Discarded

[cassandra]

http://www.kidney-international.org/article/S0085-2538(16)30036-9/fulltext
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The weekend effect alters the procurement and discard rates of deceased donor kidneys in the United States

Sumit Mohancorrespondenceemail, Karl Foley, Mariana C. Chiles, Geoffrey K. Dube, Rachel E. Patzer, Stephen O. Pastan, R. John Crew, David J. Cohen, Lloyd E. Ratner
Published Online: May 11, 2016
Article has an altmetric score of 55
DOI: http://dx.doi.org/10.1016/j.kint.2016.03.007
Article Info click to expand contents
Factors contributing to the high rate of discard among deceased donor kidneys remain poorly understood and the influence of resource limitations of weekends on kidney transplantation is unknown. To quantify this we used data from the Scientific Registry of Transplant Recipients and assembled a retrospective cohort of 181,799 deceased donor kidneys recovered for transplantation from 2000–2013. We identified the impact of the day of the week on the procurement and subsequent utilization or discard of deceased donor kidneys in the United States, as well as report the geographic variation of the impact of weekends on transplantation. Compared with weekday kidneys, organs procured on weekends were significantly more likely to be discarded than transplanted (odds ratio: 1.16; 95% confidence interval: 1.13–1.19), even after adjusting for organ quality (adjusted odds ratio: 1.13; 95% confidence interval: 1.10–1.17). Weekend discards were of a significantly higher quality than weekday discards (Kidney Donor Profile Index: 76.5% vs. 77.3%). Considerable geographic variation was noted in the proportion of transplants that occurred over the weekend. Kidneys available for transplant over the weekend were significantly more likely to be used at larger transplant centers, be shared without payback, and experienced shorter cold ischemia times. Thus, factors other than kidney quality are contributing to the discard of deceased donor kidneys, particularly during weekends. Policy prescriptions, administrative or organizational solutions within transplant programs may potentially mitigate against the recent increase in kidney discards.

Keywords:

organ allocation, renal transplantation, outcomes

Weekends are traditionally a period of limited resources at hospitals and numerous studies have demonstrated the adverse impact of weekends on patient outcomes. For example, higher mortality rates have been observed among patients admitted on weekends for diagnoses where outcomes are associated with time-sensitive interventions, such as myocardial infarctions, strokes, and pulmonary embolism.1–5 Similar analyses for diagnoses requiring urgent surgery, such as ruptured aortic aneurysms, have also demonstrated inferior outcomes.6 Previous analyses have suggested that outcomes following kidney and liver transplants performed over the weekend are similar to transplants performed during the week.7–10 However, these analyses examined only the outcomes of organs that were procured and actually transplanted without accounting for the impact of organ selection.

Each year over 5000 people die waiting for a kidney transplant, whereas annually, nearly 2700 kidneys that are procured for transplantation are subsequently discarded.11 This high rate of discard is concerning especially given the worsening organ shortage in the United States, yet the factors contributing to organ discard remain poorly understood. Although the most commonly cited reason for organ discard is biopsy results (despite growing evidence that these findings are not predictive of outcomes), recent analyses suggest that even kidneys of acceptable quality are being discarded at an increasing rate.9,10,12 Poor donor kidney function, anatomic abnormalities, and concern regarding donor medical/social history are other highly cited reasons for the discard of deceased donor kidneys procured for transplant.9,13,14 It is important to note that currently no universal guidelines exist in the United States to recommend which kidneys should be utilized and which should be discarded. As a result, we hypothesize that there is a significant degree of transplant center-to-center variability, suggesting that factors external to the donor organ, or recipient, may contribute to transplant centers’ decisions not to transplant an organ. However, whether resource limitations at transplant centers contribute to the discard of deceased donor kidneys has not been studied. In this study, our objective was to analyze whether the procurement and utilization of deceased donor kidneys in the United States varied by day of the week, specifically, if it was different on weekends than on weekdays.

