Analysis Of Saliva Research Articles

Utility of Raman Spectroscopy in Pulmonary Medicine.

The Raman effect, or as per its original description, "modified scattering", is an observation that the number of scattered light waves shifts after photons make nonelastic contact with a molecule. This effect allows Raman spectroscopy to be very useful in various fields. Although it is well known that Raman spectroscopy could be very beneficial in medicine as a diagnostic tool, there are not many applications of Raman spectroscopy in pulmonary medicine. Mostly tumor tissue, sputum and saliva have been used as material for analysis in respiratory medicine. Raman spectroscopy has shown promising results in malignancy recognition and even tumor staging. Saliva is a biological fluid that could be used as a reliable biomarker of the physiological state of the human body, and is easily acquired. Saliva analysis using Raman spectroscopy has the potential to be a relatively inexpensive and quick tool that could be used for diagnostic, screening and phenotyping purposes. Chronic obstructive pulmonary disease (COPD) is a growing cause of disability and death, and its phenotyping using saliva analysis via Raman spectroscopy has a great potential to be a dependable tool to, among other things, help reduce hospitalizations and disease burden. Although existing methods are effective and generally available, Raman spectroscopy has the benefit of being quick and noninvasive, potentially reducing healthcare costs and workload.

Fungiform Papillae and Gustatory Function in Neurofibromatosis Type 1: A Case-Control Study.

Fungiform papillae enlargement is a common oral manifestation of neurofibromatosis type 1 (NF1). This study aimed to objectively evaluate the size, number, and symmetry of fungiform papillae in NF1 individuals and investigate the relationship between these alterations and taste perception, salivary flow, dietary habits, and BMI. A cross-sectional case-control study was conducted on 80 participants (40 with NF1 and 40 controls), matched by age and sex. Participants underwent quantitative and morphological evaluation of fungiform papillae, gustatory perception tests, sialometry, saliva analysis, xerostomia assessment, dietary assessments, and Body Mass Index calculations. The NF1 group exhibited significantly larger and more asymmetric fungiform papillae and exhibited a higher detection threshold for sweet and sour tastes, as well as hyposalivation and lower preference for healthy foods compared to the controls. No correlation was found between papillae morphology, gustatory perception tests, saliva properties, xerostomia, food preferences, or BMI in the NF1 group. Enlarged and asymmetric fungiform papillae, hyposalivation, heightened sensitivity to sweet and sour tastes, and reduced healthy eating habits were common in NF1. Although fungiform papillae alterations seem unrelated to taste sensitivity and food preferences, further investigation is needed to better understand the mechanisms underlying these changes.

Saliva as a diagnostic tool in soccer: a scoping review.

A high-performance sport like soccer requires training strategies that aim to reach peak performance at the right time for the desired competitions. Thus, the investigation of biochemical markers in saliva is a tool that is beginning to be used in athletes within the physical training process. There is still no evidence on universal saliva collection and analysis protocols in soccer. This review aims to map the use of saliva as a tool for analyzing athletic performance in soccer, from the biomarkers used to the validated protocols for these analyses. A broad systematic literature search was carried out in the electronic databases Web of Science, Livivo, Scopus, PubMed, LILACS and gray literature (Google Scholar and ProQuest). Two reviewers selected the studies and extracted data on the type of salivary collection used, the salivary biomarker evaluated and monitored. Ninety-three articles were included. The most frequently analyzed salivary biomarkers were cortisol (n=53), testosterone (n=35), secretory immunoglobulin A (SIgA) (n=33), salivary alpha amylase (n=7), genetic polymorphisms (n=4) and miRNAs (n=2). The results of the studies indicated beneficial effects in monitoring salivary biomarkers in the assessment of sports performance, although most studies did not include a control group capable of comparison. Salivary collection and analysis protocols were varied and commonly not reported. This scoping review provides a comprehensive overview of the current landscape of salivary biomarker research in soccer. The findings underscore the importance of these biomarkers in assessing athletes' physiological responses and overall well-being. Future research should focus on refining methodologies, exploring additional biomarkers, and investigating the practical implications of salivary biomarker monitoring in soccer and other sports.

