Abstract
Background Medication non-adherence is a major issue after transplant that can lead to misdiagnosis, rejection, poor health affecting quality of life, graft loss or death. Several estimations of adherence and related factors have previously been described but conclusions leave doubt as to the most accurate assessment method. Aim of the review To identify the factors most relevant to medication non-adherence in kidney transplant in current clinical practice. Method This systematic review is registered in the PROSPERO data base and follows the Prisma checklist. Articles in English in three databases from January 2009 to December 2014 were analysed. A synthesis was made to target adherence assessment methods, their prevalence and significance. Results Thirty-seven studies were analysed rates of non-adherence fluctuating from 1.6 to 96%. Assessment methods varied from one study to another, although self-reports were mainly used. It appears that youth (≤50 years old), male, low social support, unemployment, low education, ≥3 months post graft, living donor, ≥6 comorbidities, ≥5 drugs/d, ≥2 intakes/d, negative beliefs, negative behavior, depression and anxiety were the factors significantly related to non-adherence. Conclusion As there are no established guidelines, consideration should be given to more than one approach to identify medication non-adherence although self-reports should remain the cornerstone of adherence assessment.
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Impact of our findings
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It is important to always monitor non-adherence in kidney transplant patients, because it occurs more frequently than thought.
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Non-adherence is likely to be especially prevalent in younger, unemployed kidney transplant patients with low social support and only lower education.
Introduction
Non-adherence to the immunosuppressive regimen is a major issue after solid organ transplant possibly leading to misdiagnosis, rejection, poor health affecting quality of life, graft loss or death [1–16]. Its prevalence ranges from 20% to 50% [17]. The Drug Trend Report identified in 2014 a mean non-adherence rate of 33% [18]. Non-adherent individuals have a threefold higher risk of late acute rejection episodes and a sevenfold higher risk of graft failure [19, 20]. The negative impact of non-adherence has been widely documented through cohorts of transplant patients and is associated with acute (estimated risk from 15 to 60%) and chronic (estimated risk from 5 to 36%) rejection and graft loss (estimated risk at 15%) [2, 4, 7, 9, 11, 12, 21]. The mean rejection rate is usually estimated at 35% in kidney recipients [1–3, 7, 8, 11, 16, 20–22].
Studies use different terminology to define adherence: (1) compliance: “the extent to which the patient’s behavior matches the prescriber’s recommendations”; (2) adherence: “the extent to which the patient’s behavior matches the agreed-upon prescriber’s recommendations” [16, 23, 24]. These terms are often used interchangeably although their interpretation with regard to patient-healthcare-provider relationship is different. The term “adherence” is now preferred, suggesting that treatment is based on a therapeutic alliance or contract established between patient and physician, with the patient playing an active role [16, 23–25].
Risk factors for non-adherence can be divided into 5 categories: socioeconomic, patient-related, disease-related, treatment-related, and healthcare setting- and provider-related [9, 16, 23, 26]. Previous studies showed that greater adherence was significantly associated with older age, female sex, white race, deceased donors, and tacrolimus immunosuppression [20, 27]. Adherence can be evaluated directly through clinical observations or drug monitoring as well as indirectly through patient interviews, tablet counting, repeat prescriptions, self-reports or electronic monitoring [11, 16, 26, 28]. Electronic monitoring, quoting intake times and amounts, is the gold standard; however, it cannot verify that pills have indeed been ingested [8, 11, 16, 26, 28, 29]. Direct methods also have limitations. They reflect a given time and not necessarily an overall period. In fact, just before a medical appointment there may be an improvement, known as “white-coat adherence” [15, 16, 26]. To date, no faultless adherence assessment exists; only a multiple approach can offer a high level of sensitivity and specificity [16, 26]. Adherence is a dynamic process and whatever the measures used, they must be repetitive over time to be accurate [16].
Aim of the review
The first objective is to highlight factors most relevant to medication non-adherence, specially with regard to immunosuppressive drugs or the overall medication regimen. The second objective is to discuss the available questionnaires and their reliability for use in kidney transplant patients.
Method
Search strategy and study selection
The present review has been registered in “PROSPERO International prospective register of systematic reviews” under ID CRD42015007393 and respects the Prisma criteria. In May and June 2015, literature was systematically searched through computerized Medline, Web of science, and the Cochrane library. The search was limited to the last 5 years (January 2009 to December 2014) to take current practice into account. The following Mesh key terms “Adherence”, “compliance”, “medication adherence”, “medication compliance”, “treatment refusal”, “patient compliance”, “kidney transplant” were combined.
The review included primary research studies on factors related to adherence or non-adherence in adult kidney recipients at any time after transplant, regardless of study duration or design. Our search was restricted to original English-language studies on subjects aged 18.
