Optimizing Door-to-Balloon Time for Patients Undergoing Primary Percutaneous Coronary Intervention at King Abdullah Medical City

Background The acute myocardial infarction mortality risk rises by 8% per year for every 30-minute delay in early coronary intervention following the onset of symptoms. Thus, it is important to reduce the door-to-balloon time as much as possible, especially in hospitals where early coronary intervention is carried out within 90 minutes. Aim The purpose of this study was to determine the impact of King Abdullah Medical City's strategies on balloon time for patients with ST elevation myocardial infraction. Methods Prospective observational research was conducted in King Abdullah Medical City. This study included 67 patients who had a primary percutaneous coronary intervention. Data were collected in Hajj 2023 through direct observation using a checklist that included two parts: (I) patients' demographic characteristics and relevant time intervals. The data were analyzed using descriptive statistics (frequency and percentage; median and interquartile range) and inferential statistics (Mann–Whitney U test, Kruskal–Wallis H test, Spearman correlation coefficient test). Results It was noted that the median overall door-to-balloon time was 68 minutes for direct admission patients and 100 minutes (median) for interhospital transferred patients, with a statistically significant P value of 0.001. DTBT had no significant correlation with either the length of stay or hospital mortality rates (P > 0.05). Conclusions King Abdullah Medical City accomplished an international benchmark in door-to-balloon time for ST elevation myocardial infraction patients visiting the hospital for percutaneous coronary intervention during the hajj season. Healthcare organizations can take proactive steps to optimize the management of STEMI cases. This includes establishing efficient communication channels, standardizing protocols, and facilitating seamless transitions between healthcare facilities.


Introduction
Primary percutaneous coronary intervention (PCI) is the gold standard treatment for acute myocardial infarction with ST-segment elevation.Regrettably, many patients diagnosed with acute myocardial infarction (AMI) are admitted to institutions that lack the resources to deliver prompt and appropriate acute care, including early revascularization procedures.It is mentioned that these patients be transferred to facilities with the capability to perform percutaneous coronary intervention for subsequent therapy.Te American Heart Association has popularized the term door-toballoon (DTBT) to highlight the importance of prompt PCI management.Te period between a patient's arrival at a hospital and the time their balloon is infated is recognized as door-to-balloon time.According to the guidelines, the objective DTBT is 90 minutes or less.First medical contact to device time of 120 minutes is recommended by both European and American ST Elevation Myocardial Infraction (STEMI) standards for the transfer STEMI population [1,2].
Te measurement of DTBT has emerged as a crucial metric in PCI in recent years and has been included in national guidelines as a fundamental performance indicator.Nevertheless, advancements in DTBT have not been accompanied by proportional declines in fatality rates [3].As a surrogate for total ischemic time, some scholars have proposed symptom-to-balloon time (STB) as a more suitable metric for PCI performance [4].In a previous study, it was demonstrated that an STB time exceeding 160 minutes is linked to a higher incidence of left ventricular dysfunction six weeks after primary percutaneous coronary intervention.Previous studies have indicated that prolonged ischemia is linked to elevated levels of oxidative stress, greater size of infarction, and heightened likelihood of unfavorable outcomes such as mortality [5].
Upon arrival at the emergency department, several strategies can facilitate the evaluation and management of STEMI situations.Tese include early ECG, rapid ECG interpretation, early actuation of catheterization lab, a swift activation response, and rapid reperfusion [6,7].During the hajj season, many pilgrims are exposed to acute coronary syndrome and transfer to King Abdullah Medical City (KAMC) for therapeutic interventions like percutaneous coronary intervention.Due to the high rate of admission, new strategies are implemented to provide high-quality care to patients with AMI as a new pathway of the patient admission, critical bed management group and chest pain unit during hajj.So, the aim of this study is to determine the impact of King Abdullah Medical City's strategies on doorto-balloon time in patients with STEMI.procedure, the time between the ECG and the fnal diagnosis, the time from diagnosis to the second door entry, the time from the second door entry to the confrmation of the ECG results, the time between the ECG and the confrmed diagnosis, and the time from acute myocardial infarction confrmed diagnosis to the commencement of the catheterization laboratory (Cath lab) procedure, and the duration from the Cath lab procedure to the initiation of balloon angioplasty.Te diference in time between the time of ballooning and the time of patient arrival at the frst hospital was defned as the door-to-balloon time.Length of stay was calculated 2

Methods
Nursing Research and Practice from the day of admission today of discharge.In hospital mortality was defned as the rate of death from any cause.
In the context of patients who present directly to KAMC, a facility equipped for Primary Percutaneous Coronary Intervention (PPCI), irrespective of whether their arrival is through self-presentation or via Emergency Medical Services, the parameter of DTBT was defned as the temporal interval from the moment of the patient's arrival at KAMC to balloon infation time.
DTBT was defned as arrival time at the noncapable healthcare facility to balloon infating time for patients who transferred from another facility.Medical professionals who transferred patients to KAMC provided the arrival time for PCI-incapable healthcare facilities and the frst EEG time from ECG paper.Te classifcation of DTBT was based on the following time intervals: frst door to frst ECG, AMI diagnosis to second door, ECG to AMI confrmed diagnosis, Cath lab arrival to balloon infation, and AMI confrmed diagnosis to second door (PCI-capable hospital door).D1-D2 time was also calculated.Electronic health records provided hospital stay and death data.All data were tabulated in Excel.

