Project description:Lung ischemia-reperfusion (I/R) injury remains one of the common complications after various cardiopulmonary surgeries. I-R injury represents one potentially maladaptive response of the innate immune system which is featured by an exacerbated sterile inflammatory response triggered by tissue damage. Thus, understanding the key components and processes involved in sterile inflammation during lung I-R injury is critical to alter care and extend survival for patients with acute lung injury. We constructed a minipig surgical model of transient unilateral left pulmonary artery occlusion without bronchial involvement to create ventilated lung I-R injury. Lung tissues from minipig with sham operation (one sample), left side lung tissues (the operated side)(one sample) and right side lung tissues (the non-operated side)(one sample) from minipig with lung ischemia-reperfusion were submitted for gene expression array analysis.
Project description:Cold ischemia-reperfusion induced injury contributes to poor lung transplant outcomes. We used transcriptome sequencing to study the biological response of mouse lungs to the cold ischemia-reperfusion process. Mouse orthotopic left LTx was performed with standard cuff techniques. Briefly, the donor lungs were recovered after being flushed with 10ml low potassium dextran (LPD) solution and inflated with 50% oxygen. Cold ischemia was induced by storing donor lungs in 20ml LPD at 4°C for 24 hours. Then, the left donor lung was cuffed and implanted into recipients within 45 minutes. After the 4-hour reperfusion, the recipient mice were sacrificed and the transplanted lungs were collected.
Project description:To examine the age-related vulnerability to lung ischemia reperfusion injury, pulmonary gene expression profiles after lung ischemia reperfusion were compared between young and old mice.
Project description:To optimize the genome annotation, nine tissue and one pool RNA libraries (i.e. heart, liver, spleen, lung, kidney, muscle, fat, ovary, pool.) were constructed using the Illumina mRNA-spleeneq Prep Kit
Project description:Ischemia-reperfusion injury (IRI) is a major cause of morbidity and mortality following conventional lung transplantation and warm ischemia may limit success of transplanting lungs from non-heart-beating donors. We sought to determine alterations in gene expression in rat lung tissue subjected to warm ischemia in vivo followed by reperfusion. Keywords: time course
