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Clinical Information Patient Initials or Identifier Number: 56 years old woman Relevant Clinical History and Physical Exam: A 56-years-old woman with underlying history of hyperlipidemia without medical treatment. She experienced effort precordial tightness and shortness of breath for 8 months after COVID-19 vaccination. She received exercise TI 201 myocardial perfusion scan showed myocardial ischemia. EKG found old anterior wall myocardial infarction. Echocardiogram showed left ventricle anterior wall hypokinesia, LVEF 38%. [Formula presented] Relevant Test Results Prior to Catheterization: Coronary angiogram found left anterior descending artery from proximal to middle 70~80% long diffuse stenosis with spontaneous recanalized coronary thrombus. Also left anterior descending artery diagonal 2 branch bifurcation was 70% stenosis with spontaneous recanalized coronary thrombus (Medina 1.1.1) [Formula presented] [Formula presented] Relevant Catheterization Findings: Coronary angiogram found left coronary artery middle and diagonal branch braided apperance. OCT found recanalized thrombi, high backscattered septa that divided the lumen into multiple small cavities, created "lotus root" appearance. [Formula presented] [Formula presented] Interventional Management Procedural Step: Left main coronary artery was engaged with EBU3.5/7F guiding catheter. We advanced Runthrough to LAD-D and second wire Sion to LAD-DB2 but can't advance. Then we used with Sasuke double lumen catheter and successful advance Pilot 50 to LAD-DB2 distal. OCT found multiple channels with LAD-D and DB2 branch wires are at different channels, so we used cutting balloon 2.5 x 10mm as unconventional method. OCT was rechecked again and successfully destroyed to multiple channel of SRCT between LAD and Diagonal 2 branch. Long diffuse dissection found after POBA so we deployed to LAD-DB2 branch with DES Synergy 2.5 x 16mm and advanced LAD-M bifurcation to Pantera LEO 3.0 x 20mm and done Mini-Crush technique. Deployed for main vessel LAD-P to M long diffuse lesion with DES Xience 2.75 x 48mm at 14atm. Then we rewire Fielder XTR to DB2 branch with the support of Sasuke but difficult to deliver to Diagonal 2 branch. POT with Pantera LEO 3.0 x 20mm to LAD stent proximal site. Then successfully advance Fielder XTR to DB2 branch. Final kissing balloon technique with Pantera 2.75 x 12mm to LAD main vessel and MINI TREK 1.5 x15mm to LAD-DB2. [Formula presented] [Formula presented] [Formula presented] Conclusion(s): This is a case of SRCT (Spontaneous Recannalized Coronary Thrombus) that was confirmed with OCT. For secure side branch patency, main trunk & side branch wire must be in same channel. Due to relatively unstable hemodynamic, we chose to use unconventional method with 2.5 x 10mm Wolverine cutting balloon. Relatively large side-branch diagonal branch, possible dissection at ostial diagonal branch, we chose upfront 2 stents, bifurcation stenting technique we used Mini-crush stenting. Some difficult when rewire to side branch and initial POT to main branch stent proximal and then successfully delivered. If without guidewire recross, unrescuable side-branch occlusion can be occurred.Copyright © 2023
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Introduction: Coronavirus disease 2019 (COVID-19) was described for the first time in December 2019. Symptoms include cough, fever, myalgia, headache, dyspnea, sore throat, diarrhoea, nausea, vomiting, and loss of smell or taste. Viral-induced myocarditis and pericarditis have been described in developed countries, and SARS-CoV-2 is cardiotropic. Pericarditis can mimic myocardial infarction (MI) in its presentation and ECG findings. Case report: A 46-year-old smoker with no previous medical condition presented with left-sided chest pain, sweating, trouble breathing, palpitations, and left-hand numbness. He denied having reduced effort tolerance, orthopnea, or paroxysmal nocturnal dyspnea. Three weeks earlier, he was infected with Covid-19 category 2A infection. On examination, he is haemodynamically stable, and his respiratory and cardiovascular exams were unremarkable. His ECG showed anterior ST elevation, and the bedside echocardiography showed no hypokinesia or pericardial effusion. High-sensitive cardiac troponin T reached 5000. The emergency team contacted the on-call cardiologist for primary PCI. After analysing the serial ECG and bedside echocardiography, he decided against primary PCI due to acute pericarditis. He was started on intravenous diclofenac acid and colchicine. His pain subsided after 3 days with NSAIDs and colchicine. He was reviewed back in the clinic and had a normal ECG and ECHO. Discussion(s): Pericardial disease caused by COVID-19 has been more common since the pandemic outbreak. Mycobacterium tuberculosis, Borrelia burgdorferi, Parvovirus B19, and Epstein-Barr virus are the most common infecting agents. Most cases of acute pericarditis in developing nations are due to tuberculosis infection. Nearly half of all patients who had previously recovered from COVID-19 infection have now presented with new cardiac MRI findings indicating pericardial involvement. Fibrosis and/or oedema may be linked to persisting active pericarditis following infection resolution, which may lead to short and long-term clinical consequences. Conclusion(s): The ST elevation in post-covid patients does not always signify myocardial infarction. Despite complaints and ECG findings, this could not be an acute myocardial infarction, for which clinicians should have a high index of suspicion.Copyright © 2023
