Isolated Small Bowel Transplant - CAM 70304HB
Description:
A small bowel transplant may be performed as an isolated procedure or in conjunction with other visceral organs, including the liver, duodenum, jejunum, ileum, pancreas, or colon. Isolated small bowel transplant is commonly performed in patients with short bowel syndrome. Small bowel/liver transplants and multivisceral transplants are considered in evidence review 70305.
Background
Solid organ transplantation offers a treatment option for patients with different types of end-stage organ failure that can be lifesaving or provide significant improvements to a patient’s quality of life.1 Many advances have been made in the last several decades to reduce perioperative complications. Available data supports improvement in long-term survival as well as improved quality of life, particularly for liver, kidney, pancreas, heart, and lung transplants. Allograft rejection remains a key early and late complication risk for any organ transplantation. Transplant recipients require life-long immunosuppression to prevent rejection. Patients are prioritized for transplant by mortality risk and severity of illness criteria developed by the Organ Procurement and Transplantation Network (OPTN) and United Network of Organ Sharing (UNOS).
Short Bowel Syndrome
Short bowel syndrome is a condition in which the absorbing surface of the small intestine is inadequate due to extensive disease or surgical removal of a large portion of the small intestine. The spectrum of clinical disease is widely variable from only single micronutrient malabsorption to complete intestinal failure, defined as the reduction of gut function below the minimum necessary for the absorption of macronutrients and/or water and electrolytes.2 In adults, etiologies of short bowel syndrome include ischemia, trauma, volvulus, and tumors. In children, gastroschisis, volvulus, necrotizing enterocolitis, and congenital atresia are predominant causes. Although the actual prevalence of short bowel syndrome is not clear primarily due to under-reporting and a lack of reliable patient databases, its prevalence is estimated to be 30 cases per million in the U.S.2
Treatment
The small intestine, particularly the ileum, can adapt to some functions of the diseased or removed portion over a period of 1 to 2 years. Prognosis for recovery depends on the degree and location of small intestine damage. Therapy focuses on achieving adequate macro- and micronutrient uptake in the remaining small bowel. Pharmacologic agents have been studied to increase villous proliferation and slow transit times, and surgical techniques have been advocated to optimize remaining small bowel.
However, some patients with short bowel syndrome are unable to obtain adequate nutrition from enteral feeding and become chronically dependent on total parenteral nutrition (TPN). For patients with short bowel syndrome, the rate of parenteral nutrition dependency at 1, 2, and 5 years has been reported to be 74%, 64%, and 48%, respectively.2 Patients with complications from TPN may be considered candidates for a small bowel transplant. Complications include catheter-related mechanical problems, infections, hepatobiliary disease, and metabolic bone disease. While cadaveric intestinal transplant is the most commonly performed transplant, there has been a recent interest in using living donors.
Intestinal transplants (including multivisceral and bowel/liver) represent a small minority of all solid organ transplants. In 2019 , 81 intestinal transplants were performed in the U.S. ( approximately 50% of which were intestine-liver transplants).3 Overall, both the number of new patients added to the intestinal transplant waiting list (n = 103 ) and the number of intestinal transplants performed declined to their lowest levels in 2019.
Regulatory Status
Small bowel transplantation is a surgical procedure and, as such, is not subject to regulation by the U.S. Food and Drug Administration.
The U.S. Food and Drug Administration regulates human cells and tissues intended for implantation, transplantation, or infusion through the Center for Biologics Evaluation and Research, under Code of Federal Regulation title 21, parts 1270 and 1271. Small bowel transplants are included in these regulations.
Policy:
A small bowel transplant using cadaveric intestine may be considered MEDICALLY NECESSARY in adult and pediatric patients with intestinal failure (characterized by loss of absorption and the inability to maintain protein-energy, fluid, electrolyte, or micronutrient balance), who have established long-term dependency on total parenteral nutrition (TPN) and are developing or have developed severe complications due to TPN.
A small bowel transplant using a living donor may be considered MEDICALLY NECESSARY only when a cadaveric intestine is not available for transplantation in a patient who meets the criteria noted above for a cadaveric intestinal transplant.
A small bowel retransplant may be considered MEDICALLY NECESSARY after a failed primary small bowel transplant.
A small bowel transplant using living donors is considered NOT MEDICALLY NECESSARY in all other situations.
A small bowel transplant is investigational and /or unproven and therefore considered NOT MEDICALLY NECESSARY for adults and pediatric patients with intestinal failure who are able to tolerate TPN.
Policy Guidelines
General
Potential contraindications include, but are not limited to:
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Known current malignancy, including metastatic cancer.
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Recent malignancy with high risk of recurrence.
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Untreated systemic infection making immunosuppression unsafe, including chronic infection.
