-
Advances in Experimental Medicine and... 2016Oral biofilms, especially those caused by oral mycobiota, which include Candida species, are very difficult to eradicate, due to their complex structure and... (Review)
Review
Oral biofilms, especially those caused by oral mycobiota, which include Candida species, are very difficult to eradicate, due to their complex structure and recalcitrance. Moreover, the mouth is prone to be colonized since it presents different types of surfaces, especially biomaterials and dental implants, often associated with a high rate of infections. Therefore, although disinfection of the oral cavity is of major importance, the number of commercially available disinfectants is not high. However, new solutions, as silver nanoparticles are being developed to help oral biofilms' eradication.
Topics: Animals; Biofilms; Candida; Candidiasis, Oral; Disinfectants; Humans; Mouth
PubMed: 27271679
DOI: 10.1007/5584_2016_10 -
Journal of Medical Microbiology Nov 2019Over the past century, numerous studies have used oral biofilm models to investigate growth kinetics, biofilm formation, structure and composition, antimicrobial... (Review)
Review
Over the past century, numerous studies have used oral biofilm models to investigate growth kinetics, biofilm formation, structure and composition, antimicrobial susceptibility and host-pathogen interactions. animal models provide useful models of some oral diseases; however, these are expensive and carry vast ethical implications. Oral biofilms grown or maintained offer a useful platform for certain studies and have the advantages of being inexpensive to establish and easy to reproduce and manipulate. In addition, a wide range of variables can be monitored and adjusted to mimic the dynamic environmental changes at different sites in the oral cavity, such as pH, temperature, salivary and gingival crevicular fluid flow rates, or microbial composition. This review provides a detailed insight for early-career oral science researchers into how the biofilm models used in oral research have progressed and improved over the years, their advantages and disadvantages, and how such systems have contributed to our current understanding of oral disease pathogenesis and aetiology.
Topics: Animals; Bacteria; Bacterial Physiological Phenomena; Biofilms; Humans; Mouth
PubMed: 31524581
DOI: 10.1099/jmm.0.001063 -
Journal of Basic Microbiology Aug 2023As a gateway to general health and a diverse microbial habitat, the oral cavity is colonized by numerous microorganisms such as bacteria, fungi, viruses, and archaea.... (Review)
Review
As a gateway to general health and a diverse microbial habitat, the oral cavity is colonized by numerous microorganisms such as bacteria, fungi, viruses, and archaea. Oral microbiota plays an essential role in preserving oral health. Besides, the oral cavity also significantly contributes to systemic health. Physiological aging influences all body systems, including the oral microbial inhabitants. The cited effect can cause diseases by forming dysbiotic communities. Since it has been demonstrated that microbial dysbiosis could disturb the symbiosis state between the host and the resident microorganism, shifting the condition toward a more pathogenic one, this study investigated how the oral microbial shifts in aging could associate with the development or progression of systemic diseases in older adults. The current study focused on the interactions between variations in the oral microbiome and prevalent diseases in older adults, including diabetes mellitus, Sjögren's syndrome, rheumatoid arthritis, pulmonary diseases, cardiovascular diseases, oral candidiasis, Parkinson's disease, Alzheimer's disease, and glaucoma. Underlying diseases can dynamically modify the oral ecology and the composition of its resident oral microbiome. Clinical, experimental, and epidemiological research suggests the associations of systemic disorders with bacteremia and inflammation after oral microbial changes in older adults.
Topics: Humans; Aged; Mouth; Microbiota; Bacteria; Symbiosis; Dysbiosis
PubMed: 37173818
DOI: 10.1002/jobm.202300141 -
Eksperimental'naia I Klinicheskaia... 2015Acid-producing microorganisms are base etiological agents of lesions of tooth enamel and destruction of dentin. The process start by specific microflora of tooth... (Review)
Review
Acid-producing microorganisms are base etiological agents of lesions of tooth enamel and destruction of dentin. The process start by specific microflora of tooth deposit--Streptococcus mutans, Lactobacteria and Actinomycetis viscosus which ferment food carbogydrate to form acids. High titre of them in oral cavity may be considered like a marker of carbohydrate food. But the pathogenic bacteria don't have aggression to host organism until they will have virulent factors which help to get over protection of host organism. At the same time, microflora of oral cavity is involved to form pellicula. Pellicula is a biofilm which to protect tooth enamel and dentin. Understanding relationships between safety factors of host and pathogenic microflora of oral cavity will give to create effective methods of prevention and treatment.