Data Analysis.
Data were analyzed through using Statistical Package for the Social Sciences (SPSS), version 26.Te normality distribution was assessed using Kolmogorov-Smirnov test and the normality assumption was rejected (P < 0.05).Terefore, categorical variables were presented as frequency and percentages and continuous variables were presented as medians with interquartile ranges (IQR).Te Mann-Whitney U test was used to assess diferences between two independent groups.Whereas Kruskal-Wallis H test was used to assess diferences between more than two independent groups.Te Spearman correlation coefcient test was employed to assess the strength and direction of associations between nonparametric variables.Statistical signifcance was set at P < 0.05.

Results
Table 1 shows demographic characteristics of the patients, it was observed that majority of patients were male, married, and aged more than 50 years old (91%, 98.5%, and 83.6%, respectively).14.9% of patients were Saudi and 13.4 were Indian.Regarding body mass index, it was found that 88.1% of patients had normal body mass index.76.1% of patients transfer from another healthcare facility and 25.4% of them transfer from Alnoor hospital.
Table 2 presents patients' health-relevant data, regarding past medical history it was noted that more than half of patients (52.2%) had hypertension, 47.8% of patients had diabetes and 14.9% of patients had history of angiography and PCI.It was noted that more than one third of patients (46.3%) had right coronary artery occlusion with inferior MI and 31.3% of patients had normal left ventricle ejection friction.Moreover, 6% of patients had Cardiopulmonary resuscitation, 4.5% of them died.
Table 3 shows the parameters of DTBT for studied patients.It was noted that the median overall door-to-balloon time was 68 minutes for direct admission patients and 100 minutes for interhospital transferred patients with statistically signifcant, P � 0.001.Te median time from diagnosis of AMI to Cath lab for direct admitted patients was 36.50 minutes and 60 minutes for transferred' patients with statistically signifcant, P � 0.001.
Figure 1 illustrates the comparison of DTBT with the standard time between direct admission and interhospital transfer.Te median of DTBT for direct admitted' patients was found to be less than the standard time of DTBTfor PCIcapable hospital (68 m to 90 m, respectively).For interhospital transfer patients median DTBT was 100 m compared with the 120 m for the standard time.
Table 4 presents the time spent from patients' diagnosis to balloon for interhospital transfer patients.It was noted that the median time from AMI diagnosis to second door (door of capable hospital) was 47 minutes and from arrival to capable hospital to balloon infation was 28 minutes.Te median time from D1 to D2 was 65 minutes and median time from D2 to balloon (patient arrival to KAMC to balloon) for interhospital transferred patients was 28 minutes    Nursing Research and Practice which is within the recommended guidelines for patients transfer time.Table 5 reveals that DTBT had no signifcant correlation with either the length of stay or hospital mortality rates.
Table 6 presents that no statistically signifcant variations were found between demographic data of the studied patients and door-to-balloon time except name of hospitals (P < 0.05).

