1 1998 159 EPIGENETIC AND MIRNA EXPRESSION CHANGES IN PEOPLE WITH PAIN: A SYSTEMATIC REVIEW. ACCUMULATING EVIDENCE SUGGESTS THAT EPIGENETIC MECHANISMS MAY HOLD GREAT POTENTIAL IN THE FIELD OF PAIN. WE SYSTEMATICALLY REVIEWED THE LITERATURE EXPLORING EPIGENETIC MECHANISMS IN PEOPLE WITH PAIN. FOUR DATABASES HAVE BEEN INTERROGATED: MEDLINE, THE COCHRANE CENTRAL REGISTER OF CONTROLLED TRIAL, SCOPUS, AND WEB OF SCIENCE, FOLLOWING PRISMA GUIDELINES IN CONDUCTING STUDY SELECTION AND ASSESSMENT. THIRTY-SEVEN STUDIES WERE INCLUDED. STUDIES EXPLORED EPIGENETICS IN CONDITIONS SUCH AS FIBROMYALGIA, CRPS, NEUROPATHIES, OR OSTEOARTHRITIS. RESEARCH FOCUSSED ON GENOME-WIDE AND GENE-SPECIFIC DNA METHYLATION, AND MIRNA EXPRESSION. BIOINFORMATICS ANALYSES EXPLORING MIRNA-ASSOCIATED MOLECULAR PATHWAYS WERE ALSO PERFORMED. SEVERAL GENES ALREADY KNOWN FOR THEIR ROLE IN PAIN (BDNF, HDAC4, PRKG1, IL-17, TNFRSF13B, ETC.), AND SEVERAL MIRNAS LINKED TO INFLAMMATORY REGULATION, NOCICEPTIVE SIGNALLING AND PROTEIN KINASES FUNCTIONS HAVE BEEN FOUND TO DIFFER SIGNIFICANTLY BETWEEN PEOPLE WITH CHRONIC PAIN AND HEALTHY CONTROLS. ALTHOUGH THE STUDIES INCLUDED WERE CROSS-SECTIONAL IN NATURE, AND NO CONCLUSION ON CAUSAL LINKS BETWEEN EPIGENETIC CHANGES AND PAIN COULD BE DRAWN, WE SUMMARISED THE LARGE AMOUNT OF DATA AVAILABLE IN LITERATURE ON THE TOPIC, HIGHLIGHTING RESULTS THAT HAVE BEEN REPLICATED BY INDEPENDENT INVESTIGATIONS. THE FIELD OF PAIN EPIGENETICS APPEARS VERY EXCITING AND HAS ALL THE POTENTIAL TO LEAD TO REMARKABLE SCIENTIFIC ADVANCES. HOWEVER, HIGH-QUALITY, WELL-POWERED, LONGITUDINAL STUDIES ARE WARRANTED. PERSPECTIVE: THOUGH MORE HIGH-QUALITY RESEARCH IS NEEDED, AVAILABLE RESEARCH EXPLORING EPIGENETIC MECHANISMS OR MIRNAS IN PEOPLE WITH PAIN SHOWS THAT GENES REGULATING SYNAPTIC PLASTICITY AND EXCITABILITY, PROTEIN KINASES, AND ELEMENTS OF THE IMMUNE SYSTEM MIGHT HOLD GREAT POTENTIAL IN UNDERSTANDING THE PATHOPHYSIOLOGY OF DIFFERENT CONDITIONS. 2020 2 6458 43 TIME COURSE OF DNA METHYLATION IN PAIN CONDITIONS: FROM EXPERIMENTAL MODELS TO HUMANS. BACKGROUND AND OBJECTIVE: THROUGHOUT THE LAST DECADE, RESEARCH HAS UNCOVERED ASSOCIATIONS BETWEEN PAIN AND EPIGENETIC ALTERATIONS CAUSED BY ENVIRONMENTAL FACTORS. SPECIFICALLY, STUDIES HAVE DEMONSTRATED CORRELATIONS BETWEEN PAIN CONDITIONS AND ALTERED DNA METHYLATION PATTERNS. THUS, DNA METHYLATION HAS BEEN REVEALED AS A POSSIBLE MODULATOR OR CONTRIBUTOR TO PAIN CONDITIONS, PROVIDING A POTENTIAL THERAPEUTIC TARGET FOR TREATMENT BY DNA METHYLATION MODIFICATION. TO DEVELOP SUCH TREATMENTS, IT IS NECESSARY TO CLARIFY A WIDE NUMBER OF ASPECTS ON HOW DNA METHYLATION AFFECTS PAIN PERCEPTION; FIRST AND FOREMOST, THE TEMPORAL DYNAMICS. THE OBJECTIVE OF THE PRESENT REVIEW IS TO PROVIDE AN OVERVIEW OF CURRENT KNOWLEDGE ON TEMPORAL DYNAMICS OF DNA METHYLATION IN RESPONSE TO PAIN, AND TO INVESTIGATE IF A TIMEFRAME CAN BE ESTABLISHED BASED ON THE DATA OF CURRENTLY PUBLISHED STUDIES. DATABASES AND DATA TREATMENT: PUBMED, MEDLINE, GOOGLE SCHOLAR AND EMBASE WERE SEARCHED COMPREHENSIVELY FOR STUDIES OF DNA METHYLATION IN NEUROPATHIC, INFLAMMATORY AND ALTERNATIVE ANIMAL PAIN MODELS, AND IN CHRONIC PAIN PATIENTS INCLUDING COMPLEX REGIONAL PAIN SYNDROME, CHRONIC POSTSURGICAL PAIN, CHRONIC WIDESPREAD PAIN, FIBROMYALGIA AND CROHN'S DISEASE. RESULTS: WE IDENTIFIED 34 ARTICLES HIGHLIGHTING VARIATIONS IN TEMPORAL DYNAMICS OF DNA METHYLATION ACROSS SPECIES AND BETWEEN DIFFERENT TYPES OF PAIN. THESE STUDIES REPRESENT A STARTING POINT TO UNCOVER NEW INSIGHTS IN THE DNA METHYLATION TIME COURSE IN PAIN. CONCLUSIONS: NO TIMEFRAME CAN CURRENTLY BE MADE FOR THE DNA METHYLATION RESPONSE TO PAIN IN ANY OF THE REVIEWED CONDITIONS, HIGHLIGHTING AN IMPORTANT FOCUS AREA FOR FUTURE RESEARCH. 