eISSN: 1897-4252
ISSN: 1731-5530
Kardiochirurgia i Torakochirurgia Polska/Polish Journal of Thoracic and Cardiovascular Surgery
Current issue Archive Manuscripts accepted About the journal Supplements Editorial board Reviewers Abstracting and indexing Contact Instructions for authors Publication charge Ethical standards and procedures
Editorial System
Submit your Manuscript
SCImago Journal & Country Rank
Search
1/2021
vol. 18
 
Share:
Send email
Share:
Original paper

Self-management of patients with heart valve replacement and its clinical outcomes: a systematic review

Shirdel Zandi
1
,
Behzad Imani
2
,
Gholamreza Safarpor
3
,
Salman Khazaei
4

  1. Department of Operating Room, Student Research Committee, Hamadan University of Medical Sciences, Hamadan, Iran
  2. Department of Operating Room, Faculty of Paramedicine, Hamadan University of Medical Sciences, Hamadan, Iran
  3. Department of Heart Surgery, School of Medicine, Hamadan University of Medical Sciences, Hamadan, Iran
  4. PhD of Epidemiology, Research Center for Health Sciences Hamadan University of Medical Sciences, Hamadan, Iran
Kardiochir Torakochir Pol 2021; 18 (1): 40-49
DOI: https://doi.org/10.5114/kitp.2021.105186
Online publish date: 2021/05/15
Article file
- Self-management.pdf  [0.17 MB]
Get citation
 
PlumX metrics:
 

Introduction

Valvular heart disease is one of the most common cardiovascular diseases, affecting over 100 million patients worldwide [1]. This number is rising due to the ageing population, which leads to growing public health problems [2]. Prosthetic heart valve (mechanical or bioprosthetic) replacement is an effective intervention for severe valvular heart disease. Approximately 30 million heart valves are implanted every year globally [1]. As heart valve surgery has markedly improved the survival and health-related quality of life in the last decades [3], the rate of this type of surgery has increased [4]. Also, mechanical prostheses exhibit higher stability but require anticoagulation with vitamin K antagonists. Anticoagulation remains a critical issue for patients with valvular prostheses, with an annual risk of bleeding of 1–2%. Anticoagulation administration is responsible for 60–75% of mechanical valve-related mortality [5, 6]. The aim of the application of bioprosthetic valves is to avoid the inconvenience and risks associated with long-term anticoagulation administration [79]. Among the patients undergoing aortic valve replacement, long-term mortality rates were similar to those who received bioprosthetic grafts. However, mechanical valves and bioprostheses were associated with a higher long-term risk of reoperation and endocarditis with a lower risk of stroke and haemorrhage [9]. Nonetheless, the return to daily life after surgery is faced with physical, mental, and social challenges [10]. After the surgical procedure of mechanical valve replacement, the patient must adhere to lifelong anticoagulation therapy. In this case, the limited therapeutic index of warfarin requires regular assessment of international normalized ratio (INR) to adjust its anti-coagulation intensity, improve the quality of anticoagulation management, and prevent complications with either higher or lower blood-coagulation levels [11]. Frequent long-term monitoring of INR values can lead to proper management, which has physical, psychological, social, and financial consequences for both patients and the health care system [12]. In developed western countries, patients in need of oral administration of warfarin anticoagulation have initiated the application of portable coagulometers for self-testing and self-management [13, 14]. The literature indicates that self-monitoring might increase the patient’s monitoring frequency and reduce the incidence of complications [15, 16].

Aim

The purpose of this review was to identify the aspects of self-management and its clinical consequences in patients with heart valve replacement.

Material and methods

In this systematic review, the PRISMA statement was used to clarify the present report [17]. The question addressed in this review was: What are the aspects of self-management and its clinical outcomes in patients with heart valve replacement? In this systematic review, the databases of PubMed, Scopus, and Web of Science were searched since May 2020, with no limitations of time and language. The authors also reviewed the references of eligible studies. The search was applied as follows: (self-care OR self-management) AND (heart valve replacement OR Heart valve surgery OR Heart valve prosthesis implantation OR Heart valve prosthesis OR Mechanical heart valve replacement OR prosthetic heart valve replacement).

Titles and abstracts of all identified articles were screened by BI and SZ to exclude any irrelevant papers. The full text of the remaining articles was reviewed to find the relevant studies based on the inclusion criteria. Any repeated studies, reviews, case reports, or letters to editors were excluded.

The following information was extracted independently by 2 authors: the name of first author, year of publication, country of research, study design, duration of follow-up, type of valve, main finding, and practical points.

Ethical approval

This study is the result of a student thesis that has been registered in Hamadan University of Medical Sciences of Iran with the ethical code IR.UMSHA.REC.1399.332.

Results

The literature search and selection process are depicted in Figure 1. In total, 385 relevant records and their references were searched from 3 different databases. Based on the endnote application, duplicated papers were removed. Three hundred and fifty-one articles were screened based on title and abstract. During the screening process, 307 records removed by checking title and abstract, and in 44 records the full text was reviewed completely. As shown in Table I, following full-text evaluation, 19 full texts were removed, and 25 full text articles met the eligibility criteria for the systematic review [1841] (Figure 1).

