Liver transplantation

After a liver transplantation, immune-mediated rejection (also known as rejection) of the allograft may happen at any time. Rejection may present with lab findings: elevated AST, ALT, GGT; abnormal liver function values such as prothrombin time, ammonia level, bilirubin level, albumin concentration; and abnormal blood glucose. Physical findings may include encephalopathy, jaundice, bruising and bleeding tendency. Other nonspecific presentation may include malaise, anorexia, muscle ache, low fever, slight increase in white blood count and graft-site tenderness.

Three types of graft rejection may occur: hyperacute rejection, acute rejection, and chronic rejection.

• Hyperacute rejection is caused by preformed anti-donor antibodies. It is characterized by the binding of these antibodies to antigens on vascular endothelial cells. Complement activation is involved and the effect is usually profound. Hyperacute rejection happens within minutes to hours after the transplant procedure.
• Acute rejection is mediated by T cells (versus B-cell-mediated hyperacute rejection). It involves direct cytotoxicity and cytokine mediated pathways. Acute rejection is the most common and the primary target of immunosuppressive agents. Acute rejection is usually seen within days or weeks of the transplant.
• Chronic rejection is the presence of any sign and symptom of rejection after one year. The cause of chronic rejection is still unknown, but an acute rejection is a strong predictor of chronic rejections.

Between removal from donor and transplantation into the recipient, the allograft liver is stored in a temperature-cooled preservation solution. The reduced temperature slows down the process of deterioration from normal metabolic processes, and the storage solution itself is designed to counteract the unwanted effects of cold ischemia. Although this "static" cold storage method has long been standard technique, various dynamic preservation methods are under investigation. For example, systems which use a machine to pump blood through the explanted liver (after it is harvested from the body) during a transfer have met some success (see Research section for more).

Volume rendering image created with computed tomography, which can be used to evaluate the volume of the liver of a potential donor.

Living donor liver transplantation (LDLT) has emerged in recent decades as a critical surgical option for patients with end stage liver disease, such as cirrhosis and/or hepatocellular carcinoma often attributable to one or more of the following: long-term alcohol abuse, long-term untreated hepatitis C infection, long-term untreated hepatitis B infection. The concept of LDLT is based on (1) the remarkable regenerative capacities of the human liver and (2) the widespread shortage of cadaveric livers for patients awaiting transplant. In LDLT, a piece of healthy liver is surgically removed from a living person and transplanted into a recipient, immediately after the recipient’s diseased liver has been entirely removed.

Historically, LDLT began with terminal pediatric patients, whose parents were motivated to risk donating a portion of their compatible healthy livers to replace their children's failing ones. The first report of successful LDLT was by Christoph Broelsch at the University of Chicago Medical Center in November 1989, when two-year-old Alyssa Smith received a portion of her mother's liver.[6] Surgeons eventually realized that adult-to-adult LDLT was also possible, and now the practice is common in a few reputable medical institutes. It is considered more technically demanding than even standard, cadaveric donor liver transplantation, and also poses the ethical problems underlying the indication of a major surgical operation (hemihepatectomy or related procedure) on a healthy human being. In various case series, the risk of complications in the donor is around 10%, and very occasionally a second operation is needed. Common problems are biliary fistula, gastric stasis and infections; they are more common after removal of the right lobe of the liver. Death after LDLT has been reported at 0% (Japan), 0.3% (USA) and <1% (Europe), with risks likely to decrease further as surgeons gain more experience in this procedure.[7] Since the law was changed to permit altruistic non-directed living organ donations in the UK in 2006, the first altruistic living liver donation took place in Britain in December 2012.[8]

In a typical adult recipient LDLT, 55 to 70% of the liver (the right lobe) is removed from a healthy living donor. The donor's liver will regenerate approaching 100% function within 4–6 weeks, and will almost reach full volumetric size with recapitulation of the normal structure soon thereafter. It may be possible to remove up to 70% of the liver from a healthy living donor without harm in most cases. The transplanted portion will reach full function and the appropriate size in the recipient as well, although it will take longer than for the donor.[9]

Living donors are faced with risks and/or complications after the surgery. Blood clots and biliary problems have the possibility of arising in the donor post-op, but these issues are remedied fairly easily. Although death is a risk that a living donor must be willing to accept prior to the surgery, the mortality rate of living donors in the United States is low. The LDLT donor's immune system does diminish as a result of the liver regenerating, so certain foods which would normally cause an upset stomach could cause serious illness.