2021 3 4915 35 PAIN, ANALGESIA AND GENETICS. OBJECTIVES: IN THE CLINICAL SETTING, THERE IS MARKED INTERSUBJECT VARIABILITY IN THE INTENSITY OF PAIN REPORTED BY PATIENTS WITH APPARENTLY SIMILAR PAIN STATES, AS WELL AS WIDELY DIFFERING ANALGESIC DOSING REQUIREMENTS BETWEEN INDIVIDUALS TO PRODUCE SATISFACTORY PAIN RELIEF WITH TOLERABLE SIDE-EFFECTS. GENETIC AND ENVIRONMENTAL FACTORS AS WELL AS THEIR INTERACTION ARE IMPLICATED, AND THESE ARE DISCUSSED IN THIS REVIEW. KEY FINDINGS: PIONEERING WORK UNDERTAKEN IN MICE MORE THAN A DECADE AGO, SHOWED A STRONG GENETIC CONTRIBUTION TO LEVELS OF NOCICEPTION/HYPERSENSITIVITY AS WELL AS LEVELS OF ANTINOCICEPTION PRODUCED BY COMMONLY AVAILABLE ANALGESIC AGENTS. TO DATE MORE THAN 300 CANDIDATE 'PAIN' GENES HAVE BEEN IDENTIFIED AS POTENTIALLY CONTRIBUTING TO HERITABLE DIFFERENCES IN PAIN SENSITIVITY AND ANALGESIC RESPONSIVENESS IN ANIMALS AND HUMANS, WITH THIS INFORMATION AVAILABLE IN A PUBLICLY ACCESSIBLE DATABASE HTTP://WWW.JBLDESIGN.COM/JMOGIL/ENTER.HTML. SINCE THEN, MANY GENETIC ASSOCIATION STUDIES HAVE BEEN CONDUCTED IN HUMANS TO INVESTIGATE THE POSSIBILITY THAT SINGLE NUCLEOTIDE POLYMORPHISMS (SNPS) IN AN INDIVIDUAL GENE MAY EXPLAIN DRUG INEFFICACY OR EXCESSIVE TOXICITY EXPERIENCED BY A SMALL SUBSET OF THE WHOLE POPULATION WHO HAVE THE RARE ALLELE FOR A PARTICULAR SNP. SUMMARY: DESPITE THE FACT THAT SNPS IN MORE THAN 20 GENES THAT AFFECT PAIN SENSITIVITY OR CONTRIBUTE TO INTERINDIVIDUAL VARIABILITY IN RESPONSES TO ANALGESIC MEDICATIONS HAVE BEEN IDENTIFIED IN THE HUMAN GENOME, MUCH OF THE DATA IS CONFLICTING. APART FROM DEFICIENCIES IN THE DESIGN AND CONDUCT OF HUMAN GENETIC ASSOCIATION STUDIES, RECENT RESEARCH FROM OTHER FIELDS HAS IMPLICATED EPIGENETIC MECHANISMS THAT FACILITATE DYNAMIC GENE-ENVIRONMENT COMMUNICATION, AS A POSSIBLE EXPLANATION. 2011 4 6159 42 THE GENETICS AND EPIGENETICS OF FATIGUE. FATIGUE IS A COMMON SYMPTOM AND INCLUDES BOTH PHYSICAL AND MENTAL COMPONENTS. IT CAN BE ASSOCIATED WITH A VARIETY OF DIFFERENT SYNDROMES AND DISEASES, BUT IN MANY CASES IS NOT ASSOCIATED WITH OTHER COMORBID CONDITIONS. MOST HUMANS HAVE EXPERIENCED ACUTE FATIGUE IN RELATION TO DIFFERENT STRESSORS. ACUTE FATIGUE TYPICALLY DECREASES AS THE EFFECT OF THE TRIGGERING FACTOR IS REDUCED AND A NORMAL HOMEOSTATIC BALANCE IS RESTORED. FATIGUE THAT PERSISTS FOR 6 MONTHS OR MORE IS TERMED CHRONIC FATIGUE. CHRONIC FATIGUE (CF) IN COMBINATION WITH A MINIMUM OF 4 OF 8 SYMPTOMS AND THE ABSENCE OF DISEASES THAT COULD EXPLAIN THESE SYMPTOMS, CONSTITUTE THE CASE DEFINITION FOR CHRONIC FATIGUE SYNDROME. IN SPITE OF ITS PREVALENCE, THE BIOLOGY OF FATIGUE IS RELATIVELY POORLY UNDERSTOOD AND BIOLOGICAL MARKERS HAVE NOT YET BEEN IDENTIFIED. THIS LITERATURE SEARCH WAS PERFORMED IN PUBMED TO IDENTIFY RESEARCH ON THE GENETICS AND EPIGENETICS OF FATIGUE. PUBLICATIONS WERE INCLUDED IF FATIGUE WAS A MAJOR TOPIC AND THE TOPIC WAS COMBINED WITH GENETIC AND/OR EPIGENETIC MEASUREMENTS IN ADULT HUMANS. A TOTAL OF 40 PUBLICATIONS WERE IDENTIFIED. ALTHOUGH ALTERED FUNCTIONING IN THE HYPOTHALAMIC-PITUITARY-ADRENAL AXIS, THE SEROTONERGIC SYSTEM, AND ASSOCIATIONS WITH INFECTIOUS AGENTS HAVE BEEN IDENTIFIED, THE SEARCH FOR GENETIC OR EPIGENETIC MARKERS OF FATIGUE, EITHER IN THE CONTEXT OF CF OR CHRONIC FATIGUE SYNDROME (CFS) HAS BEEN RELATIVELY UNPRODUCTIVE OR, IN THE CASE OF EPIGENETICS, NONEXISTENT. ALTHOUGH SEVERAL STUDIES, BOTH HYPOTHESIS-TESTING AND HYPOTHESIS-GENERATING, HAVE BEEN PERFORMED TO SEARCH FOR BIOMARKERS, THEY HAVE MOSTLY BEEN UNDERPOWERED, RESTRICTED BY THE HETEROGENEITY OF THE PHENOTYPE, OR LIMITED BY AN UNSYSTEMATIC STUDY DESIGN. TO BE ABLE TO CONFIRM THE HYPOTHESIS THAT RISK FOR, OR LEVELS OF, FATIGUE ARE INFLUENCED BY THE GENETIC OR EPIGENETIC BACKGROUND OF AN INDIVIDUAL, STUDIES NEED TO BE BASED ON LARGER SAMPLE SIZES WITH A MORE CLEARLY DEFINED PHENOTYPE. STUDIES NEED TO FOCUS NOT ONLY ON THE INFLUENCE OF A SINGLE ASPECT SUCH AS SINGLE NUCLEOTIDE POLYMORPHISMS (SNPS) OR DIFFERENTIAL GENE EXPRESSION ON DISEASE RISK OR STATE, BUT ALSO ON THE SYSTEMS BIOLOGY BEHIND THE DISEASE IN COMBINATION WITH INFORMATION ON ENVIRONMENTAL INFLUENCES AND VALIDATION OF FINDINGS IN FUNCTIONAL STUDIES. 