Body Tissues Research Articles

The Molecular Mechanism of Dicofol as an Agonist of the Human Estrogen Receptor: Insights from Molecular Docking and MM-GBSA Studies

The risk to human health has increased worldwide due to the widespread use of organochlorine pesticides. Dicofol (DCF), an organochlorine pesticide, is one of the most contentious endocrine disruptors; it can interact with nuclear receptors and interfere with their regular function. A member of the steroid hormone receptor family, the estrogen receptor (ER) is found in many bodily tissues. It binds to androgens and controls the activity of genes that are responsive to androgens. There is a chance that DCF will disrupt the estrogen receptor. In light of these specifics, we tested the ER disruption and related mechanisms of DCF using Molecular Docking, Generalized Born, and Surface Area Continuum Salvation (MM GBSA) in Molecular Mechanics. Dicofol may bind to the ER with efficiency, according to the docking results that were obtained. The MMGBSA results demonstrated that lipophilic interactions were the primary driver of the stable binding process. The current study supports the structural evidence that DCF is an endocrine disruptor and provides crucial guidance for finding safer alternatives.

Parotid and Sublingual Salivary gland as an Indicator of Antioxidant Efficacy in Experimentally Induced Diabetic Rats

The parotid and sublingual glands were considered the most appropriate tissues to study the effects of diabetes mellitus among the major salivary glands. Globally, diabetes mellitus is a major healthcare concern. It affects bodily tissues and organs in a variety of pathological ways, particularly the major salivary glands. Thirty adult, healthy albino rats were divided into three equal groups of ten animals each. Group I was a control group that did not receive any treatment, group II was experimentally induced to have diabetes mellitus using alloxan, a chemical agent that is more or less safe and permanent, and group III was experimentally induced to have diabetes but treated with ascorbic acid (Vit. C), as an antioxidant drug. All rat groups were sacrificed and tissue samples from their parotid and sublingual glands were prepared. The tissue samples studded histologically using Haematoxylin and Eosin (H&E) stain, histopathologically using Periodic acid Schiff's (PAS) reaction to detect carbohydrates, and immunohistochemically using Beta cell lymphoma-2 (BCL2) as an anti-apoptotic marker. Based on the histology, histopathological, and immunohistochemical significant lesions, the obtained results showed common alterations in the parotid and sublingual glands tissues of diabetic rats. However, compared to untreated animals, rats treated with the antioxidant vitamin C showed fewer tissue changes and lesions. According to the study's findings, vitamin C functions as a helpful antioxidant to assist avoid complications from diabetes.

Assessment of the Expression Levels of USP27X and DDX3X genes in Systemic Lupus Erythematosus (SLE) Patients

Introduction: Systemic lupus erythematosus (SLE) is a chronic inflammatory autoimmune disease influencing numerus tissues in body. Ubiquitin carboxyl-terminal hydrolase 27 (USP27X) is a deubiquitinating enzyme involved in the type I interferons (IFNs) generation, apoptosis and production of proinflammatory mediators. DEAD-box helicase 3 X-linked (DDX3X) is a ribonucleic acid (RNA) helicases and contributes to the generation of type I IFNs, and proinflammatory mediators. Considering the involvement of IFN type I, apoptotic cell death and proinflammatory mediators in the pathogenesis of SLE, the expression levels of USP27X and DDX3X genes were assessed in SLE patients. Methods: Two groups, including SLE patients and healthy subjects, were included in the study and the expression levels of USP27X and DDX3X genes in their peripheral blood mononuclear cells (PBMC) were quantified by the real-time polymerase chain reaction (PCR). Results: The results demonstrated the expression level of DDX3X gene was 5.9-fold higher in the SLE patients compared to the healthy subjects ( P < .01). No significant difference in the expression level of USP27X gene was detected between both groups ( P > .05). Conclusion: A significant elevation in the level of DDX3X gene in SLE patients prepossess the potential involvement of DDX3X in SLE pathogenesis possibly through the induction of proinflammatory mediators. In spite of the potential involvement of USP27X in SLE through the induction of type 1 IFNs, and apoptotic cell death, our finding did not provide evidence in the contribution of USP27X in SLE pathogenesis.