An enzymatic reaction-based SERS saliva analysis microporous array chip for chiral differentiation and high-throughput detection of D-amino acids.

ARaman-active boronate modified surface-enhanced Raman scattering (SERS) microporous array chip based on the enzymatic reaction was constructed for reliable, sensitive, and quantitative monitoring of D-Proline (D-Pro) and D-Alanine (D-Ala) in saliva. Initially, 3-mercaptophenylboronic acid (3-MPBA) was bonded to Au-coated Si nanocrown arrays (Au/SiNCA) via Au-S bonding. Following this, H2O2 obtained from D-amino acid oxidase (DAAO)-specific catalyzed D-amino acids (D-AAs) further reduced 3-MPBA to 3-hydroxythiophenol (3-HTP) with a new Raman peak at 882cm-1. Meanwhile, the original characteristic peak at 998cm-1 remained unchanged. Therefore, the I882/I998 ratio increased with increasing content ofD-AAs in the sample to be tested, allowing D-AAs to be quantitatively detected. TheAu/SiNCA with large-area periodic crown structure prepared provided numerous, uniform "hot spots," and the microporous array chip with 16 detection units was employed as the platform for SERS analysis, realizing high-throughput, high sensitivity, high specificity and high-reliability quantitative detection of D-AAs (D-Pro and D-Ala). The limits of detection (LOD) were down to 10.1µM and 13.7µM throughout the linear range of 20-500µM. The good results of the saliva detection suggested that this SERS sensor could rapidly differentiate between early-stage gastric cancer patients and healthy individuals.

12260 Assessing The Impact Of Saliva Collection Devices On Analyte Recovery

Abstract Disclosure: D. Marshall: None. M. Dolan: None. M. Mctaggart: None. B.G. Keevil: None. Introduction: Analysis of saliva is gathering momentum, often conveying advantages over regular venepuncture, offering a convenient way of collecting multiple samples throughout the day with relative ease from the comfort of a patient’s home or workplace. The advent of more sensitive mass spectrometry equipment has opened the possibility of measuring analytes previously unsuitable, offering a multitude of steroid hormones for diagnosis and monitoring of a range of endocrine disorders. Traditionally, samples are collected onto a Sarstedt Salivette device comprising of a synthetic swab enclosed within a polypropylene tube. For certain analytes, the Salivette device is known to impede analyte recovery, resulting in the requirement for a passive drool sample which can be difficult and unpleasant to collect for some patients. Methods Previous work has been undertaken showing the SalivaBio Oral Swab (SOS) to have less of an impact on analyte recovery. Here, through addition of low, medium and high spikes and subsequent LC-MS/MS analysis of 19 different steroid hormones (11-dehydrocorticosterone, 11-deoxycorticosterone, 11-deoxycortisol, 11-hydroxyandrostenedione, 11-hydroxytestosterone, 11-ketoandrostenedione, 11-ketotestosterone, 17-hydroxyprogesterone, 18-hydroxycortisol, 18-oxocortisol, 21-deoxycortisol, aldosterone, androstenedione, corticosterone, cortisol, cortisone, dexamethasone, testosterone and tetrahydro11-deoxycortisol) we aimed to assess a broader repertoire of analytes and whether saliva collection devices impact on analyte recovery. Results With an acceptability criterion of 10% difference from baseline passive drool samples, Salivette devices were acceptable for 12 out of 18 analytes, SOS were acceptable for 16 analytes. Both devices were unacceptable for measurement of androstenedione, testosterone and 11-deoxycorticosterone. When 10% is deemed as an acceptable difference, the SOS performs better than the Salivette device for the steroid hormones investigated in this study. This may have implications for research studies, patient diagnosis and monitoring of endocrine disorders where saliva collection devices were previously deemed unacceptable due to issues with analyte recovery. Presentation: 6/2/2024

Attenuated Total Reflection-Fourier Transform Infrared (ATR-FTIR) Spectroscopy Analysis of Saliva as a Diagnostic Specimen for Rapid Classification of Oral Squamous Cell Carcinoma Using Chemometrics Methods