Figure 1

Flow diagram of the study selection for the review process

/f/fulltexts/KiTP/43778/KITP-18-43778-g001_min.jpg
Table I

Aspects of self-management in heart valve patients

Anticoagulation therapy self-managementChristensen TD (2003), Christensen TD (2001), Christensen TD (2016), Sidhu P (2001), Thompson JL (2013), Hasenkam JM (1998), Soliman Hamad MA (2009), Koertke H (2007), Mair H (2012)
INR self-testingAzarnoush K (2014), Thompson JL (2008), Jeon HR (2015), Körtke H (2001), Eitz T (2008), Kortke H (2001), Koertke H (2003), Chen QL (2015), Koertke H (2000).
Low-dose INR self-managementKoertke H (2015), Koertke H (2005), Koertke H (2007), Koertke H (2010)
Heart valve function self-monitoringFritzsche D (2007), Fritzsche D (2007), Fritzsche D (2004)

These studies were conducted between 1998 and 2016. Four studies were conducted in Denmark [18, 22, 26, 39]; 14 in Germany [21, 23, 2834, 36, 37, 4042]; 2 in the United States [20, 25]; 1 in China [35]; 1 in France [27]; 1 in the Netherlands [38]; 1 in Northern Ireland [19], and 1 in South Korea [24] (Table II).