A short communication on interrelationship among oral health and nutrition

Oral health, nutrition, and diet are closely related. Like other bodily tissues, oral tissues are influenced by nutrition and diet. The diet provides the food molecules that metabolic processes convert into nutrients that support life and foster health. The amount and frequency of free sugar intake are linked to dental caries, according to strong evidence gathered from epidemiological, animal, experimental, and human intervention studies. One of the many elements of intervention methods for health improvement is nutrition education.

Somatic piRNA and PIWI-mediated post-transcriptional gene regulation in stem cells and disease

PIWI-interacting RNAs (piRNAs) are small non-coding RNAs that bind to the PIWI subclass of the Argonaute protein family and are essential for maintaining germline integrity. Initially discovered in Drosophila, PIWI proteins safeguard piRNAs, forming ribonucleoprotein (RNP) complexes, crucial for regulating gene expression and genome stability, by suppressing transposable elements (TEs). Recent insights revealed that piRNAs and PIWI proteins, known for their roles in germline maintenance, significantly influence mRNA stability, translation and retrotransposon silencing in both stem cells and bodily tissues. In the current review, we explore the multifaceted roles of piRNAs and PIWI proteins in numerous biological contexts, emphasizing their involvement in stem cell maintenance, differentiation, and the development of human diseases. Additionally, we discussed the up-and-coming animal models, beyond the classical fruit fly and earthworm systems, for studying piRNA-PIWIs in self-renewal and cell differentiation. Further, our review offers new insights and discusses the emerging roles of piRNA-dependent and independent functions of PIWI proteins in the soma, especially the mRNA regulation at the post-transcriptional level, governing stem cell characteristics, tumor development, and cardiovascular and neurodegenerative diseases.

TOXICOLOGICAL IMPACT OF DICLOFENAC SODIUM: HEMATOLOGICAL, BIOCHEMICAL AND HISTOPATHOLOGICAL CHANGES IN MALE RATS

Background: Long-term administration of diclofenac sodium can lead to harmful effects on body tissues, causing cellular injuries that include changes in kidney function and contributing to the development of immune mechanisms against kidney tissues. This study aimed to evaluate the toxic effects of diclofenac sodium on hematological and biochemical parameters, as well as histopathological changes in the kidneys of experimental animals. Methods: Forty male Albino-Aster mice were divided into four groups: control and three groups administered diclofenac sodium orally at doses of 20.5, 45 and 56.25 mg/kg body weight for 20 days. Blood samples were collected for hematological and biochemical analyses and kidney tissues were examined histopathologically. Results: Diclofenac sodium administration caused a significant decrease in red blood cells, hemoglobin, packed cell volume, mean corpuscular volume and mean corpuscular hemoglobin concentration, as well as a significant increase in platelets and total white blood cells. Serum alkaline phosphatase, aspartate aminotransferase and alanine aminotransferase were significantly elevated. Histopathological examination revealed congestion, inflammation, glomerular abnormalities, tubular necrosis and vascular changes in the kidney tissues, with the severity increasing with higher doses. Conclusion: Diclofenac sodium administration at different doses can cause significant alterations in hematological and biochemical parameters, as well as histopathological changes in the kidneys of male rats, indicating potential adverse effects on animal tissues. Caution is recommended in the clinical use of diclofenac sodium and the lowest effective dose and duration should be used to achieve the desired therapeutic effect.