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Other irreversible end-stage disease not attributed to intestinal failure.
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History of cancer with a moderate risk of recurrence.
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Systemic disease that could be exacerbated by immunosuppression.
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Psychosocial conditions or chemical dependency affecting ability to adhere to therapy.
Small Bowel Specific
Intestinal failure results from surgical resection, congenital defect or disease-associated loss of absorption and is characterized by the inability to maintain protein-energy, fluid, electrolyte or micronutrient balance.2 Short-bowel syndrome is one cause of intestinal failure.
Patients who are developing or have developed severe complications due to total parenteral nutrition (TPN) include, but are not limited to, the following: multiple and prolonged hospitalizations to treat TPN-related complications (especially repeated episodes of catheter-related sepsis) or the development of progressive liver failure. In the setting of progressive liver failure, small bowel transplant may be considered a technique to avoid end-stage liver failure related to chronic TPN, thus avoiding the necessity of a multivisceral transplant. In those receiving TPN, liver disease with jaundice (total bilirubin above three mg/dL) is often associated with development of irreversible progressive liver disease. The inability to maintain venous access is another reason to consider small bowel transplant in those who are dependent on TPN.
Benefit Application
BlueCard/National Account Issues
Transplant requests should be reviewed by the Plan medical director or his or her designee. Only patients accepted for transplantation by an approved transplant center and actively listed for transplant should be considered for precertification or prior approval. Guidelines should be followed for transplant network or consortiums, if applicable.
Small bowel transplants should be considered for coverage under the transplant benefit.
What is covered under the scope of the human organ transplant (HOT) benefit needs to be considered. Typically, the following are covered under the HOT benefit:
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Hospitalization of the recipient for medically recognized transplants from a donor to a transplant recipient
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Evaluation tests requiring hospitalization to determine the suitability of both potential and actual donors, when such tests cannot be safely and effectively performed on an outpatient basis
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Hospital room, board and general nursing in semi-private rooms
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Special care units, such as coronary and intensive care
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Hospital ancillary services
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Physicians’ services for surgery, technical assistance, administration of anesthetics and medical care
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Acquisition, preparation, transportation and storage of organ
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Diagnostic services
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Drugs that require a prescription by federal law
Expenses incurred in the evaluation and procurement of organs and tissues are benefits when billed by the hospital. Included in these expenses may be specific charges for participation with registries for organ procurement, operating rooms, supplies, use of hospital equipment and transportation of the tissue or organ to be evaluated.
Administration of products with a specific transplant benefit needs to be defined as to:
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When the benefit begins (at the time of admission for the transplant or once the patient is determined eligible for a transplant, which may include tests or office visits prior to transplant).
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When the benefit ends (at the time of discharge from the hospital or at the end of required follow-up, including the immunosuppressive drugs administered on an outpatient basis).
Coverage usually is not provided for:
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HOT services for which the cost is covered/funded by governmental, foundational or charitable grants.
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Organs sold rather than donated to the recipient.
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An artificial organ.
Rationale:
Evidence reviews assess the clinical evidence to determine whether the use of technology improves the net health outcome. Broadly defined, health outcomes are the length of life, quality of life, and ability to function including benefits and harms. Every clinical condition has specific outcomes that are important to patients and managing the course of that condition. Validated outcome measures are necessary to ascertain whether a condition improves or worsens; and whether the magnitude of that change is clinically significant. The net health outcome is a balance of benefits and harms.
To assess whether the evidence is sufficient to draw conclusions about the net health outcome of a technology, 2 domains are examined: the relevance, and quality and credibility. To be relevant, studies must represent 1 or more intended clinical use of the technology in the intended population and compare an effective and appropriate alternative at a comparable intensity. For some conditions, the alternative will be supportive care or surveillance. The quality and credibility of the evidence depend on study design and conduct, minimizing bias and confounding that can generate incorrect findings. The randomized controlled trial (RCT) is preferred to assess efficacy; however, in some circumstances, nonrandomized studies may be adequate. Randomized controlled trials are rarely large enough or long enough to capture less common adverse events and long-term effects. Other types of studies can be used for these purposes and to assess generalizability to broader clinical populations and settings of clinical practice.
Small Bowel Transplantation
Clinical Context and Therapy Purpose
The purpose of a small bowel transplant in patients who have an intestinal failure is to provide a treatment option that is an alternative to or an improvement on existing therapies. Parenteral nutrition has been a mainstay of therapy for patients with intestinal failure for decades.4 Medical advances have resulted in improved survival in parenteral nutrition-dependent patients, primarily through an increased likelihood of weaning (i.e., achieving enteral autonomy) and reduced rates and progression of intestinal failure-associated liver disease and other life-threatening complications of prolonged parenteral nutrition administration.
