Open Access

Effects of permanent cardiac pacemaker implantation on vascular endothelial function, blood coagulation and cardiac function in patients with bradycardia

  • Authors:
    • Xinling Zhang
    • Yan Li
    • Nan Wang
    • Chunxiang Zhang
    • Debing Zhang
    • Qiang Li
  • View Affiliations

  • Published online on: September 28, 2018     https://doi.org/10.3892/etm.2018.6808
  • Pages: 4717-4721
  • Copyright: © Zhang et al. This is an open access article distributed under the terms of Creative Commons Attribution License.

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Abstract

Changes in vascular endothelial function, blood coagulation and cardiac function indexes after the implantation of a permanent cardiac pacemaker in patients with bradycardia were investigated. A total of 53 healthy people and 117 patients with bradycardia in Jining First People's Hospital from January 2015 to August 2017 were selected. Factor VIII: coagulation (FVIII:C), von Willebr and factor (vWF), antithrombin activity (AT:A), D-dimmer (D-D), thrombomodulin (TM), tissue factor (TF), left ventricular ejection fraction (LVEF) and left ventricular end-systolic volume (LVESV) in the non-pacemaker group and the pacemaker group were significantly different from those in the control group (P<0.05), in which FVIII:C, vWF, D-D, TM, TF and LVESV were significantly higher than those in the control group, while LVEFs were significantly lower than that in the control group. After the implantation of a pacemaker, the FVIII:C, vWF, fibrinogen (FIB), D-D, TF and LVESV in patients were significantly higher than those before implantation (P<0.05), while the LVEF was significantly lower than that before implantation (P<0.05). In addition, in different pacemaker groups, there were no significant differences in blood coagulation and vascular endothelial indexes, but differences in cardiac function levels were obvious, in which LVEF in dual-chamber (DDD) pacemaker group was significantly higher than that in ventricular inhibited (VVI) pacemaker group, and LVESV in the former was significantly lower than that in the latter (P<0.05). Finally, here was no significant difference in the quality of life of patients implanted with different pacemakers (P>0.05), but the quality of life of patients in the DDD pacemaker group was better than that of patients in the VVI group. Therefore, implanting pacemakers in patients with bradycardia affects vascular endothelial function, blood coagulation, and cardiac function indexes in patients, and complications become less after the implantation of DDD pacemakers.

Introduction

Cardiac pacemakers are generally used in the treatment of patients with bradycardia, through which patients' hemodynamic level can be improved, and their cardiac function can be regulated (13). However, clinical studies have shown that implanting a pacemaker may trigger complications related to blood coagulation, but relevant reports have not studied this in-depth (46). A total of 53 healthy people, 59 patients implanted with cardiac pacemakers and 58 patients implanted with no pacemaker in Jining First People's Hospital (Jining, China) from January 2015 to August 2017 were selected in this study, so as to explore the effects of permanent cardiac pacemaker implantation on vascular endothelial function, blood coagulation and cardiac function in patients with bradycardia.

Patients and methods

Study objects

A total of 53 healthy individuals and 117 patients with bradycardia in the hospital from January 2015 to August 2017 were selected. Among healthy people, there were 24 males and 29 females, with an average age of (53.21±4.98) years. Among patients with bradycardia, there were 51 males and 66 females, including 44 cases of III-degree atrioventricular block, 33 cases of sick sinus syndrome, 12 cases of aortic stenosis, 22 cases of cardiomyopathy, and 6 cases of sinus bradycardia.

All patients were informed of clinical programs and signed an informed consent. This study was approved by the Ethics Committee of Jining First People's Hospital.

Inclusion criteria: Patients clinically and definitely diagnosed with bradycardia, patients with no significant differences in general data, and patients with good treatment compliance.

Exclusion criteria: Patients with mental illness, and patients with severe damage in heart and liver or other vital organs.

Blood sample collection

Before the implantation of a pacemaker and at 7 days after the implantation, blood samples were collected, mixed and centrifuged at 2,500 × g at 4 °C for 10 min. Then the supernatant plasma was placed in a test tube, and stored in a refrigerator until detection. Blood samples were also collected from the healthy control group and the non-pacemaker implantation group, respectively, and the treatment methods for blood samples were the same as above.

Observation indexes and therapeutic effect evaluation

Prothrombin time (PT) and partial prothrombin time (PTT), factor VIII: coagulation (FVIII:C) activity, von Willebrand factor (vWF), fibrinogen (FIB) and D-dimer (D-D) were measured using the coagulation method (7,8).

Thrombomodulin (TM) and tissue factor (TF) were detected using enzyme-linked immunosorbent assay (9).

Plasma antithrombin activity (AT:A) and plasminogen activity (PLG:A) were measured using chromogenic substrate method (10).

