Intravenous enalaprilat for treatment of acute hypertensive heart failure in the emergency department

Management Strategies for Hypertensive Crisis: A Systematic Review

A hypertensive crisis is defined as a sudden and significant rise in blood pressure. The blood pressure reading is 180/120 mmHg or higher. A hypertensive crisis is a medical emergency. It can lead to a heart attack, stroke, or other life-threatening medical problems. Investigating the management of the hypertensive crisis was the goal of this study. English-language articles were collected from 2010 to 2024 demonstrating the management of the hypertensive crisis. Overall, there were 15 articles. Surveys and analyses of national databases were the most widely used methods (n=15). The scientific studies documented (1) all investigative studies or reports that included a hypertensive crisis diagnosis, (2) data integrity and reproducibility, and (3) management studies. Other studies show that acute severe hypertension in the hospital is associated with high rates of mortality and morbidity, particularly with new or worsening end-organ damage. The problem is linked to poor medical adherence, but alarmingly low follow-up rates are likely to contribute to a high recurrence rate. The treatment of acute severe hypertension varies according to the hospital unit (medical ward or intensive care unit), medication, and blood pressure targets or thresholds. Because of a lack of evidence-based guidance, arbitrary blood pressure control targets are used, or blood pressure targets are crudely extrapolated from guidelines intended primarily for outpatient management. Patients with acute aortic dissection need to be administered intravenous esmolol within 5 to 10 minutes in order to lower their blood pressure right away. The goal is to maintain a systolic reading of less than 120 mm Hg. Vasodilators such as nitroglycerin or nitroprusside may be administered if the blood pressure persists following beta blocking. Intravenous administration of clevidipine, nicardipine, or phentolamine is required; the initial dose is 5 mg, with subsequent doses given every 10 minutes as necessary to achieve the desired reduction in blood pressure.

Clinical Review of Hypertensive Acute Heart Failure

Although acute heart failure (AHF) is a common disease associated with significant symptoms, morbidity and mortality, the diagnosis, risk stratification and treatment of patients with hypertensive acute heart failure (H-AHF) still remain a challenge in modern medicine. Despite great progress in diagnostic and therapeutic modalities, this disease is still accompanied by a high rate of both in-hospital (from 3.8% to 11%) and one-year (from 20% to 36%) mortality. Considering the high rate of rehospitalization (22% to 30% in the first three months), the treatment of this disease represents a major financial blow to the health system of each country. This disease is characterized by heterogeneity in precipitating factors, clinical presentation, therapeutic modalities and prognosis. Since heart decompensation usually occurs quickly (within a few hours) in patients with H-AHF, establishing a rapid diagnosis is of vital importance. In addition to establishing the diagnosis of heart failure itself, it is necessary to see the underlying cause that led to it, especially if it is de novo heart failure. Given that hypertension is a precipitating factor of AHF and in up to 11% of AHF patients, strict control of arterial blood pressure is necessary until target values are reached in order to prevent the occurrence of H-AHF, which is still accompanied by a high rate of both early and long-term mortality.

Taming the Tiger: Ultra high dose nitroglycerin in managing sympathetic crashing acute pulmonary edema patient

INTRODUCTION

Sympathetic Crashing Acute Pulmonary Edema (SCAPE) lies on the end of the acute heart failure syndrome spectrum with pulmonary edema in all lung zones. NTG at lower doses (10-20 μg/min) cause preload reduction, and at higher doses (> 100 μg/min) causes after-load reduction by arterial dilatation. The main aim is to decrease the afterload at the earliest to cut the vicious cycle caused by sudden sympathetic upsurge. To our knowledge, this is the highest nitroglycerin dose usage in the literature.