Topics: Biofilms; Gram-Positive Bacteria; Humans; Microbiota; Mouth; Mouth Diseases
PubMed: 26817109
DOI: No ID Found -
Hua Xi Kou Qiang Yi Xue Za Zhi = Huaxi... Feb 2023Oral mucosal administration is extensively used to treat systemic diseases and oral mucosal diseases owing to unique oral mucosal structure and convenient... (Review)
Review
Oral mucosal administration is extensively used to treat systemic diseases and oral mucosal diseases owing to unique oral mucosal structure and convenient administration. However, the special microenvironment of the oral cavity being open, moving, and humid causes oral mucosal drug delivery to face great challenges. To address this dilemma, local adhesive agents have been widely studied for sustained drug delivery and improved bioavailability, showing broad prospects. Recently, the author has performed studies on oral mucosal adhesive agents. In this paper, the progress of research on oral mucosal adhesive materials is reviewed.
Topics: Humans; Drug Delivery Systems; Mouth Mucosa; Mouth Diseases
PubMed: 38596935
DOI: 10.7518/hxkq.2023.01.001 -
Cells Aug 2023Adult human gingival fibroblasts (HGFs), the most abundant cells in the oral cavity, are essential for maintaining oral homeostasis. Compared with other tissues, adult... (Review)
Review
Adult human gingival fibroblasts (HGFs), the most abundant cells in the oral cavity, are essential for maintaining oral homeostasis. Compared with other tissues, adult oral mucosal wounds heal regeneratively, without scarring. Relative to fibroblasts from other locations, HGFs are relatively refractory to myofibroblast differentiation, immunomodulatory, highly regenerative, readily obtained via minimally invasive procedures, easily and rapidly expanded in vitro, and highly responsive to growth factors and cytokines. Consequently, HGFs might be a superior, yet perhaps underappreciated, source of adult mesenchymal progenitor cells to use in tissue engineering and regeneration applications, including the treatment of fibrotic auto-immune connective tissue diseases such as scleroderma. Herein, we highlight in vitro and translational studies that have investigated the regenerative and differentiation potential of HGFs, with the objective of outlining current limitations and inspiring future research that could facilitate translating the regenerative potential of HGFs into the clinic.
Topics: Adult; Humans; Regenerative Medicine; Gingiva; Fibroblasts; Mouth; Mouth Mucosa
PubMed: 37626831
DOI: 10.3390/cells12162021 -
Applied Microbiology and Biotechnology Feb 2023The phylum Pseudomonadota is amongst the most represented in the environment, with a comparatively lower prevalence in the human oral cavity. The ubiquity of... (Review)
Review
The phylum Pseudomonadota is amongst the most represented in the environment, with a comparatively lower prevalence in the human oral cavity. The ubiquity of Pseudomonadota and the fact that the oral cavity is the most likely entry portal of bacteria from external sources underlie the need to better understand its occurrence in the interface environment-humans. Yet, the relevance oral Pseudomonadota is largely underexplored in the scientific literature, a gap that this review aims at addressing by making, for the first time, an overview of the diversity and ecology of Pseudomonadota in the oral cavity. The screening of scientific literature and human microbiome databases unveiled 1328 reports of Pseudomonadota in the oral cavity. Most of these belonged to the classes Beta- and Gammaproteobacteria, mainly to the families Neisseriaceae, Campylobacteriaceae, and Pasteurelaceae. Others also regularly reported include genera such as Enterobacter, Klebsiella, Acinetobacter, Escherichia, Burkholderia, or Citrobacter, whose members have high potential to acquire virulence and antibiotic resistance genes. This review provides evidence that clinically relevant environmental Pseudomonadota may colonize humans via oral cavity. The need for further investigation about Pseudomonadota at the environment-oral cavity interface and their role as vectors potentially involved in virulence and antibiotic resistance transmission is demonstrated. KEY POINTS: • Neisseriaceae, Campylobacteriaceae, and Pasteurelaceae are part of the core oral microbiome • Enterobacteriaceae, Acinetobacter, or Burkholderia are frequent in the oral microbiome • Gut dysbiosis may be associated with colonization by ubiquitous oral Pseudomonadota.