CT scan performed for evaluation of a potential donor. The image shows an unusual variation of hepatic artery. The left hepatic artery supplies not only left lobe but also segment 8. The anatomy makes right lobe donation impossible. Even used as left lobe or lateral segment donation, it would be very technically challenging in anastomosing the small arteries.

Any member of the family, parent, sibling, child, spouse or a volunteer can donate their liver. The criteria[10][11] for a liver donation include:

• Being in good health[10]
• Having a blood type that matches or is compatible with the recipient's[10], although some centres now perform blood group incompatible transplants with special immunosuppression protocols
• Having a charitable desire of donation without financial motivation[10]
• Being between 20 and 60 years old[10] (18 to 60 years old in [11])
• Have an important personal relationship with the recipient[11]
• Being of similar or larger size than the recipient[11]
• Before one becomes a living donor, the donor must undergo testing to ensure that the individual is physically fit, in excellent health, and not having uncontrolled high blood pressure, liver disease, diabetes or heart disease.[11] Sometimes CT scans or MRIs are done to image the liver. In most cases, the work up is done in 2–3 weeks.

Living donor surgery is done at a major center. Very few individuals require any blood transfusions during or after surgery. All potential donors should know there is a 0.5 to 1.0 percent chance of death. Other risks of donating a liver include bleeding, infection, painful incision, possibility of blood clots and a prolonged recovery.[12] The vast majority of donors enjoy complete and full recovery within 2–3 months.

In children, due to their smaller abdominal cavity, there is only space for a partial segment of liver, usually the left lobe of the donor's liver. This is also known as a "split" liver transplant. There are four anastomoses required for a "split" liver transplant: hepaticojejunostomy (biliary drainage connecting to a roux limb of jejunum), portal venous anatomosis, hepatic arterial anastomosis, and inferior vena cava anastomosis.

In children, living liver donor transplantations have become very accepted. The accessibility of adult parents who want to donate a piece of the liver for their children/infants has reduced the number of children who would have otherwise died waiting for a transplant. Having a parent as a donor also has made it a lot easier for children - because both patients are in the same hospital and can help boost each other's morale.[13]

There are several advantages of living liver donor transplantation over cadaveric donor transplantation, including:

• Transplant can be done on an elective basis because the donor is readily available
• There are fewer possibilities for complications and death than there would be while waiting for a cadaveric organ donor
• Because of donor shortages, UNOS has placed limits on cadaveric organ allocation to foreigners who seek medical help in the USA. With the availability of living donor transplantation, this will now allow foreigners a new opportunity to seek medical care in the USA.

Living donor transplantation is a multidisciplinary approach. All living liver donors undergo medical evaluation. Every hospital which performs transplants has dedicated nurses that provide specific information about the procedure and answer questions that families may have. During the evaluation process, confidentiality is assured on the potential donor. Every effort is made to ensure that organ donation is not made by coercion from other family members. The transplant team provides both the donor and family thorough counseling and support which continues until full recovery is made.[14]

All donors are assessed medically to ensure that they can undergo the surgery. Blood type of the donor and recipient must be compatible but not always identical. Other things assessed prior to surgery include the anatomy of the donor liver. However, even with mild variations in blood vessels and bile duct, surgeons today are able to perform transplantation without problems. The most important criterion for a living liver donor is to be in excellent health.[15]

Like most other allografts, a liver transplant will be rejected by the recipient unless immunosuppressive drugs are used. The immunosuppressive regimens for all solid organ transplants are fairly similar, and a variety of agents are now available. Most liver transplant recipients receive corticosteroids plus a calcineurin inhibitor such as tacrolimus or ciclosporin, (also spelled cyclosporine and cyclosporin) plus a purine antagonist such as mycophenolate mofetil. Clinical outcome is better with tacrolimus than with ciclosporin during the first year of liver transplantation.[16][17] If the patient has a co-morbidity such as active hepatitis B, high doses of hepatitis B immunoglubins are administrated in liver transplant patients.

Liver transplantation is unique in that the risk of chronic rejection also decreases over time, although the great majority of recipients need to take immunosuppressive medication for the rest of their lives. It is possible to be slowly taken off anti rejection medication but only in certain cases. It is theorized that the liver may play a yet-unknown role in the maturation of certain cells pertaining to the immune system. There is at least one study by Thomas E. Starzl's team at the University of Pittsburgh which consisted of bone marrow biopsies taken from such patients which demonstrate genotypic chimerism in the bone marrow of liver transplant recipients.