The question addressed in this evidence review is: Does a small bowel transplant improve the net health outcome in individuals with intestinal failure?
The following PICO was used to select literature to inform this review.
Populations
The relevant population of interest is individuals with intestinal failure.
Interventions
The therapy being considered is a small bowel transplant.
Comparators
The following practices are currently being used to make decisions about intestinal failure: medical management and parenteral nutrition.
Outcomes
The general outcomes of interest are overall survival (OS) and treatment-related adverse events (e.g., immunosuppression, graft failure, surgical complications, infections). See the Adverse Events section for a detailed discussion of potential negative outcomes. Short-term follow-up ranges from immediately post-surgery to 30 days post-transplantation; lifelong follow-up (out to 10 years or more given current survival data) is necessary due to ongoing immunosuppressive drugs and risk of graft failure.
Study Selection Criteria
Methodologically credible studies were selected using the following principles:
- To assess efficacy outcomes, comparative controlled prospective trials were sought, with a preference for RCTs.
- In the absence of such trials, comparative observational studies were sought, with a preference for prospective studies.
- To assess long-term outcomes and adverse events, single-arm studies that capture longer periods of follow-up and/or larger populations were sought.
- Studies with duplicative or overlapping populations were excluded.
Review of Evidence
Case Series
The majority of the published literature consists of case series, mainly reported by single centers in the U.S., Japan, and Europe. Tables 1 and 2 summarize the characteristics and results of these case series, respectively. Many case series have included small bowel/liver transplantations and multivisceral transplantations (which are the focus of evidence review 7.03.05).
The main reason for transplantation was short bowel syndrome. Other reasons included congenital enteropathies and motility disorders. The most commonly reported outcomes were survival rates and weaning off TPN. Several studies have presented survival rates by type of transplantation, while others have combined multiple types of transplants when reporting survival rates. When rates were reported by type of transplant, isolated transplantations had higher survival rates than multivisceral transplants (Table 2).
Several investigators have reported higher survival rates in transplantations conducted more recently than those conducted earlier.5,6 Reasons for improved survival rates in more recent years have been attributed to the development of more effective immunosuppressive drugs and the learning curve for the complex procedure.
Sudan (2010) published a review of the literature on long-term outcomes after intestinal transplantation.7 Sudan noted that intestinal transplantation had become standard therapy for patients with life-threatening complications from parenteral nutrition therapy. Data from current single center series have indicated 1-year patient survival rates between 78% and 85% and 5-year or more survival rates between 56% and 61%. Concerning pediatric intestinal transplant patients, most achieve normal growth velocity at 2 years post-transplant. However, oral aversion is common; tube feedings are necessary for 45% of children. Sudan also reported on parental surveys of quality of life for pediatric transplant patients in which intestinal transplant patients appear to have modestly improved quality of life compared with those remaining on TPN and slightly worse than matched school-age controls without intestinal disease.
Authors of these series, as well as related reviews, have observed that while outcomes have improved over time, recurrent and chronic rejection and complications of immunosuppression continue to be obstacles to long-term survival. A separate discussion of adverse events follows the evidence tables.
Table 1. Summary of Key Case Series Characteristics for Transplantations
Study | Location | N | Median Age (Range), y | Interventions | Follow-Up (Range), mo | |
Treatment | n | |||||
Lacaille et al. (2017)8 | France | 110 | 5.3 (0.4 to 19) | • Isolated IT • Combined liver IT • Multivisceral graft |
60 45 5 |
Of 55 alive: |
Garcia Aroz et al. (2017) 9 | U.S. | 10 | 1.5 (0.7 to 13) | • Isolated IT • Combined liver IT |
7 3 |
6/7 alive at follow-up ≥ 10 y |
Dore et al. (2016)10 | U.S. | 30 | 0.2 (0.1 to 18) | • Isolated IT • Combined liver IT • Multivisceral graft |
6 6 18 |
28 (4 to 175) |
Rutter et al. (2016)11 | U.K. | 60 | 1.8 (0 to 8) | • Isolated IT • Multivisceral graft • Modified multivisceral |
16 35 9 |
21.3 (0 to 95) |
Lauro et al. (2014)12 | Italy | 46 | 34 (NR) | • Isolated IT • Combined liver IT • Multivisceral graft |
34 6 6 |
51.3 |
Ueno et al. (2014) 5 | Japan | 24 | 0 to 2 y: 6c • 3 to 6 y: 6 • 7 to 18 y: 8 • ≥ 19 y: 4 |
• Isolated IT • Combined liver IT |
23 1 |
NR |
Benedetti et al. (2006)6,a | U.S. | 11 | 27 (1.5 to 50) | • Isolated IT | 11 | NR |
IT: intestinal transplantation; NR: not reported.
a All living donors.
b Twelve living donors and 12 cadaveric donors.
c Reported as age range and n.