Topics: Humans; Mouth; Bacteria; Microbiota; Anti-Bacterial Agents; Klebsiella
PubMed: 36567346
DOI: 10.1007/s00253-022-12333-y -
Swiss Dental Journal Dec 2017The face is a unique part of the body with its individual anatomical characteristics. While the dental clinician is usually focused on the oral cavity, the physical... (Review)
Review
The face is a unique part of the body with its individual anatomical characteristics. While the dental clinician is usually focused on the oral cavity, the physical examination should involve close attention to the neurosensory status of the facial skin. Furthermore, skin sensitivity should be assessed pre- and postoperatively in conjunction with dental interventions. The face can be divided into several functional units, such as the eyes, nose, mouth/lips, and cheeks. With regard to the neurosensory supply of the skin, various innervation territories of the face can be distinguished representing the three divisions of the trigeminal nerve. In addition, cutaneous branches of the cervical plexus provide sensitivity to the lower and lateral portions of the face. The objective of the present article is to provide the dental clinician with a literature update of the neurosensory innervation of the face.
Topics: Face; Humans; Mouth; Skin; Trigeminal Nerve
PubMed: 30920784
DOI: 10.61872/sdj-2017-12-346 -
Oral Surgery, Oral Medicine, Oral... Jan 2015Adverse reactions to medications are common and may have a variety of clinical presentations in the oral cavity. Targeted therapies and the new biologic agents have... (Review)
Review
Adverse reactions to medications are common and may have a variety of clinical presentations in the oral cavity. Targeted therapies and the new biologic agents have revolutionized the treatment of cancers, autoimmune diseases, and inflammatory and rheumatologic diseases but have also been associated with adverse events in the oral cavity. Some examples include osteonecrosis, seen with not only bisphosphonates but also antiangiogenic agents, and the distinctive ulcers caused by mammalian target of rapamycin inhibitors. As newer therapeutic agents are approved, it is likely that more adverse drug events will be encountered. This review describes the most common clinical presentations of oral mucosal reactions to medications, namely, xerostomia, lichenoid reactions, ulcers, bullous disorders, pigmentation, fibrovascular hyperplasia, white lesions, dysesthesia, osteonecrosis, infection, angioedema, and malignancy. Oral health care providers should be familiar with such events, as they will encounter them in their practice.
Topics: Drug-Related Side Effects and Adverse Reactions; Humans; Mouth; Mouth Diseases
PubMed: 25442252
DOI: 10.1016/j.oooo.2014.09.009 -
Oral Diseases Jan 2015The tiny radical nitric oxide (NO) participates in a vast number of physiological functions including vasodilation, nerve transmission, host defence and cellular... (Review)
Review
The tiny radical nitric oxide (NO) participates in a vast number of physiological functions including vasodilation, nerve transmission, host defence and cellular energetics. Classically produced by a family of specific enzymes, NO synthases (NOSs), NO signals via reactions with other radicals or transition metals. An alternative pathway for the generation of NO is the nitrate-nitrite-NO pathway in which the inorganic anions nitrate (NO(3)(-)) and nitrite (NO(2)(-)) are reduced to NO and other reactive nitrogen intermediates. Nitrate and nitrite are oxidation products from NOS-dependent NO generation but also constituents in our diet, mainly in leafy green vegetables. Irrespective of origin, active uptake of circulating nitrate in the salivary glands, excretion in saliva and subsequent reduction to nitrite by oral commensal bacteria are all necessary steps for further NO generation. This central role of the oral cavity in regulating NO generation from nitrate presents a new and intriguing aspect of the human microbiome in health and disease. In this review, we present recent advances in our understanding of the nitrate-nitrite-NO pathway and specifically highlight the importance of the oral cavity as a hub for its function.
Topics: Homeostasis; Humans; Microbiota; Mouth; Nitrates; Nitric Oxide; Nitrites; Signal Transduction
PubMed: 23837897
DOI: 10.1111/odi.12157