This review explores the evolving landscape of treatments for hypercortisolism, highlighting both established and emerging therapies. Although surgery remains the cornerstone of management, medical therapies play a crucial and expanding role, especially in cases of persistent, recurrent, or severe hypercortisolism. We discuss the effectiveness and limitations of steroidogenesis inhibitors, pituitary-directed drugs, glucocorticoid receptor antagonists, and experimental drugs targeting novel molecular pathways that have been implicated in the pathogenesis of hypercortisolism. Despite advancements, significant unmet needs persist, underscoring the importance of personalized treatment approaches and the development of targeted therapies. Ongoing and future clinical trials are crucial for validating the safety and efficacy of these innovative treatments in Cushing disease management.

Sudden cardiac death (SCD) is an abrupt, tragic manifestation of a number of cardiovascular diseases, primarily ion channelopathies and heritable cardiomyopathies. Because these diseases are heritable, genetics play a key role in the diagnosis and management of SCD-predisposing diseases. Historically, genetics have been used to confirm a diagnosis and identify at-risk family members, but a deeper understanding of the genetic causes of SCD could pave the way for individualized therapy, early risk detection, and a transformative shift toward genetically informed therapies. This review focuses on the evolving genetic landscape of SCD-predisposing diseases, the current state of gene therapy and therapeutic development, and the promise of using predictive genetics to identify individuals at risk of SCD.

In the past decade, adding mechanical thrombectomy (MT) of intracranial arterial occlusions to intravenous (IV) thrombolysis has revolutionized the treatment of acute ischemic stroke (AIS) by expanding the therapeutic window to 24 h. Treatment decisions require establishing a high probability of AIS; confirming time since last known well (LKW); assessing severity of the neurological deficit; determining any contraindications to IV thrombolysis; and performing neuroimaging, usually noncontrast computed tomography (NCCT), to exclude intracerebral hemorrhage. If time since LKW is less than 4.5 h, patients with disabling stroke without contraindications can proceed immediately to IV thrombolysis while the decision about MT is under way. For some patients, the MT decision can be made on the basis of clinical assessment, NCCT, and CT angiography showing a large vessel occlusion. Others may require additional neuroimaging. Patients who are not candidates for IV thrombolysis within 4.5 h or MT should be immediately evaluated for eligibility for extended-window IV thrombolysis or early antiplatelet treatment.

Consumption of probiotic products continues to increase, perhaps driven by an interest in gut health. However, the field is filled with controversy, inconsistencies, misuse of terminology, and poor communication. While the probiotic concept is biologically plausible and in some cases mechanistically well established, extrapolation of preclinical results to humans has seldom been proven in well-conducted clinical trials. With noteworthy exceptions, clinical guidance has often been derived not from large, adequately powered clinical trials but rather from comparisons of disparate, small studies with insufficient power to identify the optimal strain. The separation of probiotics from live biotherapeutic products has brought some clarity from a regulatory perspective, but in both cases, consumers should expect scientific rigor and strong supporting evidence for health claims.

Circulating tumor DNA (ctDNA), often referred to as a liquid biopsy, represents a promising biomarker in the management of both localized and advanced solid tumors. It has garnered significant attention due to its potential to inform prognosis and guide therapeutic decisions. The clinical utility of ctDNA spans early cancer detection, minimal residual disease identification, recurrence surveillance, treatment monitoring, and precision oncology treatment decision-making in the advanced setting. Unlike conventional radiological assessments, the short half-life of ctDNA allows for more timely insights into disease dynamics. Several technological approaches are available to measure ctDNA, including next-generation sequencing and droplet digital polymerase chain reaction, although their clinical accuracy depends on multiple biological and technical factors. This review evaluates current evidence surrounding ctDNA's utility in early and advanced solid tumors.

An altered gut microbiome is a feature of many multifactorial diseases, and microbiome effects on host metabolism, immune function, and possibly neurological function are implicated. Increased biological age is accompanied by a change in the gut microbiome. However, age-related health loss does not occur uniformly across all subjects but rather depends on differential loss of gut commensals and gain of pathobionts. In this article, we summarize the known and possible effects of the gut microbiome on the hallmarks of aging and describe the most plausible mechanisms. Understanding and targeting these factors could lead to prolonging health span by rationally maintaining the gut microbiome.

Depressive disorders present an enormous global public health burden. A notable treatment gap exists between the prevalence of depression and our ability to provide rapid-acting, effective treatment that achieves remission. Brexanolone and zuranolone, the first US Food and Drug Administration-approved drugs for postpartum depression, signify a critical advancement in addressing the unmet needs of a vulnerable patient population. Psilocybin shows promise for treatment-resistant depression and for those who have struggled to find relief with existing treatments. This review discusses transformative therapies that represent significant advancements in postpartum depression, major depressive disorder, and treatment-resistant depression.