Data extraction and quality assessment
The first data extractions on titles and abstracts only were made by reader SB, then reviewed by two other readers (BD, MH). Reader SB completed a full-text study of the relevant papers. The following data were collected using a structured data collection sheet: year of publication, aim, study design, patient demographics and medication adherence results.
To critically assess the quality of these studies, the CONSORT checklist for randomized controlled trials, the Newcastle–Ottawa Scale for non-randomized studies and the Blaxter criteria for qualitative studies were used [30–32]. For comparison, the quality score was converted to a percentage.
Statistical issues
A meta-analysis was not advisable due to heterogeneity in interventions, methods and reported outcomes. Some papers reported no statistical analysis, others univariate associations, multivariate associations and some both. We report only factors significantly relevant to non-adherence.
Results
Study characteristics
A total of 37 studies were included and selection steps are reported in Fig. 1.
Only 2 (5%) were randomized, 35 (95%) were observational, mainly prospective (94%). Cohort sizes ranged from 15 to 32,757 patients; 3 studies included 15,525, 31,913 and 32,757 patients respectively [8, 27, 33]. Mean age was 51.1 ± 6.1 with a greater proportion of men (mean 59%). Adherence was measured at different times after transplant, from baseline to more than 25 years after, but mainly at 46 months (about 4 years) after transplant.
Measurement methods
Adherence was assessed through: electronic monitoring, immunosuppressant blood levels, patient interviews, self-reports, refills, pill counts, physician or nurse discernment, in 9 (24%), 5 (11%), 3 (8%), 23 (62%), 4 (11%), 1 (3%) and 2 (5%) studies, respectively. In 6 studies authors measured adherence through an association of methods, mainly self-reports, blood assays, electronic monitoring and/or practitioners’ reports [9, 15, 34–37]. 5 studies considered CNI trough blood levels as markers of non-adherence [9, 15, 34, 35, 37]. No studies considered the blood level variation of CNI or any other immunosuppressant as a model to detect non-adherence (Table 1).
Twenty-seven different self-reports (summarized in Table 2) assessed distinct aspects related to adherence: 6 (22.2%) drug-related factors (medication adherence), 12 (44.4%) patient-related factors (beliefs, satisfaction, behavior), 3 (11.1%) psychological disorders (depression, anxiety), 2 (7.4%) quality of life, and 4 (14.8%) social support. The Basel Assessment of Adherence Scale to Immunosuppressive drugs (BAASIS), the Beck Depression Inventory scale (BDI), and the Immunosuppressant Therapy Adherence Scale (ITAS) were the 3 questionnaires used in these studies.
The prevalence of non-adherence depended on the measurement method, and ranged from 1.6 to 58.7%. It was not computable in 3 studies [3, 38, 39].
An average quality score of 48% (Table 1, right column) was obtained, ranging from 22 to 92%. The low quality score was mainly due to the small size of cohorts in most studies, the inclusion of volunteers and the absence of control groups.
Factors related to non-adherence
Factors were not computable in only 3 studies (N = 619 patients) [29, 35, 40] (Table 2). Indeed, the authors used a questionnaire to measure adherence and considered a patient as non-adherent if he was below or above the score, but the overall rate of non-adherence in the cohort was not specified.
Socio-demographic status
Age
Young recipients (under 50) were considered as more non-adherent in 13 studies (N = 51,684 patients) [2, 8, 9, 11, 15, 33, 34, 41–46]. In only 8 (N = 34,508) was the age given, mean age being 45 [2, 8, 33, 41, 43–46]. However, in 3 studies (N = 32,546 patients) older recipients, from 50 to 65 or over, were targeted as non-adherent [27, 47, 48].
In 1 study (N = 101 patients) the age factor was significantly related to non-adherence but without further precisions [49].
In the remaining 20 studies (N = 3597 patients), the age factor was neither significant nor assessed but the number of patients was limited (less than 10%).
Gender
Five studies (N = 66,126 patients) related the male gender to non-adherence [15, 27, 33, 42, 43] whereas in 1 study (N = 15,525 patients) females were less adherent [8].
In the remaining 31 studies (N = 6294 patients), it was neither significant nor assessed but again the number of patients was limited (less than 10%).
Social support
Three studies (N = 472 patients) noted a positive association between greater social support (family, friends, emotional support, social network) and adherence [3, 49, 50]. According to Chisholm et al., affectionate support, assistance with daily household functions and forgetfulness were significantly (p < 0.05) related to medication adherence [3]. Couzy et al. (N = 302 patients) confirmed this, adding that single patients were significantly more at risk of non-adherence [9]. Conversely, 1 study (N = 218 patients) reported higher rates of non-adherence among those married or co-habiting [15].
For the remaining 32 studies (N = 86,955 patients), this factor was either not significant (9 studies, N = 1311 patients) [1, 2, 10, 11, 36, 44, 46, 48, 51] or not assessed (23 studies, N = 85,644 patients).
