Alpha-1 antitrypsin deficiency (AATD) is a genetic disorder characterized by the misfolding and accumulation of the mutant variant of alpha-1 antitrypsin (AAT) within hepatocytes, which limits its access to the circulation and exposes the lungs to protease-mediated tissue damage. This results in progressive liver disease secondary to AAT polymerization and accumulation, and chronic obstructive pulmonary disease (COPD) due to deficient levels of AAT within the lungs. Our goal was to characterize the unique effects of COPD secondary to AATD on liver disease and gene expression.

A subcohort of AATD individuals with COPD (n = 33) and AATD individuals without COPD (n = 14) were evaluated in this study from our previously reported cross-sectional cohort. We used immunohistochemistry to assess the AATD liver phenotype, and RNA sequencing to explore liver transcriptomics. We observed a distinct transcriptomic profile in liver tissues from AATD individuals with COPD compared to those without.

A total of 339 genes were differentially expressed. Canonical pathways related to fibrosis, extracellular matrix remodeling, collagen deposition, hepatocellular damage, and inflammation were significantly upregulated in the livers of AATD individuals with COPD. Histopathological analysis also revealed higher levels of fibrosis and hepatocellular damage in these individuals.

Our data supports a relationship between the development of COPD and liver disease in AATD and introduces genes and pathways that may play a role in AATD liver disease when COPD is present. We believe addressing lung impairment and airway inflammation may be an approach to managing AATD-related liver disease.

Oncology patients undergoing cancer treatment and experiencing episodes of fever are known to be at increased risk for invasive bacterial infection, including bloodstream infection. This study aimed to identify the incidence of bacteremia along with the bloodstream isolates for immunocompromised oncology patients referred to the emergency department (ED) due to fever.

Oncology patients with fever were referred to the ED according to a protocol previously reported. Virtually all children had central venous access devices (CVAD) that underwent sterile access according to Hematology-Oncology (Hem-Onc) and ED protocol. Antibiotics were administered to all patients once CVAD were accessed and laboratory studies, including blood culture, were obtained. Data collected included patient demographic features, complete blood count profiles, proportions receiving antibiotics within 60 minutes of ED arrival and subsequent blood culture results.

Of 1,088 consecutively referred Hem-Onc patients, 439 were eligible for inclusion. The overall blood culture positive rate was 5.7%. Fifty-six percent of patients with positive blood cultures had an absolute neutrophil count greater than 500 µL at the time of ED presentation. Gram-positive organisms comprised 64% of isolates while gram-negative organisms accounted for 36% of the total isolates.

Immunocompromised oncology patients presenting to the ED with fever are susceptible to bloodstream infection caused by an array of gram-positive and gram-negative organisms. Bloodstream infection during episodes of fever includes many patients without severe neutropenia at presentation and with bloodstream isolates not typically associated with catheter-related bloodstream infection alone, highlighting the diversity and variability within this patient population.

Patients with newly diagnosed prostate cancer (PCA) face the critical decision of whether to undergo treatment with curative intent (TCI, surgery or radiation) or conservative treatment on the background of a cancer where the potential for over-treatment and under-treatment is real. This study aimed to investigate the influence of cancer- and patient-related factors on the initial treatment decision for men with a new diagnosis of PCA and to evaluate treatment decisions against relevant guidelines.

This study undertook a retrospective audit of the clinical records of 545 men who were diagnosed with PCA at four Australian urology services. Age, comorbidities, and cancer-related factors were recorded, with patients divided into risk groups based on cancer factors.

Cancer risk stratification emerged as a primary determinant influencing individual treatment choices, with low-risk patients being more likely to have active surveillance and those classified as intermediate or high-risk being more likely to have TCI. Surgery was more commonly offered to younger patients and those with fewer comorbidities. While 80% of patients received guideline-concordant treatment, 20% were identified as being over-treated, receiving TCI despite limited life expectancy and/or high comorbidities.

Managing men diagnosed with PCA should avoid under-treatment in young, otherwise healthy individuals with aggressive cancer by offering TCI. Conversely, over-treatment (unnecessary treatment), especially in men with low-grade cancer or individuals with limited life expectancy due to significant comorbidities, should be avoided to prevent unnecessary treatment when competing causes are more likely to be fatal than prostate cancer.