CASE

A 60-year-old male with no known prior co-morbidities presented to our Emergency with complaints of acute onset severe shortness of breath, which was also associated with extreme diaphoresis, agitation, anxiety, and palpitations. On Examination, the patient was hypoxic and hypertensive with severe tachypnea and tachycardia. On Auscultation, diffuse bilateral crackles in all areas were heard. Point of care ultrasound showed bilateral B-profile in all lung zones, inferior vena cava was >50% collapsible. We managed the patient with non-invasive ventilation and ultrahigh dose nitroglycerin/ highest ever- 9 mg intravenous bolus with 76 mg infusion. The patient had improved within hours and did not require oxygen. The patient was discharged from the emergency after a few hours of observation.

DISCUSSION

SCAPE occurs due to a vicious spiral involving increasing sympathetic outflow, excessive afterload, and worsening heart failure. The central, defining pathophysiological feature of SCAPE is pathologically elevated afterload due to systemic vasoconstriction and hypertension. SCAPE patients may be euvolemic, hypovolemic or hypervolemic. The problem is shift of fluid into the lungs rather than hypervolemia. The emphasis on treating pulmonary edema has shifted from diuretics to vasodilators, especially high-dose nitrates, combined with non-invasive positive pressure ventilation.

CONCLUSION

This is the first report describing the safe and effective administration of ultra-high dose bolus/ highest dose ever and prolonged high-dose infusion for SCAPE, along with Non-invasive ventilation, which has prevented mechanical ventilation and mortality. High doses of intravenous NTG are extremely effective and safe for SCAPE patients.

Drug repurposing approach against chikungunya virus: an in vitro and in silico study

The chikungunya virus (CHIKV) is an alphavirus transmitted by Aedes mosquitoes. There are no licenced antivirals or vaccines for treatment or prevention. Drug repurposing approach has emerged as a novel concept to find alternative uses of therapeutics to battle pathogens. In the present study, anti CHIKV activity of fourteen FDA-approved drugs was investigated by in vitro and in silico approaches. Focus-forming unit assay, immunofluorescence test, and quantitative RT-PCR assay were used to assess the in vitro inhibitory effect of these drugs against CHIKV in Vero CCL-81 cells. The findings showed that nine compounds, viz., temsirolimus, 2-fluoroadenine, doxorubicin, felbinac, emetine, lomibuvir, enalaprilat, metyrapone and resveratrol exhibit anti chikungunya activity. Furthermore, in silico molecular docking studies performed by targeting CHIKV structural and non-structural proteins revealed that these drugs can bind to structural protein targets such as envelope protein, and capsid, and non-structural proteins NSP2, NSP3 and NSP4 (RdRp). Findings from in vitro and in silico studies reveal that these drugs can suppress the infection and replication of CHIKV and further in vivo studies followed by clinical trials are warranted.

Blood Pressure Reduction in Hypertensive Acute Heart Failure

PURPOSE OF REVIEW

To review the key clinical and research questions regarding blood pressure (BP) reduction with vasodilators in the early management of hypertensive acute heart failure (H-AHF).

RECENT FINDINGS

Despite numerous AHF vasodilator clinical trials in the past two decades, virtually none has studied a population where vasoconstriction is the predominant physiology, and with the agents and doses most commonly used in contemporary practice. AHF patients are remarkably heterogenous by vascular tone, and this heterogeneity is not always discernible through BP or clinical exam. Emerging data suggest that diastolic BP may be a stronger correlate of vascular tone in AHF than systolic BP, despite the latter historically serving as a key inclusion criterion for vasodilator clinical trials. Existing data are limited. A clinical trial that evaluates vasodilators in a manner of use consistent with contemporary practice, specifically within the subpopulation of patients with true H-AHF, is greatly needed. Until then, observational data supports long-standing vasodilators such as nitroglycerin, administered by IV bolus, and with goal reduction of SBP ≤25% as a safe first-line approach for patients with severe H-AHF presentations.