Results
In the United States from 2000 to 2013, approximately 202,000 deceased donor kidneys were available for procurement (n = 201,956), of which ∼90% were procured for transplant (n = 181,799) (Table 1, Supplementary Figure S1). The number of deaths in the United States during that period varied by day of the week and peaked on Friday and Saturday.15 Similarly, the total number of kidneys available for procurement varied by day of the week but the highest numbers were available on Tuesdays (15.1%) and Wednesdays (15.1%), whereas the lowest numbers were available on Sunday and Monday (13.5% and 13.4%, respectively) (Table 1). The average quality of kidneys available for procurement, as measured by the Kidney Donor Profile Index (KDPI), also varied significantly by day of the week (P < 0.001). Fridays were associated with the lowest rate of procurement of kidneys from the available donor pool (89.3%) and the procured kidneys had the highest average KDPI (value of 53.7%), that is, the lowest quality, for kidneys procured on any single day of the week. In contrast, Sundays and Mondays were associated with having the highest rates of procurement of donor kidneys but these kidneys also had the lowest KDPI, suggesting that the procured kidneys were of a significantly better quality on average (Table 1).

Table 1

Deceased donor kidneys that are available for procurement, were procured, transplanted, or discarded by day of the week or by weekday versus weekend, 2000–2013

Data table
Nearly 80% of kidneys transplanted on the weekend were procured from deceased donors on Fridays and Saturdays (Supplementary Table S1). Kidneys procured on Fridays experienced the highest rate of organ discard for the week (Table 1). The rate of kidney procurement on Saturday was marginally higher than that seen on Friday (89.7% vs. 89.3%, P < 0.001), whereas the discard rate for kidneys procured on Saturday (18.4%) was the second highest for the week after kidneys procured on Friday (18.8%). The discard rate was lowest on Monday and increased over the course of the week to peak on Friday (P < 0.001) (Table 1). The odds of discard of a kidney after procurement tended to increase over the course of the week (reference = Monday), that is, as the weekend neared, there was an increase in the odds of discard for kidneys procured on Friday and Saturday (Figure 1, Table 2). The quality of discards also showed an uptrend during the course of the week and peaked on Friday. As a result, the odds of kidney discard on Friday and Saturday remained significantly elevated even after adjustment for the KDPI (adjusted odds ratio [aOR]: 1.19; 95% confidence interval [CI]: 1.13–1.26; P < 0.001, and aOR: 1.18; 95% CI: 1.11–1.24; P < 0.001, respectively) (Figure 1, Table 2). The percentage of kidneys being shared without payback between donor service areas increased from Monday to a peak on Saturday (P = 0.003) (Table 1). Additionally, kidneys procured on weekends (Friday and Saturday) were more likely to be transplanted at larger transplant centers than kidneys procured on a weekday (Sunday–Thursday; P = 0.037).

Figure thumbnail gr1
Figure 1

Rate and odds of discard of deceased donor kidneys over the course of the week, 2000–2013. OR, odds ratio.

Table 2

Odds of kidney discard after procurement by day of the week

Data table
When considered together, kidneys procured on Friday and Saturday, that is, kidneys available for transplant on the weekend, were much more likely to be discarded (18.6% vs. 16.4%, P < 0.001); these discarded kidneys were more likely to be of a higher quality, that is, lower KDPI, (76.5% vs. 77.3%, P = 0.018) than those discarded during the rest of the week (Table 1). Compared with weekday kidneys, organs procured for transplantation on weekends were approximately 1.2 times more likely to be discarded than transplanted (OR: 1.16; 95% CI: 1.13–1.19; P < 0.001), even after adjusting for organ quality (aOR: 1.13; 95% CI: 1.10–1.17; P < 0.001) (Table 3). Kidneys available for transplant over the weekend were also more likely to be used at larger transplant centers (P = 0.037), be shared without payback (P = 0.001), and experienced shorter cold ischemia times (P = 0.002) (Table 1). However, the majority of transplanted kidneys, regardless of weekday period or day of the week distinction, were transplanted the day after they were procured (Supplementary Table S2), resulting in relatively similar mean cold ischemia times (Supplementary Table S2).

