Early Use of Long-acting Tacrolimus in Lung Transplant Recipients
Ключові слова
Анотація
Опис
Lung transplantation is a life-saving therapy for patients with end-stage lung disease refractory to medical treatment, providing an improvement in both survival and quality of life.[1,2] Despite the benefits, patients are at risk for myriad side effects including infection, malignancy, neurologic complications (headache, tremor, seizures), gastrointestinal distress and renal failure, to name a few.[3] Many of these are related to the requisite need for life-long immunosuppression. Current standard immunosuppressive regimens for lung transplant recipients include calcineurin inhibitors (tacrolimus preferred over cyclosporine), antiproliferative agents (mycophenolate mofetil vs. azathioprine) and corticosteroids; calcineurin inhibitors serve as the backbone of immunosuppression.[4] Renal dysfunction is perhaps the most prevalent complication after lung transplantation, affecting up to 90% of post-transplant recipients.[5] By 5-year post-transplant, ~8% of patients may require renal replacement therapy and/or renal transplantation.[6] Renal dysfunction tends to occur early on in the post-transplant period. Monnier and colleagues showed in a single-center analysis that the incidence of acute kidney injury within the index hospitalization was ~75%; the median loss of glomerular function within the first year was ~45%.[7] Moreover, Canales and colleagues showed that >55% of patients in a cohort of 219 lung transplant recipients had a doubling of their pre-transplant serum creatinine, the majority occurring within the first year post-transplant.[8] Early renal dysfunction in lung transplant recipients is associated with a poor overall prognosis. Broelkroleof and colleagues demonstrated that loss of renal function within he first month post-transplant is predictive of chronic kidney disease.[9] Moreover, chronic kidney disease is associated with a five times increased risk of mortality.[5] Perhaps the greatest contributor to the development of CKD in solid-organ transplant recipients are the calcineurin inhibitors (CNIs).[10] CNIs cause renal compromise (calcineurin inhibitor nephropathy, CIN) via acute and chronic mechanisms. Acute CIN is due to potent vasoconstriction of afferent arterioles in the kidney, resulting in ischemia.[11,12] Chronic CIN is thought to be largely mediated by interstitial fibrosis as the end-result of arteriolar sclerosis, oxygen free-radical injury, and upregulation of pro-fibrotic pathways including PDGF, renin-angiotensin-aldosterone signaling, TGFB and matrix metalloproteinase-9.[11,13] Attempts at utilizing CNI-free or CNI-reduced regimens in the lung transplantation population has been understudied and/or unsuccessful to date. Belatacept, a CTLA4-fusion molecule that prevents CD28-mediated co-stimulation to activate T-lymphocytes, has been well-studied in renal transplantation as an alternative to CNIs. The BENEFIT Trial, a phase III clinical study of Belatacept vs. Cyclosporine in renal transplant recipients, demonstrated improvement in patient and allograft survival, and mean eGFR (~70 cc/min vs ~45cc/min) at seven years. However, rates of biopsy proven acute cellular rejection were twice as much with Belatacept.[14] Case reports of Belatacept as rescue therapy in lung transplant recipients intolerant of CNIs are mixed; there are reports of increased ACR and fulminant acute respiratory distress syndrome.[15,16] The mTOR inhibitor class of immunosuppression has also been incorporated into regimens in an effort to ameliorate CNI-toxicity. Villanueva and colleagues assessed outcomes of conversion to Sirolimus and reduced Tacrolimus in 49 patients with bronchiolitis obliterans syndrome (chronic rejection) or CNI-intolerance; there was no difference in renal function one year following sirolimus initiation.[17] Conversely, Shitrit and colleagues demonstrated that sirolimus plus low-dose tacrolimus led to an improvement in GFR of 10 mL/min, compared to control maintenance immunosuppression in a pilot study of sixteen lung allograft recipients.[18] More recently, Gottlieb and colleagues demonstrated that conversion to quadruple immunosuppression therapy with low-dose CNI (target tacrolimus trough 3-5) led to improvements in eGFR of 10cc/mL compared to standard immunosuppression (tacrolimus trough >5). There was no considerable difference in biopsy-proven acute rejection, chronic rejection and death.[20] The conversion for those in the 4-drug experimental group occurred on average 11 months following transplant, which may account for the muted benefit; perhaps an earlier change in immunosuppression management would have led to more clinically significant results. Notably, discontinuation rates of sirolimus in case reports are variable, with most studies reporting a 20-80% discontinuation rate due to gastrointestinal distress, pneumonitis, thrombocytopenia, etc., making the mTOR inhibitor class less appealing.[19] It is apparent that changes to immunosuppression management earlier in the post-transplant period are ideal to see a maximum benefit in preserved renal function.9 However, this is complicated by the concerns for acute cellular rejection, which has a peak incidence at 6 months post-lung transplantation.[21,22] Acute cellular rejection is a leading risk factor for the development of chronic lung allograft dysfunction (CLAD, chronic rejection).[23] Hence any dose reduction in CNI or the use of an agent associated with ACR (Belatacept) is less desirable within the first few months post-transplant.