Expression and Clinical Implications of pro-BNP and Soluble ST2 in Chronic Heart Failure

Aims/Background Chronic heart failure (CHF) is a complex clinical syndrome resulting from various cardiac diseases, characterized by weakened cardiac pumping capacity and inadequate blood supply to body tissues. This study aims to investigate the expression and clinical implications of pro-B-type natriuretic peptide (pro-BNP) and soluble suppression of tumorigenicity 2 (sST2) in CHF to explore their potential in early diagnosis and severity assessment of the pathological condition. Methods This study included 146 CHF patients treated at our hospital from January 2022 to December 2023, who were classified in the observation group, and 150 concurrent healthy people categorized in the control group. pro-BNP and sST2 levels in the observation and control groups were compared. The diagnostic value of pro-BNP and sST2 in CHF was determined using receiver operating characteristic (ROC) curves. Besides, pro-BNP and sST2 levels in patients with different New York Heart Association (NYHA) grades were compared, and their relationships with left ventricular ejection fraction (LVEF), left atrial diameter (LAD), and left ventricular end-diastolic diameter (LVEDD) were assessed by means of Pearson's correlation. Results CHF cases showed markedly higher pro-BNP and sST2 levels than healthy controls (p < 0.05). The area under the ROC curves for pro-BNP and sST2 in diagnosing CHF was 0.826 (95% CI: 0.778–0.875) and 0.733 (95% CI: 0.674–0.791), respectively. pro-BNP and sST2 levels were similar in grades I and II patients (p > 0.05), but lower when compared with those in grades III and IV patients (p < 0.05). Grade III patients showed lower pro-BNP and sST2 expression than grade Ⅳ patients (p < 0.05). Additionally, pro-BNP and sST2 had an inverse connection with LVEF (r = –0.764 and r = –0.535, respectively) and a positive correlation with LAD (r = 0.752 and r = 0.535, respectively) and LVEDD (r = 0.721 and r = 0.544, respectively). Conclusion pro-BNP and sST2 exhibit good diagnostic value for CHF, owing to their close association with patients' cardiac function. These biomarkers can be used as effective indicators to evaluate the severity of heart failure.

Compact multiband cuff button antenna for WBAN application

Abstract A compact dual layer conformal wearable quad band antenna is proposed for wireless body area network applications. The proposed button like patch antenna resonates at 2.5 GHz (industrial, scientific, and medical bands)/3.6 GHz sub six 5G band/5.75 GHz (wireless local area network/ISM band)/ and 9.8 GHz (X band) frequencies. The circular textile antenna is constructed with jean and polydimethylsiloxane substrate having a slotted ground of radius 10 mm and thickness 1.5 mm. The simulated gains obtained at the operating bands are 1.85/2.03/1.49/3.27 dBi, respectively. The designed antenna’s directed radiation pattern assures reduced backward radiation to body tissue. The specific absorption rate (SAR) analysis for the antenna at multiple resonant frequencies has also been reported, which are well below the SAR threshold of 1.6 W/kg for 1 gm of tissue, indicating that the model works adequately for wearable applications. The experimental characterization on- and off-body of the fabricated antenna validates the simulated results.

Role of Daruharidra Rasakriya Lepa in the management of Dushta Vrana w.s.r. to Chronic Non-Healing Ulcer : A Clinical Study

Background: Vrana is an interruption of continuity of body tissue or part by physical, microbial, chemical or immunological causes, typically associated with loss of function. Vrana can be correlated with wounds and ulcers. Normally, Vranas are healed by itself if kept clean. Wound factors delay wound healing. The presence of infection, insufficient blood supply, tissue tension, radiation, malnutrition, diabetes, consumption of steroids etc. are the important factors which delay the wound healing process. Dushta Vrana is one of the Vranas which needs time for its healing. Acharya Sushruta mentioned Rasakriya under Shasti Upakramas for management of Vrana. Any drug formulation should possess two qualities for proper wound healing i.e., Vrana Shodhana (Making free from undesirable wound factors) and Vrana Ropana (Closure of the wound). Many formulations are in use for centuries. One of them is Daruharidrarasakriya. The objective of the present study is to evaluate the effect of Daruharidraraskriya on the basis of relief in signs and symptoms of Dushta Vrana. Materials and Methods: In this study, Lepa of Daruharidrarasakriya was applied on affected part of 25 patients selected from Shalya OPD, GAMC&H, Akhnoor, for the management of Vrana. Results: The results observed based on the relief obtained on the subjective and objective parameters taken for consideration for this study viz. Pain, Size of ulcer, Discharge, Base (granulation tissue) and were found significant on all the above parameters. Conclusion: It showed that Daruharidraraskriya significantly helped in reduction of the signs and symptoms of the Dushta Vrana, enhancing wound healing process and reducing the morbidity of the patients.