Table 3

Odds of kidney discard after procurement by period of the week procurement

Data table
Transplants performed on the weekend were not evenly distributed across the country (Figure 2). Uniform transplantation rates and preferences suggest that, on average, 28.6% (2 of 7) of all deceased donor kidney transplants in any large geographic area would occur on weekends or, though unlikely, that the proportion of total kidneys transplanted during that time period equaled the proportion of kidneys offered. Considerable geographic variation was noted in the proportion of transplants that occurred over the weekend (Figure 2). The Southeast (e.g., Arkansas, Alabama, South Carolina, Kentucky, West Virginia, Virginia) and Midwest (e.g., Minnesota, Iowa, Ohio) regions performed a greater than expected share of their deceased donor renal transplants on weekends. States located within the Rocky Mountains (e.g., Wyoming, Utah, Colorado, and Nevada) and Southeast regions (e.g., Arizona and Oklahoma) performed the smallest share of their transplants on the weekend (28.58%–33.51% vs. 18.98%–25.55%).

Figure thumbnail gr2
Figure 2

Geographic variation in the proportion of deceased donor kidney transplants performed over the weekend by state, 2000–2013.

Due to the broad study period, covering 2000 to 2013, we also analyzed both the percentage of kidneys discarded and the odds of discard over 3 contiguous time periods (2000–2004, 2005–2009, and 2010–2013) (Supplementary Figure S2). Additionally, we examined whether the probability of discard by day of the week was observed across time (Supplementary Figure S3). Both subanalyses confirmed that the observed phenomena were not limited to only a part of the study period. Recent studies have also suggested that kidney discard is on the rise, following the introduction of the new kidney allocation system in the United States in 2014.16

A sensitivity analysis was performed to understand the impact of adjusting our logistic regression models, shown in Tables 2 and 3, for the 10 individual components of the KDPI measure (e.g., donor age, weight, height, serum creatinine) instead of the KDPI summary measure. The coefficient estimate for the primary exposure (day of the week) and outcome (discard) relationship was not significantly altered when comparing both approaches and are shown in Supplementary Table S3.

Discussion
Weekends are classically associated with limitations on resource availability and appear to negatively impact outcomes for several conditions.1,3–5 Outcomes following transplantation over the weekend appear to be a notable exception to these phenomena.7,8 However, because organ transplantation has a potentially elective component that requires acceptance of an organ by the medical/surgical team, outcomes of transplants performed over the weekend may be biased by potential differences in selection criteria between weekdays and weekends.

Our analysis demonstrates a temporal trend during the week for procurement and discard of kidneys, as well as utilization patterns that reflect how organs are distributed and where they are utilized. We also demonstrated a dramatic adverse impact of weekends on the procurement of, and subsequent discard of, kidneys from deceased donors that were determined to be transplantable at the time of procurement. Kidneys that were procured but not subsequently transplanted over the weekend appear to be of higher quality than kidneys that were procured and similarly discarded during the weekday, suggesting that factors beyond the quality of the kidney were influencing the decision to accept/decline the offer of a deceased donor kidney. This finding, coupled with the increased utilization of deceased donor kidneys at large transplant centers on the weekend, would suggest the contribution of resource limitations that often occur on weekends is a contributing factor. Large transplant centers tend to have more resources, including manpower, and while they may also experience resource constraints over the weekend, the impact may be smaller.

Notably, cold ischemia times for transplanted organs on the weekend were shorter than they were during the weekday, suggesting perhaps an awareness of the increased difficultly in organ acceptance during the weekend and the development of organ offer strategies to mitigate this effect. Alternatively, transplant centers may use lower thresholds for cold ischemia time for accepting a deceased donor kidney over the weekend. For example, centers that routinely accept kidneys with long cold ischemia time and are willing to accept the attendant increased risk of delayed graft function may be less willing to do so on weekends if there are resource limitations that limit the availability of hemodialysis postoperatively. Additionally, we hypothesize that limited surgical manpower on weekends may be a contributing factor, particularly for smaller transplant programs. Surgeons may have to cover multiple services (e.g., liver and kidney), perform organ procurements, and deal with emergencies without the luxury of other attending transplant surgeons for backup on weekends. This may result in an increased reluctance, if not a complete inability to accept organs for transplant during these periods. Increased rates of decline at transplant centers on the weekend may also contribute to longer cold ischemia times accrued on kidneys while attempting to place them, which in turn would adversely affect the likelihood of organ acceptance even at centers with less stringent acceptance criteria. Geographic variation in the percentage of decreased donor transplants that occur on the weekend would suggest systemic factors are contributing to the acceptance/decline of kidneys for transplantation. Whereas center-specific resource allocation issues adversely impact organ acceptance on the weekends, transplant surgeons who are engaged in significant elective nontransplant surgeries during the workweek may find themselves more willing or able to accept organ offers on the weekend for transplant resulting in centers that do a greater than expected share of their transplants on the weekend.