An Updated Review of Hypertensive Emergencies and Urgencies

A hypertensive crisis is an abrupt and severe rise in the arterial blood pressure (BP) occurring either in patients with known essential or secondary hypertension, or it may develop spontaneously. The most frequent cause for the severe and sudden increase in BP is inadequate dosing or stopping antihypertensive treatment in hypertensive patients. Severe hypertension can be defined as either a hypertensive emergency or an urgency, depending on the existence of organ damage. In hypertensive urgencies, there are no signs of acute end-organ damage, and orally administered drugs might be sufficient. In hypertensive emergencies, signs of acute end-organ damage are present, and in these cases, quickly-acting parenteral drugs must be used. The prompt recognition, assessment, and treatment of hypertensive urgencies and emergencies can decrease target organ damage and mortality. In this review, the definitions and therapeutic recommendations in a hypertensive crisis are presented in the light of the 2017 ACC/AHA Hypertension Guidelines.

Focused Update on Pharmacologic Management of Hypertensive Emergencies

PURPOSE OF REVIEW

Hypertensive emergency is defined as a systolic blood pressure > 180 mmHg or a diastolic blood pressure > 120 mmHg with evidence of new or progressive end-organ damage. The purpose of this paper is to review advances in the treatment of hypertensive emergencies within the last 5 years.

RECENT FINDINGS

New literature and recommendations for managing hypertensive emergencies in the setting of pregnancy, stroke, and heart failure have been published. Oral nifedipine is now considered an alternative first-line therapy, along with intravenous hydralazine and labetalol for women presenting with pre-eclampsia. Clevidipine is now endorsed by guidelines as a first-line treatment option for blood pressure reduction in acute ischemic stroke and may be considered for use in intracranial hemorrhage. Treatment of hypertensive heart failure remains challenging; clevidipine and enalaprilat can be considered for use in this population although data supporting their use remains limited.

Optimizing Hypertensive Acute Heart Failure Management with Afterload Reduction

PURPOSE OF REVIEW

In spite of advances in our understanding of acute heart failure (AHF) and its different phenotypic expressions, AHF management is still centered on volume removal with intravenous diuretics. This narrative review describes the pathophysiology underlying hypertensive AHF and appraises therapies targeting these mechanisms.

RECENT FINDINGS

Vascular redistribution rather than volume overload may be the primary determinant of elevated cardiac filling pressures and subsequent pulmonary congestion in patients with hypertensive AHF; in these patients, vasodilators should be the predominant treatment. Additional therapy with diuretics in hypertensive AHF should be relegated to the treatment of overt volume overload or persistent congestion in spite of optimized hemodynamics. Intravenous nitroglycerin at high doses can rapidly achieve pulmonary decongestion and reduce downstream critical care needs in these patients. The therapeutic role for synthetic peptides with vasodilator properties has yet to be defined. Evidence supporting both old and new vasodilator therapies is limited by a paucity of well-designed studies and failure to demonstrate improvement in long-term outcomes. Targeted study of this phenotype of AHF is needed before vasodilator therapies become incorporated into treatment guidelines.

What's Next for Acute Heart Failure Research?

Each year over one million patients with acute heart failure (AHF) present to a United States emergency department (ED). The vast majority are hospitalized for further management. The length of stay and high postdischarge event rate in this cohort have changed little over the past decade. Therapeutic trials have failed to yield substantive improvement in postdischarge outcomes; subsequently, AHF care has changed little in the past 40 years. Prior research studies have been fragmented as either "inpatient" or "ED-based." Recognizing the challenges in identification and enrollment of ED patients with AHF, and the lack of robust evidence to guide management, an AHF clinical trials network was developed. This network has demonstrated, through organized collaboration between cardiology and emergency medicine, that many of the hurdles in AHF research can be overcome. The development of a network that supports the collaboration of acute care and HF researchers, combined with the availability of federally funded infrastructure, will facilitate more efficient conduct of both explanatory and pragmatic trials in AHF. Yet many important questions remain, and in this document our group of emergency medicine and cardiology investigators have identified four high-priority research areas.