Table II

Main characteristics of included studies

Author (year))CountryDesignSample sizeDuration of follow-upType of valveResultsPractical points
Azarnoush K (2014)FranceQuasi-experiment1784.2 ±1 yearsMechanicalThere were significantly fewer bleeding complications and complications related to VKA in self-measured patients, and feelings of security and quality of life were also betterSelf-monitoring device should be provided and self-monitoring INR method and training of vitamin K antagonists should be given. Also, financial support should be provided
Christensen TD (2003)DenmarkQuasi-experiment study1972.1 yearsMechanicalSM of oral anticoagulant therapy provides a good treatment quality for mechanical heart valve patients. Therefore self-management of oral anticoagulant therapy is an equally good or potentially better treatment option compared to conventional managementTraining SM to patients, training of blood sampling and analysis. Start SM gradually and under supervision. Start SM after taking the ability test. Patient’s relationship with medical centres and report of test results, drugs, complications, and asking questions. Family support
Christensen TD (2001)DenmarkQuasi-experiment study.484 yearsMechanicalSM of OAT is a feasible and safe concept also on a long-term basis. It provides at least as good and probably better quality of anticoagulant therapy than conventional management assessed by time within the therapeutic international normalized ratio (INR) target rangeFor self-monitoring, the patient should be trained to use the CoaguChekb coagulometer and PT-test strip and finger puncture. Practicing blood specimen and analysis. Start SM gradually and under supervision. Must be assured of patient's SM capacity
Christensen TD (2016)DenmarkMatched Cohort Study615 + 3,0755 yearMechanicalPSM was associated with a lower risk of all-cause mortality. Self-managed oral anticoagulant therapy potentially improves the standard of careAll patients need to undergo an educational program including basic theoretical and practical skills that involved use of the coagulometer, interpretation of international normalized ratio values, and VKA dosing
Fritzsche D (2007)GermanyRCT54125.2 monthsMechanicalAnalysis of sound frequency spectra by the ThromboCheck identified prosthetic heart valve dysfunction before clinical symptoms developed, and promoted early therapy. By using the ThromboCheck device the patients felt safer with regards to prosthetic valve dysfunctionPatients should receive instructions on the use of the ThromboCheck early after surgery. The device was calibrated by recording the baseline valve sound characteristics of each patient. Use of this device should be monitored
Thompson (2008)USARCT501 monthMechanicalPatients are able to learn INR self-testing, and most will continue to use the method without the need for interval instructionInstructions for using a coagulometer. Review of the importance of using anticoagulation, the correct way to obtain a sample of blood using a fingerstick, and the importance of hand hygiene
Jeon HR (2015)KoreaRCT33SM program based on PT INR monitoring showed that it is effective in improving self-management knowledge, self-efficacy, and SM behavior as well as maintaining the treatment range of PT INR of patients with cardiac valve replacementIndividual training on opiates, diet, daily living, exercise, stress management, PT and INR self-examination methods, precautions for anticoagulant use, drug interactions, side effects of medications, surgical wound management, and telephone counseling
Koertke H (2015)GermanyRCT180018 monthsMechanicaTelemedicine-guided very low-dose INR self-control is comparable with low-dose INR in thrombotic risk, and is superior in bleeding risk. Weekly testing is sufficientSeveral factors such as the vitamin K content of the diet, concomitant medications, alcohol consumption, climate, stress, and physical activity. Training must be given for procedures that are performed if the measured INR value lies outside the target range and how to adjust the daily dose of anticoagulants to optimize the INR value
Sidhu P (2001)Northern IrelandRCT1004 monthsMechanicalSelf-managed anticoagulation is a reliable, easily learned method of controlling anticoagulation, and it is suitable for approximately two thirds of patients, with excellent resultsProviding information on blood coagulation, diagnosis of anticoagulation, and infection complications, drugs, diet, alcohol consumption, training on the use of the CoaguChek device, and the importance of hand hygiene. Evaluation of patients' SM ability
Thompson J (2013)USARCT2003 monthsMechanicalManagement of anticoagulation is improved with self-testing, even during the early postoperative phase when international normalized ratio testing is performed frequentlyThe educational program must include an overview of INR self-testing and the coagulometer and the proper methods for sampling using a finger stick, the use of the coagulometer, and recording the test results
(2007)GermanyQuasi-experiment48315.1 monthsMechanicalDigital frequency analysis represents a reasonable addition to the monitoring of patients to detect prosthesisrelated complications early onFrequency of prosthetic dysfunction can be detected by ThromboCheck. The early detection of dysfunction should enable suitable treatment strategies to be deduced. In all patients an altered frequency range must be evaluated as early detection of a mechanical valve dysfunction and recommended medical clarification
Hasenkam (1998)DenmakQuasi-experiment419 monthsMechanicalSM of oral anticoagulation is feasible for these patients. The CoaguChek monitor seems sufficiently accurate and reliable for self-testingTraining of self-analysis, instructions for using the using the CoaguChek monitor, and blood specimen analysis based on capillary blood samples
Körtke H (2001)GermayIRC11582 yearsMechanicalThe results differed slightly in quality between patient groups with different levels of training. Overall, 91.7% of these patients are self-managed. Quality of oral anticoagulation also improvedTraining SM to patients. Instructions for using a coagulometer
Fritzsche D (2004GermayQuasi-experiment306 monthsMechanicalThis study presents a reliable method for early detection of prosthetic valve dysfunction, which can be applied daily with minimal effort by the patientOnline recording of acoustic phenomena by home monitoring of patients is useful for detecting even minimal changes in prosthesis function
Soliman Hamad (2009)NetherlandsRCT621 yearMechanicalSM program after adequate training improves the INR control. Postoperative improvement in the quality of life was significant in the physical component summary onlyPatients should receive special information. CoaguChek and all disposable items should be provided to patients. Patient must receive sufficient training. Patients have to pass an exam of SM
Eitz T (2008)GermanyRCT7652 yearsMechanicalAnticoagulation SM can improve INR profiles up to 2 years after prosthetic valve replacement and reduce adverse eventsInstructions on use of the CoaguChek device. Adjustments of warfarin dosages cannot be predefined because of varying needs for vitamin K antagonism. Dosage adjustments must consider previous dosages and INR profiles. Ensure patient SM skills
Koertke H (2005)GermanyRCT18182 yearsMechanicalLow-dose INR SM is a promising tool to achieve low haemorrhagic complications without increasing the risk of thromboembolic complications. INR SM is applicable for all patients in whom permanent anticoagulation therapy is indicatedThe low-dose had a target range of 1.8 to 2.8 for aortic valve recipients and 2.5 to 3.5 for mitral or double valve recipients. Patients who depend on long-term anticoagulation therapy are able to responsibly determine the INR values and correct the dose of anticoagulants. INR measurements were performed with a coagulation monitor
Koertke H (2007)GermayRCT93012 yearsMechanicalSM of oral anticoagulation is a promising strategy to increase long-term survival in patients with mechanical prosthetic valvesSelf-management must be taught
Kortke H (2001)GermanyRCT6002 yearsMechanicalSM can cause improvement in the quality of ongoing oral anticoagulation. Starting this form of therapeutic control early after mechanical heart valve replacement appears to cause a further reduction in anticoagulant-induced complicationsPatients with SM should receive training 6 to 11 days after surgery and then receive a coagulation monitor
Koertke H (2003)GermanyRCT18182 yearsMechanicalEarly-onset INR SM under oral anticoagulation enables patients to keep within a lower and smaller INR target range, resulting in fewer bleeding complications without increasing thromboembolic event ratesSM Training began 6 to 11 days after surgery. Every patient who passed the INR self-management examination received a coagulation monitor. Every month the study center received the INR values recorded by the patients themselves. Patients were asked to report any complication (thromboembolism, bleeding) immediately
Mair H (2012)Germayretrospective4208.6 ±2.1 yearsMechanicalSelf-M of OA improves long-term outcome and treatment qualityPatients trained according to the guidelines of the Anticoagulation Specialist Association. The main goals were to achieve accurate INR results by self-testing (finger-prick) and correct interpretation of the INR data with appropriate change of the anticoagulant dosage
Chen QL (2015)ChinaRCT5266 monthsMechanicalResults of CoaguChek XS monitoring are precise and have good consistency and stability. The self-testing of anticoagulation therapy with a portable coagulometer is a safe choiceSelf-testing methods are used in parallel to check and record the INR values of the patients. About 0.01 cm3 of blood at the end of the capillary of a finger is collected by the patients themselves or their caregivers, and tested with a CoaguChek XS portable coagulometer
Koertke H (2001)GermanyRCT6002 yearsMechanicalINR SM reduced severe haemorrhagic and thromboembolic complications. We conclude that all patients for whom anticoagulation is indicated are candidates for INR SM regardless of education levelSM Training began 6 to 11 days after surgery. Every patient who passed the INR self-management examination received a coagulation monitor
Koertke H (2005)GermanyRCT18182 yearsMechanicallow-dose INR SM does not increase the risk of thrombo-embolic events compared with conventional-dose INR self-management. Even in patients with low INR target range, the risk of bleeding events is still higher than the risk of thrombo-embolismThe low-dose had a target range of 1.8 to 2.8 for aortic valve recipients and 2.5 to 3.5 for mitral or double valve recipients. Patients who depend on long-term anticoagulation therapy are able to responsibly determine the INR values and correct the dose of anticoagulants. INR measurements were performed with a coagulation monitor
Koertke H (2010)GermanyRCT11376 monthsMechanicalVery low-dose self-management of oral Anticoagulation is not significantly different from conventional methods in terms of clinical outcomes, such as the incidence of thromboembolic events requiring hospitalization, bleeding event, and mortalityVery low-dose self-management of oral anticoagulation is effective and safe for patients

