Successful twin pregnancy in homozygous beta-thalassemia after ovulation induction with growth hormone and gonadotropins

Beta-thalassemia major and female fertility: the role of iron and iron-induced oxidative stress

Endocrine complications due to haemosiderosis are present in a significant number of patients with beta-thalassemia major (BTM) worldwide and often become barriers in their desire for parenthood. Thus, although spontaneous fertility can occur, the majority of females with BTM is infertile due to hypogonadotropic hypogonadism (HH) and need assisted reproductive techniques. Infertility in these women seems to be attributed to iron deposition and iron-induced oxidative stress (OS) in various endocrine organs, such as hypothalamus, pituitary, and female reproductive system, but also through the iron effect on other organs, such as liver and pancreas, contributing to the impaired metabolism of hormones and serum antioxidants. Nevertheless, the gonadal function of these patients is usually intact and fertility is usually retrievable. Meanwhile, a significant prooxidants/antioxidants imbalance with subsequent increased (OS) exists in patients with BTM, which is mainly caused by tissue injury due to overproduction of free radicals by secondary iron overload, but also due to alteration in serum trace elements and antioxidant enzymes. Not only using the appropriate antioxidants, essential trace elements, and minerals, but also regulating the advanced glycation end products, could probably reduce the extent of oxidative damage and related complications and retrieve BTM women's infertility.

Pregnancy in patients treated for beta thalassemia major in two centers (Ali Asghar Children's Hospital and Thalassemia Clinic): outcome for mothers and newborn infants

Beta-thalassemia major is a severe, transfusion-dependent anemia that also causes infertility due to iron deposition to endocrine organs after overtransfusion. Very few pregnancies have been reported among such patients after modern therapies. In this study, 32 women with thalassemia who were admitted to Ali Asghar Children's Hospital and Thalassemia Clinic conceived spontaneously following prolonged intensive treatment with hypertransfusion and iron chelation. The aim of this study was to estimate the fertility (spontaneous ovulation or induced ovulation) and pregnancy complications for mothers and newborns. These complications included cardiac failure, endocrine and hepatic parameters monitored throughout pregnancy and postpartum, viral infections, term and preterm deliveries, and complications of pregnancy. All case notes were examined and data were analyzed with SPSS software. Twelve babies were delivered by elective cesarean section and the remainder were delivered vaginally. The mean birthweight was 2678 g. All babies were normal; 45 cases were mature and 5 were preterm; 12 cases were aborted spontaneously. Twenty-seven mothers had no cardiac problems, but 5 had cardiac failure. Pregnancy can be safe for mothers and babies in women started early on intensive treatment.

[Beta-thalassemia and pregnancy. Apropos of 2 cases]

Homozygous beta-thalassemia is a severe, transfusion dependent anaemia that also causes infertility. Preimplantation genetic diagnosis is possible. Very few pregnancies are reported among such patients. They have a very high obstetrical risk and a pluridisciplinary follow is necessary.

In utero hematopoietic stem cell transfer: current status and future strategies

Successful prenatal treatment of severe immunodeficiencies by allogeneic hematopoietic stem cell transplantation in utero has been reported. Though other diseases like hemoglobinopathies or storage diseases are potentially amenable to this novel therapeutic approach, no success has yet been achieved in recipients without severe immunodeficiency. Graft rejection by the developing fetus and/or lack of selective, competitive advantage of donor versus host stem cells preventing stable engraftment seem to be the major obstacles. Several strategies to overcome these hurdles are being explored in preclinical settings, including timing and repeated dosing of stem cell administration to the fetus, ex vivo modification of the transplant, using different fetal compartments as targets for early stem cell transfer, or inducing microchimerism for postnatal transplantation from the same donor. In addition, the exact definition of the basic concept of early fetal immunologic naivete and the understanding of the molecular basics of migration and homing in fetal hematopoiesis system seem mandatory for a successful approach. Gene therapy using ex vivo transduced autologous cord blood cells or direct gene targeting in utero are other potential means to correct hematopoietic and immunologic single gene disorders in utero, though this approach is still away from the stage of clinical trials.

Fetal cerebral AV-malformation and cardiomegaly, diagnostic and therapeutic problems

Intracerebral aneurysms are rare. However they are potentially life-threatening. Today by means of ultrasound investigations these malformations can occasionally be identified prenatally. In these cases questions of intrauterine therapy, mode and time of delivery and postnatal treatment have to be discussed with the parents. We describe two cases with prenatal diagnosis of intracerebral arteriovenous malformations, diagnostic workup, therapeutic options and fetal outcome.