2010 5 2523 44 EPIGENETICS AND THE TRANSITION FROM ACUTE TO CHRONIC PAIN. OBJECTIVE: THE OBJECTIVE OF THIS STUDY WAS TO REVIEW THE EPIGENETIC MODIFICATIONS INVOLVED IN THE TRANSITION FROM ACUTE TO CHRONIC PAIN AND TO IDENTIFY POTENTIAL TARGETS FOR THE DEVELOPMENT OF NOVEL, INDIVIDUALIZED PAIN THERAPEUTICS. BACKGROUND: EPIGENETICS IS THE STUDY OF HERITABLE MODIFICATIONS IN GENE EXPRESSION AND PHENOTYPE THAT DO NOT REQUIRE A CHANGE IN GENETIC SEQUENCE TO MANIFEST THEIR EFFECTS. ENVIRONMENTAL TOXINS, MEDICATIONS, DIET, AND PSYCHOLOGICAL STRESSES CAN ALTER EPIGENETIC PROCESSES SUCH AS DNA METHYLATION, HISTONE ACETYLATION, AND RNA INTERFERENCE. AS EPIGENETIC MODIFICATIONS POTENTIALLY PLAY AN IMPORTANT ROLE IN INFLAMMATORY CYTOKINE METABOLISM, STEROID RESPONSIVENESS, AND OPIOID SENSITIVITY, THEY ARE LIKELY KEY FACTORS IN THE DEVELOPMENT OF CHRONIC PAIN. ALTHOUGH OUR KNOWLEDGE OF THE HUMAN GENETIC CODE AND DISEASE-ASSOCIATED POLYMORPHISMS HAS GROWN SIGNIFICANTLY IN THE PAST DECADE, WE HAVE NOT YET BEEN ABLE TO ELUCIDATE THE MECHANISMS THAT LEAD TO THE DEVELOPMENT OF PERSISTENT PAIN AFTER NERVE INJURY OR SURGERY. DESIGN: THIS IS A FOCUSED LITERATURE REVIEW OF EPIGENETIC SCIENCE AND ITS RELATIONSHIP TO CHRONIC PAIN. RESULTS: SIGNIFICANT LABORATORY AND CLINICAL DATA SUPPORT THE NOTION THAT EPIGENETIC MODIFICATIONS ARE AFFECTED BY THE ENVIRONMENT AND LEAD TO DIFFERENTIAL GENE EXPRESSION. SIMILAR TO MECHANISMS INVOLVED IN THE DEVELOPMENT OF CANCER, NEURODEGENERATIVE DISEASE, AND INFLAMMATORY DISORDERS, THE LITERATURE ENDORSES AN IMPORTANT POTENTIAL ROLE FOR EPIGENETICS IN CHRONIC PAIN. CONCLUSIONS: EPIGENETIC ANALYSIS MAY IDENTIFY MECHANISMS CRITICAL TO THE DEVELOPMENT OF CHRONIC PAIN AFTER INJURY, AND MAY PROVIDE NEW PATHWAYS AND TARGET MECHANISMS FOR FUTURE DRUG DEVELOPMENT AND INDIVIDUALIZED MEDICINE. 2012 6 2108 37 EPIGENETIC FACTORS RELATED TO LOW BACK PAIN: A SYSTEMATIC REVIEW OF THE CURRENT LITERATURE. LOW BACK PAIN (LBP) IS ONE OF THE MOST COMMON CAUSES OF PAIN AND DISABILITY. AT PRESENT, TREATMENT AND INTERVENTIONS FOR ACUTE AND CHRONIC LOW BACK PAIN OFTEN FAIL TO PROVIDE SUFFICIENT LEVELS OF PAIN RELIEF, AND FULL FUNCTIONAL RESTORATION CAN BE CHALLENGING. CONSIDERING THE SIGNIFICANT SOCIO-ECONOMIC BURDEN AND RISK-TO-BENEFIT RATIO OF MEDICAL AND SURGICAL INTERVENTION IN LOW BACK PAIN PATIENTS, THE IDENTIFICATION OF RELIABLE BIOMARKERS SUCH AS EPIGENETIC FACTORS ASSOCIATED WITH LOW BACK PAIN COULD BE USEFUL IN CLINICAL PRACTICE. THE AIM OF THIS STUDY WAS TO REVIEW THE AVAILABLE LITERATURE REGARDING THE EPIGENETIC FACTORS ASSOCIATED WITH LOW BACK PAIN. THIS REVIEW WAS CARRIED OUT IN ACCORDANCE WITH PREFERENTIAL REPORTING ITEMS FOR SYSTEMATIC REVIEWS AND META-ANALYSES (PRISMA) GUIDELINES. THE SEARCH WAS CARRIED OUT IN OCTOBER 2022. ONLY PEER-REVIEWED ARTICLES WERE CONSIDERED FOR INCLUSION. FOURTEEN STUDIES WERE INCLUDED AND SHOWED PROMISING RESULTS IN TERMS OF RELIABLE MARKERS. EPIGENETIC MARKERS FOR LBP HAVE THE POTENTIAL TO SIGNIFICANTLY MODIFY DISEASE MANAGEMENT. MOST RECENT EVIDENCE SUGGESTS THAT EPIGENETICS IS A MORE PROMISING FIELD FOR THE IDENTIFICATION OF FACTORS ASSOCIATED WITH LBP, OFFERING A RATIONALE FOR FURTHER INVESTIGATION IN THIS FIELD WITH THE LONG-TERM GOAL OF FINDING EPIGENETIC BIOMARKERS THAT COULD CONSTITUTE BIOLOGICAL TARGETS FOR DISEASE MANAGEMENT AND TREATMENT. 2023 7 5040 35 PHARMACOGENETICS OF PAIN AND ANALGESIA. PAIN SEVERITY RATINGS AND THE ANALGESIC DOSING REQUIREMENTS OF PATIENTS WITH APPARENTLY SIMILAR PAIN CONDITIONS MAY DIFFER CONSIDERABLY BETWEEN INDIVIDUALS. CONTRIBUTING FACTORS INCLUDE THOSE OF GENETIC AND ENVIRONMENTAL ORIGIN WITH EPIGENETIC MECHANISMS THAT ENABLE DYNAMIC GENE-ENVIRONMENT INTERACTION, MORE RECENTLY IMPLICATED IN PAIN MODULATION. INSIGHT INTO GENETIC FACTORS UNDERPINNING INTER-PATIENT VARIABILITY IN PAIN SENSITIVITY HAS COME FROM RODENT HERITABILITY STUDIES AS WELL AS FAMILIAL AGGREGATION AND TWIN STUDIES IN HUMANS. INDEED, MORE THAN 350 CANDIDATE PAIN GENES HAVE BEEN IDENTIFIED AS POTENTIALLY CONTRIBUTING TO HERITABLE DIFFERENCES IN PAIN SENSITIVITY. A LARGE NUMBER OF GENETIC ASSOCIATION STUDIES CONDUCTED IN PATIENTS WITH A VARIETY OF CLINICAL PAIN TYPES OR IN HUMANS EXPOSED TO EXPERIMENTALLY INDUCED PAIN STIMULI IN THE LABORATORY SETTING, HAVE EXAMINED THE IMPACT OF SINGLE-NUCLEOTIDE POLYMORPHISMS IN VARIOUS TARGET GENES ON PAIN SENSITIVITY AND/OR ANALGESIC DOSING REQUIREMENTS. HOWEVER, THE FINDINGS OF SUCH STUDIES HAVE GENERALLY FAILED TO REPLICATE OR HAVE BEEN ONLY PARTIALLY REPLICATED BY INDEPENDENT INVESTIGATORS. DEFICIENCIES IN STUDY CONDUCT INCLUDING USE OF SMALL SAMPLE SIZE, INAPPROPRIATE STATISTICAL METHODS AND INADEQUATE ATTENTION TO THE POSSIBILITY THAT BETWEEN-STUDY DIFFERENCES IN ENVIRONMENTAL FACTORS MAY ALTER PAIN PHENOTYPES THROUGH EPIGENETIC MECHANISMS, HAVE BEEN IDENTIFIED AS BEING SIGNIFICANT. 