Table 2. Summary of Key Case Series Results for Transplantations
Study | Interventions | Survival | Off TPN | |||
Treatment | n | Years | % | Measure | % | |
Lacaille et al. (2017)8 |
|
60 45 5 |
OS at 10 Patient survival for liver-containing grafts at 10 and 18 Patient survival for isolated IT at 10 and 18 |
52; 48; 45 59; 56 |
All combined at last FU | 73 |
Garcia Aroz et al. (2017)9,a |
|
7 3 |
All combined: | 70 | All combined at last FU | 100 |
Dore et al. (2016)10 |
|
6 6 18 |
9 10 2.5 |
83 33 67 |
All combined: • in 31 days • at last FU |
71 62 |
Rutter et al. (2016)11 |
|
16 35 9 |
1 5 |
92; 71; 85 83; 33; 65 |
NR | |
Lauro et al. (2014)12 |
|
34 6 6 |
All combined: 1 3 5 10 |
77 58 53 37 |
NR | |
Ueno et al. (2014) 5 |
|
23 1 |
All combined: 1 5 |
86 68 |
80 | |
Benedetti et al. (2006)6,a |
|
11 | 1 3 |
82 82 |
100 |
FU: follow-up; IT: intestinal transplantation; NR: not reported; OS: overall survival; TPN: total parenteral nutrition.
a All living donors.
b Twelve living donors and 12 cadaveric donors.
Adverse Events
Systematic Reviews
One issue discussed in intestinal transplantation literature is an earlier referral to avoid combined liver and intestine transplantation.13 It has been suggested that removing the restriction on intestinal transplantation to patients who have severe complications from TPN and recommending earlier transplantation may improve survival. However, in a review of the status of intestinal transplantation, Vianna et al. (2008) identified no randomized trials that compared intestinal transplantation with long-term TPN; therefore, optimal timing for earlier transplantation has not been established.14
Case Series
Wu et al. (2016) investigated the incidence and risk factors of acute antibody-mediated rejection (ABMR) among patients undergoing intestinal transplantation (N = 175).15 The mean age of enrolled patients was 25 years. Acute ABMR was diagnosed by clinical evidence; histologic evidence of tissue damage; focal or diffuse linear C4d deposition; and circulating anti-human leukocyte antigen antibodies. Of the 175 intestinal transplants, 58% were liver-free small intestine grafts, 36% included a liver graft, and 6.3% were retransplantations. Eighteen cases of acute ABMR were identified, 14 (14%) among the patients undergoing first liver-free transplantation, 2 (3%) among patients undergoing liver/small bowel transplantation, and 2 (18%) among the patients undergoing retransplantation. Graft failure occurred in 67% of patients with acute ABMR. The presence of a donor-specific antibody and a liver-free graft were associated with the development of acute ABMR.
Florescu et al. (2012) have published several retrospective reviews of complications in a cohort of 98 pediatric patients. Twenty-one (21.4%) of these children had an isolated small bowel transplant; the remainder had combined transplants. Their 2012 study reported that 68 (69%) of the 98 patients developed at least 1 episode of bloodstream infection.16 Among patients with an isolated small bowel transplant, the median time to infection for those who developed one was 4.5 months (95% confidence interval [CI], 2.4 to 6.7 months). Also in 2012, these researchers reported that 7 (7%) of 98 patients developed cytomegalovirus disease; only 1 had an isolated small bowel transplant.17 Florescu et al. (2010) previously reported that, in 25 (25.5%) of 98 cases reviewed who developed at least 1 episode of fungal infection, Candida infection was most common.18 Mortality rates did not differ significantly between patients who did (32.3%) and did not develop a fungal infection (29.8%; p = .46).
Other series have reported on renal failure after intestinal transplantation. For example, Calvo Pulido et al. (2014) reported on 21 adults who underwent intestinal transplantation; 17 were isolated small bowel transplants.19 Thirteen (62%) patients experienced renal failure; the etiology included high ileostomy output, immunosuppression, and medical treatment. Boyer et al. (2013) reported that 7 of 12 children who had an isolated small bowel transplant developed renal function complications at some point after surgery.20 Before treatment, all patients had normal renal functioning.
Living Donor Transplants
Cadaveric intestines are most commonly used, but recently there has been an interest in using a portion of intestine harvested from a living, related donor. Potential advantages of a living donor include the ability to plan the transplantation electively and better antigen matching, leading to improved management of rejection. Case reports from the 1990s have reported on 1 or 2 patients with different lengths of the ileum or jejunum.21,22,23,24 While there appear to be few complications to the donors, of the 6 cases reported, 5 recipients remain on TPN for at least part of their caloric intake. One patient was weaned off TPN.