Development of Thermosensitive Hydrogels with Tailor-Made Geometries to Modulate Cell Harvesting of Non-Flat Cell Cultures

Considering the complexity in terms of design that characterizes the different tissues of the human body, it is necessary to study and develop more precise therapies. In this sense, this article presents the possibility of fabricating photocurable thermosensitive hydrogels with free geometry and based on N-Vinyl Caprolactam (VCL) with the aim of modulating the adhesion of non-planar cell cultures. The fabrication process is based on the use as a mold of two-layer thick water-soluble polyvinyl alcohol (PVA) previously printed by Extrusion Material (MatEx). From this technology it has been possible to obtain hydrogels with different 3D geometries and different crosslinking percentages (2, 4 and 6 mol%). Studies have shown that networks reduce their thermosensitivity not only when the percentage of crosslinking in the formulation increases, but also when the thickness of the hydrogel obtained increases. Based on this reduction in thermosensitivity, the less crosslinked (2 mol%) hydrogels have been evaluated to carry out a novel direct application in which hydrogels with curved geometry have allowed cell adhesion and proliferation at 37 °C with the endothelial cell line C166-GFP; likewise, non-aggressive cell detachment was observed when the hydrogel temperature was reduced to values of 20 °C. Therefore, the present manuscript shows a novel application for the synthesis of free-form thermosensitive hydrogels that allows modulation of non-planar cell cultures.

Compound-Specific Isotope Analysis as a Potential Approach for Investigation of Cerebral Accumulation of Docosahexaenoic Acid: Previous Milestones and Recent Trends.

Docosahexaenoic acid (DHA, C22:6 n-3), a predominant omega-3 polyunsaturated fatty acid in brain, plays a vital role in cerebral development and exhibits functions with potential therapeutic effects (synaptic function, neurogenesis, brain inflammation regulation) in neurodegenerative diseases. The most common approaches of studying the cerebral accretion and metabolism of DHA involve the use of stable or radiolabeled tracers. Although these methods approved kinetic modeling of ratios and turnovers for fatty acids, they are associated with excessive costs, restrictive studies, and singular dosing effects. Compound-specific isotope analysis (CSIA) is recognized as a cost-effective alternative approach for investigating DHA metabolism in vitro and in vivo. This method involves determining variations in 13C content to identify the sources of specific compounds. This review comprehensively discusses a summary of different methods and recent advancements in CSIA application in studying DHA turnover in brain. Following, the ability and applications of CSIA by using gas-chromatography combined with isotope ratio mass-spectrometry to differentiate between natural endogenous DHA in brain and exogenous DHA are also highlighted. In general, the efficiency of CSIA has been demonstrated in utilizing natural 13C enrichment to distinguish between the incorporation of newly synthesized or pre-existing DHA into the brain and other body tissues, eliminating the need of tracers. This review provides comprehensive knowledge, which will have potential applications in both academia and industry for advancing the understanding in neurobiology and enhancing the development of nutritional strategies and pharmaceutical interventions targeting brain health.