Given the preference to utilize a CNI-based regimen early-post transplant but still minimize nephrotoxic effects, the investigators seek to determine whether the early use of long acting tacrolimus, LCP-Tacrolimus (LCP-tacro, Envarsus XR, Veloxis Pharmaceuticals), results in improved renal function compared to intermediate release tacrolimus (IR-tacrolimus, IR-tacro). Anecdotally, LCP-tacro has been used in lung transplant recipients as an alternative agent for those with debilitating headache or tremor. Early use of LCP-tacro has not been widely adopted due to perceptions associated with ability to closely titrate trough levels and cost. However, early use of LCP-tacro may provide several benefits. As a long-acting formulation, LCP-tacro allows for daily dosing. Moreover, LCP-tacro has greater absorption and bioavailability, leading to decreased swings in peak and trough concentrations; frequent fluctuations in serum tacrolimus levels potentiates afferent arteriolar vasoconstriction.[24] A steady state of systemic tacrolimus trough levels is desirable, since tacrolimus metabolism is directly related to nephrotoxicity.[25] The use of LCP-Tacro has been studied in renal transplant recipients. Langone and colleagues identified that LCP-tacrolimus compared to IR-tacrolimus was associated with improved tremor incidence and quality of life.[1] Rostaing and colleagues demonstrated that the use of LCP-tacro compared to intermediate tacrolimus was non-inferior in terms of combined death, allograft failure, biopsy-proven acute rejection and loss to follow-up. However, the use of LCP-tacro was associated with a significant reduction in total daily dose, and a 30% reduction in peak dose, without an increase in biopsy proven acute rejection episodes. Although not a prospective end-point, there was no significant impact on renal function.[26] In other studies, though, higher concentration/ drug (C/D) ratios for tacrolimus are associated with an improved renal safety profile.[27] It is conceivable that a clinical benefit of LCP-tacro over IR-tacro may be better manifested in clinical arenas that require higher target tacrolimus trough levels, such as lung allograft recipients, where initial post-transplant targets can be as high as 12-15 ng/mL, compared to renal transplantation where target trough levels are a relatively conservative 4-8 ng/mL.[2, 3] The experience of LCP-tacrolimus in the realm of lung transplantation is limited. Murakoezy and colleagues studied 53 patients that were converted from short-acting Tacrolimus to long-acting Envarsus. Conversion was performed at an average 3.6 years post-transplant. Ten patients were switched back due to side-effects (unknown), though the remainder tolerated conversion without complication. Ahmed and colleagues demonstrated feasibility in using long-acting Tacrolimus in 8 patients that were unable to achieve sufficient therapeutic levels with a short-acting formulation due to suspected polymorphisms of CYP3A4/3A5.[28] McCurry and colleagues assessed safety and feasibility of LCP-tacrolimus in a retrospective analysis of 18 lung transplant recipients. They found that patients on LCP-tacro had a 27% reduction in total dose. No patients experienced any adverse effects. Moreover, 2/18 patients had an improvement in tremors and headache.[29] Given the limited experience with of LCP-tacrolimus in lung transplant populations, the investigators propose a prospective, randomized, controlled pilot study to assess the safety, tolerability, and side-effect profile of early use LCP-tacro within the first 9 months post-transplantation. It is hypothesized that the early use of LCP-tacro in lung transplant recipients is safe and tolerable, and associated with an improved side-effect profile compared to patients treated with standard IR-tacro.