Tables 1 and 2 provide details on case series that used living donors (Garcia Aroz et al. [2017],9 Ueno et al. [2014],5and Benedetti et al. [2006]6). In general, survival rates of recipients with living donors are comparable to rates for recipients of cadaveric donations. Living related donors were reported to have an uneventful recovery. Weight loss and diarrhea were reported among donors, but recovery was without complications.
Human Immunodeficiency Virus-Positive Transplant Recipients
The 2013 HIV Organ Policy Equity Act in the U.S. permitted scientists to carry out research into organ donations from a person with HIV to another HIV-infected person.25 In 2015, the Organ Procurement and Transplant Network (OPTN) updated its policies to be consistent with the HIV Organ Policy Equity Act.26 The OPTN and United Network for Organ Sharing (UNOS) policies specify that organs from HIV-positive patients be used only for HIV-positive transplant recipients.
Current OPTN policy permits HIV-positive transplant candidates.27
The British HIV Association and the British Transplantation Society (2017) updated their guidelines on kidney and pancreas transplantation in patients with HIV disease.28 These criteria may be extrapolated to other organs:
- Adherent with treatment, particularly antiretroviral therapy
- Cluster of differentiation 4 count greater than 100 cells/mL (ideally > 200 cells/mL) for at least 3 months
- Undetectable HIV viremia (< 50 HIV-1 RNA copies/mL) for at least 6 months
- No opportunistic infections for at least 6 months
- No history of progressive multifocal leukoencephalopathy, chronic intestinal cryptosporidiosis, or lymphoma.
Section Summary: Small Bowel Transplantation
Small bowel transplant is infrequently performed, and only relatively small case series, generally single center, are available. Risks after small bowel transplant are high, particularly related to infection, but may be balanced against the need to avoid the long-term complications of TPN dependence. In addition, early small bowel transplant may obviate the need for a later combined liver/small bowel transplant. Guidelines and U.S. federal policy no longer view HIV infection as an absolute contraindication for solid organ transplantation.
Small Bowel Retransplantation
Clinical Context and Therapy Purpose
The purpose of small bowel retransplants in patients who have failed small bowel transplant and do not have contraindication(s) for retransplant is to provide a treatment option that is an alternative to or an improvement on existing therapies.
The question addressed in this evidence review is: Does small bowel retransplant improve the net health outcome in individuals whose small bowel transplant has failed?
The following PICO was used to select literature to inform this review.
Populations
The relevant population of interest is individuals who have failed small bowel transplant and do not have contraindication(s) for retransplant.
Interventions
The therapy being considered is a small bowel retransplant.
Comparators
The following practices are currently being used to make decisions about the intestinal failure of an initial small bowel transplant: medical management and parenteral nutrition.
Outcomes
The general outcomes of interest are OS and treatment-related adverse events (e.g., immunosuppression, graft failure, surgical complications, infections). See the Adverse Events section for initial transplants for a detailed discussion of potential negative outcomes. Short-term follow-up ranges from immediately post-surgery to 30 days post-transplantation; lifelong follow-up (out to 10 years or more given current survival data) is necessary due to ongoing immunosuppressive drugs and risk of graft failure.
Study Selection Criteria
Methodologically credible studies were selected using the following principles:
- To assess efficacy outcomes, comparative controlled prospective trials were sought, with a preference for RCTs.
- In the absence of such trials, comparative observational studies were sought, with a preference for prospective studies.
- To assess long-term outcomes and adverse events, single-arm studies that capture longer periods of follow-up and/or larger populations were sought.
- Studies with duplicative or overlapping populations were excluded.
Case Series
A few case series from single institutions and a single analysis of data from the UNOS database have provided evidence on the use of retransplantation in patients who failed primary small bowel transplant. Case series characteristics and results are detailed in Tables 3 and 4, respectively.
Desai et al. (2012) have published the most comprehensive reporting of outcomes after repeat small bowel transplant in the U.S.29 The authors evaluated data for patients in the UNOS database who underwent small bowel transplants in the U.S. between 1987 and 2009.
Table 3. Summary of Key Case Series Characteristics for Retransplantations
Study | Location | N | Median Age (Range), y | Interventions | Follow-Up (Range), mo | |
Treatment | n | |||||
Lacaille et al. (2017)8 | France | 10 | 13 (5 to 16) | • Isolated IT • Combined liver IT |
3 7 |
4 |
Desai et al. (2012)29 | U.S. | 72 adults; 77 children |
NR | Adults: • Isolated IT • Combined liver IT Children: • Isolated IT • Combined liver IT |
41 31 28 49 |
NR |
Abu-Elmagd et al. (2009)30 | U.S. | 47 | NR | • Isolated IT • Combined liver IT • Multivisceral graft |
31 7 9 |
NR |
IT: intestinal transplantation; NR: not reported.