2012 8 2213 43 EPIGENETIC MODIFICATIONS AS OUTCOMES OF EXERCISE INTERVENTIONS RELATED TO SPECIFIC METABOLIC ALTERATIONS: A SYSTEMATIC REVIEW. BACKGROUND: CHRONIC DISEASES ARISE AS A CONSEQUENCE OF AN UNHEALTHY LIFESTYLE PRIMARILY CHARACTERIZED BY PHYSICAL INACTIVITY AND UNBALANCED DIETS. REGULAR PHYSICAL ACTIVITY CAN IMPROVE HEALTH, AND THERE IS CONSISTENT EVIDENCE THAT THESE IMPROVEMENTS MAY BE THE RESULT OF EPIGENETIC MODIFICATIONS. OBJECTIVE: TO IDENTIFY EPIGENETIC MODIFICATIONSAS OUTCOMES OF EXERCISE INTERVENTIONS RELATED TO SPECIFIC METABOLIC ALTERATIONS. METHODS: THE PREFERRED REPORTING ITEMS FOR SYSTEMATIC REVIEWS AND META-ANALYSES PROTOCOLS (PRISMA-P) METHODOLOGY FOR MANUSCRIPT RESEARCH AND PREPARATION WAS FOLLOWED USING PUBMED AND EBSCO DATABASES FOR LITERATURE REVIEW. OUT OF 2,638 ARTICLES IDENTIFIED, ONLY 34 ARTICLES MET THE INCLUSION CRITERIA. RESULTS: THE SECTIONS OF THE REVIEW WERE ORGANIZED BY METABOLIC ALTERATIONS IN WHICH STUDIES WERE GROUPED ACCORDING TO HEALTHY, DISEASED, AND TRAINED INDIVIDUALS. RESISTANCE EXERCISE IN HUMANS INDUCED EPIGENETIC CHANGES IN PATHWAYS ASSOCIATED WITH ENERGY METABOLISM AND INSULIN SENSITIVITY, CONTRIBUTING TO HEALTHY SKELETAL MUSCLE. ENDURANCE EXERCISE ALSO CAUSED MODIFICATIONS IN BIOMARKERS ASSOCIATED TO METABOLIC ALTERATIONS THROUGH CHANGES IN DNA METHYLATION AND THE EXPRESSION OF SPECIFIC MIRNAS. HOWEVER, BOTH RESISTANCE AND ENDURANCE EXERCISE ARE NECESSARY TO OBTAIN A BETTER PHYSIOLOGICAL ADAPTATION AND A COMBINATION OF BOTH SEEMS TO BE NEEDED TO PROPERLY TACKLE THE INCREASING PREVALENCE OF NON-COMMUNICABLE PATHOLOGIES. CONCLUSION: GIVEN THE HETEROGENEITY AND COMPLEXITY OF THE EXISTING LITERATURE, IT IS CURRENTLY NOT POSSIBLE TO PROPOSE A SPECIFIC RECOMMENDATION ABOUT THE TYPE, INTENSITY, OR DURATION OF EXERCISE THAT COULD BE BENEFICIAL FOR DIFFERENT SUBSETS OF THE POPULATION (HEALTHY, DISEASED, AND/OR TRAINED). NEVERTHELESS, THIS REVIEW HIGHLIGHTS THE IMPORTANCE OF EXERCISE FOR HEALTH AND SHOWS THE NEED TO PERFORM MORE RESEARCH IN THIS EMERGING AREA TO IDENTIFY EPIGENETIC BIOMARKERS THAT COULD SERVE AS INDICATORS OF EXERCISE ADAPTATIONS. 2019 9 6211 41 THE INTERPLAY BETWEEN OXIDATIVE STRESS, EXERCISE, AND PAIN IN HEALTH AND DISEASE: POTENTIAL ROLE OF AUTONOMIC REGULATION AND EPIGENETIC MECHANISMS. OXIDATIVE STRESS CAN BE INDUCED BY VARIOUS STIMULI AND ALTERED IN CERTAIN CONDITIONS, INCLUDING EXERCISE AND PAIN. ALTHOUGH MANY STUDIES HAVE INVESTIGATED OXIDATIVE STRESS IN RELATION TO EITHER EXERCISE OR PAIN, THE LITERATURE PRESENTS CONFLICTING RESULTS. THEREFORE, THIS REVIEW CRITICALLY DISCUSSES EXISTING LITERATURE ABOUT THIS TOPIC, AIMING TO PROVIDE A CLEAR OVERVIEW OF KNOWN INTERACTIONS BETWEEN OXIDATIVE STRESS, EXERCISE, AND PAIN IN HEALTHY PEOPLE AS WELL AS IN PEOPLE WITH CHRONIC PAIN, AND TO HIGHLIGHT POSSIBLE CONFOUNDING FACTORS TO KEEP IN MIND WHEN REFLECTING ON THESE INTERACTIONS. IN ADDITION, AUTONOMIC REGULATION AND EPIGENETIC MECHANISMS ARE PROPOSED AS POTENTIAL MECHANISMS OF ACTION UNDERLYING THE INTERPLAY BETWEEN OXIDATIVE STRESS, EXERCISE, AND PAIN. THIS REVIEW HIGHLIGHTS THAT THE RELATION BETWEEN OXIDATIVE STRESS, EXERCISE, AND PAIN IS POORLY UNDERSTOOD AND NOT STRAIGHTFORWARD, AS IT IS DEPENDENT ON THE CHARACTERISTICS OF EXERCISE, BUT ALSO ON WHICH POPULATION IS INVESTIGATED. TO BE ABLE TO COMPARE STUDIES ON THIS TOPIC, STRICT GUIDELINES SHOULD BE DEVELOPED TO LIMIT THE EFFECT OF SEVERAL CONFOUNDING FACTORS. THIS WAY, THE TRUE INTERPLAY BETWEEN OXIDATIVE STRESS, EXERCISE, AND PAIN, AND THE UNDERLYING MECHANISMS OF ACTION CAN BE REVEALED AND VALIDATED VIA INDEPENDENT STUDIES. 