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Research Article | DOI: https://doi.org/10.31579/2641-0419/149
*Corresponding Author: Ujjwal Kumar Chowdhury, MCh, Diplomate NB Professor Department of CTVS AIIMS, New Delhi-110029, INDIA
Citation: Lakshmi K. Sankhyan., Ujjwal K. Chowdhury., Diplomate NB, Niwin George, Sushamagayatri B, et al. (2021) Performance of Mechanical and Biological Mitral Prostheses in Young Rheumatics Aged Below 45 Years. J. Clinical Cardiology and Cardiovascular Interventions, 4(7); Doi:10.31579/2641-0419/149
Copyright: © 2021 Ujjwal Kumar Chowdhury, This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.
Received: 11 February 2021 | Accepted: 29 March 2021 | Published: 02 April 2021
Keywords: bioprostheses; cerebral haemorrhage; mechanical prostheses; mitral valve replacement; propensity score matching; thromboembolism
Background and Aim: We compared 22-year composites of valve-related reoperation, morbidity, and mortality following mitral mechanical and bioprostheses in young rheumatics aged <45years.
Methods: Retrospective comparative analysis of valve-related reoperations and survival data were performed from 466 consecutive propensity matched patients undergoing either bioprosthetic MVR (Group I, n=233) or mechanical MVR (Group II, n=233) between 1998 and 2019.
Results: The median age was 33 (IQR: 27-40) and 34 (IQR: 28-39) years for Group I and II respectively. The mean follow-up was 3278.9 patient-years in the biological arm and 3384.4 patient-years in mechanical arm. Bioprosthetic arm exhibited lesser cumulative mortality (4.5% vs 9.9%, SMD= -0.04, p=0.65). Hazard regression for mortality included (HR, 95% CI) preoperative congestive heart failure (CHF) 11.44 (8.44, 624.9), p<0.0001; renal failure 19.51 (8.04, 47.35), p<0.0001; previous operation 6.84 (2.48, 18.84), p<0.0001; atrial fibrillation (AF) 7.64 (1.02, 57.13), p=0.006; LA clot 61.94 (8.28, 463.08), p<0.0001; giant LA >65 mm 7.87 (2.62, 23.56), p<0.0001; poor left ventricular (LV) function 0.94 (0.92, 0.97), p<0.0001; and prolonged aortic clamp time 1.07 (1.04, 1.11), p<0.0001). Propensity matching did not exhibit any difference in reoperations between bioprostheses and mechanical prostheses (18.8% vs 13.3%, SMD= -0.152, p=0.1). At a median follow-up of 136 (IQR: 76-197) months, actuarial survival was 90.32%±0.02% (p=0.09) and there was no difference between the groups (p=0.09).
Conclusions: Bioprostheses are an acceptable alternative to mechanical prostheses in young rheumatics aged <45 years unwilling for mechanical valve, redo surgeries, life-long anticoagulation, and those desirous of pregnancy.
Running title: Mitral bioprostheses in young rheumatics
Each year, more than 20,000 mitral valve operations are reported to STS database. [1] Despite the increased emphasis on valve repair, at least 30% of patients still undergo MVR. [1-4]
Current consensus guidelines of the AHA and ESC, uniformly recommend either type of prosthetic valve for patients aged 60 to 70 years and mechanical prosthesis for patients <60 years. [5-7] These recommendations are based on the results of 4 randomized controlled trials that demonstrated no significant difference in late survival. [6-9] Two of these trials compared mechanical and bioprosthetic valve models implanted in 1970s and 1980s. [8-10] The other 2 trials included patients undergoing aortic valve replacement. [4-6] Contemporary data are limited to small single center studies. [11-13]
Valve replacement in young adults entails a choice between a mechanical prosthesis with risks of anticoagulation-related bleeding/thrombosis versus bioprosthesis necessitating eventual reoperation. The reported incidence of survival following mechanical MVR in the published literature at 10, 20 and 30 years is 61-75%, 36.5-39%, and 22.6% respectively. [2-4,12] Over the last 20 years, there is a shift away from a clear cut age limit towards patients’ wish and lifestyle considerations. [6,11,12] This may be related to the enhanced durability of new-generation bioprostheses, improved outcomes of redo surgery, or development of transcatheter valve-in-valve implantation. [6,11]
Although investigators have evaluated survival and valve-related complications, little information is available regarding composites of complications, namely valve-related reoperations, morbidity, and mortality in young rheumatics. [12,13] In 2018, we published our preliminary observations on the result of MVR using Carpentier-Edwards PERIMOUNT bioprosthesis in young rheumatics aged <40 years. [14]
The primary objective of this study was to compare the very late-term (20 years) outcomes of composites of valve-related complications in young rheumatics aged <45 years, undergoing bioprosthetic or mechanical MVR. The secondary objectives were to: i) compare the short- and long-term hemodynamic performance of prosthesis and SVD of bioprostheses, and ii) ascertain the duration and intensity of anticoagulation required in bioprosthetic group in immediate and late postoperative period and before re-replacement of degenerated bioprostheses.