Employment and education
Full employment was associated with non-adherence (medication forgotten or taken late) in 3 studies (N = 705 patients) [2, 11, 15]. In 1 study (N = 312 patients) being at home full-time or unemployed was associated with greater adherence [43], whereas in 2 studies (N = 327 patients) it was the contrary [45, 51]. Patients with lower education (12 years and less, according to Jindal et al.) were less adherent in 2 studies (N = 32,975 patients) [15, 33], whereas Lin et al. (N = 101 patients) observed that such patients were better monitored and managed [49].
For the remaining 29 studies (N = 53,743 patients), these factors were either not significant (in 10 studies, N = 2359 patients) or not assessed (in 19 studies).
Disease-related factors
Time elapsed since transplant
If time after transplant was a factor related to non-adherence in 11 studies (N = 35,334 patients), little is known about how long it actually takes to become non-adherent [9, 15, 33, 34, 36, 42–44, 46, 49, 52]. In 3 studies (N = 620 patients) patients became less adherent 6 months after transplant [9, 46, 52].
2 studies, by Burkhalter [42] et al. and Jindal et al. [33]. (N = 33 683 patients) questioned adherence over time, concluding that every five years after transplant, forgetful or timing non-adherence increased by 20%, and overall non-adherence by 16% [42].
For the remaining 26 studies (N = 52,611 patients), the factor “time since transplant” was not significant in 8 studies (N = 1722 patients) and not measured in 18.
Number of transplants
Only 2 studies (N = 283 patients) noted the impact of several transplants [44, 46]. Non-adherence rates were significantly greater after a second transplant.
Type of donor
In 13 studies donors were mainly deceased (N = 67,307 patients) [3, 6, 10, 11, 27, 29, 33, 34, 36, 39, 41, 53, 54] and in 9 living (N = 1274 patients) [1, 15, 39, 43, 44, 46, 49, 52, 55]. In the remaining 16 studies, it was not specified. 5 studies (N = 65,715 patients) reported a relationship between donors and non-adherence [11, 15, 27, 33, 41]. In 4 studies (N = 65,087 patients), recipients from a living donor were less adherent [11, 15, 27, 33].
Drug-related factors
In 23 studies (N = 51,577 patients) authors described co-morbidities (more than 6), number of drugs/day (more than 5), number of pills/day (more than 10), number of intakes/day (more than 2), immunosuppressive drugs (mainly cyclosporine and corticosteroids), low blood levels and side effects as significant risk factors for non-adherence [1, 2, 6, 8–11, 15, 27, 34, 37–39, 43–45, 47, 50–53, 55, 56]. Forgetfulness rather than intention was the main explanation.
In the remaining 14 studies (N = 36,368 patients), drug-related factors were not assessed.
Patient-related factors: beliefs, behavior and satisfaction
Negative beliefs and behaviors, such as low satisfaction have been reported as non-adherence factors in 11 studies (N = 1858 patients) [1, 6, 15, 37, 38, 45–50]. Chisholm et al. (N = 512 patients) observed that non-adherent recipients were more forgetful than adherent recipients, missed more doses of immunosuppressant medications when diverted from daily routines; skipped more doses when short of money, believed immunosuppressant medications disrupted their lives and were not necessary [47].
In the remaining 26 studies (N = 86,538 patients), patient-related factors were not measured.
Psychological illnesses
Depression and anxiety emerged as significant predictors of medication non-adherence (7 studies, N = 34,444 patients) [15, 33, 34, 38, 42, 51, 57]. Individuals with high levels of self-reported depression were significantly less adherent (mainly intentionally) than people with mild depression [15, 57].
In the remaining 30 studies (N = 53,501 patients), psychological illness was not a significant factor in 2 studies (N = 379 patients) and not measured in 28 studies.
Discussion
Strategies are required to improve adherence but can only be effective if barriers are understood. Several of these are:
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1.
Socio-demographical: youth (≤ 50 years old), male gender, low social support, unemployment, poor education.
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2.
Disease-related: ≥3 months after transplant, living donor, more than 1 transplant, ≥6 co morbidities.
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3.
Drug-related: ≥5 drugs/day, ≥2 intakes/day, cyclosporine.
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Patient-related: negative beliefs, negative behavior and negative satisfaction.
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5.
Psychological: depression and anxiety.
Socio-demographical factors concord with previous studies [4, 58]. Men often fail to attend control visits, neglect to follow dietary recommendations or stop alcohol intake or smoking. Women support their partners by paying attention to medication intake [15, 27, 33, 42, 43]. Older patients must face issues like co-morbidities, physical limitations and social isolation which can lead to two contradictory outcomes—either non-adherence or better awareness of their limits and so closer attention to drug regimens and medical follow-up [27, 47, 48]. Recipients with greater social support are more than twice as likely to be adherent [3]. Social support implies emotional support (love, friendship), instrumental support (food preparation, daily help), informational support (in a stressful situation), and appraisal support (information to help self-evaluation) [3]. The better the relational quality, the better the adherence [59–61].