Left ventricular end-systolic volume (LVESV), left ventricular end-diastolic volume (LVEDV) and left ventricular ejection fraction (LVEF) were measured by echocardiography.

Criteria for quality of life assessment: The Cancer Quality of Life Questionnaire Core 30 (QLQ-C30) scale is divided into four items including physical, psychological, social and material functions, and the higher the score is, the higher the quality of life is (11).

Complications: Lung infections, constipation, local incision infection, damage to the integrity of the skin.

Statistical analysis

Data were processed and analyzed using Statistical Product and Service Solutions (SPSS) 17.0 software (SPSS, Chicago, IL, USA). Measurement data were expressed as (mean ± SD). Comparison between multiple groups was done using one-way ANOVA test followed by post hoc test (Least Significant Difference). Enumeration data were expressed as a number, and intergroup differences were detected using Chi-square test. P<0.05 indicates that the difference is statistically different.

Results

Comparison of general clinical data of all patients

There were no significant differences in general data such as age, number of cases, sex distribution and basic diseases in the three groups of patients (P>0.05) (Table I).

Table I.

Comparison of general clinical data of all patients.

Table I.

Comparison of general clinical data of all patients.

ItemsControl groupPacemaker groupNon-pacemaker group
Average age (mean ± SD, year)53.21±4.98 55.29±5.03a 51.21±5.11a,b
No. of cases (n)5359a58a,b
Male (n)2425a26a,b
Basic diseases
  Coronary heart disease (n)5358a58a,b
  Hypertension (n)5053a54a,b
  Diabetes (n)3129a34a,b
  Chronic bronchitis (n)1316a15a,b

a Compared with the control group, P>0.05

b compared with the pacemaker implantation group, P>0.05.

Comparison of blood coagulation, vascular endothelial function and cardiac function indexes of patients among the control, non-pacemaker and pacemaker groups

FVIII:C, vWF, AT:A, D-D, TM, TF, LVEF and LVESV in the non-pacemaker and pacemaker groups were significantly different from those in the control group (P<0.05), in which FVIII:C, vWF, D-D, TM, TF, AT:A and LVESV were significantly higher than those in the control group, while LVEF was significantly lower than that in the control group. There were no significant differences in blood coagulation, vascular endothelial function and cardiac function indexes between the non-pacemaker and pacemaker groups (P>0.05) (Table II).

Table II.

Comparison of blood coagulation, vascular endothelial function and cardiac function indexes of patients among the control group, the non-pacemaker group and the pacemaker group.

Table II.

Comparison of blood coagulation, vascular endothelial function and cardiac function indexes of patients among the control group, the non-pacemaker group and the pacemaker group.

ItemsControl groupNon-pacemaker groupPacemaker group
PT (s)12.6±1.21 13.2±1.23a 13.5±1.09a
PTT (s)36.5±4.6537.0±3.6536.6±3.42
FVIII:C (%)120±9.97 167±15.32a 189±18.54a
VWF (%)115±10.98 144±11.23a 161±12.98a
FIB (g/l)3.13±0.293.20±0.133.31±0.21
ATA (%)109±9.76199±7.89a193±9.07a
PLG:A (%)98±8.6597±5.9896±8.98
D-D (mg/l)0.45±0.02 0.86±0.06a 0.86±0.08a
TM (µg/l)25.21±2.32 43.21±3.89a 48.21±4.01a
TF (ng/l)121.9±10.32 259.7±20.32a 267.4±20.54a
LVEF (%)67.25±5.98 61.23±5.98a 60.59±6.05a
LVESV (ml)34.61±3.21 38.56±3.67a 39.21±3.87a
LVEDV (ml)101.89±9.99101.21±9.98102.32±10.01

a Compared with the control group, P<0.05.

Comparison of vascular endothelial function, blood coagulation and cardiac function before and after the implantation of a pacemaker

FVIII:C, vWF, FIB, D-D, TF and LVESV in patients after the implantation of a pacemaker were significantly higher than those before the implantation (P<0.05), but LVEF was significantly lower than that before the implantation (P<0.05), and the differences were statistically significant (Table III).

Table III.

Comparison of vascular endothelial function, blood coagulation and cardiac function before and after the implantation of a pacemaker.

Table III.

Comparison of vascular endothelial function, blood coagulation and cardiac function before and after the implantation of a pacemaker.