Softening, Conformable, and Stretchable Conductors for Implantable Bioelectronics Interfaces

AbstractNeural implantable devices serve as electronic interfaces facilitating communication between the body and external electronic systems. These bioelectronic systems ideally possess stable electrical conductivity, flexibility, and stretchability to accommodate dynamic movements within the body. However, achieving both high electrical conductivity and mechanical compatibility remains a challenge. Effective electrical conductors tend to be rigid and stiff, leading to a substantial mechanical mismatch with bodily tissues. On the other hand, highly stretchable polymers, while mechanically compatible, often suffer from limited compatibility with lithography techniques and reduced electrical stability. Therefore, there exists a pressing need to develop electromechanically stable neural interfaces that enable precise communication with biological tissues. In this study, a polymer that is softening, flexible, conformal, and compatible with lithography to microfabricate perforated thin‐film architectures is utilized. These architectures offer stretchability and improved mechanical compatibility. Three distinct geometries are evaluated both mechanically and electrically under in vitro conditions that simulate physiological environments. Notably, the Peano structure demonstrates minimal changes in resistance, varying less than 1.5× even when subjected to ≈150% strain. Furthermore, devices exhibit a maximum mechanical elongation before fracture, reaching 220%. Finally, the application of multi‐electrode spinal cord leads employing titanium nitride for neural stimulation in rat models is demonstrated.

From promise to practice: CAR T and Treg cell therapies in autoimmunity and other immune-mediated diseases.

Autoimmune diseases, characterized by the immune system's attack on the body's own tissues, affect millions of people worldwide. Current treatments, which primarily rely on broad immunosuppression and symptom management, are often associated with significant adverse effects and necessitate lifelong therapy. This review explores the next generation of therapies for immune-mediated diseases, including chimeric antigen receptor (CAR) T cell and regulatory T cell (Treg)-based approaches, which offer the prospect of targeted, durable disease remission. Notably, we highlight the emergence of CD19-targeted CAR T cell therapies, and their ability to drive sustained remission in B cell-mediated autoimmune diseases, suggesting a possible paradigm shift. Further, we discuss the therapeutic potential of Type 1 and FOXP3+ Treg and CAR-Treg cells, which aim to achieve localized immune modulation by targeting their activity to specific tissues or cell types, thereby minimizing the risk of generalized immunosuppression. By examining the latest advances in this rapidly evolving field, we underscore the potential of these innovative cell therapies to address the unmet need for long-term remission and potential tolerance induction in individuals with autoimmune and immune-mediated diseases.

Rarγ-Foxa1 signaling promotes luminal identity in prostate progenitors and is disrupted in prostate cancer.

Retinoic acid (RA) signaling is a master regulator of vertebrate development with crucial roles in body axis orientation and tissue differentiation, including in the reproductive system. However, a mechanistic understanding of how RA signaling governs cell lineage identity is often missing. Here, leveraging prostate organoid technology, we show that RA signaling orchestrates the commitment of adult mouse prostate progenitors to glandular identity, epithelial barrier integrity, and specification of prostatic lumen. RA-dependent RARγ activation promotes the expression of Foxa1, which synergizes with the androgen pathway for luminal expansion, cytoarchitecture and function. FOXA1 mutations are common in prostate and breast cancers, though their pathogenic mechanism is incompletely understood. Combining functional genetics with structural modeling of FOXA1 folding and chromatin binding analyses, we discover that FOXA1F254E255 is a loss-of-function mutation compromising its transcriptional function and luminal fate commitment of prostate progenitors. Overall, we define RA as an instructive signal for glandular identity in adult prostate progenitors. Importantly, we identify cancer-associated FOXA1 indels affecting residue F254 as loss-of-function mutations promoting dedifferentiation of adult prostate progenitors.