Materials and Methods
This retrospective study conforms to the principles outlined in the declaration of Helsinki and was approved by the Institutional Ethics Committee.
Patient selection criteria
Choice of prosthesis for MVR was determined by patients’ preference and surgeon’s judgement based on patients’ age and comorbidities, bleeding risk, life-style, and compliance to anticoagulation. Young rheumatics aged <45 years undergoing isolated MVR using either mechanical (St. Jude Medical or ATS Medical) or bioprosthesis (St. Jude Epic or Carpentier-Edwards PERIMOUNT) with or without tricuspid annuloplasty were included in this descriptive case series.
Patients undergoing MVR using prosthesis other than mentioned above, non-rheumatic etiology, and concomitant cardiac surgery were excluded. Young females desirous of pregnancy, patients coming from remote rural areas making follow-up and anticoagulant monitoring practically difficult, contraindications to use of anticoagulation, thrombosed mechanical mitral prosthesis, and patients’ choice were indications for bioprosthetic MVR.
In patients with mitral stenosis and a small left ventricle, the low-profile Epic bioprosthesis was chosen over Perimount prosthesis. There were no specific criteria for selection of mechanical prosthesis.
We retrospectively reviewed medical records of young rheumatics aged <45 years who underwent either a bioprosthetic (Group I) or mechanical (Group II) MVR from January 1998 to December 2019 by the corresponding author.
A total of 600 mitral mechanical prostheses (SJM Mechanical, n=300; ATS Medical, n=300) and 295 bioprostheses (Carpentier-Edwards PERIMOUNT model 6900 (Edwards Lifesciences, Baxter Healthcare Corporation, Irvine, CA, USA, n=165; St. Jude Epic Porcine bioprosthesis, n=130) were implanted. Among these, 132 patients of PERIMOUNT were from our previous investigation, and 33 were new patients in Group I (Figure 1). [14]
Patients were matched one-to-one according to age, sex, preoperative thromboembolism, presence of atrial fibrillation (AF), advanced NYHA status, preoperative CHF requiring inotropes and ventilation, LVEF <0.25, size of LA >65 mm, and presence of LA clot according to optimal match technique. A power calculation estimated that approximately 233 patients per group were required to have a minimum of 80% power to detect a 10% difference in mortality between the 2 groups with a 2-sided a of 0.05 (Table 1, Figures 2A, 2B).
Six-monthly follow-up data included clinical history, NYHA class assessment, and valve-related events. [15] If 6-monthly evaluation was not possible after repeated attempts to contact the patient, it was considered missing. If two consecutive evaluations were missing, the patient was considered lost to follow-up.
Transthoracic two-dimensional (2D), colour flow and Doppler echocardiography was performed within first six months and then annually. [16]
Valve-related mortality included death caused by thrombosis, thromboembolism, hemorrhage, SVD, non-structural dysfunction, or prosthetic valve endocarditis and death related to reoperation for a valve-related complication including sudden unexplained, unexpected deaths. Valve-related mortality was defined either as early/perioperative (i.e. in hospital or within 30 days of operation) or late (after 30 days) attributed to the explanted valve. [17,18]
Valve-related morbidity was defined as permanent valve-related impairment as a result of permanent neurologic or other functional deficits caused by valve thrombosis, thromboembolism, hemorrhage, structural valve deterioration, non-structural dysfunction, prosthetic valve endocarditis, or reoperation.