2020 10 666 47 BLOOD-BASED DNA METHYLATION BIOMARKERS FOR TYPE 2 DIABETES: POTENTIAL FOR CLINICAL APPLICATIONS. TYPE 2 DIABETES (T2D) IS A LEADING CAUSE OF DEATH AND DISABILITY WORLDWIDE. IT IS A CHRONIC METABOLIC DISORDER THAT DEVELOPS DUE TO AN INTERPLAY OF GENETIC, LIFESTYLE, AND ENVIRONMENTAL FACTORS. THE BIOLOGICAL ONSET OF THE DISEASE OCCURS LONG BEFORE CLINICAL SYMPTOMS DEVELOP, THUS THE SEARCH FOR EARLY DIAGNOSTIC AND PROGNOSTIC BIOMARKERS, WHICH COULD FACILITATE INTERVENTION STRATEGIES TO PREVENT OR DELAY DISEASE PROGRESSION, HAS INCREASED CONSIDERABLY IN RECENT YEARS. EPIGENETIC MODIFICATIONS REPRESENT IMPORTANT LINKS BETWEEN GENETIC, ENVIRONMENTAL AND LIFESTYLE CUES AND INCREASING EVIDENCE IMPLICATE ALTERED EPIGENETIC MARKS SUCH AS DNA METHYLATION, THE MOST CHARACTERIZED AND WIDELY STUDIED EPIGENETIC MECHANISM, IN THE PATHOGENESIS OF T2D. THIS REVIEW PROVIDES AN UPDATE OF THE CURRENT STATUS OF DNA METHYLATION AS A BIOMARKER FOR T2D. FOUR DATABASES, SCOPUS, PUBMED, COCHRANE CENTRAL, AND GOOGLE SCHOLAR WERE SEARCHED FOR STUDIES INVESTIGATING DNA METHYLATION IN BLOOD. THIRTY-SEVEN STUDIES WERE IDENTIFIED, AND ARE SUMMARIZED WITH RESPECT TO POPULATION CHARACTERISTICS, BIOLOGICAL SOURCE, AND METHOD OF DNA METHYLATION QUANTIFICATION (GLOBAL, CANDIDATE GENE OR GENOME-WIDE). WE HIGHLIGHT THAT DIFFERENTIAL METHYLATION OF THE TCF7L2, KCNQ1, ABCG1, TXNIP, PHOSPHO1, SREBF1, SLC30A8, AND FTO GENES IN BLOOD ARE REPRODUCIBLY ASSOCIATED WITH T2D IN DIFFERENT POPULATION GROUPS. THESE GENES SHOULD BE PRIORITIZED AND REPLICATED IN LONGITUDINAL STUDIES ACROSS MORE POPULATIONS IN FUTURE STUDIES. FINALLY, WE DISCUSS THE LIMITATIONS FACED BY DNA METHYLATION STUDIES, WHICH INCLUDE INCLUDING INTERPATIENT VARIABILITY, CELLULAR HETEROGENEITY, AND LACK OF ACCOUNTING FOR STUDY CONFOUNDERS. THESE LIMITATIONS AND CHALLENGES MUST BE OVERCOME BEFORE THE IMPLEMENTATION OF BLOOD-BASED DNA METHYLATION BIOMARKERS INTO A CLINICAL SETTING. WE EMPHASIZE THE NEED FOR LONGITUDINAL PROSPECTIVE STUDIES TO SUPPORT THE ROBUSTNESS OF THE CURRENT FINDINGS OF THIS REVIEW. 2018 11 2963 31 GENETIC AND EPIGENETIC MECHANISMS LINKING PAIN AND PSYCHIATRIC DISORDERS. THE NEUROPHYSIOLOGICAL LINK BETWEEN NEUROPATHIC PAIN AND DEPRESSION REMAINS UNKNOWN DESPITE EVIDENT HIGH COMORBIDITY OF THESE TWO DISORDERS. HOWEVER, THERE IS CONVINCING EVIDENCE THAT GENOTYPE PLAYS A ROLE IN BOTH PAIN AND DEPRESSION. USING VARIOUS TYPES OF GENETIC ANALYSIS - POPULATION GENETICS, CYTOGENETICS AND MOLECULAR TECHNOLOGIES - SPECIFIC GENES HAVE BEEN IMPLICATED IN MEDIATING ALMOST ALL ASPECTS OF NOCICEPTION AND MOOD DISORDERS. THE CURRENT REVIEW ATTEMPTS TO IDENTIFY SPECIFIC GENES AND EPIGENETIC MECHANISMS COMMON TO BOTH DISORDERS. IT IS CONCLUDED THAT EXTERNAL AND INTERNAL FACTORS (INFLAMMATION, STRESS, GENDER, ETC.) THAT CONTRIBUTE TO THE PATHOLOGIES MAY DO SO THROUGH EPIGENETIC MECHANISMS THAT MAY AFFECT EXPRESSION OF THESE PARTICULAR GENES. THE POSSIBLE INVOLVEMENT OF EPIGENETIC REGULATION IN PAIN AND PSYCHIATRIC DISORDERS SUGGESTS THAT TREATMENTS TARGETING EPIGENETIC MECHANISMS THAT MEDIATE ADVERSE LIFE EVENTS SHOULD BE CONSIDERED. 2015 12 3108 25 GENOMICS OF PAIN IN OSTEOARTHRITIS. OSTEOARTHRITIS (OA) ACCOUNTS FOR THE MAJORITY OF THE DISEASE BURDEN FOR MUSCULOSKELETAL DISORDERS AND IS ONE OF THE LEADING CAUSES OF DISABILITY WORLDWIDE. THIS DISABILITY IS THE RESULT NOT OF THE CARTILAGE LOSS THAT DEFINES OA RADIOGRAPHICALLY, BUT OF THE CHRONIC PAIN WHOSE PRESENCE DEFINES SYMPTOMATIC OA. IT IS BECOMING CLEAR THAT MANY GENES, EACH WITH A SMALL EFFECT SIZE, CONTRIBUTE TO THE RISK OF DEVELOPING OA. HOWEVER, THE GENETICS OF OA PAIN ARE ONLY JUST STARTING TO BE EXPLORED. THIS REVIEW WILL DESCRIBE THE FIRST GENES TO HAVE BEEN IDENTIFIED IN GENOMIC STUDIES OF OA PAIN, AS WELL AS THE POSSIBLE DUAL ROLES OF GENES PREVIOUSLY IDENTIFIED IN GENOMIC STUDIES OF OA IN THE CONTEXT OF PAIN. DIFFICULTIES ASSOCIATED WITH ATTEMPTING TO CHARACTERISE THE GENETICS OF OA PAIN WILL BE DISCUSSED AND PROMISING FUTURE AVENUES OF RESEARCH INTO GENETIC AND EPIGENETIC FACTORS AFFECTING OA PAIN DESCRIBED. 