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Percutaneous coronary intervention (PCI) is commonly used to treat stable ischemic heart disease. Among patients, 7.5% require surgical treatment, and up to 20% may need noncardiac surgery (NCS) within two years.
Compared to patients without coronary stents, those requiring NCS shortly after PCI face an increased risk of perioperative major adverse cardiac and cerebrovascular events (MACCE), primarily manifested as thrombotic and bleeding events. Guidelines recommend 6-12 months of dual antiplatelet therapy (DAPT) post-PCI to prevent stent thrombosis, which is associated with an elevated risk of perioperative bleeding during NCS. Multiple retrospective studies suggest that the incidence of MACCE decreases as the interval between PCI and NCS lengthens, reaching a risk level similar to non-PCI patients after 12 months. However, other studies indicate that the risk in patients with similar PCI-NCS intervals correlates more with surgical complexity and urgency. Guidelines advise adequate antiplatelet therapy post-PCI to prevent stent thrombosis and recommend avoiding elective surgery within 4-6 weeks after PCI, contingent on bleeding and thrombotic risk assessments.
Many post-PCI patients facing NCS option to delay surgery after weighing the risks of discontinuing antiplatelet therapy versus postponement, which not only reduces quality of life but also increases the risks associated with delayed surgery. Additionally, retrospective studies have found that in unavoidable emergency or time-sensitive surgeries, the heightened perioperative cardiovascular risk is primarily due to the underlying surgical condition affecting organ function, rather than the PCI-NCS interval or antiplatelet therapy discontinuation.
Recent advancements in minimally invasive surgical techniques have reduced trauma and bleeding, leading to broader indications for surgery in patients on anticoagulant or antiplatelet therapy. The widespread use of newer-generation drug-eluting stents (DES) with advanced antiproliferative drugs has further lowered stent thrombosis rates. Moreover, refined PCI techniques minimize vascular injury during stent placement, reducing the likelihood of extra-stent restenosis. From an anesthesiology perspective, concerns for post-PCI surgical patients extend beyond bleeding risks to whether cardiac function can withstand perioperative hemodynamic changes. As surgical and anesthetic techniques evolve, traditional single-method anesthesia is increasingly replaced by combined techniques that ensure adequate analgesia while minimizing hemodynamic disturbances, maintaining oxygen supply-demand balance, and reducing ischemic and bleeding events.
Hip fractures in elderly patients, often termed the "last fracture in life," carry high surgical and anesthetic risks for those with coronary artery disease. While PCI addresses coronary stenosis, the use or discontinuation of antiplatelet therapy exposes patients to bleeding and ischemic risks. The optimal timing for hip fracture surgery is within 48 hours; delays may lead to malunion, prolonged bedrest complications (e.g., pressure sores, pneumonia), and increased deep vein thrombosis risk. Modern hip fracture surgeries (e.g., internal fixation, hip replacement, Proximal femoral nail antirotation internal fixation) are well-established, with reduced bleeding and faster recovery, making it feasible to perform surgery without interrupting antiplatelet therapy.
Existing research primarily consists of retrospective analyses of cardiovascular risk prediction in post-PCI patients undergoing NCS, with no recent prospective studies. Guideline recommendations on PCI-NCS intervals remain unchanged since 2016. Consequently, many PCI patients must delay surgery, enduring unpredictable risks and diminished quality of life.
This study aims to prospectively observe the incidence of MACCE in hip fracture surgery performed within six weeks post-PCI without discontinuing DAPT. The findings may provide evidence for the feasibility of early post-PCI surgery, offer clinicians and patients safer antithrombotic strategies, and present a new option to improve patient quality of life.
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| Label | Type | Description | Intervention Names |
|---|---|---|---|
| Observation group | Within 6 weeks after PCI |
| |
| Control group | beyond 6 weeks after PCI |
|
| Name | Type | Description | Arm Group Labels | Other Names |
|---|---|---|---|---|
| The time interval between PCI and NCS | Other | Using 6 weeks post-PCI as the demarcation point, patients within 6 weeks were assigned to the observation group, while those beyond 6 weeks formed the control group. |
| Measure | Description | Time Frame |
|---|---|---|
| Perioperative changes in blood High-sensitivity cardiac troponin I (hs-cTnI) levels | Detection using chemiluminescence immunoassay (CLIA) | From admission to discharge |
| Electrocardiogram ST-T changes | From admission to discharge | |
| Perioperative surgical site blood loss | Including intraoperative blood drainage volume, gauze usage, and postoperative wound bleeding drainage volume | Perioperative period |
| Occurrence of Perioperative Adverse Events and Patient Self-Reported Symptoms | From admission to discharge |
| Measure | Description | Time Frame |
|---|---|---|
| Changes in blood hs-cTnI levels | Detection using chemiluminescence immunoassay (CLIA) | Once a month within six months after discharge. |
| Electrocardiogram ST-T changes | Once a month within six months after discharge |
| Measure | Description | Time Frame |
|---|---|---|
| Gender | Preoperative | |
| Duration of surgery | Record the time from skin incision initiation to skin suture completion. | postoperative |
Inclusion Criteria:
Normal hs-cTnI levels prior to NCS BMI 20-28 kg/m² Post-PCI procedure, currently on regular DAPT therapy Complete PCI procedural documentation (date, quantity, stent type) Mentally sound, capable of normal communication
Exclusion Criteria:
Abnormal hs-cTnI before NCS; Accompanied by dysfunction of other organs History of other major surgeries Risk factors for stent thrombosis (age >79 years, impaired left ventricular function, stent implantation due to acute coronary syndrome, multiple stents, diabetes, renal insufficiency with creatinine >1.5 mg/dl) Abnormal coagulation function Local anesthesia surgery Inability to cooperate
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Patients with stable coronary artery disease undergoing hip fracture surgery after PCI were divided into two groups: 25 cases in the surgery group within 6 weeks after PCI (observation group) and 25 cases in the surgery group after 6 weeks post-PCI (control group).
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| Occurrence of Perioperative Adverse Events and Patient Self-Reported Symptoms | Half a year after discharge |
| PCI Stent Types |
Bare metal stent or drug-eluting stent; if it is a drug-eluting stent, the drug coating used must be recorded. |
| Preoperative |
| DAPT treatment status | Drug names, categories, administration methods, and dosages used in DAPT | Preoperative |
| Age | Preoperative |
| Body mass index | kg/m^2 | Preoperative |
| Other comorbidities | Such as hypertension, diabetes, cerebrovascular diseases, history of gastrointestinal bleeding, etc. | Preoperative |
| surgical approach | internal fixation, hip replacement, PFNA(Proximal femoral nail antirotation internal fixation) | postoperative |
| Coronary artery stenosis site | Name of diseased blood vessel in coronary heart disease, myocardial ischemia injury and location | Preoperative |
| ID | Term |
|---|---|
| D009353 | Zinostatin |
| ID | Term |
|---|---|
| D053281 | Enediynes |
| D000475 | Alkenes |
| D006839 | Hydrocarbons, Acyclic |
| D006838 | Hydrocarbons |
| D009930 | Organic Chemicals |
| D053280 | Diynes |
| D053279 | Polyynes |
| D000480 | Alkynes |
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