Although there are many strengths of our study, our analysis has some of the limitations that are inherent in observational studies analyzing registry data. First, whereas Scientific Registry of Transplant Recipients (SRTR) data capture reasons for organ discard and disposition, the reporting is subjective. In addition, certain organ and transplant center-level characteristics, such as cold ischemia time for discarded organs, detailed kidney biopsy findings, and a center’s academic affiliation, were not available in the dataset. Thus, the contributions of these factors to organ discard were not measurable in our analysis. Also, although the KDPI has been validated as a reasonable measure of deceased donor organ quality in the United States, it is an imperfect measure with only moderate predictive power (KDPI C-statistic = 0.60). KDPI, as currently formulated, does not include certain organ characteristics that would influence the ability to use the organ such as anatomical abnormalities, injury during procurement, or even biopsy findings when a biopsy is performed. Lastly, because the SRTR dataset does not include a precise date/time that a kidney is discarded, we chose to define weekend kidneys as organs that would have been transplanted on the weekend rather than those procured on the weekend. Deceased donor kidneys are often transplanted with more than 24 hours of cold storage and as a result, the majority of kidneys procured for transplantation are transplanted on the following day (Supplementary Table S1). Thus, most kidneys transplanted on the weekend (Saturday/Sunday) are procured on Friday or Saturday.

In conclusion, our analysis demonstrates a variation in procurement and discard rates that vary over the course of the week and strongly suggest that deceased donor kidneys are more likely to be discarded over the weekend independent of organ quality. This suggests that organizational and systemic factors that extend beyond the quality of the available organ appear to be contributing to the high rate of discard of kidneys from deceased donors in the United States. Further investigation into the short- and long-term outcomes of recipients transplanted at centers that are high weekend utilizers could potentially provide an opportunity for quality improvement efforts, as well as changes in policy, to improve organ utilization.

Materials and Methods
Study design and participants
This observational cohort study used data from the SRTR and the United Network for Organ Sharing from 2000 to 2013. The SRTR data system includes data on all donor, wait-listed candidates, and transplant recipients in the United States, which are submitted by the members of the Organ Procurement and Transplantation Network (OPTN). The Health Resources and Services Administration, U.S. Department of Health and Human Services provides oversight to the activities of the OPTN and SRTR contractors. The Strengthening the Reporting of Observational Studies in Epidemiology (STROBE) guidelines were used to ensure the reporting of this observational study.17

We utilized the SRTR standard analytical file (2014 quarter 1) to conduct a retrospective cohort study to analyze variation in kidney procurement and utilization during the calendar week (Monday–Sunday) from 2000 to 2013 and measure the impact of weekends, that is, periods traditionally associated with lower resource availability. After including only deceased donor transplants and excluding donors and recipients <18 years in age, we identified a cohort of 201,956 deceased donor kidneys. For our analysis, we excluded kidneys from donors for whom we were unable to calculate the KDPI (n = 306) such as those with missing height or serum creatinine data. Kidneys of donors with a body mass index >50 (n = 1,338) were also excluded due to concerns about the validity of anthropometric measurements that could affect the KDPI calculations.

Given that nearly 80% (78.7%) of the organs used for kidney transplants performed on the weekend were procured on Friday and Saturday (Supplementary Table S1), we defined weekend kidneys as those that were procured for transplant on either a Friday or Saturday and subsequently discarded. We measured organ quality by calculating the KDPI, which is currently part of the new OPTN allocation policy for kidneys in the United States. KDPI is derived from the Kidney Donor Risk Index (KDRI), a measure used to estimate the relative risk of posttransplant kidney graft failure. KDRI is calculated using 10 donor-specific characteristics (age, height, weight, ethnicity, history of hypertension, history of diabetes, cause of death, serum creatinine, hepatitis C virus status, and donation after cardiac death status) and has been validated as a reasonable measure of organ quality in the United States as well as in other developed countries.15,18–21 After calculating the KDRI score, we mapped the values onto a cumulative percentage scale to create the KDPI. Because our analysis identified kidneys recovered from 2000 to 2013, as described by the OPTN, the KDRI was scaled to the median donor from 2013.15 Large transplant centers were defined as those that performed, on average, ≥100 living or deceased donor transplants per year over the duration of the study.

