Multiorgan retrieval and preservation of the thoracic and abdominal organs in Maastricht III donors

The United Kingdom's experience of controlled donation after circulatory death direct procurement of lungs with concomitant abdominal normothermic regional perfusion with an analysis of short-term outcomes

BACKGROUND

Abdominal Normothermic Regional Perfusion (A-NRP) improves outcomes for transplanted abdominal organs from Donation after Circulatory Death (DCD) donors. Concerns have been raised about the effect of A-NRP on lungs procured during multi-organ donation. We present the UK experience of performing direct procurement (DRP) of lungs from DCD donors with A-NRP.

METHODS

Retrospective analysis of all 487 UK DCD lung donors between April 1, 2011 and December 31, 2023. Organ transplantation rate and 30-day, 90-day and 1-year survival rates were compared between DRP of DCD lungs, DRP of DCD lungs with A-NRP and donation after brainstem death (DBD) lungs. Primary graft dysfunction (PGD) rates were compared between DCD lungs with and without A-NRP.

RESULTS

Three hundred ninety-seven DCD donors resulted in a lung transplant (22 retrieved by DRP with A-NRP). There was no difference in lung transplantation rates between DRP and DRP with A-NRP. Of the 390 first adult-only lung transplants performed from DCD donors, there was no significant difference in 30-day, 90-day and 1-year survival between DRP of DCD lungs and DRP with A-NRP. There was a significant difference in survival between standard DCD donors and DBD donors at 30-days and 90-days, but not 1 year. There was no significant difference in grade 3 PGD rates at 72 hours post-implantation for DCD lungs with or without A-NRP.

CONCLUSION

In the UK experience, use of A-NRP is not detrimental to procurement of DCD lungs. We advocate the use of this technique until further studies can explore the safety and efficacy of thoraco-abdominal NRP for lungs in multi-organ retrieval.

Microvascular anastomosis of the human lacrimal gland: a concept study towards transplantation of the human lacrimal gland

Introduction

Severe aqueous tear deficiency is caused by primary or secondary main lacrimal gland insufficiency. The transplantation of a human lacrimal gland could become a potential treatment option to provide physiological tears with optimal properties. To this end, we performed an ex vivo study to develop a surgical strategy that would ensure a vascular supply for a lacrimal gland transplant using microvascular techniques.

Material and methods

Five cadaver heads were used to perform a lateral orbitotomy in order to identify the vascular pedicle and the lacrimal gland itself. The principal feasibility and the time of the required surgical steps for an intraorbital microvascular re-anastomosis of the human lacrimal gland were documented. Patency and potential leakage of the anastomosis were tested with hematoxylin intraoperatively. Postoperatively, routine histological, as well as scanning electron microscopy (SEM) of the gland and vascular anastomosis, were performed.

Results

The vascular pedicle of all five glands could be isolated over a minimum stretch of at least 1 cm, severed, and successfully reanastmosed microsurgically. Time for arterial anatomization (n = 4) was 23 ± 7 min and 22 ± 3 min for the vein (p = 0.62). The total time for the entire microvascular anastomosis was 46 ± 9 min. All anastomosis were patent upon testing. SEM revealed well-aligned edges of the anastomosis with tight sutures in place.

Conclusion

Our study demonstrates as proof of principle the feasibility of intraorbital microvascular re-anastomosis of a human lacrimal gland within the presumed window of ischemia of this tissue. This should encourage orbital surgeons to attempt lacrimal gland transplantation in humans in vivo.