Late reoperations were defined as reoperations that occurred more than 30 days after implant. Reoperations were defined as any subsequent MVR. Reoperations that did not involve mitral valve replacement were excluded.
Structural valve deterioration was diagnosed as clinically relevant valvular stenosis or insufficiency by Doppler echocardiography, reoperation, or necropsy. Examples included cuspal perforation, tear, thickening, calcification, stiffness, stretching, wear and abrasions, thinning, leaflet escape, stent creep, or stress fracture. Structural deterioration that resulted from endocarditis, paravalvular leak, or thrombosis was not included in the structural valve deterioration category.
Stroke was defined as any cerebrovascular accident documented during the index hospitalization as well as any subsequent hospital admission in which the principal diagnosis was hemorrhagic or ischemic stroke (not including transient ischemic attacks).
A major bleeding event was defined as any subsequent hospital admission in which the principal diagnosis was intracerebral hemorrhage, hemopericardium/cardiac tamponade, gastrointestinal hemorrhage, hematuria, hemarthrosis, hemoptysis, or retinal hemorrhage. Bleeding events were classified as major (i.e. requiring hospital admission or transfusion, of intracranial location, or causing death), minor (i.e. prospectively recorded but not major).
Heart failure was defined as per previous publications as the composite end-point of (i) New York Heart Association (NYHA) functional class 3 or 4 for more than 4 consecutive weeks, corroborated with physical examination, chest X-Ray, ECG and echocardiography findings when available, or (ii) death where the primary or main contributing diagnosis was heart failure.
Patients with bioprosthetic MVR were started on warfarin and aspirin (100mg/day) on first postoperative day maintaining an INR between 2.0 and 2.5. After discharge, patients were reviewed at one week, one month, three months, then subsequently at six months interval. Anticoagulation was stopped in patients with bioprosthetic MVR and normal sinus rhythm at 12 weeks of follow up.
Patients with a preoperative LA/LAA clot, history of recent thromboembolism, aneurysmal LA, AF, and degenerated bioprosthesis were maintained on anticoagulation with an INR between 1.5 and 1.8. All patients received aspirin life-long, unless contraindicated.
Patients undergoing mechanical MVR received life-long warfarin and aspirin (100mg/day) maintaining INR between 2.5 to 3.5. The three study end-points were the composites of valve-related complications (mortality, morbidity and reoperations), explantation due to thrombosed mechanical prosthesis and SVD.
Selection of a balanced cohort
Table 1 shows the significant imbalances in baseline characteristics between patients treated with mechanical and biological mitral prostheses before matching. To assemble a balance cohort of patients with mechanical and biological mitral prostheses, we used propensity-score matching method on those with mechanical and biological mitral prostheses on measured baseline characteristics. For this purpose, we estimated propensity scores for treatment (group) for each of the 895 patients using multivariable logistic regression model. Group was used as the dependent variable and baseline characteristics namely- LA reduction, aortic cross-clamp time, thromboembolism, dyspnoea, previous operation, LVEF, chordal preservation, type of mitral valve disease were included as covariates to find the best optimal match set. Here, model’s effectiveness are not important because propensity-score based models are sample-specific adjusters and are not intended to be used for out-of-sample prediction, discrimination or estimation of coefficients. The efficacy of propensity-score models is best assessed by estimating post-match absolute standardized differences between baseline covariates that directly quantifies the bias in the means or proportions of covariates across the groups. Therefore, we presented before and after propensity match standardized differences and its findings in Love plots (Figure 3).
An absolute standardized difference of 0% indicates no residual bias and, 15% is considered of inconsequential bias. Greedy nearest neighbouring matching method was used for matching protocol with a caliper of 0.1 to match 1: 1 patients with mechanical and biological mitral prostheses. We were able to match 233 of the 600 mechanical prostheses patients with 233 patients of biological mitral prostheses.