Geographic variation in the percentage of transplants that occurred on the weekends was estimated using the national OPTN Standard Transplant Analysis and Research file (based on OPTN data as of June 30, 2014). The spatial representation of the proportion of weekend transplants is limited to recipients whose state of residence was known as of June 2014.

Statistical analysis
Pearson chi-square tests and the nonparametric Wilcoxon or Kruskal-Wallis tests were performed for categorical and continuous variables, respectively. Chi-square tests were used to test equality of distribution between days of the week. We used univariate and multivariable logistic regression models to identify the odds of discard (vs. transplantation) of kidneys procured on different days of the week. The purposeful selection algorithm was used to evaluate confounding and establish which covariates were included in our regression models. We investigated effect measure modification by transplant center size and kidney procurement era on the relationship between day of the week organ procurement and discard. An interaction term approach, as well as the likelihood ratio test, was used to evaluate the effect mediation. Transplant, recipient, and donor characteristics were viewed as being potential model parameters. Univariate analysis of each potential covariate was performed; any variable having a significant univariate test, based on the Wald test from logistic regression using a P-value cutoff of 0.25, was considered a potential candidate for the multivariable analysis.22,23 Known clinical relevance also contributed to the final selection of model parameters.

Prior to our analysis, the model assumptions for logistic regression testing were evaluated and met (including that there was linearity in the logit for the KDPI measure, the only continuous variable in our model, and the lack of strongly influence outliers). Our final regression models adjusted the KDPI summary measure. Additionally, a sensitivity analysis was performed to understand the impact of adjusting models by the 10 components of the KDPI measure instead of the KDPI summary measure. Analyses were performed using SAS (version 9.4; SAS Institute, Cary, NC) and Stata MP (version 13.1; StataCorp, College Station, TX). The postcovariate selection’s statistical significance was identified by a P value <0.05.

Disclosure
All the authors declared no competing interests.

Acknowledgments

This work was supported in part by Health Resources and Services Administration contract 234-2005-37011C. The content is the responsibility of the authors alone and does not necessarily reflect the views or policies of the Department of Health and Human Services, nor does mention of trade names, commercial products, or organizations imply endorsement by the U.S. government.

The data reported here have been supplied by the Minneapolis Medical Research Foundation as the contractor for the SRTR. The interpretation and reporting of these data are the responsibility of the author(s) and in no way should be seen as an official policy of or interpretation by the SRTR or the U.S. government

 
Journal
Kidney International

   

[Simon Dog]

This is a problem, since people tend to get drunk and smash up their cars/cycles on weekends.

[DayaraLee]

In conclusion, our analysis demonstrates a variation in procurement and discard rates that vary over the course of the week and strongly suggest that deceased donor kidneys are more likely to be discarded over the weekend independent of organ quality. This suggests that organizational and systemic factors that extend beyond the quality of the available organ appear to be contributing to the high rate of discard of kidneys from deceased donors in the United States. 

Here's to a countrywide campaign to do your partying and drag-racing in the middle of the week.      Being an organ donor, I swear I would come back and haunt someone if my organs were discarded because of "organizational and systemic factors." What a waste.

[Simon Dog]

Here's to a countrywide campaign to do your partying and drag-racing in the middle of the week.      Being an organ donor, I swear I would come back and haunt someone if my organs were discarded because of "organizational and systemic factors." What a waste.

Perhaps a helmet law that is only effective from Friday to Sunday evening.

[kickingandscreaming]

Maybe the surgical teams do too much partying on weekends.  Wouldn't want to put a damper on their fun.

[Simon Dog]

Maybe the surgical teams do too much partying on weekends.  Wouldn't want to put a damper on their fun.

I think the "team" is a huge part of it.   There is a large number of people who would have to be called in to do an xplant.   When I had my hip done, I was kept in recovery for a day because I didn't meet a guidline for return to the regular floor.   Everyone working that unit was waiting to get an order that I could go to the regular floor since I was the only patient in that unit, and they were all "on the clock" only because I was there.