Background & Aim Recent advancements in analytical techniques have highlighted the potential of Attenuated Total Reflection-Fourier Transform Infrared (ATR-FTIR) spectroscopy as a quick, cost-effective, non-invasive, and efficient tool for cancer diagnosis. This study aims to evaluate the effectiveness of ATR-FTIR spectroscopy in combination with supervised machine learning classification models for diagnosing OSCC using saliva samples. Methods & Materials Eighty unstimulated whole saliva samples from OSCC patients and healthy controls were collected. The ATR-FTIR spectroscopy was performed and spectral data were used to classify healthy and OSCC groups. The data were analyzed using machine learning classification methods such as Partial Least Squares-Discriminant Analysis (PLS-DA) and Support Vector Machine Classification (SVM-C). The classification performance of the models was evaluated by computing sensitivity, specificity, precision, and accuracy. Results The samples were classified into two classes based on their spectral data. The obtained results demonstrate a high level of accuracy in the prediction sets of the PLS-DA and SVM-C models, with accuracy values of 0.960 and 0.962, respectively. The OSCC group sensitivity values for both PLS-DA and SVM-C models was 1.00, respectively. Conclusion The study indicates that ATR-FTIR spectroscopy, combined with chemometrics, is a potential method for the non-invasive diagnosis of OSCC using saliva samples. This method achieved high accuracy and the findings of this study suggest that ATR-FTIR spectroscopy could be further developed for clinical applications in OSCC diagnosis.

Oral squamous cell carcinoma identification by FTIR spectroscopy of oral biofluids.

This case study evaluated the efficacy of mid-infrared spectroscopy on the identification of oral squamous cell carcinoma, following the assessment of unstimulated whole saliva. The trial follows a matched case-control design. Saliva samples were characterized through mid-infrared spectroscopy, and chemometric tools were applied to distinguish between case and control participants, further identifying the spectral regions that played a pivotal role in the successful identification of oral squamous cell carcinoma. Mid-infrared spectroscopy was capable to discriminate between cancer patients and matched controls with 100% of correct predictions. Additionally, the spectral regions mostly contributing to the successful prediction were identified and found to be potentially associated with significant molecular changes crucial to the carcinogenic process. The application of mid-infrared spectroscopy in saliva analysis may be regarded as an innovative, noninvasive, low cost, and sensitive technique contributing to the identification of oral squamous cell carcionma.

Electrochemical immunoplatform for the determination of multiple salivary biomarkers of oral diseases related to microbiome dysbiosis

Several diseases of the oral cavity are related to compositional and functional shifts in the oral microbiome. The analysis of saliva is an attractive alternative for the diagnosis and prognosis of these diseases. Samples can be obtained by no invasive procedures and processing is relatively simple. However, sensitive and selective analytical methods are needed to make the diagnosis as specific as possible. In this work, four salivary biomarkers of oral diseases: interleukin-6 (IL-6), receptor activator of NF-kB ligand (RANKL), protein arginine deiminase 4 (PAD4) and the corresponding antibody (anti-PAD-4) were selected as targets for their simultaneous determination using an electrochemical immunosensing platform. Sandwich-type amperometric immunoassays were implemented using horseradish peroxidase (HRP)/H2O2/hydroquinone (HQ) for application to the analysis of saliva of six volunteers. The developed method provides excellent sensitivity, selectivity, and wide linear ranges with LOD values of 0.09 pg mL−1 (IL-6), 0.10 pg mL−1 (RANKL); 0.09 ng mL−1(PAD4) and 14.5 ng mL−1 (anti-PAD4) and allows the accurate analysis of saliva without matrix effects, using 25 μL of raw sample. The developed methodology is competitive with commercial ELISA kits available only for a single biomarker determination, while the assay for the four biomarkers can be completed in less than two hours.