Study designs included those based on randomized controlled trials (RCT) (n = 17). Other designs included quasi-experiment studies (n = 6), a matched cohort study (n = 1), and a retrospective study (n = 1). The lowest sample size in these studies was 30 (40), and the highest was 1818 (29, 32, 33) (Table II). In most studies, the patients studied had mechanical valves (n = 24), and in 1 study the type of valve was not known (Table II).

These studies were aspects of anticoagulation therapy self-management (n = 9), INR self-testing (n = 9), low-dose INR self-management (n = 4), and heart valve function self-monitoring (n = 3) (Table I).

Discussion

Prerequisites and principles of training for the initiation of self-management in heart valve patients

Self-management in patients with heart valve replacement requires a series of prerequisites and training. Despite these conditions, self-management is considered as a learnable behaviour. Based on the opinion of Sidhu et al., it is a reliable method that can be easily learned for anticoagulation management [19]. One of the most important prerequisites for self-management is the financial support of these patients [27]. Azarnoush et al. showed that the main factors prohibiting INR self-measurement are its high cost and difficulty in obtaining strips [27]. Accordingly, one of the most important prerequisites for the self-management of these patients is access to self-monitoring devices and all disposables necessities [27, 38]. Another study found that these patients should have family support based on the patients’ needs [22]. In addition, following the start of self-management, these patients should contact the medical centres to report the results of tests, medications, and complications [22, 32].

In these patients, training is a factor affecting the quality of the self-management [41], and these patients need to receive the necessary training before initiation of self-management [22, 30]. Some studies have proposed the start time of self-management training at 6–11 days post surgery [31, 32, 36]. At the end of the training courses, the patients should be evaluated for self-management competence [19, 38]. This process should then be started gradually and continued under supervision [22]. In self-management training, theoretical and practical skills should be considered. Patients should be taught how to use coagulometer devices, pt-test strips, etc. [26, 28]. Self-management requires a blood sampling technique that uses a punctured finger, which must be learned in a precise method, as well as principles hygiene [20, 25]. These patients should also be trained regarding, for example, vitamin K antagonists, diet, drug interactions, methods of INR control outside the target range, precautions in anticoagulant administration, complications of medications, surgical wound management, alcohol consumption, use of narcotics, daily life, exercise and physical activity, stress management, and ways of communicating with the hospital [21, 24, 27].

Anticoagulation therapy in self-management

Most studies of self-management in heart valve replacement patients have been conducted in the field of INR self-management and anti-coagulation therapy. The results of these studies showed that self-management of oral anticoagulant therapy provides an accurate treatment quality for mechanical heart valve patients [22]. Self-management of oral anticoagulant therapy is a feasible and safe concept for selected patients with mechanical heart valve prostheses, in whom this method provides better quality of anticoagulant therapy than conventional management methods [26, 39]. Based on the better clinical outcomes, self-managed oral anticoagulant therapy could potentially improve the standard of care for patients with mechanical heart valves [18].

Moreover, through the application of self-management methods and programs, self-efficacy, knowledge, and self-management behaviours will be strengthened in these patients. Thus, they will feel more safe and experience a better quality of life [24, 27, 34]. In fact, oral anticoagulant self-management is a promising strategy to increase long-term survival in patients with mechanical prosthetic valves [30]. In a prospective cohort study, Christensen et al. showed that the incidence rate could be at a lower level in self-management of anticoagulant therapy. They also concluded that the patients’ self-management showed a lower risk of all-cause mortality after 5 years compared to the conventional management [18]. According to the published studies, the patients with self-management of anticoagulant therapy were significantly within the target therapeutic range of the INR in comparison with conventional methods [19, 26, 28, 31, 38, 39]. It has also been shown that the complications associated with anticoagulant therapy (including haemorrhagic and thromboembolic incidences) in patients with self-management are significantly less common [28, 3032, 34, 36]. If the self-management program is applied in the early stages of heart valve replacement, it will be more effective in the alleviation of side effects of anticoagulant therapy [31, 32]. Thus, self-management in patients with sufficient training could improve the INR control [38]. In this regard, the study of Christensen et al. (2016) showed that the rate of thromboembolic events in the self-management and conventional groups were 1.62% and 1.97%, respectively. In both groups, the bleeding rate was 1.11% and 1.44%, respectively [18]. In another study, the rate of thromboembolic incidences was 1.2% in the self-management group and 2.1% in the conventional group. Also, in this study the rate of bleeding was 1.7% and 2.6%, respectively [31].