[Charlie B53]

All these unused organs are simply because there is no reliable storage method good for more than a very short time?

I hope research is being done on effective storage.  Besides ice perhaps some sort of nutrient bath, either soak or pumped through the blood vessels.   Anything to preserve vitality and function of the organ.

Good Luck, or better, very hard study and testing.

[Simon Dog]

All these unused organs are simply because there is no reliable storage method good for more than a very short time?

I hope research is being done on effective storage.  Besides ice perhaps some sort of nutrient bath, either soak or pumped through the blood vessels.   Anything to preserve vitality and function of the organ.

Good Luck, or better, very hard study and testing.

The most effective storage is keeping the donor "alive" on a vent until harvest time.

The problem of transplants comes down to the usual thing: Money.    The number of people that have to be brought in who would otherwise have the day off, and the fact that they would be getting full pay (plus a premium) to care for one patient instead of many is a big factor.   Another is how much extra would you have to pay the surgeon and anesthesiologist to make it worth coming in to work on a weekend, and would Medicare or private insurance pay that premium?

[Xplantdad]

From this article: https://www.washingtonpost.com/national/health-science/donated-organs-kept-alive-may-ease-the-transplant-shortage/2016/05/22/7868ceee-1d43-11e6-8c7b-6931e66333e7_story.html


Video here:   http://wapo.st/1sxeHg9

BOSTON — Lloyd Matsumoto awoke from his liver transplant last month to find his surgeon more than pleased with the results. The new organ had begun producing bile almost immediately, a welcome signal that it had quickly started to function well.

That may be partly because of the way Matsumoto’s liver traveled from Tufts Medical Center across Boston to Massachusetts General Hospital. Instead of being packed in ice for the 4½ hours it was outside the abdomens of donor and recipient, the liver was essentially kept alive in a device that maintains its temperature, perfuses it with oxygenated blood and monitors its critical activity.

“They say I’m going to live a normal life span,” said Matsumoto, a 71-year-old biology professor who is now back home in Barrington, R.I. “I’m living proof that it works.”



For all the advances in transplant surgery in the 62 years since doctors first moved a kidney from Ronald Herrick to his identical twin, Richard, the method of transporting organs remains remarkably primitive. A harvested heart, lung, liver or kidney is iced in a plastic cooler, the kind you might take to the beach, then raced to an operating room where a critically ill patient and his surgical team are waiting.


The new approach flips that idea — emphasizing warmth instead of cold and maintaining an organ’s natural processes rather than slowing them down. That may speed an individual heart or liver’s return to service, and it offers the eventual possibility of more: the potential to reduce the chronic shortage of organs for transplant by expanding the pool of usable ones.

Earlier clinical trials established that this technique is safe for transporting donated hearts and lungs. But Matsumoto’s surgeon, James F. Markmann, chief of the division of transplantation at Massachusetts General and head of the liver trial, cautioned that neither idea has been proven for that organ. That’s one of the reasons a study is underway. But Markmann said doctors and patients may be on the cusp of a “new start to this area.”



Many donor hearts are unavailable today because too much damage would occur when the blood supply is cut off and the organ is put on ice for hours. The big question is whether keeping them warm will increase the organ supply, said Michael G. Dickinson, a heart-failure cardiologist at Spectrum Health in Grand Rapids, Mich. Dickinson is part of a separate heart-transport study designed to address that issue.

“Is this better overall than the standard method?” he asked. “We would hope so. But we don’t know.”

A Massachusetts company, TransMedics, founded in 1998 by a heart surgeon, developed the Portable Organ Care System being used in the U.S. trials. Competitors here and abroad also are testing alternative technology.

The TransMedics device encloses the organ in a plastic box that attaches to a wheeled cart and can be removed to fit in a vehicle or aircraft. Blood, nutrients and fluids are pumped through tubes into the liver. Heaters warm the blood. Sensors monitor critical functions during the trip, relaying them to doctors wirelessly on a control screen. Specialists can alter a number of conditions — including oxygen levels and pressure in veins — with a touch of the panel.