2013 13 1240 30 CURRENT ADVANCES OF EPIGENETICS IN PERIODONTOLOGY FROM ENCODE PROJECT: A REVIEW AND FUTURE PERSPECTIVES. BACKGROUND: THE ENCYCLOPEDIA OF DNA ELEMENTS (ENCODE) PROJECT HAS ADVANCED OUR KNOWLEDGE OF THE FUNCTIONAL ELEMENTS IN THE GENOME AND EPIGENOME. THE AIM OF THIS ARTICLE WAS TO PROVIDE THE COMPREHENSION ABOUT CURRENT RESEARCH TRENDS FROM ENCODE PROJECT AND ESTABLISH THE LINK BETWEEN EPIGENETICS AND PERIODONTAL DISEASES BASED ON EPIGENOME STUDIES AND SEEK THE FUTURE DIRECTION. MAIN BODY: GLOBAL EPIGENOME RESEARCH PROJECTS HAVE EMPHASIZED THE IMPORTANCE OF EPIGENETIC RESEARCH FOR UNDERSTANDING HUMAN HEALTH AND DISEASE, AND CURRENT INTERNATIONAL CONSORTIA SHOW AN IMPROVED INTEREST IN THE IMPORTANCE OF ORAL HEALTH WITH SYSTEMIC HEALTH. THE EPIGENETIC STUDIES IN DENTAL FIELD HAVE BEEN MAINLY CONDUCTED IN PERIODONTOLOGY AND HAVE FOCUSED ON DNA METHYLATION ANALYSIS. ADVANCES IN SEQUENCING TECHNOLOGY HAVE BROADENED THE TARGET FOR EPIGENETIC STUDIES FROM SPECIFIC GENES TO GENOME-WIDE ANALYSES. CONCLUSIONS: IN LINE WITH GLOBAL RESEARCH TRENDS, FURTHER EXTENDED AND ADVANCED EPIGENETIC STUDIES WOULD PROVIDE CRUCIAL INFORMATION FOR THE REALIZATION OF COMPREHENSIVE DENTAL MEDICINE AND EXPAND THE SCOPE OF ONGOING LARGE-SCALE RESEARCH PROJECTS. 2021 14 6316 43 THE RELEVANCE OF DNA METHYLATION AND HISTONE MODIFICATION IN PERIODONTITIS: A SCOPING REVIEW. BACKGROUND: PERIODONTITIS IS A CHRONIC INFLAMMATORY DISEASE INVOLVING AN INTERPLAY BETWEEN BACTERIA, INFLAMMATION, HOST RESPONSE GENES, AND ENVIRONMENTAL FACTORS. THE MANIFESTATION OF EPIGENETIC FACTORS DURING PERIODONTITIS PATHOGENESIS AND PERIODONTAL INFLAMMATION IS STILL NOT WELL UNDERSTOOD, WITH LIMITED REVIEWS ON HISTONE MODIFICATION WITH PERIODONTITIS MANAGEMENT. THIS SCOPING REVIEW AIMS TO EVALUATE CURRENT EVIDENCE OF GLOBAL AND SPECIFIC DNA METHYLATION AND HISTONE MODIFICATION IN PERIODONTITIS AND DISCUSS THE GAPS AND IMPLICATIONS FOR FUTURE RESEARCH AND CLINICAL PRACTICE. METHODS: A SCOPING LITERATURE SEARCH OF THREE ELECTRONIC DATABASES WAS PERFORMED IN SCOPUS, MEDLINE (PUBMED) AND EMBASE. AS EPIGENETICS IN PERIODONTITIS IS AN EMERGING RESEARCH FIELD, A SCOPING REVIEW WAS CONDUCTED TO IDENTIFY THE EXTENT OF STUDIES AVAILABLE AND DESCRIBE THE OVERALL CONTEXT AND APPLICABILITY OF THESE RESULTS. RESULTS: OVERALL, 30 STUDIES WERE EVALUATED, AND THE FINDINGS CONFIRMED THAT EPIGENETIC CHANGES IN PERIODONTITIS COMPRISE SPECIFIC MODIFICATIONS TO DNA METHYLATION PATTERNS AND HISTONE PROTEINS MODIFICATION, WHICH CAN EITHER DAMPEN OR PROMOTE THE INFLAMMATORY RESPONSE TO BACTERIAL CHALLENGE. CONCLUSIONS: THE PLASTICITY OF EPIGENETIC MODIFICATIONS HAS IMPLICATIONS FOR THE FUTURE DEVELOPMENT OF TARGETED EPI-DRUGS AND DIAGNOSTIC TOOLS IN PERIODONTITIS. SUCH ADVANCES COULD BE INVALUABLE FOR THE EARLY DETECTION AND MONITORING OF SUSCEPTIBLE INDIVIDUALS. 2022 15 311 47 ALCOHOL AND THE METHYLOME: DESIGN AND ANALYSIS CONSIDERATIONS FOR RESEARCH USING HUMAN SAMPLES. BACKGROUND: A GROWING NUMBER OF STUDIES IN HUMAN SAMPLES HAVE SOUGHT TO DETERMINE WHETHER CHRONIC ALCOHOL USE AND ALCOHOL USE DISORDERS (AUDS) MAY BE ASSOCIATED WITH EPIGENETIC FACTORS, SUCH AS DNA METHYLATION. WE REVIEW THE EXTANT LITERATURE IN LIGHT OF SOME OF THE CHALLENGES THAT CURRENTLY AFFECT THE DESIGN AND INTERPRETATION OF EPIGENETIC RESEARCH IN HUMAN SAMPLES. METHOD: A LITERATURE SEARCH WAS USED TO IDENTIFY STUDIES THAT HAVE EXAMINED DNA METHYLATION IN RELATION TO ALCOHOL USE OR AUDS IN HUMAN SAMPLES (THROUGH JULY 2013). A TOTAL OF 22 STUDIES WERE IDENTIFIED. RESULTS: ASSOCIATIONS WITH QUANTITATIVE OR DIAGNOSTIC PHENOTYPES OF ALCOHOL USE OR AUDS HAVE BEEN REPORTED FOR SEVERAL GENES. HOWEVER, ALL STUDIES TO DATE HAVE RELIED ON RELATIVELY SMALL SAMPLES AND CROSS-SECTIONAL STUDY DESIGNS. ADDITIONALLY, ATTEMPTS TO REPLICATE RESULTS HAVE BEEN RARE. MORE GENERALLY, RESEARCH PROGRESS IS HAMPERED BY SEVERAL ISSUES, INCLUDING LIMITATIONS OF THE TECHNOLOGIES USED TO ASSESS DNA METHYLATION, TISSUE- AND CELL-SPECIFICITY OF METHYLATION PATTERNS, THE DIFFICULTIES OF RELATING OBSERVED METHYLATION DIFFERENCES AT A GIVEN LOCUS TO A FUNCTIONAL EFFECT, AND LIMITED KNOWLEDGE ABOUT THE MOLECULAR MECHANISMS UNDERLYING THE EFFECTS OF ALCOHOL ON DNA METHYLATION. CONCLUSIONS: ALTHOUGH WE SHARE THE OPTIMISM THAT EPIGENETICS MAY LEAD TO NEW INSIGHTS INTO THE ETIOLOGY AND PATHOPHYSIOLOGY OF AUDS, THE METHODOLOGICAL AND SCIENTIFIC CHALLENGES ASSOCIATED WITH CONDUCTING METHYLOMIC RESEARCH IN HUMAN SAMPLES NEED TO BE CAREFULLY CONSIDERED WHEN DESIGNING AND EVALUATING SUCH STUDIES. 