beta-thalassemia major (9 F, 10 M) and 13 with beta-thalassemia intermedia (6 M, 7 F). All investigations were performed 24 hours before the patients received a blood transfusion or when they were in a stable state hematologic condition. Echocardiography was performed in all patients and the ejection fraction was employed as a measure of cardiac function. RESULTS: No patient had clinical signs of pulmonary dysfunction. Pulmonary function tests, however, showed a reduction of all main parameters (TLC, FVC, FEV1 and RV) in most patients with beta-thalassemia major, indicating a restrictive type of dysfunction. The pulmonary function of patients with beta-thalassemia intermedia seemed to be preserved. Arterial blood gas values were within the normal range, while in some subjects CO diffusion approached the lower limits of normality. There was no evidence that the observed abnormalities in pulmonary function were secondary to congestive heart failure. INTERPRETATION AND CONCLUSIONS: Iron deposition due to repeated blood transfusions may play a central role in determining lung alterations although the majority of patients are well chelated, suggesting that more than one causal mechanisms could be involved

Induction of transplantation tolerance in non-human primate preclinical models

Short-term outcomes following organ transplantation have improved considerably since the availability of cyclosporine ushered in the modern era of immunosuppression. In spite of this, many of the current limitations to progress in the field are directly related to the existing practice of relatively non-specific immunosuppression. These include increased risks of opportunistic infection and cancer, and toxicity associated with long-term immunosuppressive drug exposure. In addition, long-term graft loss continues to result in part from a failure to adequately control the anti-donor immune response. The development of a safe and reliable means of inducing tolerance would ameliorate these issues and improve the lives of transplant recipients, yet given the improving clinical standard of care, the translation of new therapies has become appropriately more cautious and dependent on increasingly predictive preclinical models. While convenient and easy to use, rodent tolerance models have not to date been reliably capable of predicting a therapy's potential efficacy in humans. Non-human primates possess an immune system that more closely approximates that found in humans, and have served as a more rigorous preclinical testing ground for novel therapies. Prior to clinical adaptation therefore, tolerance regimens should be vetted in non-human primates to ensure that there is sufficient potential for efficacy to justify the risk of its application