CT assessment of liver fat fraction and abdominal fat composition can predict postoperative liver metastasis of colorectal cancer

ObjectiveThe aim of this study is to investigate the clinical value of liver fat fraction assessed by CT(CT-LFF) and abdominal fat components. We focus on predicting liver metastasis (LM) after colorectal cancer (CRC) surgery. MethodsClinical and imaging data from 79 patients who underwent radical CRC surgery between January 2019 and December 2021 were retrospectively collected. Semi-automatic software was used to quantify the area of different body tissues at the level of the third lumbar vertebra, and liver fat fraction was calculated based on the CT values. Patients were grouped according to BMI, tumor grade, T stage, N stage, vascular invasion (VI), perineural invasion (PNI), and preoperative levels of CEA and CA199. A multivariate logistic regression model was used to identify independent risk factors for early LM after surgery. The diagnostic performance was assessed using the receiver operating characteristic analysis with 5-fold cross-validation. The Kaplan-Meier method was used to draw survival curves, and Log-Rank test was used for survival analysis. ResultsThe study found that the occurrence of LM after CRC surgery was significantly associated with CA199 positivity, VI, PNI, N1-2 stage, CT-LFF, VAT index (VATI). Multivariate logistic regression analysis showed that CA199 positivity (OR = 7.659), N1-2 stage (OR = 6.394), CT-LFF (OR = 1.271), VATI (OR = 1.043) were independent risk factors for predicting LM after CRC surgery. The multivariate logistic regression model, constructed using these independent risk factors, demonstrated robust predictive performance across 5-fold cross-validations, with an average AUC of 0.898 (95 % CI: 0.828–0.969). Survival analysis showed a significant difference in liver metastasis-free survival rates between the high-risk and low-risk groups (P < 0.001). ConclusionCT-LFF and VATI assessed by CT are independent risk factors for predicting LM after CRC surgery. The multivariate prediction model combining CA199 and N stage shows high predictive performance.

Mannose: A Promising Player in Clinical and Biomedical Applications.

Mannose, an isomer of glucose, exhibits a distinct molecular structure with the same formula but a different atom arrangement, contributing to its specific biological functions. Widely distributed in body fluids and tissues, particularly in the nervous system, skin, testes, and retinas, mannose plays a crucial role as a direct precursor for glycoprotein synthesis. Glycoproteins, essential for immune regulation and glycosylation processes, underscore the significance of mannose in these physiological activities. The clinical and biomedical applications of mannose are diverse, encompassing its anti-inflammatory properties, potential to inhibit bacterial infections, role in metabolism regulation, and suggested involvement in alleviating diabetes and obesity. Additionally, mannose shows promise in antitumor effects, immune modulation, and the construction of drug carriers, indicating a broad spectrum of therapeutic potential. The article aims to present a comprehensive review of mannose, focusing on its molecular structure, metabolic pathways, and clinical and biomedical applications, and also to emphasize its status as a promising therapeutic agent.

The Effectiveness of Mung Beans and Katuk Leaves on Increasing Hemoglobin Levels in Maternity at TPMB Rennie Yuwitasari in 2022

Background : An iron-rich protein called hemoglobin has an affinity for oxygen, which causes it to produce oxyhemoglobin in red blood cells. O2 (oxygen) will be transported from the lungs to the body's tissues as a result of this function. Purpose of Writing: to determine the Effectiveness of Mung Beans and Katuk Leaves on Increased Hemoglobin Levels in Mothers Giving Birth at TPMB Rennie Yuwitasari Year 2022”. Research Method : This research is an experiment designed One – group pre test – post test design. A sample of 15 people with a quantitative approach. The study population was 20 postpartum mothers who attended TPMB Rennie Yuwitasari. The sampling method used consisted of a total sample of 20 people who were divided into two groups, namely 10 groups receiving green beans and 10 groups receiving katuk leaves. The sampling technique used was accidental sampling. Research results: It is known that the Hb assessment before giving katuk leaves obtained an average value of 10.300 and a standard deviation of 0.7832 with a minimum Hb rating of 8.8 and a maximum of 11.4 while after giving katuk leaves , the mean value was 11.230, with a standard deviation of 0.5877, and the Hb value ranged from 9.8 to 12.0. We got Asimp. The Sig (2-Sided) value is 0.169, and because 0.169 &gt; 0.05 the hypothesis is not proven. This means that there is no difference in giving katuk leaves or green beans to increase hemoglobin levels. So that it can be concluded that bivariate data analysis, namely green beans and katuk leaves have the same effectiveness value in increasing Hb levels in postpartum mothers at TPMB Rennie Yuwitasari. Conclusions and Suggestions: The findings of this study are expected to increase postpartum mothers' understanding of increasing Hb levels by consuming green beans and katuk leaves which have been proven to increase Hb levels.