2013 16 2107 32 EPIGENETIC FACTORS IN SCHIZOPHRENIA: MECHANISMS AND EXPERIMENTAL APPROACHES. SCHIZOPHRENIA IS A CHRONIC MENTAL DISORDER THAT IS STILL POORLY UNDERSTOOD DESPITE DECADES OF STUDY. MANY FACTORS HAVE BEEN FOUND TO CONTRIBUTE TO THE PATHOGENESIS, INCLUDING NEURODEVELOPMENTAL DISTURBANCE, GENETIC RISK, AND ENVIRONMENTAL INSULT, BUT NO SINGLE ROOT CAUSE HAS EMERGED. WHILE EVIDENCE FROM TWIN STUDIES SUGGESTS A STRONG HERITABLE COMPONENT, FEW INDIVIDUAL LOCI HAVE BEEN IDENTIFIED IN GENOMEWIDE SCREENS, SUGGESTING A ROLE FOR EPIGENETIC EFFECTS. RATHER, LARGE NUMBERS OF WEAKLY ACTING LOCI MAY CUMULATIVELY INCREASE DISEASE RISK, INCLUDING SEVERAL MAPPING TO EPIGENETIC PATHWAYS. IN THIS REVIEW, WE DISCUSS MECHANISMS OF EPIGENETIC REGULATION AND EVIDENCE FOR AN EPIGENETIC CONTRIBUTION TO DISEASE PHENOTYPE. WE FURTHER DESCRIBE THE RANGE OF EXPERIMENTAL TOOLS CURRENTLY AVAILABLE TO STUDY EPIGENETIC EFFECTS ASSOCIATED WITH THE DISEASE. 2019 17 1736 38 EARLY DETECTION AND PREVENTION OF SCHIZOPHRENIC PSYCHOSIS-A REVIEW. PSYCHOTIC DISORDERS OFTEN RUN A CHRONIC COURSE AND ARE ASSOCIATED WITH A CONSIDERABLE EMOTIONAL AND SOCIAL IMPACT FOR PATIENTS AND THEIR RELATIVES. THEREFORE, EARLY RECOGNITION, COMBINED WITH THE POSSIBILITY OF PREVENTIVE INTERVENTION, IS URGENTLY WARRANTED SINCE THE DURATION OF UNTREATED PSYCHOSIS (DUP) SIGNIFICANTLY DETERMINES THE FURTHER COURSE OF THE DISEASE. IN ADDITION TO ESTABLISHED DIAGNOSTIC TOOLS, NEUROBIOLOGICAL FACTORS IN THE DEVELOPMENT OF SCHIZOPHRENIC PSYCHOSES ARE INCREASINGLY BEING INVESTIGATED. IT IS SHOWN THAT NUMEROUS MOLECULAR ALTERATIONS ALREADY EXIST BEFORE THE CLINICAL ONSET OF THE DISEASE. AS SCHIZOPHRENIC PSYCHOSES ARE NOT ELICITED BY A SINGLE MUTATION IN THE DEOXYRIBONUCLEIC ACID (DNA) SEQUENCE, EPIGENETICS LIKELY CONSTITUTE THE MISSING LINK BETWEEN ENVIRONMENTAL INFLUENCES AND DISEASE DEVELOPMENT AND COULD POTENTIALLY SERVE AS A BIOMARKER. THE RESULTS FROM TRANSCRIPTOMIC AND PROTEOMIC STUDIES POINT TO A DYSREGULATED IMMUNE SYSTEM, LIKELY EVOKED BY EPIGENETIC ALTERATIONS. DESPITE THE INCREASING KNOWLEDGE OF THE NEUROBIOLOGICAL MECHANISMS INVOLVED IN THE DEVELOPMENT OF PSYCHOTIC DISORDERS, FURTHER RESEARCH EFFORTS WITH LARGE POPULATION-BASED STUDY DESIGNS ARE NEEDED TO IDENTIFY SUITABLE BIOMARKERS. IN CONCLUSION, A COMBINATION OF BLOOD EXAMINATIONS, FUNCTIONAL IMAGING TECHNIQUES, ELECTROENCEPHALOGRAPHY (EEG) INVESTIGATIONS AND POLYGENIC RISK SCORES SHOULD BE CONSIDERED AS THE BASIS FOR PREDICTING HOW SUBJECTS WILL TRANSITION INTO MANIFEST PSYCHOSIS. 2021 18 638 51 BIOMARKERS ASSOCIATED WITH MIGRAINE AND THEIR POTENTIAL ROLE IN MIGRAINE MANAGEMENT. OBJECTIVE: THE FOCUS OF THIS REVIEW IS TO REVIEW POTENTIAL DIAGNOSTIC AND THERAPEUTIC BIOMARKERS ASSOCIATED WITH MIGRAINE. BACKGROUND: MIGRAINE HEADACHE IS A COMMON DISEASE THAT AFFECTS MILLIONS OF INDIVIDUALS WORLDWIDE. ALTHOUGH WELL-ACCEPTED DIAGNOSTIC CRITERIA EXIST FOR MIGRAINE, IT IS STILL A COMPLEX DISORDER THAT REMAINS BOTH UNDERDIAGNOSED AND MISDIAGNOSED. THE CAUSES OF MIGRAINE ARE LIKELY A MIX OF GENETIC, EPIGENETIC, AND ENVIRONMENTAL FACTORS THAT, TOGETHER WITH THE INDIVIDUAL'S LIFE HISTORY, TRANSLATE INTO THE OBSERVED CLINICAL HETEROGENEITY. INHERENT CLINICAL HETEROGENEITY IS AN OBSTACLE IN DEVELOPING MORE EFFECTIVE TREATMENTS. THE LACK OF APPROPRIATE BIOMARKERS IS ALSO AN IMPEDIMENT TO DEVELOPING MORE EFFECTIVE THERAPEUTIC/PREVENTIVE APPROACHES. ULTIMATELY, BIOMARKERS MAY FACILITATE THE GOAL OF INDIVIDUALIZED MEDICINE BY ENABLING CLINICIANS TO MORE ACCURATELY DIAGNOSE AND TREAT MIGRAINE AND OTHER TYPES OF HEADACHE. METHODS: A COMPREHENSIVE REVIEW WAS CONDUCTED OF PUBMED CITATIONS CONTAINING THE KEY WORD "MARKER" OR "BIOMARKER" COMBINED WITH "MIGRAINE" OR "HEADACHE." OTHER KEY WORDS INCLUDED "SERUM," "SALIVA," "CEREBROSPINAL FLUID," "GENES," "BLOOD," AND "INFLAMMATION." THE ONLY RESTRICTION WAS ENGLISH-LANGUAGE PUBLICATION. THE ABSTRACTS OF ALL ARTICLES MEETING THESE CRITERIA WERE REVIEWED, AND FULL TEXT WAS RETRIEVED AND EXAMINED FOR RELEVANT REFERENCES. RESULTS: DATA FROM HUMAN STUDIES HAVE BEGUN TO IDENTIFY GENETIC MUTATIONS/POLYMORPHISMS