• Eric Abidal (born 1979), French footballer (Olympique Lyonnais, FC Barcelona), transplant in 2012
• Gregg Allman (1947-2017), American musician (The Allman Brothers Band), transplant in 2010 (survival: 7 years)
• George Best (1946-2005), Northern-Irish footballer (Manchester United), transplant in 2002 (survival: 3 years)
• David Bird (1959–2014), American journalist (The Wall Street Journal), transplant in 2004 (survival: 10 years)
• Jack Bruce (1943-2014), English musician (Cream), transplant in 2003 (survival: 11 years)
• Robert P. Casey (1932-2000), American politician (42nd Governor of Pennsylvania), transplant in 1993 (survival: 7 years)
• David Crosby (born 1941), American musician (The Byrds, Crosby Stills, Nash (& Young)), transplant in 1994
• Gerald Durrell (1925-1995), British zookeeper (Durrell Wildlife Park), transplant in 1994 (survival <1 year)
• Shelley Fabares (born 1944), American actress (The Donna Reed Show, Coach) and singer ("Johnny Angel"), transplant in 2000
• Freddy Fender (1937-2006), American musician ("Before the Next Teardrop Falls," "Wasted Days and Wasted Nights"), transplant in 2004 (survival: 2 years)
• "Superstar" Billy Graham (born 1943), American wrestler (WWF), transplant in 2002
• Larry Hagman (1931-2012), American actor (Dallas, Harry and Tonto, Nixon, Primary Colors), transplant in 1995 (survival: 17 years)
• Steve Jobs (1955-2011), American businessman (Apple Inc.), transplant in 2009 (survival: 2 years)
• Chris Klug (born 1972), American snowboarder, transplant in 2000
• Evel Knievel (1938-2007), American stunt performer, transplant in 1999 (survival: 8 years)
• Chris LeDoux (1948-2005), American musician and rodeo champion, transplant in 2000 (survival: 5 years)
• Phil Lesh (born 1940), American musician (Grateful Dead), transplant in 1998
• Linda Lovelace (1949-2002), American pornographic actress (Deep Throat), transplant in 1987 (survival: 15 years)
• Mickey Mantle (1931-1995), American baseball player (New York Yankees), transplant in 1995 (survival: <1 year)
• Mike MacDonald (1954-2018), Canadian comedian and actor (Mr. Nice Guy), transplant in 2013 (survival: 5 years)
• Jim Nabors (1930-2017), American actor (The Andy Griffith Show), transplant in 1994 (survival: 23 years)
• John Phillips (1935-2001), American musician (The Mamas & the Papas), transplant in 1992 (survival: 9 years)
• Lou Reed (1942-2013), American musician (The Velvet Underground), transplant in 2013 (survival: <1 year)
• U. Srinivas (1969-2014), Indian musician, transplant in 2014 (survival: <1 year)

There is increasing interest in improving methods for allograft preservation following organ harvesting. The standard "static cold storage" technique relies on decreased temperature to slow of anaerobic metabolic breakdown. This is currently being investigated at cold (hypothermic), body temperature (normothermic), and under body temperature (subnormothermic). Hypothermic machine perfusion has been used successfully at Columbia University and at the University of Zurich.[22][23] A 2014 study showed that the liver preservation time could be significantly extended using a supercooling technique, which preserves the liver at subzero temperatures (-6 °C) [24] More recently, the first randomised controlled clinical trial comparing machine preservation with conventional cold storage showed comparable outcomes, with better early function, fewer discarded organs, and longer preservation times compared with cold stored livers.[25]

The high incidence of liver transplants given to those with alcoholic cirrhosis has led to a recurring controversy regarding the eligibility of such patients for liver transplant. The controversy stems from the view of alcoholism as a self-inflicted disease and the perception that those with alcohol-induced damage are depriving other patients who could be considered more deserving.[26] It is an important part of the selection process to differentiate transplant candidates who suffer from alcoholism as opposed to those who were susceptible to non-dependent alcohol use. The latter who gain control of alcohol use have a good prognosis following transplantation. Once a diagnosis of alcoholism has been established, however, it is necessary to assess the likelihood of future sobriety.[27]

Historically, HIV was considered an "absolute" contraindication to liver transplantation. This was in part due to concern that the infection would be worsened by the immunosuppressive medication which is required after transplantation.[1]

However, with the advent of highly active antiretroviral therapy (HAART), people with HIV have much improved prognosis. Transplantation may be offered selectively, although consideration of overall health and life circumstances may still be limiting. Uncontrolled HIV disease (AIDS) remains an absolute contraindication.