ItemsBefore the implantationAfter the implantation
PT (s)13.4±1.2113.0±1.23
PTT (s)36.9±2.9835.21±2.78
FVIII:C (%)173±12.45 192.3±8.89a
VWF (%)152±11.09 161.2±12.54a
FIB (g/l)3.21±0.29 4.21±0.37a
ATA (%)197±8.76236±8.98a
PLG:A (%)97±8.9899±8.76
D-D (mg/l)0.86±0.05 1.59±0.11a
TM (µg/l)47.2±3.98 73.2±6.78a
TF (ng/l)269.3±23.65 421.5±38.98a
LVEF (%)61.59±5.98 53.23±4.98a
LVESV (ml)38.79±2.98 47.21±4.21a
LVEDV (ml)101.59±9.7697.23±9.65

a Compared with the control group, P<0.05.

Comparison of vascular endothelial function, blood coagulation and cardiac function after the implantation of different pacemakers

In different pacemaker groups, there were no significant differences in blood coagulation and vascular endothelial indexes, but differences in cardiac function levels were obvious, in which LVEF in dual-chamber (DDD) pacemaker group was significantly higher than that in ventricular inhibited (VVI) pacemaker group, and LVESV in the former group was significantly lower than that in the latter group (P<0.05) (Table IV).

Table IV.

Comparison of vascular endothelial function, blood coagulation and cardiac function after the implantation of different pacemakers.

Table IV.

Comparison of vascular endothelial function, blood coagulation and cardiac function after the implantation of different pacemakers.

ItemsDDDVVI
PT (s)13.0±1.2113.0±2.32
PTT (s)35.21±3.2135.21±2.87
FVIII:C (%) 192.3±17.32a 192.3±12.21a
VWF (%) 161.2±15.21a 161.2±11.09a
FIB (g/l) 4.21±0.34a 4.21±0.34a
ATA (%)196±8.65 221±7.77a
PLG:A (%)99±8.9899±9.01
D-D (mg/l) 1.59±0.10a 1.59±0.12a
TM (µg/l) 73.2±6.78a 73.2±6.78a
TF (ng/l) 421.5±34.65a 421.5±38.43a
LVEF (%)59.21±5.67 53.04±4.98b
LVESV (ml)38.87±3.98 48.93±6.76b
LVEDV (ml)100.34±8.97100.98±8.99

a P>0.05

b compared with the DDD group.

Comparison of the quality of life after the implantation of different pacemakers

There was no significant difference in the quality of life of patients implanted with different pacemakers (P>0.05), but the quality of life of patients in the DDD group was higher than that of patients in the VVI group (Table V).

Table V.

Comparison of the quality of life after the implantation of different pacemakers.

Table V.

Comparison of the quality of life after the implantation of different pacemakers.

ItemsDDDVVI
Somatic function66.23±5.67 64.23±5.67a
Body pain75.23±6.32 70.56±5.76a
Somato-role63.29±3.45 51.23±5.01a
Health score52.49±4.01 46.23±3.98a
Life vitality59.26±4.56 56.31±5.02a
Emotional character69.21±5.87 61.23±5.67a
Mental health67.21±6.01 70.56±6.32a
Social function51.63±5.01 49.99±4.21a

a Compared with the DDD group, P>0.05.

Comparison of complications in patients implanted with different pacemakers

Complications were found after the implantation of pacemakers. It was found that the incidence rate of complications was 66.6% in the VVI group and 48.3% in the DDD group. The incidence rate in the DDD group was significantly lower than that in the VVI group (P<0.05), and the difference was statistically significant (Table VI).

Table VI.

Comparison of complications in patients implanted with different pacemakers.

Table VI.

Comparison of complications in patients implanted with different pacemakers.

GroupsNPulmonary infection (n)Constipation (n)Local incision infection (n)Damage of skin integrity (n)Incidence of complications (%)
VVI24733516 (66.6)
DDD29541414 (48.3)a

a Compared with the VVI group, P<0.05.

Discussion

Cardiac pacemaker implantation is the main treatment method for bradycardia, and pacemakers are mainly divided into the DDD and VVI pacemakers (12,13). The implantation of pacemakers improves symptoms of bradycardia, but a series of side effects such as increased thrombus formation occur, and there are few clinical studies on thrombosis and blood coagulation (1416). Therefore, changes in blood coagulation and endothelial function after the implantation of pacemakers in patients with bradycardia were mainly explored in this study.

A variety of indexes can be used to evaluate blood coagulation, endothelial function and cardiac function, in which PT, PTT and vWF and other factors are mainly used for blood coagulation and endothelial function (17). The blood coagulation function is mainly related to vascular endothelial cells, which can secrete various factors after blood vessels are damaged, thus exerting an antithrombotic effect. TM is a protein factor secreted by vascular endothelial cells. When vascular endothelial cells are impaired, the secretion of this factor is increased. At the same time, the synthesis of vWF is accelerated, and the content of TF in the plasma is increased. The above indicators are markers for endothelial cell damage. Plasma AT:A can be used to show how much thrombin is produced in the body. In addition, when the amount of vWF in the body is increased, then, the activity of FVIII:C is also increased, indicating that the body is in a blood coagulation-activated state. PLG:A is a single-chain glycoprotein that is homeostatic when umbilical vessels are undamaged, but when vascular endothelia are damaged, this glycoprotein is activated to be converted into plasmin, which degrades cross-linked fibrin in plasma, leading to increased content of D-D in plasma and further triggering hypercoagulable symptoms (5,6,18).