A PhD completed. Oral manifestations in inflammatory bowel diseases

Crohn's disease and ulcerative colitis are chronic inflammatory diseases of the gastrointestinal tract. In addition to bowel symptoms, patients may also have oral manifestations. This thesis investigated potential associations between disease activity in the gut, oral health, salivary gland function, and saliva composition. Patients with Crohn's disease had a significantly higher DMFT index, but showed no difference in periodontal diseases compared to a healthy control group. The saliva composition in patients with active bowel disease differed from that in patients with inactive bowel disease, suggesting that saliva analysis could potentially be used in the future to determine the degree and severity of bowel disease. The knowledge of gastroenterologists and dentists regarding oral manifestations of bowel diseases was found to be limited. Gastroenterologists and dentists valued interdisciplinary patient consultation as very useful, but the frequency of consultation was considered insufficient.

A Comprehensive Review of Protein Biomarkers for Invasive Lung Cancer.

Invasion and metastasis are important hallmarks of lung cancer, and affect patients' survival. Early diagnostics of metastatic potential are important for treatment management. Recent findings suggest that the transition to an invasive phenotype causes changes in the expression of 700-800 genes. In this context, the biomarkers restricted to the specific type of cancer, like lung cancer, are often overlooked. Some well-known protein biomarkers correlate with the progression of the disease and the immunogenicity of the tumor. Most of these biomarkers are not exclusive to lung cancer because of their significant role in tumorigenesis. The dysregulation of others does not necessarily indicate cell invasiveness, as they play an active role in cell division. Clinical studies of lung cancer use protein biomarkers to assess the invasiveness of cancer cells for therapeutic purposes. However, there is still a need to discover new biomarkers for lung cancer. In the future, minimally invasive techniques, such as blood or saliva analyses, may be sufficient for this purpose. Many researchers suggest unconventional biomarkers, like circulating nucleic acids, exosomal proteins, and autoantibodies. This review paper aims to discuss the advantages and limitations of protein biomarkers of invasiveness in lung cancer, to assess their prognostic value, and propose novel biomarker candidates.

Saliva Lipids May Determine Alprazolam Toxicity: An FTIR Study

Background: Alprazolam, a commonly prescribed benzodiazepine, poses risks of toxicity and severe withdrawal symptoms. There is an urgent need for a rapid and sensitive diagnostic method for detecting alprazolam poisoning. Objectives: This study aimed to detect alprazolam poisoning through Fourier-transform infrared (FTIR) analysis of saliva, addressing the need for a quick, cost-effective, and sensitive diagnostic method for poison control and differential diagnosis. Methods: Saliva samples were collected from 45 individuals with benzodiazepine toxicity, therapeutic consumption, and normal health status, as well as from a control group. The samples were analyzed using FTIR spectroscopy. The resulting spectra were processed with OriginPro software, and statistical analyses were performed using receiver operating characteristic (ROC) and analysis of variance (ANOVA). Results: The average age of the studied population was approximately 45 years, with women being the most affected by poisoning. Fourier-transform infrared analysis revealed significant differences in the structure of lipids between poisoned individuals, therapeutic receivers, and healthy individuals (P < 0.0001). Conclusions: Fourier-transform infrared analysis of saliva is a fast and accurate method for diagnosing alprazolam poisoning within minutes, enabling prompt and appropriate treatment during critical life-threatening situations. This non-invasive technique has the potential to guide treatment staff toward effective treatment options.

Association between calcium-channel blockers and gingival enlargement: A case-control study

