Risk factors for Pneumocystis carinii pneumonia in kidney transplant recipients: a case-control study

Renal Transplantation in a Patient Affected by Mounier-Kuhn Syndrome

Tracheobronchomegaly, also called Mounier-Kuhn syndrome, consists in dilatation of the trachea and major bronchi because of atrophy or absence of their elastic fibers and smooth muscle cells. Standard chest radiography often does not permit diagnosis because only lateral imaging, obtained with X-rays or chest CT scan, shows the true degree of tracheal dilatation. Surgery has no role in tracheomegaly, except for the complications of tracheal stenosis or pneumothorax. The present work reports cadaveric renal transplantation in a 43-year-old woman affected by end-stage renal disease and suffering from congenital tracheobronchomegaly diagnosed during the first decade of life. No surgical or anesthetic problems were encountered during the immediate perioperative period. The patient did not require pulmonary physiotherapy. Antibiotic prophylaxis was given for 10 days. No pulmonary infection developed, and the patient was discharged from the hospital asymptomatic with normal renal function at 25 days after the transplant. Four months later, the patient experienced bronchitis with cough and fever. Antibiotic therapy was performed with totally resolution of symptoms. At 8 months of follow-up after kidney transplantation, the patient is asymptomatic with normal renal function.

Infectious complications after heart transplantation in Chinese recipients

Several factors appear to influence the incidence and type of infectious complications among different populations of transplant recipients. This study sought to assess the incidence and type of infection after transplantation in Chinese heart allograft recipients. A total of 130 infectious episodes occurred in 192 consecutive heart transplantation patients between June 1993 and May 2004. The median length of follow-up was 46.7+/-38.4 months. The 1-, 5- and 10-year survival rates were 81.8+/-2.8%, 63.0+/-3.8% and 45.7+/-7.7%. Infection was the leading cause of early and late deaths. Of the infectious episodes, 66 (51%) were caused by bacteria, 35 (27%) by viruses, 10 (8%) by fungi, 7 (5%) by Mycobacterium tuberculosis and 12 (9%) by other pathogens. The most common bacterial infectious episodes were caused by methicillin-resistant Staphylococcus aureus (20 of 66). The most common viral infections were varicella zoster virus infection in 12 (34%), cytomegalovirus infection in 9 (26%) and hepatitis B virus infection in 8 (23%). There was only one episode of clinical syndrome compatible to Pneumocystis jiroveci pneumonia. In conclusion, there was low incidence of Pneumocystis jiroveci pneumonia and cytomegalovirus infection, and high incidence of Mycobacterium tuberculosis infection in Chinese heart allograft recipients.

Benefit-Risk Assessment of Sirolimus in Renal Transplantation

Sirolimus (rapamycin) is a macrocyclic lactone isolated from a strain of Streptomyces hygroscopicus that inhibits the mammalian target of rapamycin (mTOR)-mediated signal-transduction pathways, resulting in the arrest of cell cycle of various cell types, including T- and B-lymphocytes. Sirolimus has been demonstrated to prolong graft survival in various animal models of transplantation, ranging from rodents to primates for both heterotopic, as well as orthotopic organ grafting, bone marrow transplantation and islet cell grafting. In human clinical renal transplantation, sirolimus in combination with ciclosporin (cyclosporine) efficiently reduces the incidence of acute allograft rejection. Because of the synergistic effect of sirolimus on ciclosporin-induced nephrotoxicity, a prolonged combination of the two drugs inevitably leads to progressive irreversible renal allograft damage. Early elimination of calcineurin inhibitor therapy or complete avoidance of the latter by using sirolimus therapy is the optimal strategy for this drug. Prospective randomised phase II and III clinical studies have confirmed this approach, at least for recipients with a low to moderate immunological risk. For patients with a high immunological risk or recipients exposed to delayed graft function, sirolimus might not constitute the best therapeutic choice--despite its ability to enable calcineurin inhibitor sparing in the latter situation--because of its anti-proliferative effects on recovering renal tubular cells. Whether lower doses of sirolimus or a combination with a reduced dose of tacrolimus would be advantageous in these high risk situations remains to be determined. Clinically relevant adverse effects of sirolimus that require a specific therapeutic response or can potentially influence short- and long-term patient morbidity and mortality as well as graft survival include hypercholesterolaemia, hypertriglyceridaemia, infectious and non-infectious pneumonia, anaemia, lymphocele formation and impaired wound healing. These drug-related adverse effects are important determinants in the choice of a tailor-made immunosuppressive drug regimen that complies with the individual patient risk profile. Equally important in the latter decision is the lack of severe intrinsic nephrotoxicity associated with sirolimus and its advantageous effects on arterial hypertension, post-transplantation diabetes mellitus and esthetic changes induced by calcineurin inhibitors. Mild and transient thrombocytopenia, leukopenia, gastrointestinal adverse effects and mucosal ulcerations are all minor complications of sirolimus therapy that have less impact on the decision for choosing this drug as the basis for tailor-made immunosuppressive therapy. It is clear that sirolimus has gained a proper place in the present-day immunosuppressive armament used in renal transplantation and will contribute to the development of a tailor-made immunosuppressive therapy aimed at fulfilling the requirements outlined by the individual patient profile.