Impairment in the cerebral glymphatic system may be one of the primary etiologic reasons for insomnia. Traditional Chinese medicine (TCM) physiotherapy is helpful for treating insomnia patients, with few side effects; however, its influence on glymphatic system function has not yet been examined. The DTI-ALPS (diffusion tensor image analysis along the perivascular space) technique and structural brain network graph theory analysis are the only current methods that can show the glymphatic system’s function and the operating efficiency of the neurofibrillary network in a noninvasive and quantitative manner, but their utility has yet to be proven. We employed DTI-ALPS and structural brain network small-worldness to examine changes in the glymphatic system’s function and the network’s working efficiency before and after TCM meridian sinew treatment in a 35-year-old female with chronic insomnia. The ALPS index and small-worldness, the Insomnia Severity Index, and the Pittsburgh Sleep Quality Index were collected at various time intervals following therapy. The results showed that the patient’s glymphatic system functioning, neurofibrillary network arrangement status, and insomnia symptoms improved during the therapy period. Additionally, her glymphatic system functioning and network status had stabilized and her quality of sleep had improved one month after the treatment ended. Thus, TCM physiotherapy can improve insomnia symptoms, and this report suggests that the corresponding mechanism of action may be achieved by repairing the glymphatic system’s function and optimizing the state of neurofibrillary network arrangement, providing a new perspective for the study of the TCM therapeutic mechanism of insomnia.

Liver failure encompasses a range of severe clinical syndromes resulting from the deterioration of liver function, triggered by factors both within and outside the liver. While the definition of acute-on-chronic liver failure (ACLF) may vary by region, it is universally recognized for its association with multiorgan failure, a robust inflammatory response, and high short-term mortality rates. Recent advances in metabolomics have provided insights into energy metabolism and metabolite alterations specific to ACLF. Additionally, immunometabolism is increasingly acknowledged as a pivotal mechanism in regulating immune cell functions. Therefore, understanding the energy metabolism pathways involved in ACLF and investigating how metabolite imbalances affect immune cell functionality are crucial for developing effective treatment strategies for ACLF. This review methodically examined the immune and metabolic states of ACLF patients and elucidated how alterations in metabolites impact immune functions, offering novel perspectives for immune regulation and therapeutic management of liver failure.

Hematological malignancies present a complex challenge within oncology, necessitating a thorough understanding of genetic factors for effective detection and management. As we delved into the forefront of cancer research, our focus turned to the emerging field of N6-methyladenosine (m6A) epigenetic approaches. Among RNA modifications, m6A is the most common and thoroughly investigated post-transcriptional alteration in messenger RNA. The m6A modification involves the addition of a methyl group to the adenosine at the N6 position within RNA molecules, a process mediated by proteins collectively referred to as m6A writers, erasers, and readers. The dynamic nature of m6A modifications on RNA molecules presents a promising avenue for enhancing our understanding of gene expression regulation in hematological malignancies. This review explores the potential breakthroughs that m6A epigenetic tools offer in cancer diagnostics and treatment, highlighting their role in enabling more precise interventions. By acknowledging the importance of genetic insights and integrating advancements in m6A epigenetics, this article advocates for a comprehensive approach to managing hematological malignancies.

Feedback loops or compensatory mechanisms are present in a wide range of biological systems and processes. Here, we hypothesize that endogenous opioid peptides, such as endorphins and enkephalins, can be broken down and enzymatically converted to catecholamines (dopamine, norepinephrine, epinephrine) locally. Particularly, this proposed local production of norepinephrine may modulate analgesia through feedback mechanisms. A similar arrangement may occur for corticotropin-releasing factor and adrenocorticotropic hormone (hypothalamic-pituitary-adrenal axis mediation), insulin (blood glucose regulation), and angiotensin II (cardiovascular regulation). Endorphins, enkephalins, and dynorphins have an initial amino acid sequence of Tyr-Gly-Gly-Phe, where tyrosine (and possibly phenylalanine) could be enzymatically clipped from the peptide and converted to catecholamines locally, through the canonical biosynthetic molecular pathway for catecholamines. Spatially and possibly temporally precise conversion of these terminal amino acids to catecholamines may allow them to be produced “on demand” in specific regions of the brain, spinal cord, or periphery. This hypothesis is readily testable by infusing stable isotopically labeled opioids into the brain or periphery of model organisms, and observing through liquid chromatography-mass spectrometry whether the terminal amino acids of these opioids are converted to catecholamines.