As time passes after transplant, the risk of non-adherence increases. Three stages of adaptation have previously been described: (1) During the first year after transplant patients are hyper-vigilant and closely followed by physicians (2) After the first year recipients get used to their medication, experience less anxiety and become more relaxed (3) after 3 years, patients become exhausted with continuous treatment and monitoring and adhere less [49]. However, no consensus exists. In their review, Williams et al. indicated that 6 months after transplant, 70% of recipients increasingly tended to skip doses [58] but we observed non-adherence from the third month post-transplant [54]. We also found a relationship between type of donor and medication adherence. Patients receiving a kidney from a living donor could be assumed to be more adherent, but surprisingly, our review revealed the opposite. Denhaerynck et al., observed that unrelated living-donor recipients and deceased-donor recipients had similar adherence rates, suggesting that relatedness could account for differences [62].
Drug regimens and their complexity must be considered due to: (1) pill characteristics (large size, bad smell or unpleasant taste) (2) dosage and scheduling (difficulty in taking medication on time, delay between 2 drugs to avoid drug–drug interaction, recurrent changes in treatment, varying dosages…) (3) side effects (4) inadequate access to physicians and pharmacies, thus difficulty in obtaining prescription renewals on time [5, 7, 15, 50, 53]. In renal transplant, morning intake is better adhered to than evening intake which may account for the significant improvement in adherence rates with the once-a-day formulation of tacrolimus [43, 56, 63–65]. According to Griva et al., non-deliberate forgetfulness occurs mostly when patients find themselves in non-routine or competitive situations (work/social/other activities) or when medical regimens are changed. Forgetfulness usually means not taking medication on time. The main reasons for intentional non-adherence are complexity of regimen (number of prescribed medications/dose/scheduling) [15] and side effects which incite patients to postpone drug intake or reduce doses. These elements can increase the variability of calcineurin inhibitor blood levels which is predictive of non-adherence [66].
Patient-related factors influence attitudes. Based on beliefs, patients can be categorized into different types: accidental non-adherent (non-deliberate forgetfulness), invulnerable non-adherent (casualness towards medication) and decisive non-adherent (self-decider despite medical recommendations) [6]. Patients generally agree that they are responsible for their health status. If they are concerned by the disease, believe it has serious consequences on their well-being and trust in the benefits of the treatment, they will adhere [6, 47].
Psychological disorders emerge as predictors of non-adherence [33, 47, 57, 67]. Anxiety is caused by fear of death, guilt for desiring an organ from a deceased donor, and concerns over changes in life-style [68]. Depression is related to a loss of social support, inability to engage daily activities, dietary restrictions, and financial difficulties [69]. Modifications in cognitive functions or asthenia can also lead to depressed moods and consecutively non-adherence. Such disorders can be treated effectively to enhance the quality of life, an essential factor if adherence is to be improved [15, 33, 57].
Nevertheless, these results must be interpreted with caution as misuse of the standard definition of adherence has resulted in much confusion over measuring it. No perfect measure exists in clinical routine to detect or foresee non-adherence. Many authors have failed to consider drug-taking as a dynamic process that fluctuates over time and among individuals; insufficiently powered studies have resulted in low-quality results; cross-sectional designs have largely contributed to these. It is therefore difficult to reach a consensus on the extent of deleterious consequences due to non-adherence. More studies are needed on the impact of health care systems, health care teams or providers on the incidence and outcome of non-adherence in kidney recipients [16].
This review has limitations: studies may have been missed due to search terms, more studies with insignificant rather than significant results may have been published, only one reader completed the sorting of publications and we were unable to perform a meta-analysis.
Since no recommendations exist to determine which combination of objective and subjective measures would most accurately predict non-adherence, more than one approach is required. A combination of self-reports and other methods offers a higher level of sensitivity and specificity [16]. The Scale to Immunosuppressive drugs (BAASIS) and the Immunosuppressant Therapy Adherence Scale (ITAS) seem to be the 2 main self-reports available but they target non-adherence behaviors towards immunosuppressants and are less accurate in identifying non-adherence to the overall medication regimen. The Compliance Evaluation Test questionnaire is derived from the 4-item Morisky scale previously used in transplant and is useful in detecting the latter [5, 70]. To assess patient-related factors such as behavior, beliefs or satisfaction, several questionnaires exist but only 3 are mainly used in transplant: the Theory Planned Behavior (TPB) questionnaire [17, 69], the BMQ questionnaire [3, 15, 17, 46], and the SATMED-Q questionnaire [17, 71]. Depression and anxiety can be detected during clinical observation, if the patient has a prescription for anti-depressants and/or benzodiazepines, or through self-reports. The Beck Depression Inventory (BDI) and Hospital Anxiety and Depression (HAD) seem to be the most widely-used self-reports.