ObjectivesAs reported by the existing literature, calcium-channel blockers (CCB) can lead to gingival enlargement. The aims of this study were to investigate the factors associated with gingival enlargement in patients on CCB and to assess the saliva and gingival crevicular fluid (GCF) profile of patients on CCB with gingival enlargement. MethodsA total of 131 participants were included. Data were collected from 91 patients taking CCB for treatment of systemic hypertension. The presence of drug-induced gingival enlargement (DIGE) was assessed clinically and associated with patient factors. Patients with DIGE were group-matched for gender and ethnicity with an equal number of consecutive CCB non-DIGE patients (control 1), no-CCB no-DIGE (control 2) and periodontally healthy with no DIGE (control 3) for the saliva and GCF analysis. A bead-based multiplex immunoassay was used to assess a panel of biomarkers. ResultsTwenty-two percent of patients on CCB were diagnosed with DIGE. Lack of daily interdental cleaning and self-reported diagnosis of type II diabetes were associated with the diagnosis of DIGE. When analysing patients only on CCB, those with DIGE had higher GCF levels of vascular endolthelial growth factor (VEGF) (p = 0.032), epidermal growth factor (EGF) (p = 0.030) and matrix metalloproteinase-8 (MMP-8) (p = 0.008). Among the salivary markers, only MMP-8 showed a statistically significant difference across groups (p < 0.001). ConclusionsThis is the first study investigating saliva and GCF biomarkers in patients with DIGE and different control groups, suggesting that causes of the overgrowth might involve inflammatory processes, tissue damage pathways, and potentially an impact on growth factors like VEGF. Future research should verify these results in independent populations and explore the underlying pathogenic mechanisms in-depth. Clinical significanceCalcium-channel blockers (CCB) can lead to gingival enlargement. This study confirms lack of interdental cleaning and type II diabetes as risk factors. Elevated levels of VEGF, EGF, and MMP-8 in gingival crevicular fluid and MMP-8 in saliva suggest inflammatory processes and growth factors might play roles in this condition.

Development of a Highly Sensitive Electrochemical Detection of Salivary Glucose and pH Sensors Based on Glucose Oxidase Using Interdigitated Microelectrodes

The use of electrochemical nanosensors has seen a significant uptick in recent years, largely due to the improved chemical and physical properties that result from the modification of nano or microelectrode devices with nanomaterials.[1] These electrodes play a crucial role in enhancing electrochemical-based nanosensors, offering benefits such as a higher signal-to-noise ratio, lower detection limits, cost-effectiveness, ease of fabrication, and the ability to achieve steady-state currents. The interest in electrochemical nanosensors is considerable, given their broad application spectrum, which includes areas like animal health, human health, environmental monitoring, and bioprocess monitoring.[2] The focus of this research is the development of on-chip salivary glucose and pH sensors that are integrated on silicon wafers. These sensors are specifically designed to identify two frequently occurring bovine diseases: bovine respiratory disease (BRD) and scour. Both of these diseases are highly contagious, often resulting in fatal outcomes for calves, and cause economic losses amounting to millions of euros across Europe. Therefore, early detection of BRD and scour is essential to prevent, oversee, or delay the progression of the disease and its related complications. However, the current methods of blood glucose testing for calves have a significant disadvantage, as they require regular invasive blood sampling. Encouragingly, the analysis of saliva has surfaced as a non-invasive and convenient alternative for monitoring glucose levels in calves with above-mentioned disease.[3] Thus, it is necessary to develop a highly sensitive electrochemical nanosensor for early detection of BRD and scour by using biomarkers (glucose, pH) in a calf's saliva. The proposed electrochemical nanosensor is based on a micro fabricated device that integrates a silicon microelectrode, reference electrode, and counter electrode with six individual sensor that can be used for the detection of six different biomarkers i.e. glucose, pH, lactate, electrolytes, etc. The sensing mechanism is based on the measurement of changes in current that occur because of glucose and pH interactions with the modified silicon surface. The sensors are designed to detect small changes in glucose and pH concentrations that can be indicative of the onset of BRD and scour. The main advantage of the proposed electrochemical nanosensor is its ability to provide rapid and accurate detection of BRD and scour in calves. Early detection of these diseases can significantly improve treatment outcomes and reduce the risk of transmission to other animals. In addition, the low cost and ease of fabrication of these sensors make them an attractive option for large-scale deployment in agricultural settings. In conclusion, the development of on-chip electrochemical nanosensors for the early detection of bovine respiratory disease and scour by using saliva as a medium is a promising approach for improving animal health and reducing economic losses. The proposed sensors offer high sensitivity, low cost, and easy fabrication, making them an attractive option for widespread deployment in agricultural settings. Future research can focus on optimizing the sensor design for improved performance and expanding the range of biomarkers that can be detected.This work represents the microfabrication and characterization of gold interdigitated electrodes (IDE) on silicon using standard microfabrication methods i.e., lithography and etching techniques. The sensor have six individual working electrodes (WEs) along with on-chip gold counter and platinum reference electrodes and can be modified individually for glucose and pH sensor. A two-step electrodeposition process was carried out for platinum platting thus incorporating glucose oxidase (GOx) onto a platinum-modified gold IDE with an o-phenylenediamine (o-PD). The enzymatic based nanosensor demonstrated a linear reduction response to wider range of glucose from 0.02-7mM using chronoamperometric measurements in artificial saliva (Figure 1a,b). In addition, real calf samples have been used to detect the glucose level in calf saliva and compared with commercial glucometer (Figure 1c). Furthermore, at gold IDE, the sensor exhibits linear responses for pH ranging from pH 5-8 using cyclic voltammetric analysis (Figure 1d,f).