INR self-testing

INR self-testing is one of the most commonly investigated aspects of self-management in studies. Chen et al. stated that the self-testing in anticoagulation therapy with a portable coagulometer is a safe choice for patients receiving anticoagulation therapy after mechanical heart valve replacement. This method has a promising future because it reduces the cost and time required for re-examination [35]. Thompson et al. showed that management of anticoagulation with warfarin after mechanical valve replacement is improved with self-testing, even during the early postoperative phase when international normalized ratio testing is performed frequently [25]. Thompson et al. reported that the mean results of INR testing obtained from a coagulometer and self-testing correlated well with the values obtained by laboratory determination [20]. Evidence also shows that this method has a positive effect on health and quality of patients’ life. Also, by using INR self-testing, anticoagulant management could be improved. However, different studies regarding the prevalence of complications in both traditional and self-testing methods have obtained different results. As was shown in the study of Azarnoush et al. (2014), the rate of bleeding was 15.4% in the self-testing group and 37.5% in the traditional group. Also, the rate of all events related to VKA in both groups was 15.4 and 42.5, respectively [27]. However, in the study of Thompson et al. from 2013, the prevalence of transient ischaemic attack was 2% in the self-testing group and 1% in the traditional method group; the rate of bleeding in the groups was 5% and 3%, respectively [25].

Low-dose INR self-management

International normalized ratio self-management can significantly reduce INR fluctuations, bleeding, and thromboembolic events compared to INR control managed by general practitioners. However, even patients with INR self-management may have an increased risk of bleeding if their INR value is above 3.5 [29]. There are various studies in this field which evaluated the compliance, clinical complications, and survival rates of patients after mechanical heart valve replacement with low-dose INR self-management compared with conventional-dose anticoagulation [21, 29, 33, 42]. In two of these studies, low-dose anticoagulation is considered with a target INR range of 1.8–2.8 for aortic valve replacement and 2.5–3.5 for mitral or double valve replacement [29, 33]. These studies demonstrated that low-dose INR self-management is a promising tool for the achievement of fewer bleeding complications without increasing the risk of thromboembolic complications [29]. Also, low-dose INR self-management does not increase the risk of thrombo-embolic events in comparison with the conventional dose of INR self-management, even in patients with a low INR target range. The risk of bleeding events is still higher than the risk of thromboembolism [33]. In this regard, the study of Koertke et al. (2005) showed that the thromboembolic incidence rate in the low-dose INR self-management group was 0.18%, and in the conventional-dose anticoagulation group it was 0.4%. The bleeding rate in these 2 groups was 0.74% and 1.2%, respectively [29]. In another study, the rate of thromboembolic events was 0.19% in the low-dose INR self-management group and 0.37% in the conventional-dose anticoagulation group. Also, the rate of bleeding in both groups was 1.42% and 1.52%, respectively [33].

Another study evaluated a telemedicine-guided, very low-dose, international normalized ratio, INR target range of 1.6–2.1 for aortic valve replacement and 2.0–2.5 for mitral valve replacement or double valve replacement, this study has shown that telemedicine-guided, very low-dose INR self-control is comparable with low-dose INR in thrombotic risk, and has a high bleeding risk [21]. However, another study showed that very low-dose self-management of oral anticoagulation is not significantly different from conventional methods in terms of clinical outcomes, such as the incidence of thromboembolic events requiring hospitalization, bleeding events, and mortality [42]. The results of this study demonstrated the efficacy and safety of very low-dose INR self-management.

Heart valve function in self-monitoring

One of the complications of heart valve replacement in post-surgery, which causes severe problems affecting treatment quality as well as the life quality, is valve dysfunction. Although the diagnosis can be made by imaging studies, clinical symptoms commonly precede the diagnostic procedures. In this regard, 3 studies have been conducted with the aim of determining the ability and advantages of diagnosing valvular dysfunction by the patient and self-monitoring through home monitoring methods [23, 37, 40].

Digital frequency analysis represents a reasonable addition to the monitoring of patients after artificial heart valve replacement to detect prosthesis related complications early on [37]. The Thrombo Check device is used to diagnose dysfunction of the valve frequency spectrum, which shows that this device as part of a monitoring system is frequently associated with recognizable valve dysfunction [23, 37, 40]. This is a reliable diagnostic method for early detection of prosthetic valve dysfunction, which can be applied daily with minimal effort by the patient [40]. Application of this method detects valve dysfunction prior to the appearance of clinical symptoms, and it improves primary treatment [23]. Before the application of this device, the patients should be trained, and the device should be calibrated by recording the baseline valve sound characteristics [23].