Table 4. Summary of Key Case Series Results for Retransplantations
Study | Interventions | Survival | Off TPN | ||
Treatment | n | Years | % | ||
Lacaille et al. (2017)8 | • Isolated IT • Combined liver IT |
3 7 |
All combined at last follow-up: | 30 | NR |
Desai et al. (2012)29 | Adults: • Isolated IT • Combined liver IT Children: • Isolated IT • Combined liver IT |
41 31 28 49 |
Adults: 1/3/5 (isolated IT); 1/3/5 (Combined liver IT) Children: 1/3/5 (isolated IT); 1/3/5 (Combined liver IT) |
80/47/29; 63/56/47 81/74/57; 42/42/42 |
NR |
Abu-Elmagd et al. (2009)30 | • Isolated IT • Combined liver IT • Multivisceral graft |
31 7 9 |
All combined: 1 5 |
69 47 |
NR |
IT: intestinal transplantation; NR: not reported; TPN: total parenteral nutrition.
Section Summary: Small Bowel Retransplantation
Data from a small number of patients undergoing retransplantation are available. Although limited in quantity, the available data have suggested reasonably high survival rates after small bowel retransplantation in patients who continue to meet the criteria for transplantation.
Summary of Evidence
For individuals who have intestinal failure who receive a small bowel transplant, the evidence includes case series. Relevant outcomes are OS, morbid events, and treatment-related mortality and morbidity. Small bowel transplant is infrequently performed, and only relatively small case series, generally single-center, are available. Risks after small bowel transplant are high, particularly related to infection, but may be balanced against the need to avoid the long-term complications of TPN dependence. In addition, early small bowel transplant may obviate the need for a later combined liver/small bowel transplant. Transplantation is contraindicated in patients in whom the procedure is expected to be futile due to comorbid disease or in whom post-transplantation care is expected to worsen comorbid conditions significantly. Guidelines and U.S. federal policy no longer view HIV infection as an absolute contraindication for solid organ transplantation. The evidence is sufficient to determine that the technology results in an improvement in the net health outcome.
For individuals who have failed small bowel transplant without contraindication(s) for retransplant who receive a small bowel retransplant, the evidence includes case series. Relevant outcomes are OS, morbid events, and treatment-related mortality and morbidity. Data from a small number of patients undergoing retransplantation are available. Although limited in quantity, the available data have suggested a reasonably high survival rate after small bowel retransplantation in patients who continue to meet the criteria for transplantation. The evidence is sufficient to determine that the technology results in an improvement in the net health outcome.
The purpose of the following information is to provide reference material. Inclusion does not imply endorsement or alignment with the evidence review conclusions.
Clinical Input From Physician Specialty Societies and Academic Medical Centers
While the various physician specialty societies and academic medical centers may collaborate with and make recommendations during this process, through the provision of appropriate reviewers, input received does not represent an endorsement or position statement by the physician specialty societies or academic medical centers, unless otherwise noted.
In response to requests, input was received from 2 physician specialty societies and 2 academic medical centers while this policy was under review in 2009. The consensus of those providing input was that small bowel transplant should be performed in patients who are developing severe total parenteral nutrition (TPN)-related complications and that small bowel transplant from living donors may be considered when cadaveric intestinal transplants are not available.
Practice Guidelines and Position Statements
Guidelines or position statements will be considered for inclusion in Supplemental Information if they were issued by, or jointly by, a U.S. professional society, an international society with U.S. representation, or National Institute for Health and Care Excellence (NICE). Priority will be given to guidelines that are informed by a systematic review, include strength of evidence ratings, and include a description of management of conflict of interest.
American Gastroenterological Association
In 2003, the American Gastroenterological Association produced a medical position statement on short bowel syndrome and intestinal transplantation.31 It recommended dietary, medical, and surgical solutions. Indications for intestinal transplantation mirrored those of the Centers for Medicare & Medicaid Services. The guidelines acknowledged the limitations of a transplant for these patients. The statement recommended the following Medicare-approved indications, pending availability of additional data:
- Impending or overt liver failure
- Thrombosis of major central venous channels
- Frequent central line-related sepsis
- Frequent severe dehydration
American Society of Transplantation
In 2001, the American Society of Transplantation issued a position paper on indications for pediatric intestinal transplantation.32 The Society listed the following disorders in children as potentially treatable by intestinal transplantation: short bowel syndrome, defective intestinal motility, and impaired enterocyte absorptive capacity. Contraindications for intestinal transplant to treat pediatric patients with intestinal failure are similar to those of other solid organ transplants: profound neurologic disabilities, life-threatening comorbidities, severe immunologic deficiencies, nonresectable malignancies, autoimmune diseases, and insufficient vascular patency.