All these findings suggest however that further studies are needed to establish guidelines to measure adherence. Another unresolved issue is the number of questionnaires available and their possible unreliability in the field of transplant.
Conclusion
Risk factors for non-adherence can be classified into five categories as follows: 1. Socio-demographical factors (age below 50, male gender, low social support, unemployment, poor education), 2. Disease-related factors (more than 3 months after transplant, living donor, re-transplant, more than 6 co-morbidities), 3. Drug-related factors (more than 5 drugs/day, more than 2 intakes/day, cyclosporine treatment), 4. Patient-related factors (negative beliefs, negative behaviors and negative satisfaction), and 5. Psychological factors (depression and anxiety). These factors should be regularly screened to detect a risk of non-adherence as early as possible. Consequently, a standardized framework taking into account the fact that adherence is a dynamic process, is required. A lot of approaches exist but self-reports which are easy to use in routine practice remain the cornerstone of adherence assessment, although their reliability is still questionable. Models based on objective data, such as drug exposure, could provide a basis for further studies.
References
Tielen M, van Exel NJA, van Buren MC, Maasdam L, Weimar W. Attitudes towards medication non-adherence in elderly kidney transplant patients: a Q methodology study. Nephrol Dial Transplant. 2011;26:1723–8.
Brahm MMT, Manfro RC, Mello D, Cioato S, Gonçalves LFS. Evaluation of adherence to immunosuppressive drugs in kidney transplantation by control of medication dispensing. Transplant Proc. 2012;44:2391–3.
Chisholm-Burns MA, Spivey CA, Wilks SE. Social support and immunosuppressant therapy adherence among adult renal transplant recipients. Clin Transplant. 2010;24:312–20.
Denhaerynck K, Dobbels F, Cleemput I, Desmyttere A, Schäfer-Keller P, Schaub S, et al. Prevalence, consequences, and determinants of nonadherence in adult renal transplant patients: a literature review. Transpl Int. 2005;18:1121–33.
Dharancy S, Giral M, Tetaz R, Fatras M, Dubel L, Pageaux G-P. Adherence with immunosuppressive treatment after transplantation: results from the French trial PREDICT. Clin Transplant. 2012;26:E293–9.
Gordon EJ, Gallant M, Sehgal AR, Conti D, Siminoff LA. Medication-taking among adult renal transplant recipients: barriers and strategies. Transpl Int Off J Eur Soc Organ Transplant. 2009;22:534–45.
Hardinger KL, Hutcherson T, Preston D, Murillo D. Influence of pill burden and drug cost on renal function after transplantation. Pharmacotherapy. 2012;32:427–32.
Pinsky BW, Takemoto SK, Lentine KL, Burroughs TE, Schnitzler MA, Salvalaggio PR. Transplant outcomes and economic costs associated with patient noncompliance to immunosuppression. Am J Transplant Off J Am Soc Transplant Am Soc Transpl Surg. 2009;9:2597–606.
Couzi L, Moulin B, Morin M-P, Albano L, Godin M, Barrou B, et al. Factors predictive of medication nonadherence after renal transplantation: a French observational study. Transplantation. 2013;95:326–32.
Russell C, Conn V, Ashbaugh C, Madsen R, Wakefield M, Webb A, et al. Taking immunosuppressive medications effectively (TIMELink): a pilot randomized controlled trial in adult kidney transplant recipients. Clin Transplant. 2011;25:864–70.
Goldfarb-Rumyantzev AS, Wright S, Ragasa R, Ostler D, Van Orden J, Smith L, et al. Factors associated with nonadherence to medication in kidney transplant recipients. Nephron Clin Pract. 2011;117:c33–9.
Germani G, Lazzaro S, Gnoato F, Senzolo M, Borella V, Rupolo G, et al. Nonadherent behaviors after solid organ transplantation. Transplant Proc. 2011;43:318–23.
De Geest S, Dobbels F. Transplantation: increasing adherence to immunosuppression: a clinical priority. Nat Rev Nephrol. 2010;6:139–40.
Terebelo S, Markell M. Preferential adherence to immunosuppressive over nonimmunosuppressive medications in kidney transplant recipients. Transplant Proc. 2010;42:3578–85.
Griva K, Davenport A, Harrison M, Newman SP. Non-adherence to immunosuppressive medications in kidney transplantation: intent vs. forgetfulness and clinical markers of medication intake. Ann Behav Med. 2012;44:85–93.