Drug-resistant epilepsy (DRE) is defined as failure to achieve sustained seizure control with adequate trials of two appropriate antiseizure medications (ASMs). DRE affects one-third of patients with epilepsy and is associated with significant morbidity and mortality. Newer ASMs provide pharmacological therapy that is better tolerated but not necessarily more effective than older ASMs. Resective brain surgery is the gold standard to treat DRE and achieve seizure freedom, with laser ablation offering an alternative with less morbidity but lower effectiveness. For patients who are not candidates for resection or ablation, multiple neuromodulation options can reduce seizure burden. These neuromodulation devices have shown comparable effectiveness in randomized clinical trials, but the results vary in open-label follow-up cohorts, as do the risks of complications and associated costs. Dietary therapies can help, particularly in pediatric genetic epilepsies. Innovative genetic therapy approaches are being pursued, offering the promise of precision medicine.

Sleep is an important and potentially modifiable determinant of many severe health outcomes. Sleep health disparities exist and are exemplified by reported differential rates of prevalence, severity, and outcomes among minority groups and low-socioeconomic-status backgrounds. In this review we highlight the concept of sleep health, review the evidence for disparities in sleep health, examine risk factors and consequences of poor sleep health, and discuss policy implications.

Acid-related disorders represent a significant global health burden. Pharmacological treatment of these conditions has at times been challenged and limited by incomplete effectiveness, antibiotic resistance, adverse medication effects and/or interactions, and disease recurrence. Since the early 1990s, the mainstay of treatment has been proton pump inhibitors (PPIs). Recently, the US Food and Drug Administration issued a clearance for vonoprazan, a potassium-competitive acid blocker (PCAB). PCABs are a new class of acid-suppressing agents that may overcome some of these challenges. The aim of this review is to evaluate and compare the emerging long-term risks of PPI and PCAB therapies.

The human microbiome is a sensor and modulator of physiology and homeostasis. Remarkable tractability underpins the promise of therapeutic manipulation of the microbiome. However, the definition of a normal or healthy microbiome has been elusive. This is in part due to the underrepresentation of minority groups and major global regions in microbiome studies to date. We review studies of the microbiome in different populations and highlight a commonality among health-associated microbiome signatures along with major drivers of variation. We also provide an overview of microbiome-associated therapeutic interventions for some widespread, widely studied diseases. We discuss sources of bias and the challenges associated with defining population-specific microbiome reference bases. We propose a roadmap for defining normal microbiome references that can be used for population-customized microbiome therapeutics and diagnostics.

CD70 is an emerging target for anticancer therapies. It is an ideal antigen target given its limited expression in normal physiologic tissues and propensity to be aberrantly expressed in a variety of malignancies, thus limiting off-target toxicities. It is also heavily involved in immune homeostasis, and disruption of this pathway can help overcome tumor-related immune cell exhaustion. Recent phase I/II trials using cellular therapies targeting CD70, such as chimeric antigen receptor-T cells, have shown promising effectiveness and safety in treating relapsed or refractory renal cell carcinoma. Noncellular therapies targeting CD70, such as antibody-drug conjugates, monoclonal antibodies, radionuclides, and cytokines, are currently under investigation, with early data showing encouraging results as well. Efforts are already underway to further improve and optimize CD70-based therapies.

Hepatitis C virus (HCV) is predominantly transmitted through parenteral exposures to infectious blood or body fluids. In 2019, approximately 58 million people worldwide were still infected with HCV, and 290,000 deaths occurred due to hepatitis C-related conditions, despite hepatitis C being curable. There are substantial barriers to elimination, including the lack of widespread point-of-care diagnostics, cost of treatment, stigma associated with hepatitis C, and challenges in reaching marginalized populations, such as people who inject drugs. The World Health Organization (WHO) has set goals to eliminate hepatitis C by 2030. Several countries, including Australia, Egypt, Georgia, and Rwanda, have made remarkable progress toward hepatitis C elimination. In the United States, the Biden-Harris administration recently issued a plan for the national elimination of hepatitis C. Global progress has been uneven, however, and will need to accelerate considerably to reach the WHO's 2030 goals. Nevertheless, the global elimination of hepatitis C is within reach and should remain a high public health priority.

In this review, we describe how the management of coronary artery disease (CAD) has become increasingly complex due to the rapid evolution of pharmacotherapy and procedural techniques. The expanding array of treatment options has driven researchers to investigate the optimal combination of therapies; while the findings offer invaluable insights, the sheer volume and occasional contradictions can foster confusion. Given the diverse spectrum of CAD and its manifestations, a tailored treatment decision is critical for each patient. We hope to demonstrate that by integrating the key messages from clinical trials and prioritizing patient comprehension and preference, healthcare providers can guide their patients toward appropriate treatment options, ultimately leading to enhanced care.