Statistical Analysis
For descriptive analyses, we used Pearson Chi-square/Fisher’s exact test and t-test/Wilcoxon rank-sum tests for before match and McNemar’s test and paired sample t-test/sign-rank test for after match comparisons of baseline covariates between patients with mechanical and biological mitral prostheses. Kaplan–Meier curve with 95% confidence interval and matched Cox regression analyses were used to determine the associations of group with various outcomes during months of follow-up. All statistical analyses were done using STATA 14.0 Software (College Station, Texas, USA) and two-sided tests with a p-value of < 0.05 were considered statistically significant.
The freedom from the composites of valve-related complications (mortality, reoperation and adverse postoperative events) were calculated by Kaplan-Meier actuarial methods and compared with log-rank statistic (Figures 4A, 4B, 5A, 5B, 6A, 6B).
Figures 4A, 4B: Survival probability from Kaplan-Meier curve before (5A) and after (5B) propensity score matching (Log rank: group I vs group II, unmatched p=0.15; matched p=0.74).
For descriptive analyses, we used Pearson Chi-square/Fisher’s exact test and t-test/Wilcoxon rank-sum tests for before match and McNemar’s test and paired sample t-test/sign-rank test for after match comparisons of baseline covariates between patients with mechanical and biological mitral prostheses. Kaplan–Meier curve with 95% confidence interval and matched Cox regression analyses were used to determine the associations of group with various outcomes during months of follow-up. All statistical analyses were done using STATA 14.0 Software (College Station, Texas, USA) and two-sided tests with a p-value of < 0.05 were considered statistically significant.
The freedom from the composites of valve-related complications (mortality, reoperation and adverse postoperative events) were calculated by Kaplan-Meier actuarial methods and compared with log-rank statistic (Figures 4A, 4B, 5A, 5B, 6A, 6B).
Figures 4A, 4B: Survival probability from Kaplan-Meier curve before (5A) and after (5B) propensity score matching (Log rank: group I vs group II, unmatched p=0.15; matched p=0.74).
After matching as described previously, our final study population consisted of a total of 466 patients aged between 12 and 45 (Group I: mean 32.82±8.08, median 33.0 (IQR: 27-40) years; Group II: mean 33.52±7.7, median 34.0 (IQR: 28-39) years (SMD 0.08, p=0.34).
As presented in Table 1, after propensity matching, there were no differences among the 233 matched pairs in preoperative characteristics and both groups were fairly homogenous. Our institutional policy is to use bioprostheses beyond 18-years of age after bone growth and maturation are completed. In this study, one patient aged 12-years with a thrombosed mechanical prosthesis and another patient aged 13-year with thalassemia and hemolysis underwent bioprosthetic MVR.
The technical details of the surgical steps have been enumerated in the video presentation (Video Presentation) as well as in our earlier publication. [3,4]Every attempt was made to preserve the chordopapillary apparatus ensuring implantation of an appropriate sized prosthesis without leaflet entrapment or LVOTO.
In patients with predominantly stenotic lesions with severe chordopapillary fusion, MVR was performed without chordal preservation. [3,4] Intraoperative transoesophageal echocardiography was performed to confirm satisfactory prosthetic valve function immediately after surgery.
Patients undergoing redo MVR (n=75) were subjected to a uniform surgical protocol standardised by the corresponding author. A mechanical heart valve [(Medtronic Open PivotTM AP360° Apex and AP, Medtronic Inc., Mx, USA); size 24mm (n=17), 26 mm (n=19); St. Jude Medical Inc. St. Paul, Minn, 27mm (n=21), 29 mm (n=18)] was used in patients undergoing explantation for SVD (Video presentation), (Figure 7A-7D).
Median ischemic time for group I patients was 37 minutes (IQR: 31-50); and for group II was 35 minutes (IQR: 30-50), (SMD= -0.15, p=0.09). Median CPB time for group I was 49 minutes (IQR: 46-69); and for group II was 49 minutes (IQR: 43-69), (SMD= -0.1, p=0.2) respectively. One hundred and forty-seven (31.5%) patients underwent LA reduction for giant LA. No surgery was performed for AF (Table 1).
Operative mortality and morbidity
There were 5 (2.1%) hospital deaths in group I and 8 (3.4%) in group II due to LCOS after reoperation for thrombosed mechanical prosthesis (n=4)/failed mitral valve reconstruction (n=5), intractable ventricular arrhythmias (n=2) and sepsis (n=2) with left ventricular and renal failure. Comparative assessment of early complications between the two groups revealed no differences in incidence of perioperative mortality and morbidities (Table 2A).