It was found in this study that there were significant diffe-rences in FVIII:C, vWF, AT:A, D-D, TM, TF, LVEF and LVESV between the bradycardia group and the healthy control group (P<0.05), in which FVIII:C, vWF, D-D, TM, TF and LVESV in the bradycardia group were significantly higher than those in the control group, while LVEF was significantly lower than that in the control group, indicating that blood coagulation index, as well as endothelial and cardiac function in patients with bradycardia are damaged. FVIII:C, vWF, FIB, D-D, TF and LVESV in patients after the implantation of pacemakers were significantly higher than those before implantation (P<0.05), but LVEF was significantly lower than that before implantation (P<0.05). Besides, the changes in the above indexes became more obvious after the implantation of VVI pacemakers, and the change degree was significantly higher than that of DDD group (P<0.05), suggesting that the effect of VVI pacemakers on blood coagulation, as well as endothelial and cardiac function is more obvious. After the implantation of VVI pacemakers, the blood coagulation indexes, TM, vWF and TF changed greatly, indicating that after implantation, the vascular endothelial cells are damaged, thereby significantly increasing the plasma coagulation in vivo and increasing the incidence rate of hypercoagulability. After the implantation of VVI pacemakers, LVEF was more obviously reduced, indicating that VVI pacemakers significantly reduce the cardiac contractility of patients, reduce cardiac output, and affect cardiac function, and they may also activate the sympathetic nerve, which results in changes in myocardial cell structures, thus secreting too many atrial natriuretic peptides and increasing the incidence rate of atrial fibrillation. In terms of the quality of life, it was found that after implantation, the score of the VVI pacemaker was significantly lower than that of the DDD pacemaker, indicating that the VVI pacemaker brings great inconvenience to the life and work of patients. In addition, the incidence of complications in the DDD group was only 48.3%, which was significantly lower than that in the VVI group (66.6%, P<0.05), indicating that the use of DDD pacemakers can reduce adverse reactions with good therapeutic effects.

In conclusion, the use of DDD pacemakers in bradycardia patients can improve the therapeutic effects, reduce complications, improve patients' quality of life, and reduce the effects on blood coagulation, as well as endothelial and cardiac function in patients, which has high clinical treatment value.

Acknowledgements

Not applicable.

Funding

No funding was received.

Availability of data and materials

All data generated or analyzed during this study are included in this published article.

Authors' contributions

XZ and QL designed the study and performed the experiments. YL, NW and CZ collected the data. YL and DZ analyzed the data. XZ and YL prepared the manuscript. All authors have read and approved the final manuscript.

Ethics approval and consent to participate

This study was approved by the Ethics Committee of Jining First People's Hospital (Jining, China). Signed informed consents were obtained from the patients or guardians.

Patient consent for publication

Not applicable.

Competing interests

The authors declare no competing interests.

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Spandidos Publications style
Zhang X, Li Y, Wang N, Zhang C, Zhang D and Li Q: Effects of permanent cardiac pacemaker implantation on vascular endothelial function, blood coagulation and cardiac function in patients with bradycardia. Exp Ther Med 16: 4717-4721, 2018
APA
Zhang, X., Li, Y., Wang, N., Zhang, C., Zhang, D., & Li, Q. (2018). Effects of permanent cardiac pacemaker implantation on vascular endothelial function, blood coagulation and cardiac function in patients with bradycardia. Experimental and Therapeutic Medicine, 16, 4717-4721. https://doi.org/10.3892/etm.2018.6808
MLA
Zhang, X., Li, Y., Wang, N., Zhang, C., Zhang, D., Li, Q."Effects of permanent cardiac pacemaker implantation on vascular endothelial function, blood coagulation and cardiac function in patients with bradycardia". Experimental and Therapeutic Medicine 16.6 (2018): 4717-4721.
Chicago
Zhang, X., Li, Y., Wang, N., Zhang, C., Zhang, D., Li, Q."Effects of permanent cardiac pacemaker implantation on vascular endothelial function, blood coagulation and cardiac function in patients with bradycardia". Experimental and Therapeutic Medicine 16, no. 6 (2018): 4717-4721. https://doi.org/10.3892/etm.2018.6808