Fine RN, Becker Y, De Geest S, Eisen H, Ettenger R, Evans R, et al. Nonadherence consensus conference summary report. Am J Transplant. 2009;9:35–41.
Hugon A, Roustit M, Lehmann A, Saint-Raymond C, Borrel E, Hilleret M-N, et al. Influence of intention to adhere, beliefs and satisfaction about medicines on adherence in solid organ transplant recipients. Transplantation. 2014;98:222–8.
The express scripts. 2014 Drug Trend Report. 14-EME27270. Available from: https://www.google.fr/url?sa=t&rct=j&q=&esrc=s&source=web&cd=1&ved=0ahUKEwiFzti3joXRAhXDsxQKHSIkAPEQFggaMAA&url=http%3A%2F%2Flab.express-scripts.com%2F~%2Fmedia%2FPDFs%2FDrug%2520Trend%2520Report%2FExpressScripts_DrugTrendReport.ashx&usg=AFQjCNFMm2ea1pg0vV62TL0oJPRH0c3O8g&sig2=tt0y89ea7ntS8dcfYkCytw&cad=rja. Last seen 29th Dec 2016.
Dew MA, Dabbs AD, Myaskovsky L, Shyu S, Shellmer DA, DiMartini AF, et al. Meta-analysis of medical regimen adherence outcomes in pediatric solid organ transplantation. Transplantation. 2009;88:736–46.
Mathis AS. Managed care implications of improving long-term outcomes in organ transplantation. Am J Manag Care. 2015;21:s24–30.
Russell CL, Cetingok M, Hamburger KQ, Owens S, Thompson D, Hathaway D, et al. Medication adherence in older renal transplant recipients. Clin Nurs Res. 2010;19:95–112.
Carrasco FR, Moreno A, Ridao N, Calvo N, Pérez-Flores I, Rodríguez A, et al. Kidney transplantation complications related to psychiatric or neurological disorders. Transplant Proc. 2009;41:2430–2.
World Health Organisation. Adherence to long-term therapies. 2003. ISBN 92 4 154599 2. http://www.who.int/chp/knowledge/publications/adherence_full_report.pdf?ua=1. Last seen 29th Dec 2016.
Vrijens B, De Geest S, Hughes DA, Przemyslaw K, Demonceau J, Ruppar T, et al. A new taxonomy for describing and defining adherence to medications. Br J Clin Pharmacol. 2012;73:691–705.
Baudrant-Boga M, Lehmann A, Allenet B. Thinking differently the patient medication compliance: from an injunctive posture to a working alliance between the patient and the healthcare provider: concepts and determinants. Ann Pharm Fr. 2012;70:15–25.
Prendergast MB, Gaston RS. Optimizing medication adherence: an ongoing opportunity to improve outcomes after kidney transplantation. Clin J Am Soc Nephrol. 2010;5:1305–11.
Spivey CA, Chisholm-Burns MA, Damadzadeh B, Billheimer D. Determining the effect of immunosuppressant adherence on graft failure risk among renal transplant recipients. Clin Transplant. 2014;28:96–104.
Russell CL, Owens S, Hamburger KQ, Thompson DA, Leach RR, Cetingok M, et al. Medication adherence and older renal transplant patients’ perceptions of electronic medication monitoring. J Gerontol Nurs. 2009;35:17–21.
Israni AK, Weng FL, Cen Y-Y, Joffe M, Kamoun M, Feldman HI. Electronically measured adherence to immunosuppressive medications and kidney function after deceased donor kidney transplantation. Clin Transplant. 2011;25:E124–31. doi:10.1111/j.1399-0012.2010.01340.x.
The Consort Statement 2010. http://www.consort-statement.org/. Last seen 29th Dec 2016.
Wells G, Shea B, O’Connell D, Peterson J, Welch V, Losos M, et al. The Newcastle–Ottawa Scale (NOS) for assessing the quality of nonrandomised studies in meta-analyses. http://www.ohri.ca/programs/clinical_epidemiology/oxford.asp. Last seen 29th December 2016.
Blaxter M. Criteria for the evaluation of qualitative research papers. Medical Sociology News. 1996. http://www.medicalsociologyonline.org/resources/Vol7Iss1/7.1-Criteria-for-evaluating_Blaxter.pdf. Last seen 29th December 2016.
Jindal RM, Neff RT, Abbott KC, Hurst FP, Elster EA, Falta EM, et al. Association between depression and nonadherence in recipients of kidney transplants: analysis of the United States renal data system. Transplant Proc. 2009;41:3662–6.
Gelb SR, Shapiro RJ, Thornton WJL. Predicting medication adherence and employment status following kidney transplant: the relative utility of traditional and everyday cognitive approaches. Neuropsychology. 2010;24:514–26.