Late mortality was 2.1% (n=5) in group I and 5.6% (n=13) in group II (p=0.05). The causes were persistent CHF (n=12), intractable ventricular arrhythmias (n=5), and renal failure (n=1) between 45 days and 215 months following surgery. A combination of persistent CHF, intractable ventricular arrhythmias and renal failure were the causes of death of 12 patients undergoing redo MVR (Group I; n=7: Group II; n=5). The other causes were anticoagulant-related massive intracerebral hemorrhage (n=4), and sepsis (n=2), (Table 2B).
On hazard regression analysis, the risk of cumulative mortality was equal in both groups [HR 0.86 (95% CI 0.35, 2.08), p=0.73] (Table 3).
Thromboembolic complications occurred in 19 patients (Group I: n=4; Group II: n=15): transient ischemic attack (TIA)(n=12), dysarthria(n=4), and hemiplegia(n=3). Two patients in Group I developed prosthetic valve endocarditis and were managed conservatively.
Although cumulative mortality was more in mechanical arm (Group I: 4.5% vs Group II: 9.9%; SMD= -0.04, p=0.64), there was no difference in actuarial survival between two groups (Group I: 86.8%+/0.02% vs Group II: 96.6%±0.02 (log-rank: unmatched p=0.15, matched p=0.74), (Figures 4A, 4B).
Requirement for redo MVR was similar between the two propensity matched groups (SMD= -0.15, p=0.1). Patients undergoing reoperation were associated with 4.38 (95% CI 1.81, 10.57) times increased risk of death compared to non-reoperated group (p=0.002) and there was significantly decreased probability of long-term survival (log rank p=0.0003) (Table 3, Figures 5A, 5B). At a median follow up of 136 months (IQR: 76.0-197.0), 18.8% (n=44) of group I, and 13.3% (n=31) of group II patients underwent redo MVR using mechanical prosthesis, and there was no difference in actuarial survival between the two groups (log rank p=0.83) (Figure 5B). Valve leaflet thickening with mild prosthetic valve stenosis (Epic n=6, PERIMOUNT n=2) was seen between 84 and 100 months of follow-up and being closely followed-up.
The composites of valve-related cumulative events were similar between the two propensity matched groups [Group I: 24.8% (n=58) vs Group II 18.8% (n=44), (SMD= -0.14, p=0.1). The actuarial event free survival at a median follow-up of 136 months was 99.6%±0.01% (Group I) vs 98.4%±0.01% (Group II: log rank p=0.15), (Figures 6A, 6B). Hemorrhagic complications necessitating hospitalisation occurred in 4 (1.7%) patients in group II. Four (1.7%) patients of group I and 15 (6.4%) patients of group II experienced thromboembolic complications. The linearized valve-related adverse postoperative cumulative events were 1.37 events/100 patient-years for group II and 1.38 events/100 patient-years (p=0.89) for group I. At late follow-up, more patients were in AF in mechanical arm (Group I: 62.2% vs Group II: 71.2%, p=0.19) (Table 2B).
Eight patients were lost to follow-up. Four hundred and twenty-seven (98.2%) patients were followed-up ranging from 1 month to 264 months (Group I: median 142.5, IQR: 75.5-199.5; Group II: median 134, IQR 99-179 months). The total follow-up was 4839.3 patient-years data (median 136, IQR: 76-197 months). Out of 427 patients, 402 (94.1%) were in NYHA class I and 25 (5.7%) were in NYHA class II. The actuarial survival at a median follow-up of 136 (IQR: 76-197) months was 90.32%±0.02% (95% CI: 84.7-93.9) with no difference between two groups (Log rank p=0.74), (Figures 4A, 4B).