Therapeutic range of INR

For patients with mechanical heart valves, it is necessary to consider the treatment range based on the position of the valve for proper INR control. As a result of this systematic review, it has been found that in several studies the therapeutic range of INR has been considered 2.5 to 4.5 in both traditional and self-management methods and in each type of valve position [31, 34, 36, 38, 41]. In some studies, the range of INR therapy is considered 2–3 in each position [26, 39]. In another study, the therapeutic range of INR was considered 2 to 3 for aortic and tricuspid valves and 2.5–3.5 for mitral and multiple valves, respectively [22]. In low-dose INR self-management studies, the therapeutic range has been considered 1.8–2.8 for aortic valves and 2.5–3.5 for mitral and double valves, respectively [29, 32, 33, 42]. In the study of Koertke (2010) in the filed of very low dose self-management method, the therapeutic range in aortic valves was 1.6–2.1, and in mitral and double valves was 2–2.5 [42]. In another study in which the low-intensity anticoagulation therapy method was examined, the therapeutic range of INR was considered 1.5–1.8 in aortic valves, 1.8–2 in mitral and double valves, and 2–2.5 in TVR valves [35].

Conclusions

According to this review study, self-management is a learnable behavior for these patients that if the necessary prerequisites and training are provided, these patients can manage their condition. Self-management in these patients is applicable in the aspects of anticoagulation therapy self-management, INR self-testing, low-dose INR self-management, and heart valve function self-monitoring, and mostly mechanical valve studies. In this method, with proper control of INR levels and anticoagulation therapy, the incidence of complications will be reduced, and patients can diagnose functional disorders in the early stages through monitoring of the valve function to prevent the progression of complications. Thus, self-management in these patients is safe, with better clinical and psychological results than for the usual management method, which eventually can improve the quality of treatment and quality of life in these patients.

Acknowledgments

This study was financially supported by the Hamadan University of Medical Sciences of Iran.

Disclosure

The authors report no conflict of interest.

References

1 

Sun JC, Davidson MJ, Lamy A, Eikelboom JW , authors. Antithrombotic management of patients with prosthetic heart valves: current evidence and future trends. Lancet. 2009. 374:p. 565–576

2 

Supino PG, Borer JS, Preibisz J, Bornstein A , authors. The epidemiology of valvular heart disease: a growing public health problem. Heart Failure Clinics. 2006. 2:p. 379–393

3 

Hansen L, Winkel S, Kuhr J, Bader R, Bleese N, Riess FC , authors. Factors influencing survival and postoperative quality of life after mitral valve reconstruction. Eur J Cardiothorac Surg. 2010. 37:p. 635–644

4 

Butchart EG, Gohlke-Bärwolf C, Antunes MJ, Tornos P, De Caterina R, Cormier B, Prendergast B, Iung B, Bjornstad H, Leport C, Hall RJC, Vahanian A; Working Groups on Valvular Heart Disease, Thrombosis, and Cardiac Rehabilitation and Exercise Physiology, European Society of Cardiology , authors. Recommendations for the management of patients after heart valve surgery. Eur Heart J. 2005. 26:p. 2463–2471

5 

Akins CW , author. Results with mechanical cardiac valvular prostheses. Ann Thorac Surg. 1995. 60:p. 1836–1844

6 

Rahimtoola SH , author. Choice of prosthetic heart valve in adults: an update. J Am Coll Cardiol. 2010. 55:p. 2413–2426

7 

Yanagawa B, Whitlock RP, Verma S, Gersh BJ , authors. Anticoagulation for prosthetic heart valves: unresolved questions requiring answers. Curr Opin Cardiol. 2016. 31:p. 176–182

8 

Thourani VH, Suri RM, Gunter RL, Sheng S, O’Brien SM, Ailawadi G, Szeto WY, Dewey TM, Guyton RA, Bavaria JE, Babaliaros V, Gammie JS, Svensson L, Williams M, Badhwar V, Mack MJ , authors. Contemporary real-world outcomes of surgical aortic valve replacement in 141,905 low-risk, intermediate-risk, and high-risk patients. Ann Thorac Surg. 2015. 99:p. 55–61

9 

Brennan JM, Edwards FH, Zhao Y, O’Brien S, Booth ME, Dokholyan RS, Douglas PS, Peterson ED; DEcIDE AVR (Developing Evidence to Inform Decisions about Effectiveness–Aortic Valve Replacement) Research Team , authors. Long-term safety and effectiveness of mechanical versus biologic aortic valve prostheses in older patients: results from the Society of Thoracic Surgeons Adult Cardiac Surgery National Database. Circulation. 2013. 127:p. 1647–1655

10 

Lunel C, Laurent M, Corbineau H, Boulmier D, Chaperon J, Guillo P, Dewitte JD, Leguerrier A , authors. Return to work after cardiac valvular surgery. Retrospective study of a series of 105 patients. Archives des Maladies du Coeur et des Vaisseaux. 2003. 96:p. 15–22

11 

Shah SGS, Barnett J, Kuljis J, Hone K, Kaczmarski R , authors. Factors determining patients’ intentions to use point-of-care testing medical devices for self-monitoring: the case of international normalized ratio self-testing. Patient Prefer Adherence. 2013. 7:p. 1–14