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Clinical Information Patient Initials or Identifier Number: Mr. AL Relevant Clinical History and Physical Exam: 59-year-old gentleman. CAD risk factors: Hypertension, Diabetes Mellitus, Dyslipidaemia, Positive family history of CAD. Admitted with Acute Anterior MI & got Tenecteplase. Relevant Test Results Prior to Catheterization: Troponin-I: >50000 ng/L, ECG: ST Elevation in V1-V6, Echo: Anterior wall is hypokinetic with Mild LV systolic dysfunction (EF- 45%). Hb-14.2 gm/dl, Creatinine: 1.12 mg/dl, Na- 135, K- 4.0, Cl- 100 m mol/L, Plasma BNP: 235 pg/ml, COVID-19 RT-PCR- Negative, S. Bilirubin- 0.3 mg/dl, ALT- 45 IU/L, AST- 107 IU/L, Anti-HCV- Negative, Anti-HIV- Negative, HbsAg- Negative, Relevant Catheterization Findings: LMCA: Normal. LAD: Got 90-99% narrowing in its proximal segment followed by 90-99% diffuse disease. DG1 is small and diseased. DG2 has got sub-total occlusion at its origin. LCX: Good size artery with mild ostial narrowing & 50% narrowing in its mid segment. Principal OM has got 50% narrowing in its ostium. RCA: Dominant artery has got 60% narrowing in its proximal segment. PDA is a good size artery & got mild irregular narrowing in its proximal segment. Recommendation: PCI to LAD [Formula presented] [Formula presented] [Formula presented] Interventional Management Procedural Step: LCA was engaged with guiding catheter EBU -3.5 (6F). Sion Blue wire crossed the lesion of LAD, another wire crossed the lesion of Diagonal branch and pre-dilatation was done with 2.0 x 15 mm balloon at 08-10 ATM. Proximal lesion was stented with a 2.75 mm x 18 mm stent (Xience Alpine) at 12-14 ATM. After withdrawing the wire following angiogram showed proximal LAD was well dilated but mid LAD having a long dissection which interrupted the distal flow. So, decided to put stent in mid LAD. Again, repeated ballooning was done in mid LAD to prepare the lesion and a 2.25 mm x 28 mm stent (Xience Xpedition) was taken for mid LAD but stent didn't cross the mid LAD lesion. During stent withdrawal, it was struck in the previous Proximal stent and proximal calcified segment. When trying to pull it back, the delivery system shaft was tear off. Tried to get the shaft by coronary snare but failed to get it back. Finally, he was recommended to retrieve the torn delivery system & stent surgically. [Formula presented] [Formula presented] [Formula presented] Conclusions: • Stent with torn delivery system entrapment might not be rare. • In this situation, emergency decision to tackle the situation and Bail out decision to send the patient for surgical retrieval of the delivery system & stent saved the life of the patient. Take Home Message: • No case is simple in intervention. • Preparedness to tackle any untoward consequence is the key to success and save lives.
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Clinical Information Patient Initials or Identifier Number: R Relevant Clinical History and Physical Exam: A 64-year-old lady with underlying dyslipidemia presented to our emergency department with typical chest pain. Immediate electrocardiogram was performed which showed sinus rhythm, ST elevation at lead 1, aVL and V1, hyperacute T wave at V2 till V3 with ST depression at leads II, III and aVF. Hence a diagnosis of acute anterolateral myocardial infarction, Killip 1 was given and urgent referral to cardiologist was made. Subsequently, she was subjected for primary angioplasty. Relevant Test Results Prior to Catheterization: Blood results showed sodium of 134 mmol/L, potassium of 3.5 mmol/L, urea of 3.2 mmol/L and creatinine of 67 mmol/L. Liver enzymes were within normal limits with aspartate transaminase of 38 U/L and alkaline phosphatase of 91 U/L. Creatinine kinase was 330 U/L but increased to 2861 U/L during subsequent day. In addition, COVID-19 RTK antigen was negative. Relevant Catheterization Findings: Coronary angiogram revealed mild disease at proximal right coronary artery and proximal left circumflex. Minimal disease was noted at distal left main stem, but severe disease was observed from proximal left anterior descending till mid left anterior descending. Heterogenous plague suggesting thrombus was seen at ostial first diagonal as well. [Formula presented] [Formula presented] Interventional Management Procedural Step: Right femoral assess was obtained with 7Fr sheath, and SL 3.5 7Fr guiding catheter was engaged to left coronary artery. Intracoronary heparin and tirofiban were given prior to wiring. First diagonal was wired with Sion Blue while left anterior descending was wired with Runthrough Floppy. Post-wiring both vessels, coronary flow remained TIMI 3 and hence we decided to proceed with IVUS. From IVUS, noted fibrous elastic plague with heavy thrombus burden. Intracoronary streptokinase was given and noted improvement of thrombus from IVUS. BMW wired to left circumflex. Lesion predilated with scoring balloon and associated with no reflow events, resolved post vasodilators. Left main stem was stented with Onyx 3.5 x 26 mm and deployed at 16 atm. Both side branches wires were rewired into same branches via Crusade microcatheter. LMS stent was post dilated with NC Euphora 4.5 mm at nominal pressure. Noted impingement of both ostium diagonal and circumflex branches. Balloon kissing inflation was performed for both LAD/Diagonal bifurcation and LMS/LAD/circumflex bifurcation. POT was performed post balloon kissing inflation with NC Euphora 3.5 mm and 4.5 mm for both LAD and LMS respectively. Next, IVUS was repeated for mid LAD stent length and Onyx 3.0 mm X 15 mm was deployed at nominal pressure. IVUS repeated and noted under-expansion of overlapped segments and post dilated with NC Euphora 3.0 mm at high pressure. [Formula presented] [Formula presented] [Formula presented] [Formula presented] Conclusions: Our clinical vignette demonstrated few learning points including utilization of IVUS during primary angioplasty. Understanding of plague characteristic ensures adequate stents expansion especially with fibro elastic plague. In addition, we also demonstrated several precautions in dealing with bifurcation lesions including usage of double lumen microcatheter for wiring the side branches. Even though we opted for provisional stenting, balloon kissing inflation played pivotal role in preserving flow into side branches.