The hazard regression model of risk factors for cumulative mortality included preoperative CHF on inotropes and ventilator (p<0.0001), renal failure requiring peritoneal/hemodialysis (p<0.0001), preoperative thromboembolism (p=0.001), preoperative AF (p=0.006), presence of LA/LAA clot (p<0.0001), previous operation (p<0.0001), giant LA (p<0.0001), surgical LA reduction (p<0.0001), nil chordal preservation (p<0.0001), reoperation for SVD or thrombosed mechanical prostheses (p=0.002), adverse postoperative cumulative events (p<0.0001), poor LV function (p<0.0001), prolonged aortic clamp time (p<0.0001) and prolonged CPB time (p<0.0001). Propensity score matching did not exhibit any difference in reoperation between two groups (Group I vs Group II: 18.8% vs 13.3%, SMD= -0.152, p=0.1), (Table 2A, Table 3).
Comparative data on late (15 years) and very late-term (20 years) performances of bioprostheses and mechanical prostheses in young rheumatics are limited and conflicting. [1-4,13,14,17-20]
The important findings of this retrospective study were:
According to American College of Cardiology/American Heart Association 2006 guidelines:
A bioprosthesis is indicated for MVR in patients who cannot take warfarin (Level of Evidence: C). [1]
Published data indicate that strong consideration should be given to choosing a tissue over a mechanical prosthesis in patients aged >60 years, but the issue remains largely unsettled in patients aged <60 years. Randomised trials comparing biological and mechanical prosthesis in younger patients are scanty. [1-4,13,14,17-20]
Although, these studies have helped define the recommendations for prosthesis selection according to patient’s age, they compared valve models implanted in 1970s and 1980s, had a considerable proportion of redo-thoracotomy/sternotomy patients at initial valve implantation, and reported perioperative mortalities at initial operation and at reoperation that were high (>14%) by modern standards, thus potentially biasing against use of bioprosthesis. [1,8,19]
Thirdly, data with sufficient follow-up duration to adequately capture tissue prosthesis, reoperations, and long-term mortality in younger patients is lacking. Fourthly, a rapid development is witnessed in the field of bioprosthesis, with newly introduced devices every year. The production of some of the devices was even stopped before the long-term results were obtainable which indeed is mandatory for every new device.
The rationale for these studies is based on improved durability of bioprostheses, anticipated low risk of reoperation, and avoidance of long-term anticoagulation. Data on long-term survival of patients with bioprostheses, however, are conflicting. [1-4,13,14,17-20]
In developing countries, the severity and rapid progression of rheumatic valvular disease in pediatric and younger patients precludes repair in the great majority. Young patients face a difficult choice between a life time of anticoagulation and 1-3% per year bleeding risk with mechanical prosthesis and a significant risk of reoperation due to SVD with bioprosthesis. [1-4,16,21-30]Whether reoperation is more hazardous than strokes and hemorrhage, long-term mortality may be the most important criterion for comparison and literature is divided on the recommendation in young rheumatics. [17-21]
In this study, actuarial survival of bioprosthesis was 96.6%±0.02% and mechanical arm was 86.8%±0.02 % (log rank p=0.74), (Figure 5A, 5B) which was statistically insignificant and in accordance with the published investigations of 10-years survival of 52.3% with perimount, 42%-58.8% with Epic and 60-70% mechanical MVR.
Although direct comparisons across many studies may be misleading, it is reasonable to review the data as a whole and make generalizable statement in favour or disfavour of a particular prosthesis.
Survival analysis on 575 patients at 15 years by Hammermeister and colleagues showed lower all-cause mortality with mechanical AVR but not MVR. Bioprostheses were associated with significantly lower bleeding rates but higher rates of SVD. [9]
The Edinburgh trial studied 530 patients receiving either a Bjork-Shiley tilting disc valve or porcine bioprosthesis and concluded that mechanical prostheses had improved survival over bioprostheses at 12 years, but not at 20 years. Mechanical prostheses were associated with higher bleeding rate for both AVR and MVR. [2-4,8]
Beyond these randomized trials, the consensus is that bioprosthesis are associated with increased SVD and reoperation but lower bleeding and thromboembolism rates. [1-4,14,17-20]Several investigators have demonstrated conflicting data on valve-related reoperations between biologic and mechanical prostheses and mortality. [1-4,14,17-20]
Despite the divergence of data, at a median follow-up of 136 months (IQR:79-197), our reoperation rate was 18.8% for bioprosthesis and 13.3% in mechanical arm, while reoperation for SVD was associated with 0.27 times lower risk of cumulative mortality than reoperation for thrombosed mechanical prosthesis (p<0.001).