Evaluating the Antibacterial Properties of a Zeolite-Chitosan Biocomposite for Medical Applications

: Antibacterial substances have garnered significant interest in recent years due to their applications in medical equipment, prostheses, and drug delivery systems. Consequently, it is essential to identify and develop biomaterials with antibacterial properties tailored to specific target sites. This study utilizes two natural biomaterials: Chitosan and zeolite. Zeolite, a bioceramic with an aluminosilicate structure, exhibits high mechanical resistance, making it ideal for use in areas of the body that endure significant pressure, such as bones and teeth. Chitosan, on the other hand, possesses excellent properties for application in various bodily tissues. However, natural polymers like chitosan are often combined with other materials in composites to enhance their mechanical resistance. This research investigates the antibacterial properties of a biocomposite made from zeolite and chitosan against two types of bacteria: Staphylococcus aureus (gram-positive) and Escherichia coli (gram-negative). The results revealed that the composite exhibited strong resistance against E. coli but comparatively lower resistance to S. aureus. Furthermore, the findings suggest that chitosan plays a more significant role in conferring these antibacterial properties.

A Review of Cardiovascular Effects of Marijuana Use.

Cannabinoids exert their effects on body tissues via cannabinoid 1 (CB1) and cannabinoid 2 (CB2) receptors. Receptors are present in brain, myocardium, vascular endothelium, platelets, and adipose tissues. Under normal physiologic conditions, endocannabinoid effects are minimal. The use of exogenous cannabis leads to endothelial dysfunction and increases vascular thrombosis via CB1 receptor stimulation. On the other hand, CB2 receptors may have a beneficial anti-inflammatory response. We reviewed reports of the effects of cannabis on the cardiovascular system utilizing PUBMED from the last 20years with emphasis on the most recent reports. Despite a plethora of reviews and some retrospective studies, there is a need for more definitive data regarding the effect of cannabis use on cardiovascular events (CVE). Marijuana does not appear to accelerate atherosclerosis. There is a suggestion that it may induce myocardial infarction in a small percentage of users, especially in male users, particularly during recent use. It has a possibility of increasing cerebrovascular events when combined with other risk factors such as tobacco use. There is an association between cannabis use and increased evidence of peripheral vascular disease. To have a definitive answer to the question of whether cannabis contributes to CVE, there is an urgent need for prospective controlled studies with patients presenting to academically oriented medical facilities with CVE following cannabis use for either medicinal or recreational use.

Effects of GHRH and its analogues on the Vascular System.

Growth hormone-releasing hormone (GHRH) is a crucial endocrine hormone that exerts its biological effects by binding to specific receptors on the cell surface, known as GHRH receptors (GHRH-R). This binding activates downstream signaling pathways. In addition to promoting growth hormone secretion by the pituitary gland, GHRH also functions to maintain multisystem homeostasis by interacting with peripheral tissues that express GHRH-R. Due to the multiple roles of GHRH in body development and tissue repair, a variety of GHRH analogue peptides have been synthesized. Based on their effects on GHRH-R, these GHRH analogues can be classified as GHRH-R agonists and antagonists. Recently, the interaction of GHRH and its analogues with blood vessels, such as promoting angiogenesis and inhibiting vascular calcification (VC), has gained significant attention. This article reviews the effects of GHRH and its analogues on blood vessels.