RASopathies are a group of clinically overlapping autosomal dominant disorders caused primarily by mutations in genes that reside along the canonical Ras-mitogen-activated protein kinase signaling cascade. Though individually rare, collectively, these disorders constitute one of the largest families of congenital disorders worldwide, particularly for infantile hypertrophic cardiomyopathy. Significantly, despite almost five decades of RASopathy research, therapeutic options remain limited and focused primarily on treating symptoms rather than disease etiology. Targeting the genes causal to these disorders, and the nodal pathways critical for their regulation, however, has been challenging. In this review, we highlight these challenges, particularly with respect to congenital heart defects and cardiac diseases and discuss limitations and future directions for approaches to new therapeutic strategies.

Cardiac pacing to treat bradyarrhythmias has evolved in recent decades. Recognition that a substantial proportion of pacemaker-dependent patients can develop heart failure due to electrical and mechanical dyssynchrony from traditional right ventricular apical pacing has led to development of more physiologic pacing methods that better mimic normal cardiac conduction and provide synchronized ventricular contraction. Conventional biventricular pacing has been shown to benefit patients with heart failure and conduction system disease but can be limited by scarring and fibrosis. His bundle pacing and left bundle branch area pacing are novel techniques that can provide more physiologic ventricular activation as an alternative to conventional or biventricular pacing. Leadless pacing has emerged as another alternative pacing technique to overcome limitations in conventional transvenous pacemaker systems. Our objective is to review the evolution of cardiac pacing and explore these new advances in pacing strategies.

Home-based dialysis modalities offer both clinical and practical advantages to patients. The use of the home-based modalities, peritoneal dialysis and home hemodialysis, has been increasing over the past decade after a long period of decline. Given the increasing frequency of use of these types of dialysis, it is important for clinicians to be familiar with how these types of dialysis are performed and key clinical aspects of care related to their use in patients with end-stage kidney disease.

Prostate-specific membrane antigen (PSMA) as a transmembrane protein is overexpressed by prostate cancer (PC) cells and is accessible for binding antibodies or low-molecular-weight radioligands due to its extracellular portion. Successful targeting of PSMA began with the development of humanized J591 antibody. Due to their faster clearance compared to antibodies, small-molecule radioligands for targeted imaging and therapy of PC have been favored in recent development efforts. PSMA positron emission tomography (PET) imaging has higher diagnostic performance than conventional imaging for initial staging of high-risk PC and biochemical recurrence detection/localization. However, it remains to be demonstrated how to integrate PSMA PET imaging for therapy response assessment and as an outcome endpoint measure in clinical trials. With the recent approval of Lu-PSMA-617 by the US Food and Drug Administration for metastatic castration-resistant PC progressing after chemotherapy, the high value of PSMA-targeted therapy was confirmed. Compared to standard of care, PSMA-based radioligand therapy led to a better outcome and a higher quality of life. This review, focusing on the advanced PC setting, provides an overview of different approved and nonapproved PSMA-targeted imaging and therapeutic modalities and discusses the future of PSMA-targeted theranostics, also with an outlook on non-radiopharmaceutical-based PSMA-targeted therapies.

Congenital heart disease (CHD), a heterogeneous group of structural abnormalities of the cardiovascular system, is the most frequent cause of severe birth defects. Related to improved pediatric outcomes, there are now more adults living with CHD, including complex lesions, than children. Adults with CHD are at high risk for complications related to their underlying anatomy and past surgical palliative interventions. Adults with CHD require close monitoring and proactive management strategies to improve outcomes.

When the US Food and Drug Administration used the accelerated approval process to authorize the use of the antiamyloid drug aducanumab to treat Alzheimer's disease (AD), many people hoped this signaled a new era of disease-modifying treatment. But 2 years later, aducanumab's failure to launch provides a cautionary tale about the complexities of dementia and the need for a thorough and transparent review of the role that regulatory agencies and various stakeholders play in approving AD drugs. We highlight the events leading to aducanumab's controversial approval and discuss some of the key lessons learned from the drug's failure to deliver the hoped-for benefits. These lessons include the inherent limitations of antiamyloid strategies for a complex disease in which amyloid is only one of several pathological processes, the need for clinical trials that better reflect the diversity of communities affected by AD, the potential pitfalls of futility analyses in clinical trials, the need for greater transparency and other modifications to the approval process, and the dementia field's unreadiness to move from the highly controlled environment of clinical trials to the widespread and chronic use of resource-intensive, disease-modifying drugs in real-world treatment scenarios. People with dementia desperately need effective therapies. We hope that the aducanumab story will inspire changes to the approval process-changes that restore public trust and improve future efforts to deliver disease-modifying therapies to the clinic.

Diabetic neuropathy is a highly prevalent complication of diabetes. It consists of a broad range of neuropathic conditions, such as distal symmetric polyneuropathy and various forms of autonomic neuropathies involving the cardiovascular, gastrointestinal, and urogenital systems. Prevention or diagnosis in early stages of disease is crucial to prevent symptomatic onset and progression, particularly in the absence of current disease-modifying therapies. In this review, we describe the four main types of diabetic neuropathy. We review current understanding with respect to diagnosis and treatment while highlighting knowledge gaps and future directions.