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Background: We report an unusual case of Takotsubo cardiomyopathy (TTC) caused by radial spasm during percutaneous coronary intervention (PCI), resulting in a fatal outcome. Case: A 70-year-old Caucasian female presented with an acute anterior myocardial infarction (MI) with anterior ST segment elevation. Coronary angiography showed critical proximal left anterior descending artery stenosis, and she underwent successful PCI via the right radial artery. Post-MI echocardiogram showed anterior wall hypokinesis with a left ventricular ejection fraction (LVEF) of 45%. The right coronary artery (RCA) had 70% stenosis in the mid-vessel and a staged outpatient intervention was planned. Decision-making: The staged procedure was delayed by seven months due to the COVID-19 pandemic. The same right radial access was selected but she developed significant radial spasm. Despite vasodilators, radial spasm persisted, so balloon-assisted tracking technique was used to advance guiding catheter. Fractional flow reserve of the RCA stenosis was positive at 0.76. PCI was then successfully performed using a 3x48 mm Xience stent. Thirty minutes later, she developed severe chest pain with widespread ST segment elevation. Repeat angiography via the right femoral artery showed patent coronary arteries. Echocardiography showed new apical ballooning pattern, typical of TTC with LVEF was 35%. She was discharged after 48 hours, but she re-presented a week later with cardiogenic shock. She had florid pulmonary oedema and an echo showed new torrential mitral regurgitation due anterior mitral leaflet chordal rupture. The apical ballooning that was observed a week earlier had resolved. An intra-aortic balloon pump was inserted, and the patient underwent emergency repair of the mitral valve. The procedure was technically successful, but the patient died on postoperative day one, due to multi-organ failure. Conclusion: We believe that TTC in our patient was caused by radial artery spasm. To our knowledge, this is the first case of TTC caused by radial spasm. Furthermore, chordal rupture secondary to TTC has been reported only once before.
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Background: Acute respiratory distress syndrome (ARDS) is characterized by hypoxemia and non-hydrostatic pulmonary edema. While ARDS is associated with a high mortality rate, its conjunction with cardiogenic shock (CS) can lead to devastating outcomes. ARDS is managed via lung protective ventilation with low tidal volumes and positive end expiratory pressures. Prone positioning has emerged as a supplementary strategy with beneficial effects on gas exchange, respiratory mechanics, and hemodynamics. Our case underlines the feasibility of intra-aortic balloon pump counterpulsation (IABP) with concurrent prone positioning in a patient with ARDS and CS. Case: 71-year-old male with history of coronary artery disease, hypertension, hyperlipidemia, and chronic kidney disease, presented to the emergency department with new onset chest pain. EKG showed ST-segment elevations in leads V1-V2 consistent with acute anterior wall myocardial infarction. Patient underwent percutaneous coronary intervention to the left anterior descending artery.Due to worsening hemodynamics and CS, it was decided to place a left axillary IABP. Hospital course was further complicated by acute pulmonary edema and ARDS requiring emergent intubation and mechanical ventilation. Patient was also started on renal replacement therapy given progression of renal failure. Decision-making: Given the onset of ARDS, the patient was placed in prone position for 12-16 hours/day for 5 days. There was no special technique required during proning, other than additional staff to ensure IABP stability. Gradual improvement in hemodynamics was attained, including an increase in cardiac index from 2.1 to 3.4, and a decrease in pulmonary vascular congestion. Conclusion: With the emergence of COVID-19 pandemic, the incidence of ARDS has increased significantly, with simultaneous occurrence of CS in some of these patients. Prone positioning has become one of the main therapeutic modalities in the management of ARDS. Our case highlights the feasibility of axillary IABP while implementing prone positioning in patients with concomitant ARDS and CS.