Дати
Востаннє перевірено: | 06/30/2020 |
Перший поданий: | 07/08/2020 |
Орієнтовна реєстрація подана: | 07/08/2020 |
Опубліковано вперше: | 07/13/2020 |
Останнє оновлення надіслано: | 07/12/2020 |
Останнє оновлення опубліковано: | 07/14/2020 |
Фактична дата початку навчання: | 10/31/2020 |
Розрахункова дата первинного завершення: | 04/30/2022 |
Розрахункова дата завершення дослідження: | 07/31/2022 |
Стан або захворювання
Втручання / лікування
Drug: Immunosuppression with Extended-Release Tacrolimus
Drug: Immunosuppression with Intermediate Release Tacrolimus
Drug: Mycophenolate Mofetil Hydrochloride
Drug: Prednisone
Drug: Azathioprine
Фаза
Групи рук
Рука | Втручання / лікування |
---|---|
Experimental: Immunosuppression with Extended-Release Tacrolimus LCP-tacrolimus administered daily to target a goal trough level of 10-14 ng/mL x 7 months (with Mycophenolate mofetil and prednisone).
Additional standard immunosuppression with either mycophenolate mofetil (500-1500mg twice daily) OR Azathioprine (up to 2mg/kg daily) AND Prednisone (5-10mg daily) will be administered. | Drug: Immunosuppression with Extended-Release Tacrolimus Immunosuppression regimen with Tacrolimus Extended Release as the backbone. |
Active Comparator: Immunosuppression with Intermediate Release Tacrolimus IR-tacrolimus administered twice daily to target a goal trough level of 10-14 ng/mL x 7 months (with Mycophenolate mofetil and prednisone). This is currently the standard of care at Vanderbilt University Medical Center and most other lung transplant centers (ISHLT Registry 2019).
Additional standard immunosuppression with either mycophenolate mofetil (500-1500mg twice daily) OR Azathioprine (up to 2mg/kg daily) AND Prednisone (5-10mg daily) will be administered. | Drug: Immunosuppression with Intermediate Release Tacrolimus Standard Immunosuppression regimen with Intermediate-Release Tacrolimus. |
Критерії прийнятності
Вік, придатний для навчання | 18 Years До 18 Years |
Стать, яка підходить для вивчення | All |
Приймає здорових добровольців | Так |
Критерії | Inclusion Criteria: - Status-post single or bilateral lung transplantation - Participant is able to give informed consent for participation in the study. - Male or female age 18 years or above. - Actively receives care at VUMC and is adherent with medical therapies. Exclusion Criteria: - History of prior organ transplantation - History of tacrolimus use prior to transplantation - Intolerance of tacrolimus (that precludes use) - Having DSA pre-transplant (Positive virtual crossmatch) - Active infection with Hepatitis B or C - Active infection with Human Immunodeficiency Virus (HIV) - Baseline AST / ALT > three times upper limit normal - Primary graft dysfunction grade 3 at 72 hours - Acute kidney injury during index hospitalization that does not resolve to two times the pre-transplant baseline value. - Contraindication to PO (per os) intake of medications - Impaired GI absorption (defined as sublingual administration of IR-tacro) - History of frequent headaches - Seizure history - Cannot provide consent (at least verbally) - Pregnancy or breast-feeding - Participation in another interventional clinical trial |
Результат
Заходи первинного результату
1. Safety and Tolerability [6 months]
Заходи вторинного результату
1. Median change in eGFR at 9 months post-transplant. [9 months]
2. Headache frequency and severity [9 months]
3. Quality of life related to tremor [9 months]
4. Incidence of acute cellular rejection [9 months]
5. Incidence of de novo donor-specific anti-HLA antibodies [9 months]