Flexible Graphene-Based Sensors for Electrochemical Analysis of Human Saliva and Sweat

Flexible carbon nanomaterial sensors offer a low-cost, facile fabrication approach toward producing sensors at an industrial scale for electrochemical sensing. Graphene and carbon nanotube (CNT) based sensors have been studied, with various fabrication methods available, including producing high-quality thin film graphene and CNTs via chemical vapor deposition (CVD). However, CVD is a high-temperature vacuum process that is low-yielding and consequently costly, hindering its implementation into single-use test strip sensors. Other methods, such as inkjet or aerosol printing, are more cost-effective as they print graphene inks obtained from liquid-phase exfoliation of graphite, which can be performed using large batch processing techniques. Additionally, the laser-induced graphene (LIG) technique directly converts sp3 carbon found in carbon-rich substrates, such as polyimide, into conductive sp2-hybridized carbon found in graphene through a laser scribing technique. Saliva and sweat offer promising biological fluids for precision health monitoring and diagnostics due to the non-invasive nature of their sampling (no need for a blood draw at a laboratory or a fingerstick at home) and due to the abundance of medically relevant analytes. Saliva can also be used for monitoring infections such as COVID-19 infection. Herein, we introduce graphene-based flexible sensors fabricated using scalable manufacturing based on aerosol jet printing (AJP) using custom-formulated graphene inks and laser-induced graphene via direct writing. We report a label-free, high-sensitivity, and rapid-response-time graphene-based electrochemical immunosensor for quantitatively detecting the SARS-CoV-2 Spike Receptor-Binding Domain (RBD) as well as SARS-CoV-2 Spike S1 protein. We demonstrate LIG-based electrochemical sensors for real-time monitoring of glucose, lactate, and sodium in sweat, and potassium and lactate in saliva. Different electrochemical methods are used, including amperometric, potentiometric, coulometric, and impedimetric, to quantify the analytes. All these electrochemical sensors were validated in human saliva and sweat and demonstrated to have limits of detection and linear sensing ranges that are relevant to their sensing applications. Flexibility studies were also performed to evaluate the ability of the sensors to operate under stresses caused by bending, such as those that would be encountered by skin and implanted oral sensors. Results demonstrate the utility of AJP-graphene and LIG for rapid and sensitive measurement of biological analytes and pathogen infection as simple methods for scalable production of non-invasive salivary and perspiration (sweat) health sensors.

Saliva and plasma metabolome changes during anoestrus, the oestrous cycle and early gestation in the mare: A pilot study