Denhaerynck K, Burkhalter F, Schäfer-Keller P, Steiger J, Bock A, De Geest S. Clinical consequences of non adherence to immunosuppressive medication in kidney transplant patients. Transpl Int. 2009;22:441–6.
Joost R, Dörje F, Schwitulla J, Eckardt K-U, Hugo C. Intensified pharmaceutical care is improving immunosuppressive medication adherence in kidney transplant recipients during the first post-transplant year: a quasi-experimental study. Nephrol Dial Transplant. 2014;29:1597–607.
Ortega F, Otero A, Crespo JF, Delgado JF, Borro JM, Cuervo J, et al. Satisfaction and adherence with immunosuppressant treatment in renal transplant patients living with a working graft. J Nephrol. 2013;26:297–305.
Constantiner M, Cukor D. Barriers to immunosuppressive medication adherence in high-risk adult renal transplant recipients. Dial Transplant. 2011;40:60–6. doi:10.1002/dat.20536.
Ruppar TM, Russell CL. Medication adherence in successful kidney transplant recipients. Prog Transplant. 2009;19:167–72.
Eisenberger U, Wüthrich RP, Bock A, Ambühl P, Steiger J, Intondi A, et al. Medication adherence assessment: high accuracy of the new Ingestible Sensor System in kidney transplants. Transplantation. 2013;96:245–50.
Gaynor JJ, Ciancio G, Guerra G, Sageshima J, Hanson L, Roth D, et al. Graft failure due to noncompliance among 628 kidney transplant recipients with long-term follow-up: a single-center observational study. Transplantation. 2014;97:925–33.
Burkhalter H, Wirz-Justice A, Cajochen C, Weaver TE, Steiger J, Fehr T, et al. Daytime sleepiness in renal transplant recipients is associated with immunosuppressive non-adherence: a cross-sectional, multi-center study. Clin Transplant. 2014;28:58–66. doi:10.1111/ctr.12279.
Obi Y, Ichimaru N, Kato T, Kaimori J-Y, Okumi M, Yazawa K, et al. A single daily dose enhances the adherence to immunosuppressive treatment in kidney transplant recipients: a cross-sectional study. Clin Exp Nephrol. 2013;17:310–5.
Shabany Hamedan M, Mohamad Aliha J. Relationship between immunosuppressive medications adherence and quality of life and some patient factors in renal transplant patients in Iran. Glob J Health Sci. 2014;6:205–12.
Van Boekel GAJ, Kerkhofs CHH, Hilbrands LB. Treatment satisfaction in renal transplant patients taking tacrolimus once daily. Clin Ther. 2013;35:1821–1829e1.
Massey EK, Tielen M, Laging M, Beck DK, Khemai R, van Gelder T, et al. The role of goal cognitions, illness perceptions and treatment beliefs in self-reported adherence after kidney transplantation: a cohort study. J Psychosom Res. 2013;75:229–34.
Chisholm-Burns M, Pinsky B, Parker G, Johnson P, Arcona S, Buzinec P, et al. Factors related to immunosuppressant medication adherence in renal transplant recipients. Clin Transplant. 2012;26:706–13.
Russell CL, Ashbaugh C, Peace L, Cetingok M, Hamburger KQ, Owens S, et al. Time-in-a-bottle (TIAB): a longitudinal, correlational study of patterns, potential predictors, and outcomes of immunosuppressive medication adherence in adult kidney transplant recipients. Clin Transplant. 2013;27:E580–90.
Lin S-Y, Fetzer SJ, Lee P-C, Chen C-H. Predicting adherence to health care recommendations using health promotion behaviours in kidney transplant recipients within 1–5 years post-transplant. J Clin Nurs. 2011;20:3313–21.
Sabbatini M, Garofalo G, Borrelli S, Vitale S, Torino M, Capone D, et al. Efficacy of a reduced pill burden on therapeutic adherence to calcineurin inhibitors in renal transplant recipients: an observational study. Patient Prefer Adherence. 2014;8:73–81.
Weng FL, Chandwani S, Kurtyka KM, Zacker C, Chisholm-Burns MA, Demissie K. Prevalence and correlates of medication non-adherence among kidney transplant recipients more than 6 months post-transplant: a cross-sectional study. BMC Nephrol. 2013;14:261.
Nevins TE, Robiner WN, Thomas W. Predictive patterns of early medication adherence in renal transplantation. Transplantation. 2014;98:878–84.
Cheng C-Y. Lin BY-J, Chang K-H, Shu K-H, Wu M-J. Awareness of memory impairment increases the adherence to immunosuppressants in kidney transplant recipients. Transplant Proc. 2012;44:746–8.
Tsapepas D, Langone A, Chan L, Wiland A, McCague K, Chisholm-Burns M. A longitudinal assessment of adherence with immunosuppressive therapy following kidney transplantation from the Mycophenolic Acid Observational REnal Transplant (MORE) study. Ann Transplant. 2014;19:174–81.