AND ALTERED LEVELS OF SPECIFIC PROINFLAMMATORY AND NEUROMODULATORY MOLECULES THAT STRONGLY CORRELATE WITH MIGRAINE AS WELL AS SYMPTOM SEVERITY. RESULTS FROM A SMALLER NUMBER OF STUDIES HAVE IDENTIFIED PARAMETERS, SUCH AS THE NEUROPEPTIDE CALCITONIN GENE-RELATED PEPTIDE (CGRP), WHICH ARE SIGNIFICANTLY ASSOCIATED WITH RESPONSE TO SPECIFIC TREATMENTS FOR ACUTE MIGRAINE ATTACKS AND PROPHYLAXIS. EPIGENETIC MECHANISMS MAY ALSO BE INVOLVED IN THE DEVELOPMENT OF MIGRAINE, AND UNDERSTANDING ENVIRONMENTALLY INDUCED GENETIC CHANGES ASSOCIATED WITH THIS DISEASE MAY EVENTUALLY GUIDE THE DEVELOPMENT OF THERAPIES CAPABLE OF REVERSING THESE PATHOPHYSIOLOGICAL CHANGES IN GENE FUNCTION. CONCLUSIONS: THE UNDERSTANDING OF THE ETIOLOGY OF MIGRAINE IS INCOMPLETE. ALTHOUGH THE IDENTIFICATION AND VALIDATION OF BIOMARKERS HAS GREATLY ADVANCED DIAGNOSTIC PRECISION AND MEASURES OF THERAPEUTIC EFFICACY IN OTHER DISEASES, THERE ARE NO CURRENTLY ACCEPTED BIOMARKERS FOR CHRONIC OR EPISODIC MIGRAINE. HOWEVER, THE CONTINUED INVESTIGATION AND IDENTIFICATION OF GENETIC, EPIGENETIC, AND MOLECULAR BIOMARKERS IS LIKELY TO FACILITATE THE GOAL OF INDIVIDUALIZING MEDICINE BY ENABLING CLINICIANS TO MORE ACCURATELY DIAGNOSE AND TREAT MIGRAINE AND OTHER HEADACHE DISORDERS. 2013 19 1314 35 DELINEATING CONDITIONS AND SUBTYPES IN CHRONIC PAIN USING NEUROIMAGING. DIFFERENTIATING SUBTYPES OF CHRONIC PAIN STILL REMAINS A CHALLENGE-BOTH FROM A SUBJECTIVE AND OBJECTIVE POINT OF VIEW. PERSONALIZED MEDICINE IS THE CURRENT GOAL OF MODERN MEDICAL CARE AND IS LIMITED BY THE SUBJECTIVE NATURE OF PATIENT SELF-REPORTING OF SYMPTOMS AND BEHAVIORAL EVALUATION. PHYSIOLOGY-FOCUSED TECHNIQUES SUCH AS GENOME AND EPIGENETIC ANALYSES INFORM THE DELINEATION OF PAIN GROUPS; HOWEVER, EXCEPT UNDER RARE CIRCUMSTANCES, THEY HAVE DILUTED EFFECTS THAT AGAIN, SHARE A COMMON RELIANCE ON BEHAVIORAL EVALUATION. THE APPLICATION OF STRUCTURAL NEUROIMAGING TOWARDS DISTINGUISHING PAIN SUBTYPES IS A GROWING FIELD AND MAY INFORM PAIN-GROUP CLASSIFICATION THROUGH THE ANALYSIS OF BRAIN REGIONS SHOWING HYPERTROPHIC AND ATROPHIC CHANGES IN THE PRESENCE OF PAIN. ANALYTICAL TECHNIQUES SUCH AS MACHINE-LEARNING CLASSIFIERS HAVE THE CAPACITY TO PROCESS LARGE VOLUMES OF DATA AND DELINEATE DIAGNOSTICALLY RELEVANT INFORMATION FROM NEUROIMAGING ANALYSIS. THE ISSUE OF DEFINING A "BRAIN TYPE" IS AN EMERGING FIELD AIMED AT INTERPRETING OBSERVED BRAIN CHANGES AND DELINEATING THEIR CLINICAL IDENTITY/SIGNIFICANCE. IN THIS REVIEW, 2 CHRONIC PAIN CONDITIONS (MIGRAINE AND IRRITABLE BOWEL SYNDROME) WITH SIMILAR CLINICAL PHENOTYPES ARE COMPARED IN TERMS OF THEIR STRUCTURAL NEUROIMAGING FINDINGS. INDEPENDENT INVESTIGATIONS ARE COMPARED WITH FINDINGS FROM APPLICATION OF MACHINE-LEARNING ALGORITHMS. FINDINGS ARE DISCUSSED IN TERMS OF DIFFERENTIATING PATIENT SUBGROUPS USING NEUROIMAGING DATA IN PATIENTS WITH CHRONIC PAIN AND HOW THEY MAY BE APPLIED TOWARDS DEFINING A PERSONALIZED PAIN SIGNATURE THAT HELPS SEGREGATE PATIENT SUBGROUPS (EG, MIGRAINE WITH AND WITHOUT AURA, WITH OR WITHOUT NAUSEA; IRRITABLE BOWEL SYNDROME VS OTHER FUNCTIONAL GASTROINTESTINAL DISORDERS). 2019 20 6790 34 [DNA METHYLATION ANALYSIS IN ENVIRONMENTAL AND OCCUPATIONAL CANCER RESEARCH]. THE PRESENT PAPER REVIEWS RECENT LABORATORY METHODS AND EXPERIMENTAL EVIDENCE CONCERNING EPIGENETIC BIOMARKERS INVOLVED IN CARCINOGENESIS MECHANISMS. WE INTRODUCE DNA METHYLATION AND ITS ROLE IN GENE EXPRESSION CONTROL. DNA METHYLATION ANALYSIS MAY ALLOW TO IDENTIFY EARLY CHANGES LEADING TO CANCER AND OTHER CHRONIC DISEASES. WE DESCRIBE HERE STRATEGIES FOR LABORATORY ANALYSES AND THEIR POSSIBLE APPLICATIONS. WE EXAMINE RESULTS FROM RECENT EXPERIMENTAL STUDIES SUGGESTING THAT THE EFFECTS OF CERTAIN OCCUPATIONAL AGENTS ARE MEDIATED BY ALTERATIONS IN DNA METHYLATION. PLANNING AND CONDUCTING INVESTIGATIONS ON EXPOSED HUMAN SUBJECTS WILL ALLOW TO VERIFY WHETHER DNA METHYLATION CHANGES IDENTIFIED IN ANIMAL AND IN-VITRO STUDIES MAY BE USED AS EARLY-EFFECT AND SUSCEPTIBILITY BIOMARKERS. DNA METHYLATION ANALYSIS HAS THE POTENTIAL FOR FUTURE APPLICATIONS IN RISK ASSESSMENT AND PREVENTION PROGRAMS CONDUCTED ON SUBJECTS EXPOSED TO HUMAN CARCINOGENS. 2005