Discussion
Tis study aimed to determine the impact of King Abdullah Medical City's strategies on balloon time for patients with ST elevation myocardial infraction.All relevant clinical guidelines agree that PPCI is the most efective early therapy for patients experiencing a STEMI and that rapid PCI is the most efective early therapy for patients experiencing a highrisk or very high-risk non-ST-segment elevation myocardial infarction (NSTEMI).Patients presenting with STEMI or highly high-risk NSTEMI should be moved to a PCI-capable institution within 120 minutes, as recommended by current recommendations [2,8,9].
Our study found that the median DTBT for STEMI patients either direct admission or transfer was within the guidelines recommended time, this may be due to efcient coordination and communication between hospitals, sufcient resources, and stafng levels to handle interhospital transfers efciently, dedicated transfer protocols implementation using aircraft and emergency medical services and availability of cardiac catheterization labs at KAMC.Te fndings of this study align with a previous investigation conducted in Saudi Arabia by Butt et al. at a tertiary care institution in Riyadh.Tis study's purpose was to outline various interventions, collect data for the designated study period, address the challenges associated with ensuring round-the-clock patient access to PCI, and evaluate quality indicators.Tis study concluded that for individuals presenting with STEMI in the emergency department, PCI is the preferred therapeutic approach.Furthermore, the King Faisal Specialist Hospital and Research Centre in Riyadh has successfully attained and sustained an international benchmark of DTBT within 90 minutes through efective multidisciplinary collaboration [10].
Interhospital transfer patients were observed to have a shorter admission to balloon time than direct admitted patients.Tis discrepancy may be attributed to the initial assessment conducted at the referring hospital, which aids in discerning whether the patient was diagnosed with STEMI prior to their subsequent transfer to PCI-capable medical center, patients were admitted directly to chest pain unit, available medical staf waiting patient' arrival, patient's medical fle was prepared, and Cath lab teams are already at the hospital, waiting for the patients instead of needing to come in from their homes.Tis result is in line with Hu et al. and Kawecki et al. who reported that the patients who were transported had a shorter DTBT than those who arrived directly at hospitals with PCI capabilities [11,12].
Te present study's fndings reveal that the median DTBT for direct admitted' patients at KAMC were found to be less than the standard time and PCI was performed within 28 minutes from interhospital transfer patients' arrival to hospital door.Tis could be due KAMC strategies that focus on implementation of streamlined protocols, efective communication between healthcare providers, efective utilization of technology, optimal resource allocation, optimized patient fow, and prioritization of high-risk cases which result in a shorter DTBT.Tis result is supported by Ravi et al., Nathan et al., and Dhungel et al., who reported that the DTBT was well within the current American College of Cardiology and American Heart Association guideline recommendation [13,14].Bypassing unnecessary admission to the chest pain unit and directly transferring patients from the ambulance to the catheterization lab can be an efective approach to expedite reperfusion therapy.
Te present study demonstrates that there is no statistically signifcant relationship between total door-to-balloon time and length of stay or total door-to-balloon time and inhospital mortality.Te observed phenomenon may be attributed to the constrained sample size, which has resulted in restricted statistical power to identify major disparities and developments in medical practices during the hajj season.Tis result is supported by Fan et al. [15] who reveal that there are no statistically signifcant diferences between inhospital mortality rate and D2B time.In contrast, Chew et al., Park et al., and Foo et al. found that delay in primary PCI could lead to increase in-hospital mortality [16,17].Moreover, Li et al. reported that patients with ST-elevation myocardial infarction had a strong association between hospital costs and length of stay [18,19].
Te fndings of this study demonstrated that there were statistically signifcant diferences between access to hospitals and the DTBT.Tis may be due to the proximity and accessibility of hospitals that play a crucial role in DTBT.Patients admitted directly to the hospital have shorter travel times that reduce the overall DTBT.On the other hand, patients transferring from remote areas or facing transportation challenges may experience delays in reaching the hospital, leading to longer door-to-balloon times.
Te fndings of the study have signifcant implications for clinical practice, highlighting the crucial role of efective coordination, streamlined procedures, and prompt access to institutions equipped for PCI in lowering DTBT and enhancing outcomes for patients with STEMI.Further investigation is needed to examine the factors that afect DTBT

. Conclusions
Te KAMC was able to accomplish a DTBT that set an international benchmark for STEMI patients who presented to the hospital for PCI during the hajj season, primarily through the implementation of strategic approaches to decrease DTBT.By implementing KAMC strategies, the processes of diagnosis, decision-making, and patient transfers will be executed in a synchronized and expeditious manner, resulting in improved patient care and less suffering.Further research into the efects of symptom onset, initial contact with a medical provider or balloon time on clinical outcome is also required.

Table 3 :Figure 1 :
Figure 1: Comparison of DTBT with the standard time between direct admission and interhospital transfer.

4
After getting ofcial permission from the KAMC, Holy Makkah IRB with the approval number 23-1092, the data were collected by the researchers through direct observation using checklist.Upon the patient's arrival, verbal agreement was sought from each patient for data collection and subsequent follow-up.

Table 1 :
Demographic characteristics of the studied patients.

Table 2 :
Health profle of the studied patients.

Table 4 :
Te time spent from patients' diagnosis to balloon for interhospital transfer patients.
4.1.Limitations.Despite the study limitations frstly as a single-center observational study with a limited sample size and heterogeneity within the study population due to patients' transfer from a noncapable hospital was not available (door out), so door in and door out time could not be evaluated.Tirdly, there may have been an inherent selection bias in the enrollment process, as the study exclusively encompassed patients possessing comprehensive information pertaining to DTBT, their arrival at a PCIcapable facility, and their subsequent participation in PCI.

Table 5 :
Relationship between door-to-balloon time and length of stay and hospital mortality.

Table 6 :
Relationship between the demographic data and door-to-balloon time.