  James Markmann, Chief of organ transplantation at Massachusetts General Hospital, holds the wireless remote control for the Transmedics Organ Care System. (Matthew Cavanaugh for The Washington Post)

The TransMedics system, first tested in Europe in 2006, is awaiting approval by the Food and Drug Administration for commercial use with hearts and lungs in the United States. The liver trial is a first-level safety study.

In Australia and parts of Europe, the device has been approved and used about 200 times commercially, according to a company spokeswoman.

A substantial remaining obstacle is cost, including whether insurance, Medicare and Medicaid will cover the $250,000 initial purchase, the $45,000 price of each organ container — which are used only once — and the staff time needed to transport an organ this way.

Nearly 31,000 organs were transplanted in the United States last year, including 2,804 hearts and 7,127 livers. But the sizable gap between demand and supply generally widens every year, leaving tens of thousands of people on waiting lists. An average of 22 people die each day waiting for transplants.

David Klassen, medical director for the United Network for Organ Sharing, the nonprofit organization that runs the U.S. organ procurement and transplantation network, agreed that devices such as the organ-care system could help ease the shortage if they make currently unusable organs available for transplant. Cost, he said, is still a barrier to widespread adoption of the devices, but with trials underway it is early for decisions on coverage.

There are two types of death in the transplant field — brain death and cardiac death. Donor hearts are useful only after brain death, because the heart continues to pump and oxygen-rich blood continues to circulate. In cardiac death, reduced circulation — known as ischemia — causes too much damage to the heart muscle to allow transplantation.

Australian doctors in 2014 transplanted three hearts after cardiac death, waiting as little as two minutes to harvest the organs. That effort and another like it have raised ethical questions about how soon surgeons should remove any organ after the heart stops beating. In the United States, the standard is five minutes.

“We can’t have a Wild West situation where surgeons just essentially come up with their own criteria,” said Robert Veatch, a professor emeritus of medical ethics at Georgetown University’s Kennedy Institute of Ethics.

Restarting livers, lungs and other organs harvested after circulatory death raises another issue, Veatch said. “If you’re restarting a heart, can you also say the circulatory system has been irreversibly stopped?” he asked.

In a brain-dead donor, transport and harvesting time are the enemy. When Marvin Vandermolen received his new heart April 16 at Spectrum’s Fred and Lena Meijer Heart Center, the donor was 21/2 hours away and 71/2 hours passed from the time the organ was taken until it was placed in Vandermolen’s chest. That is nearly double the allowable four hours under the protocol for hearts transported on ice.

But because Vandermolen’s heart was kept beating on the TransMedics device, it was in fine shape when it arrived for transplant and functioned well, according to his surgeon, Martin Strueber.

“We can keep a donor heart out of the body longer than we would do with any cold storage method,” Strueber said. “The heart is not sitting in a box. It is sitting in a system and is perfused with warm blood.”

After a month in the hospital, Vandermolen, 63, was headed home, focused “on eating something that really sounds good to me, and that sounds like meatloaf,” he said.

Donations after cardiac death also are problematic for livers, Markmann said. Thirty minutes without circulation is the current standard. Even within that time, about 30 percent of livers suffer some scarring in bile ducts. If the study shows promise in reducing injuries, future research will probably examine how much longer livers can endure ischemia.


Markmann said he was gratified to see how quickly Matsumoto’s donated liver responded. Until the study at six U.S. sites is completed later this year, it’s impossible to know the impact of the TransMedics device. But Markmann said in an email that “it was my impression” that the new transport method “contributed to [the liver’s] excellent early function.”

Early signs of Matsumoto’s liver problems began 25 years ago. Doctors eventually discovered that he had a form of cirrhosis — permanent scarring and damage to liver function — that is not related to alcohol, Matsumoto said. There is no cure, and when his symptoms became severe, one primary-care doctor told him that “no one is going to give a man your age a new liver,” he said.

But that wasn’t true. He qualified as a recipient and signed up for Markmann’s study. As a test subject, he could have been randomly chosen for the current standard of care — a liver transported on ice — or the experimental procedure that uses the TransMedics apparatus. A computer chose him for the latter and he became just the third person at Massachusetts General to receive his liver that way.

The seven-hour transplant surgery began on April 27 and was completed the next day. When Matsumoto awoke, “I was told I have a new birthday,” he said, “which was the 28th of April.”