U.S. Preventive Services Task Force Recommendations
Not applicable
Ongoing and Unpublished Clinical Trials
A search of ClinicalTrials.gov in June 2022 did not identify any ongoing or unpublished trials that would likely influence this review.
References:
- Black CK, Termanini KM, Aguirre O, et al. Solid organ transplantation in the 21 st century. Ann Transl Med. Oct 2018; 6(20): 409. PMID 30498736
- Massironi S, Cavalcoli F, Rausa E, et al. Understanding short bowel syndrome: Current status and future perspectives. Dig Liver Dis. Mar 2020; 52(3): 253-261. PMID 31892505
- U. S. Department of Health and Human Services (DHHS). Organ Procurement and Transplantation Network National Data. 2022; https://optn.transplant.hrsa.gov/data/. Accessed June 8, 2022
- Sudan D. The current state of intestine transplantation: indications, techniques, outcomes and challenges. Am J Transplant. Sep 2014; 14(9): 1976-84. PMID 25307033
- Ueno T, Wada M, Hoshino K, et al. Impact of intestinal transplantation for intestinal failure in Japan. Transplant Proc. Jul-Aug 2014; 46(6): 2122-4. PMID 25131121
- Benedetti E, Holterman M, Asolati M, et al. Living related segmental bowel transplantation: from experimental to standardized procedure. Ann Surg. Nov 2006; 244(5): 694-9. PMID 17060761
- Sudan D. Long-term outcomes and quality of life after intestine transplantation. Curr Opin Organ Transplant. Jun 2010; 15(3): 357-60. PMID 20445450
- Lacaille F, Irtan S, Dupic L, et al. Twenty-eight years of intestinal transplantation in Paris: experience of the oldest European center. Transpl Int. Feb 2017; 30(2): 178-186. PMID 27889929
- Garcia Aroz S, Tzvetanov I, Hetterman EA, et al. Long-term outcomes of living-related small intestinal transplantation in children: A single-center experience. Pediatr Transplant. Jun 2017; 21(4). PMID 28295952
- Dore M, Junco PT, Andres AM, et al. Surgical Rehabilitation Techniques in Children with Poor Prognosis Short Bowel Syndrome. Eur J Pediatr Surg. Feb 2016; 26(1): 112-6. PMID 26535775
- Rutter CS, Amin I, Russell NK, et al. Adult Intestinal and Multivisceral Transplantation: Experience From a Single Center in the United Kingdom. Transplant Proc. Mar 2016; 48(2): 468-72. PMID 27109980
- Lauro A, Zanfi C, Dazzi A, et al. Disease-related intestinal transplant in adults: results from a single center. Transplant Proc. Jan-Feb 2014; 46(1): 245-8. PMID 24507060
- Matarese LE, Costa G, Bond G, et al. Therapeutic efficacy of intestinal and multivisceral transplantation: survival and nutrition outcome. Nutr Clin Pract. Oct 2007; 22(5): 474-81. PMID 17906271
- Vianna RM, Mangus RS, Tector AJ. Current status of small bowel and multivisceral transplantation. Adv Surg. 2008; 42: 129-50. PMID 18953814
- Wu GS, Cruz RJ, Cai JC. Acute antibody-mediated rejection after intestinal transplantation. World J Transplant. Dec 24 2016; 6(4): 719-728. PMID 28058223
- Florescu DF, Qiu F, Langnas AN, et al. Bloodstream infections during the first year after pediatric small bowel transplantation. Pediatr Infect Dis J. Jul 2012; 31(7): 700-4. PMID 22466325
- Florescu DF, Langnas AN, Grant W, et al. Incidence, risk factors, and outcomes associated with cytomegalovirus disease in small bowel transplant recipients. Pediatr Transplant. May 2012; 16(3): 294-301. PMID 22212495
- Florescu DF, Islam KM, Grant W, et al. Incidence and outcome of fungal infections in pediatric small bowel transplant recipients. Transpl Infect Dis. Dec 2010; 12(6): 497-504. PMID 20626710
- Calvo Pulido J, Jimenez Romero C, Morales Ruiz E, et al. Renal failure associated with intestinal transplantation: our experience in Spain. Transplant Proc. Jul-Aug 2014; 46(6): 2140-2. PMID 25131125
- Boyer O, Noto C, De Serre NP, et al. Renal function and histology in children after small bowel transplantation. Pediatr Transplant. Feb 2013; 17(1): 65-72. PMID 22882667
- Fujimoto Y, Uemoto S, Inomata Y, et al. Living-related small bowel transplant: management of rejection and infection. Transplant Proc. Feb 1998; 30(1): 149. PMID 9474986
- Gruessner RW, Sharp HL. Living-related intestinal transplantation: first report of a standardized surgical technique. Transplantation. Dec 15 1997; 64(11): 1605-7. PMID 9415566
- Jaffe BM, Beck R, Flint L, et al. Living-related small bowel transplantation in adults: a report of two patients. Transplant Proc. May 1997; 29(3): 1851-2. PMID 9142299
- Tesi R, Beck R, Lambiase L, et al. Living-related small-bowel transplantation: donor evaluation and outcome. Transplant Proc. Feb-Mar 1997; 29(1-2): 686-7. PMID 9123480
- Colfax G. HIV Organ Policy Equity (HOPE) Act Is Now Law. 2013; https://obamawhitehouse.archives.gov/blog/2013/11/21/hiv-organ-policy-equity-hope-act-now-law. Accessed June 9, 2022.