Successful reproductive management of domestic mammals depends primarily upon timely identification of oestrous cycle stages. There is a need to develop an alternative non-invasive, welfare-friendly, accurate and reliable method to identify reproductive cycle stages. This is of particular interest for horse breeders, because horses are high-value farm animals that require careful management and individual monitoring. Saliva sampling is non-invasive, painless and welfare-friendly. Thus, we performed a metabolomic analysis of equine saliva during different reproductive stages to identify changes in the salivary metabolome during anoestrus, the oestrous cycle and early gestation. We compared the saliva and plasma metabolomes to investigate the relationship between the two fluids according to the physiological stage. We collected saliva and plasma samples from six mares during seasonal anoestrus, during the follicular phase 3 days, 2 days and 1 day before ovulation and the day when ovulation was detected, during the luteal phase 6 days after ovulation, and during early gestation 18 days after ovulation and insemination. Metabolome analysis was performed by proton-nuclear magnetic resonance spectroscopy. We identified 58 and 51 metabolites in saliva and plasma, respectively. The levels of four metabolites or groups of metabolites in saliva and five metabolites or groups of metabolites in plasma showed significant modifications during the 4 days until ovulation, ie 3 days prior to and on the day of ovulation. The levels of 11 metabolites or groups of metabolites in saliva and 17 metabolites or groups of metabolites in plasma were significantly different between the seasonal anoestrus and the ovarian cyclicity period. The physiological mechanisms involved in the onset of ovarian cyclicity and in ovulation induced modifications of the metabolome both in plasma and saliva. The metabolites whose salivary levels changed during the reproductive cycle could be potential salivary biomarkers to detect the reproductive stage in a welfare friendly production system. In particular, we propose creatine and alanine as candidate salivary biomarkers of ovulation and of the onset of ovarian cyclicity, respectively. However, extensive validation of their reliability is required. Our study contributes to extend to domestic mammals the use of saliva as a non-invasive alternative diagnostic fluid for reproduction in a welfare-friendly production system.

Comparative proteomic analysis of saliva from chewing tobacco users and oral cancer patients reveals shared biomarkers: A case control observational study

ObjectiveThe aim of this study was to compare the salivary proteomic profile of smokeless tobacco users with that of non-users and oral cancer patients using Liquid Chromatography-Mass Spectrometry/ Mass Spectrometry (LC-MS/MS). MethodsSaliva samples from 65 participants were collected in three groups: control (25 participants), smokeless tobacco users (25 participants), and oral cancer (15 participants). ResultsThe analysis revealed 343 protein groups with significantly altered abundance in the saliva samples (P < 0.05). Among these, 43 out of 51 dysregulated proteins in the smokeless tobacco group were also dysregulated in the oral cancer group. Notably, Apolipoprotein A1 (ApoA1) and Pon1 were found to be significantly increased in both smokeless tobacco users and oral cancer patients (p < 0.05). Furthermore, six out of the 20 most significantly altered proteins were mitochondrial proteins, and all of these were decreased relative to controls in both smokeless tobacco users and cancer samples. ConclusionThe proteomic profile of users of chewing (smokeless) tobacco (SLT) shows substantial overlap in the altered pathways and dysregulated proteins with those altered in oral cancer samples, suggesting that SLT use induces a shift toward an oncogenic state. Specifically indicated pathways included blood microparticles, platelet α-granules and protease inhibitors as well as indicators of oxidative stress and exogenous compound processing. What differentiates oral cancer samples from SLT users is enrichment of alterations related to cytoskeletal organisation and tissue remodelling. Clinical SignificanceThe findings emphasize the importance of salivary proteomic profiles because changes in certain proteins may be indicators for early oral cancer identification and risk assessment in smokeless tobacco users.

Therapy-Associated Saliva and Taste change Evaluation (TASTE) in head & neck cancer patients undergoing radiotherapy: a study protocol