12 

Gadisseur A, Breukink-Engbers W, Van Der Meer F, Van Den Besselaar A, Sturk A, Rosendaal F , authors. Comparison of the quality of oral anticoagulant therapy through patient self-management and management by specialized anticoagulation clinics in the Netherlands: a randomized clinical trial. Arch Intern Med. 2003. 163:p. 2639–2646

13 

Heneghan C, Ward A, Perera R; Self-Monitoring Trialist Collaboration; Bankhead C, Fuller A, Stevens R, Bradford K, Tyndel S, Alonso-Coello P, Ansell J, Beyth R, Bernardo A, Christensen TD, Cromheecke ME, Edson RG, Fitzmaurice D, Gadisseur APA, Garcia-Alamino JM, Gardiner C, Hasenkam JM, Jacobson A, Kaatz S, Kamali F, Khan TI, Knight E, Körtke H, Levi M, Matchar D, Menéndez-Jándula B, Rakovac I, Schaefer C, Siebenhofer A, Souto JC, Sunderji R, Gin K, Shalansky K, Völler H, Wagner O, Zittermann A , authors. Self-monitoring of oral anticoagulation: systematic review and meta-analysis of individual patient data. Lancet. 2012. 379:p. 322–334

14 

Grunau BE, Wiens MO, Harder KK , authors. Patient self-management of warfarin therapy: pragmatic feasibility study in Canadian primary care. Canad Fam Phys. 2011. 57:p. e292–e298

15 

Thompson JL, Sundt TM, Sarano ME, Santrach PJ, Schaff HV , authors. In-patient international normalized ratio self-testing instruction after mechanical heart valve implantation. Ann Thoracic Surg. 2008. 85:p. 2046–2050

16 

Wells PS, Brown A, Jaffey J, McGahan L, Poon M-C, Cimon K , authors. Safety and effectiveness of point-of-care monitoring devices in patients on oral anticoagulant therapy: a meta-analysis. Open Medicine. 2007. 1:p. e131

17 

Moher D, Liberati A, Tetzlaff J, Altman DG , authors. Preferred reporting items for systematic reviews and meta-analyses: the PRISMA statement. Ann Intern Med. 2009. 151:p. 264–269

18 

Christensen TD, Skjoth F, Nielsen PB, Maegaard M, Grove EL, Larsen TB , authors. Self-management of anticoagulant therapy in mechanical heart valve patients: a matched cohort study. Ann Thoracic Surg. 2016. 101:p. 1494–1499

19 

Sidhu P, O’Kane HO , authors. Self-managed anticoagulation: results from a two-year prospective randomized trial with heart valve patients. Ann Thoracic Surg. 2001. 72:p. 1523–1527

20 

Thompson JL, Sundt TM, Sarano ME, Santrach PJ, Schaff HV , authors. In-patient international normalized ratio self-testing instruction after mechanical heart valve implantation. Ann Thoracic Surg. 2008. 85:p. 2046–2050

21 

Koertke H, Zittermann A, Wagner O, Secer S, Huth CO, Sciangula A, Saggau W, Sack FU, Ennker J, Cremer J, Musumeci F, Gummert JF , authors. Telemedicine-guided, very low-dose international normalized ratio self-control in patients with mechanical heart valve implants. Eur Heart J. 2015. 36:p. 1297–1305

22 

Christensen TD, Andersen NT, Attermann J, Hjortdal VE, Maegaard M, Hasenkam JM , authors. Mechanical heart valve patients can manage oral anticoagulant therapy themselves. Eur J Cardiothorac Surg. 2003. 23:p. 292–298

23 

Fritzsche D, Schenk S, Eitz T, Mantas J, Horstkotte D, Koerfer R , authors. Patient self-monitoring of prosthetic heart valve function. J Heart Valve Dis. 2007. 16:p. 558–566

24 

Jeon HR, Park JS , authors. Development and application of a self management program based on prothrombin INR monitoring for patients with cardiac valve replacement. J Korean Acad Nurs. 2015. 45:p. 554–564

25 

Thompson JL, Burkhart HM, Daly RC, Dearani JA, Joyce LD, Suri RM, Schaff HV , authors. Anticoagulation early after mechanical valve replacement: Improved management with patient self-testing. J Thoracic Cardiovasc Surg. 2013. 146:p. 599–604

26 

Christensen TD, Attermann J, Pilegaard HK, Andersen NT, Maegaard M, Hasenkam JM , authors. Self-management of oral anticoagulant therapy for mechanical heart valve patients. Scand Cardiovasc J. 2001. 35:p. 107–113

27 

Azarnoush K, Dorigo E, Pereira B, Dauphin C, Geoffroy E, Dauphin N, D’Ostrevy N, Legault B, Camilleri L , authors. Mid-term results of self-testing of the international normalized ratio in adults with a mechanical heart valve. Thrombosis Res. 2014. 133:p. 149–153

28 

Eitz T, Schenk S, Fritzsche D, Bairaktaris A, Wagner O, Koertke H, Koerfer R , authors. International normalized ratio self-management lowers the risk of thromboembolic events after prosthetic heart valve replacement. Ann Thorac Surg. 2008. 85:p. 949–954