- United Network for Organ Sharing (UNOS). OPTN policies, procedures implemented to support HOPE Act. 2015; http://www.unos.org/optn-policies-procedures-implemented-to-support-hope-act/. Accessed June 11, 2022
- Organ Procurement and Transplantation Network (OPTN). Organ Procurement and Transplantation Network Policies. 2022; https://optn.transplant.hrsa.gov/media/1200/optn_policies.pdf. Accessed June 10, 2022
- Working Party of the British Transplantation Society. Kidney and Pancreas Transplantation in Patients with HIV. Second Edition (Revised). British Transplantation Society Guidelines Macclesfield, UK: British Transplantation Society; 2017.
- Desai CS, Khan KM, Gruessner AC, et al. Intestinal retransplantation: analysis of Organ Procurement and Transplantation Network database. Transplantation. Jan 15 2012; 93(1): 120-5. PMID 22113492
- Abu-Elmagd KM, Costa G, Bond GJ, et al. Five hundred intestinal and multivisceral transplantations at a single center: major advances with new challenges. Ann Surg. Oct 2009; 250(4): 567-81. PMID 19730240
- American Gastroenterological Association. American Gastroenterological Association medical position statement: short bowel syndrome and intestinal transplantation. Gastroenterology. Apr 2003; 124(4): 1105-10. PMID 12671903
- Kaufman SS, Atkinson JB, Bianchi A, et al. Indications for pediatric intestinal transplantation: a position paper of the American Society of Transplantation. Pediatr Transplant. Apr 2001; 5(2): 80-7. PMID 11328544
- Centers for Medicare & Medicaid Services. National Coverage Determination for Intestinal and Multi-visceral Transplantation (260.5). 2006; https://www.cms.gov/medicare-coverage-database/details/ncd-details.aspx?NCDId=280&ncdver=2&DocID=260.5&SearchType=Advanced&bc=IAAAABAAAAAA&.
Coding Section
Codes |
Number |
Description |
CPT |
44132 |
Donor enterectomy (including cold preservation), open; from cadaver donor |
|
44133 |
Donor enterectomy (including cold preservation), open; partial, from living donor |
|
44135 |
Intestinal allotransplantation; from cadaver donor |
|
44136 |
Intestinal allotransplantation; from living donor |
|
44715 |
Backbench standard preparation of cadaver or living donor intestine allograft prior to transplantation, including mobilization and fashioning of the superior mesenteric artery and vein |
|
44720 |
Backbench reconstruction of cadaver or living donor intestine allograft prior to trasplantational venous anastomosis, each |
|
44721 |
Backbench reconstruction of cadaver or living donor intestine allograft prior to transplantational arterial anastomosis, each |
ICD-9-CM Procedure |
46.97 |
Transplant of intesting |
ICD-9-CM Diagnosis |
579.3 |
Syndrome, short bowel |
HCPCS |
No code |
|
ICD-10-CM (effective 10/01/15) |
|
|
|
K90.0-K90.9 |
Intestinal malabsorption code range |
|
K91.2 |
Postsurgical malabsorption, not elsewhere classified |
ICD-10-PCS (effective 10/01/15) |
0DY80Z0 |
Surgical, gastrointestinal system, transplantation, small intestine, open, allogeneic |
Type of Service |
Surgery |
|
Place of Service |
Inpatient |
|
Procedure and diagnosis codes on Medical Policy documents are included only as a general reference tool for each policy. They may not be all-inclusive.
This medical policy was developed through consideration of peer-reviewed medical literature generally recognized by the relevant medical community, U.S. FDA approval status, nationally accepted standards of medical practice and accepted standards of medical practice in this community, Blue Cross Blue Shield Association technology assessment program (TEC) and other nonaffiliated technology evaluation centers, reference to federal regulations, other plan medical policies, and accredited national guidelines.
"Current Procedural Terminology © American Medical Association. All Rights Reserved"
History From 2024 Forward
07/11/2024 Annual review, no change to policy intent
01012024 NEW POLICY