This study is one of the largest to compare bioprosthetic and mechanical MVR with a median follow-up of 11.3 years. Our study doesn’t include multiple biologic or mechanical valve models and therefore provides a pure comparison of most commonly used prostheses. The study inferred that bioprostheses appeared to be favourable based on lower incidence of valve-related morbidity. Since, no significant difference in re-operation was observed between prostheses, bioprostheses appear to be the clear preference for young rheumatics; offering an improved morbidity profile, without sacrificing durability.
Although it is a retrospective study, our statistical methods attempt to control for most of the bias in assignment of valve type. Randomized controlled trials themselves are limited because randomization requires stratification on many prognostic variables and thus often leads to selection of very specific groups of patients with results that lack generalizability. In addition, randomization is based on few variables that the investigators consider as most significant predictors of outcome. In contrast, propensity score analysis provides a balance of two compared groups with weighted effects of the covariates on treatment variable and thus minimizing the bias related to imbalances in assignment of treatment type.
Secondly, like other observational cohorts, our results may not be generalizable to all young adults undergoing MVR in other centers.
This study adds equipoise to the notion of valve choice in young rheumatics aged <45 years. Bioprostheses are valid alternative to mechanical prostheses in patients from remote rural areas, those desirous of pregnancy, patients with bleeding risk, and those with thrombosed mechanical prostheses. Bioprostheses were undifferentiated in terms of composites of valve-related reoperation and mortality.
Survival from reoperation in bioprosthetic arm was superior to mechanical arm because of planned elective intervention, mostly when the patients were in functional class I/II. In light of this data, we conclude that choice of prosthesis for MVR should be based on patient’s preference, ability to take anticoagulation, and the likelihood of reoperation.
Conflict of interest: Nil
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Dear Agrippa Hilda, Journal of Neuroscience and Neurological Surgery, Editorial Coordinator, I trust this message finds you well. I want to extend my appreciation for considering my article for publication in your esteemed journal. I am pleased to provide a testimonial regarding the peer review process and the support received from your editorial office. The peer review process for my paper was carried out in a highly professional and thorough manner. The feedback and comments provided by the authors were constructive and very useful in improving the quality of the manuscript. This rigorous assessment process undoubtedly contributes to the high standards maintained by your journal.
International Journal of Clinical Case Reports and Reviews. I strongly recommend to consider submitting your work to this high-quality journal. The support and availability of the Editorial staff is outstanding and the review process was both efficient and rigorous.
Thank you very much for publishing my Research Article titled “Comparing Treatment Outcome Of Allergic Rhinitis Patients After Using Fluticasone Nasal Spray And Nasal Douching" in the Journal of Clinical Otorhinolaryngology. As Medical Professionals we are immensely benefited from study of various informative Articles and Papers published in this high quality Journal. I look forward to enriching my knowledge by regular study of the Journal and contribute my future work in the field of ENT through the Journal for use by the medical fraternity. The support from the Editorial office was excellent and very prompt. I also welcome the comments received from the readers of my Research Article.
Dear Erica Kelsey, Editorial Coordinator of Cancer Research and Cellular Therapeutics Our team is very satisfied with the processing of our paper by your journal. That was fast, efficient, rigorous, but without unnecessary complications. We appreciated the very short time between the submission of the paper and its publication on line on your site.
I am very glad to say that the peer review process is very successful and fast and support from the Editorial Office. Therefore, I would like to continue our scientific relationship for a long time. And I especially thank you for your kindly attention towards my article. Have a good day!
"We recently published an article entitled “Influence of beta-Cyclodextrins upon the Degradation of Carbofuran Derivatives under Alkaline Conditions" in the Journal of “Pesticides and Biofertilizers” to show that the cyclodextrins protect the carbamates increasing their half-life time in the presence of basic conditions This will be very helpful to understand carbofuran behaviour in the analytical, agro-environmental and food areas. We greatly appreciated the interaction with the editor and the editorial team; we were particularly well accompanied during the course of the revision process, since all various steps towards publication were short and without delay".
I would like to express my gratitude towards you process of article review and submission. I found this to be very fair and expedient. Your follow up has been excellent. I have many publications in national and international journal and your process has been one of the best so far. Keep up the great work.