29 

Koertke H, Zittermann A, Minami K, Tenderich G, Wagner O, El-Arousy M, Krian A, Ennker J, Taborski U, Klövekorn WP, Moosdorf R, Saggau W, Morshuis M, Koerfer J, Seifert D, Koerfer R , authors. Low-dose international normalized ratio self-management: a promising tool to achieve low complication rates after mechanical heart valve replacement. Ann Thorac Surg. 2005. 79:p. 1909–1914

30 

Koertke H, Zittermann A, Wagner O, Koerfer R , authors. Self-management of oral anticoagulation therapy improves long-term survival in patients with mechanical heart valve replacement. Ann Thorac Surg. 2007. 83:p. 24–29

31 

Kortke H, Korfer R , authors. International normalized ratio self-management after mechanical heart valve replacement: is an early start advantageous? Ann Thorac Surg. 2001. 72:p. 44–48

32 

Koertke H, Minami K, Boethig D, Breymann T, Seifert D, Wagner O, Atmacha N, Krian A, Ennker J, Taborski U, Klövekorn WP, Moosdorf R, Saggau W, Koerfer R , authors. INR self-management permits lower anticoagulation levels after mechanical heart valve replacement. Circulation. 2003. 108 Suppl 1:p. Ii75–Ii78

33 

Koertke H, Zittermann A, Tenderich G, Wagner O, El-Arousy M, Krian A, Ennker J, Taborski U, Klovekorn WP, Moosdorf R, Saggau W, Koerfer R , authors. Low-dose oral anticoagulation in patients with mechanical heart valve prostheses: final report from the early self-management anticoagulation trial II. Eur Heart J. 2007. 28:p. 2479–2484

34 

Mair H, Sachweh J, Sodian R, Brenner P, Schmoeckel M, Schmitz C, Reichart B, Daebritz S , authors. Long-term self-management of anticoagulation therapy after mechanical heart valve replacement in outside trial conditions. Interact Cardiovasc Thorac Surg. 2012. 14:p. 253–257

35 

Chen QL, Dong L, Dong YJ, Zhao SL, Fu B, Wang YQ, Jiang H , authors. Security and cost comparison of INR self-testing and conventional hospital INR testing in patients with mechanical heart valve replacement. J Cardiothorac Surg. 2015. 10:p. 4

36 

Koertke H, Minami K, Bairaktaris A, Wagner O, Koerfer R , authors. INR self-management following mechanical heart valve replacement. J Thromb Thrombolysis. 2000. 9 Suppl 1:p. S41–S45

37 

Fritzsche D, Eitz T, Laczkovics A, Liebold A, Knaut M, Matschke K, Sagie A, Mehlhorn U, Horstkotte D, Koerfer R , authors. Early detection of mechanical valve dysfunction using a new home monitoring device. Ann Thoracic Surg. 2007. 83:p. 542–548

38 

Soliman Hamad MA, van Eekelen E, van Agt T, van Straten AHM , authors. Self-management program improves anticoagulation control and quality of life: a prospective randomized study. Eur J Cardiothorac Surg. 2009. 35:p. 265–269

39 

Hasenkam JM, Kimose HH, Grønnesby H, Andersen NT, Halborg J, Attermann J, Pilegaard HK , authors. Self management of oral anticoagulant therapy after heart valve replacement. Ugeskrift for Laeger. 1998. 160:p. 6811–6815

40 

Fritzsche D, Eitz T, Grimmig O, Horstkotte D, Körfer R , authors. Home monitoring of patients after prosthetic valve replacement – a new method of early detection of valve dysfunction. Zeitschrift fur Kardiologie. 2004. 93:p. 664–670

41 

Körtke H, Minami K, Breymann T, Seifert D, Baraktaris A, Wagner O, Kleikamp G, el-Banayosy A, Mirow N, Körfer R , authors. INR self-management after mechanical heart valve replacement: ESCAT (Early Self-Controlled Anticoagulation Trial). Z Kardiol. 2001. 90 Suppl. 6:p. 118–124

42 

Koertke H, Zittermann A, Wagner O, Ennker J, Saggau W, Sack FU, Cremer J, Huth C, Braccio M, Musumeci F, Koerfer R , authors. Efficacy and safety of very low-dose self-management of oral anticoagulation in patients with mechanical heart valve replacement. Ann Thorac Surg. 2010. 90:p. 1487–1493

Copyright: © 2021 Polish Society of Cardiothoracic Surgeons (Polskie Towarzystwo KardioTorakochirurgów) and the editors of the Polish Journal of Cardio-Thoracic Surgery (Kardiochirurgia i Torakochirurgia Polska). This is an Open Access article distributed under the terms of the Creative Commons Attribution-NonCommercial-ShareAlike 4.0 International (CC BY-NC-SA 4.0) License (http://creativecommons.org/licenses/by-nc-sa/4.0/), allowing third parties to copy and redistribute the material in any medium or format and to remix, transform, and build upon the material, provided the original work is properly cited and states its license.
  
Termedia
About us Contact
Copyright notice Privacy policy Advertising policy Contact us
Quick links
Journals Books eBooks Events
© 2024 Termedia Sp. z o.o.
Developed by Bentus.