Lalić J, Veličković-Radovanović R, Mitić B, Paunović G, Cvetković T. Immunosuppressive medication adherence in kidney transplant patients. Med Princ Pract. 2014;23:351–6.
Kuypers DRJ, Peeters PC, Sennesael JJ, Kianda MN, Vrijens B, Kristanto P, et al. Improved adherence to tacrolimus once-daily formulation in renal recipients: a randomized controlled trial using electronic monitoring. Transplantation. 2013;95:333–40.
Cukor D, Rosenthal DS, Jindal RM, Brown CD, Kimmel PL. Depression is an important contributor to low medication adherence in hemodialyzed patients and transplant recipients. Kidney Int. 2009;75:1223–9.
Williams AF, Manias E, Gaskin CJ, Crawford K. Medicine non-adherence in kidney transplantation. J Ren Care. 2014;40:107–16.
Scholz U, Klaghofer R, Dux R, Roellin M, Boehler A, Muellhaupt B, et al. Predicting intentions and adherence behavior in the context of organ transplantation: gender differences of provided social support. J Psychosom Res. 2012;72:214–9.
Korb-Savoldelli V, Sabatier B, Gillaizeau F, Guillemain R, Prognon P, Bégué D, et al. Non-adherence with drug treatment after heart or lung transplantation in adults: a systematic review. Patient Educ Couns. 2010;81:148–54.
Favaro A, Gerosa G, Caforio ALP, Volpe B, Rupolo G, Zarneri D, et al. Posttraumatic stress disorder and depression in heart transplantation recipients: the relationship with outcome and adherence to medical treatment. Gen Hosp Psychiatry. 2011;33:1–7.
Denhaerynck K, Schmid-Mohler G, Kiss A, Steiger J, Wüthrich RP, Bock A, et al. Differences in Medication Adherence between Living and Deceased Donor Kidney Transplant Patients. Int J Organ Transplant Med. 2014;5:7–14.
Hatakeyama S, Fujita T, Yoneyama T, Yoneyama T, Koie T, Hashimoto Y, et al. A switch from conventional twice-daily tacrolimus to once-daily extended-release tacrolimus in stable kidney transplant recipients. Transplant Proc. 2012;44:121–3.
Kolonko A, Chudek J, Wiecek A. Improved kidney graft function after conversion from twice daily tacrolimus to a once daily prolonged-release formulation. Transplant Proc. 2011;43:2950–3.
Wlodarczyk Z, Squifflet J-P, Ostrowski M, Rigotti P, Stefoni S, Citterio F, et al. Pharmacokinetics for once- versus twice-daily tacrolimus formulations in de novo kidney transplantation: a randomized, open-label trial. Am J Transplant. 2009;9:2505–13.
Shemesh E, Annunziato RA, Arnon R, Miloh T, Kerkar N. Adherence to medical recommendations and transition to adult services in pediatric transplant recipients. Curr Opin Organ Transplant. 2010;15:288–92.
Pascazio L, Nardone IB, Clarici A, Enzmann G, Grignetti M, Panzetta GO, et al. Anxiety, depression and emotional profile in renal transplant recipients and healthy subjects: a comparative study. Transplant Proc. 2010;42:3586–90.
Kadioglu ZO, Kacar S, Eroglu A, Guven B, Tilif S. Dyadic adjustment and psychological concordance of kidney transplant recipients and donors after spousal transplantation. Transplant Proc. 2012;44:1608–13.
Chisholm MA, Williamson GM, Lance CE, Mulloy LL. Predicting adherence to immunosuppressant therapy: a prospective analysis of the theory of planned behaviour. Nephrol Dial Transplant. 2007;22:2339–48.
Girerd X, Hanon O, Anagnostopoulos K, Ciupek C, Mourad JJ. Consoli S [Assessment of antihypertensive compliance using a self-administered questionnaire: development and use in a hypertension clinic]. Presse Med. 2001;30:1044–8.
Ruiz MA, Pardo A, Rejas J, Soto J, Villasante F, Aranguren JL. Development and validation of the “Treatment Satisfaction with Medicines Questionnaire” (SATMED-Q). Value Health. 2008;11:913–26.
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The authors thank Alexandra Tavernier (M.A, University of Glasgow, UK; Professeur Agrégée, University of Lille, France) for reading and editing the manuscript.
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Belaiche, S., Décaudin, B., Dharancy, S. et al. Factors relevant to medication non-adherence in kidney transplant: a systematic review. Int J Clin Pharm 39, 582–593 (2017). https://doi.org/10.1007/s11096-017-0436-4
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DOI: https://doi.org/10.1007/s11096-017-0436-4