We are grateful for this opportunity to provide a glowing recommendation to the Journal of Psychiatry and Psychotherapy. We found that the editorial team were very supportive, helpful, kept us abreast of timelines and over all very professional in nature. The peer review process was rigorous, efficient and constructive that really enhanced our article submission. The experience with this journal remains one of our best ever and we look forward to providing future submissions in the near future.
I am very pleased to serve as EBM of the journal, I hope many years of my experience in stem cells can help the journal from one way or another. As we know, stem cells hold great potential for regenerative medicine, which are mostly used to promote the repair response of diseased, dysfunctional or injured tissue using stem cells or their derivatives. I think Stem Cell Research and Therapeutics International is a great platform to publish and share the understanding towards the biology and translational or clinical application of stem cells.
I would like to give my testimony in the support I have got by the peer review process and to support the editorial office where they were of asset to support young author like me to be encouraged to publish their work in your respected journal and globalize and share knowledge across the globe. I really give my great gratitude to your journal and the peer review including the editorial office.
I am delighted to publish our manuscript entitled "A Perspective on Cocaine Induced Stroke - Its Mechanisms and Management" in the Journal of Neuroscience and Neurological Surgery. The peer review process, support from the editorial office, and quality of the journal are excellent. The manuscripts published are of high quality and of excellent scientific value. I recommend this journal very much to colleagues.
Dr.Tania Muñoz, My experience as researcher and author of a review article in The Journal Clinical Cardiology and Interventions has been very enriching and stimulating. The editorial team is excellent, performs its work with absolute responsibility and delivery. They are proactive, dynamic and receptive to all proposals. Supporting at all times the vast universe of authors who choose them as an option for publication. The team of review specialists, members of the editorial board, are brilliant professionals, with remarkable performance in medical research and scientific methodology. Together they form a frontline team that consolidates the JCCI as a magnificent option for the publication and review of high-level medical articles and broad collective interest. I am honored to be able to share my review article and open to receive all your comments.
“The peer review process of JPMHC is quick and effective. Authors are benefited by good and professional reviewers with huge experience in the field of psychology and mental health. The support from the editorial office is very professional. People to contact to are friendly and happy to help and assist any query authors might have. Quality of the Journal is scientific and publishes ground-breaking research on mental health that is useful for other professionals in the field”.
Dear editorial department: On behalf of our team, I hereby certify the reliability and superiority of the International Journal of Clinical Case Reports and Reviews in the peer review process, editorial support, and journal quality. Firstly, the peer review process of the International Journal of Clinical Case Reports and Reviews is rigorous, fair, transparent, fast, and of high quality. The editorial department invites experts from relevant fields as anonymous reviewers to review all submitted manuscripts. These experts have rich academic backgrounds and experience, and can accurately evaluate the academic quality, originality, and suitability of manuscripts. The editorial department is committed to ensuring the rigor of the peer review process, while also making every effort to ensure a fast review cycle to meet the needs of authors and the academic community. Secondly, the editorial team of the International Journal of Clinical Case Reports and Reviews is composed of a group of senior scholars and professionals with rich experience and professional knowledge in related fields. The editorial department is committed to assisting authors in improving their manuscripts, ensuring their academic accuracy, clarity, and completeness. Editors actively collaborate with authors, providing useful suggestions and feedback to promote the improvement and development of the manuscript. We believe that the support of the editorial department is one of the key factors in ensuring the quality of the journal. Finally, the International Journal of Clinical Case Reports and Reviews is renowned for its high- quality articles and strict academic standards. The editorial department is committed to publishing innovative and academically valuable research results to promote the development and progress of related fields. The International Journal of Clinical Case Reports and Reviews is reasonably priced and ensures excellent service and quality ratio, allowing authors to obtain high-level academic publishing opportunities in an affordable manner. I hereby solemnly declare that the International Journal of Clinical Case Reports and Reviews has a high level of credibility and superiority in terms of peer review process, editorial support, reasonable fees, and journal quality. Sincerely, Rui Tao.
Clinical Cardiology and Cardiovascular Interventions I testity the covering of the peer review process, support from the editorial office, and quality of the journal.