Molecular testing has emerged as a valuable tool for stratifying cytologically indeterminate thyroid nodules (ITNs), with Harvey rat sarcoma viral oncogene homolog/neuroblastoma RAS viral oncogene homolog (HRAS/NRAS) mutations being among the most prevalent molecular alterations. The study aimed to evaluate the malignancy risk of ITNs with these mutations.

We conducted a retrospective study involving ITNs (Bethesda category III and IV) that underwent ThyroSeq testing between February 2016 and January 2022. A smaller subset of ITNs also underwent Afirma testing. We specifically identified nodules with HRAS/NRAS mutations and collected radiological, clinical, histological, and follow-up data.

Our analysis identified 45 ITNs with NRAS (29 cases) and HRAS (15 cases) mutations. Of the 29 nodules with NRAS mutations, 25 underwent surgical treatment (14 total thyroidectomies and 11 hemithyroidectomies), resulting in a surgical resection rate of approximately 86%. Among the resected nodules, six were malignant, yielding a calculated risk of malignancy (ROM) ranging from 20.6% to 25%. Three of these malignant nodules were managed with total thyroidectomy, while the other three underwent hemithyroidectomy. During a follow-up period of 43.8 months for total thyroidectomy and 32.9 months for hemithyroidectomy, no recurrence or metastasis was detected among the patients. Among the four nodules treated conservatively, three remained stable, with an average follow-up duration of 34.7 months, while one patient was lost to follow-up. Regarding HRAS mutations, 15 nodules were identified, with 12 of them undergoing surgical treatment (six total thyroidectomies and 6 hemithyroidectomies), resulting in an 80% surgical resection rate. Two of the resected nodules were malignant, with a calculated ROM of 13.3% to 16.7%. Both malignant nodules were managed with total thyroidectomy, and during a follow-up period of 37.9 months, no recurrence or metastasis occurred. Of the three nodules managed conservatively, all remained stable, with an average follow-up duration of 31.1 months.

The ROM for nodules with NRAS (20.6–25%) or HRAS (13.3–16.7%) mutations was found to be low. Therefore, before opting for total thyroidectomy, conservative management, including limited resection, should be considered as a viable alternative.

Precision medicine involves tailoring an individual’s genes or proteins to prevent, diagnose, or treat diseases such as cancer. Given the recent advances in cancer immunotherapy, there is now a focus on developing vaccines as a new treatment modality. Therapeutic vaccines for cancer are a precision medicine approach that has made enormous progress in recent years due to advances in vaccine engineering. This technology uses antigens derived from the patient’s tumor to create vaccines that are unique and specific to that patient. Although challenges remain, significant progress has been made in recent years, largely due to the advent of mRNA vaccines. This mini-review primarily focuses on developments in vaccine engineering, outstanding therapeutic obstacles, and recent human clinical trials.

Ulcerative colitis (UC) is a chronic autoimmune disease that mainly affects the rectum and colon. The symptoms primarily include abdominal pain, diarrhea, and bloody stools. The incidence of UC continues to increase each year. Bear bile powder (BBP) is a well-known traditional medicine that remains in use due to its outstanding efficacy. This study aimed to elucidate the therapeutic effects and molecular mechanisms of BBP on dextran sulfate sodium (DSS)-induced UC.

DSS-induced UC model mice were created and then randomly assigned to the following groups: control, DSS-treated, 5-amino salicylic acid-treated, BBP low dose, and BBP high dose. Treatment was administered by gavage. Disease activity index, body weight loss, colon histopathology, colon length, and the expression of inflammatory cytokines were measured. Samples of the intestinal content were collected, and differences in the gut microbiota were analyzed by 16S rDNA sequencing.

The experimental results demonstrated that BBP significantly alleviated the symptoms and histopathological scores in UC mice, reduced the production of interleukin-6, interleukin-1β, tumor necrosis factor-α, malondialdehyde, nitric oxide, and myeloperoxidase, and upregulated the expression of cyclic adenosine monophosphate (cAMP), protein kinase A, and cAMP-response element binding protein. Moreover, 16S rRNA sequencing revealed that the gut microbiota of mice in the DSS-treated group was disordered compared to the control group. The abundance of gut microbiota in the treatment groups improved to varying degrees.

Together, these results indicate that BBP significantly improves the inflammatory symptoms of mice with acute colitis, which may be related to its upregulation of the cAMP/protein kinase A/cAMP-response element binding protein signaling pathway, inhibition of NOD-like receptor thermal protein domain associated protein 3 inflammasome secretion, and regulation of gut microbiota.