BackgroundOne of the main side effects of radiation therapy to the head and neck region is altered taste sensation. This causes significant morbidity and has profound effects on the quality of life (QoL) of patients. While radiation-associated toxicities like xerostomia and dysphagia are part of large investigations, data on taste impairment is sparse. Small cohort sizes in the majority of studies and a variety of analysis methods limit our current understanding of the underlying processes. None of the studies published to date used a taste-specific QoL questionnaire with differentiation of the different taste qualities (e.g. sour, bitter). Furthermore, data regarding the correlation of taste impairment with radiation-associated change in saliva composition is currently not available. The aim of the TASTE study is to fill this gap. Based on the acquired data, a normal tissue complication probability (NTCP) model for late radiation-associated taste impairment will be developed.MethodsIn this prospective, observational multicenter study 150 head and neck cancer patients undergoing radiation therapy will be recruited and undergo repetitive (semi-) objective and subjective assessment of their taste, smell and salivary function (questionnaires, taste and smell assessment, saliva analysis). Primary endpoint will be patient-reported taste impairment 12 months post radiation therapy using a standardized questionnaire. Secondary endpoints will include taste impairment measured using taste strips at 12 months and 2 years post radiation therapy. Differences between subgroups (radiation side, chemotherapy, etc.) and changes over time will be assessed while adjusting for confounding factors (e.g. age, sex, smoking history).DiscussionThis study sets out to further our understanding of taste impairment in patients undergoing radiation therapy to the head and neck region with the goal to prevent this common side effect in future patients. The results of the study may be used to evaluate taste-preserving radiotherapy for patients with head and neck cancer, which may significantly reduce the long-term burden in this patient cohort.

Salivary Biomarkers in Breast Cancer: From Salivaomics to Salivaoncoomics.

Saliva is a promising biological fluid for the diagnosis and monitoring of diseases, including breast cancer. To study the composition of saliva, a complex of "omics" technologies is used: genomics, transcriptomics, proteomics, metabolomics and microbiomics. In this review, we systematized all known "omics" in their application to saliva analysis in breast cancer in order to understand how complete the picture is provided by the combination of different areas of research and to identify missing links. It has been shown that studies of saliva in breast cancer are chaotic and unsystematic. Inconsistency of sample sizes and high heterogeneity of breast cancer were identified. The main tasks that need to be solved for the complete and harmonious development of salivaomics in a new direction-"salivaonkoomics" are formulated. Thus, it is necessary to systematize and unify the study of biomarkers within each area of "omics", including sample size and its homogeneity, a list of methods and approaches, a list of biomarkers, reproducibility of results, and the ability to transfer results to other samples. It is important to expand the number of components of "omics" by adding new methods (for example, spectralomics, etc.), as well as studying the relationships between different "omics" technologies (interactomics). All this together will allow the study of saliva not only in breast cancer but also in many other pathologies to a qualitatively new level.

Salivary Diagnostics in Oral and Systemic Diseases - A Review

Salivary diagnostics, an emerging field in medical research, leverages the analysis of saliva for non- invasive detection, monitoring, and management of various diseases. This abstract explores the potential of saliva as a diagnostic fluid, highlighting its advantages such as ease of collection, cost-effectiveness, and patient acceptability compared to traditional blood or tissue sampling. Key biomarkers identified in saliva include proteins, nucleic acids, and metabolites that reflect systemic health conditions, oral diseases, infectious agents, and even systemic diseases like cancer and diabetes. Advances in technology, such as biosensors and genomic analysis, enhance the sensitivity and specificity of salivary diagnostics, paving the way for personalized medicine and early intervention strategies. Challenges including standardization, variability in saliva composition, and regulatory approval are also discussed, underscoring the need for further research and clinical validation. Salivary diagnostics holds promise as a valuable tool in future healthcare, potentially transforming how diseases are diagnosed and managed globally.

Ion beam-induced nanoripples patterns for SERS based saliva analysis to detect oral cavity cancer

Saliva is a non-invasive sample for oral cancer detection due to the presence of cancer biomarkers. In this reported study, we investigated the potential use of SERS (Surface-Enhanced Raman Spectroscopy) for the non-invasive identification of oral cavity cancer by analysing the SERS spectra of saliva. We developed a SERS substrate by depositing Ag nanoparticles on glass ripples. SERS analysis was conducted on saliva samples collected from 10 oral cancer patients and 8 healthy volunteers having tobacco habits. The average spectra of cancer patient saliva and healthy volunteers’ saliva show differences. Principal component analysis (PCA) and Linear discriminant analysis (LDA)-based multivariate statistical analysis were used for classifying the collected spectra. The PCA-LDA-based classification shows 70% sensitivity and 62.5% specificity. This study suggests that SERS analysis of saliva incorporated with PCA-LDA-based multivariate analysis is a potential tool for the non-invasive detection of cancer.