2019
Protein Supplementation in Sport: Source, Timing, and Intended Benefits
Huecker M, Sarav M, Pearlman M, Laster J. Protein Supplementation in Sport: Source, Timing, and Intended Benefits. Current Nutrition Reports 2019, 8: 382-396. PMID: 31713177, DOI: 10.1007/s13668-019-00293-1.Peer-Reviewed Original ResearchConceptsBenefit purposesSportsMulti-billion-dollar marketClinically relevant outcomesDietary protein consumptionAthletesHealthy subjectsReviewThe purposeHigh-protein dietMarketEffects of protein supplementationLong-term implicationsShort-termExercise activitiesRelevant outcomesNutrient timingOptimal dietary proteinProtein consumptionSupplement formImplicationsProtein supplementationSupplementationOutcomesPurposesDietary protein
2017
Going Gluten Free: the History and Nutritional Implications of Today’s Most Popular Diet
Newberry C, McKnight L, Sarav M, Pickett-Blakely O. Going Gluten Free: the History and Nutritional Implications of Today’s Most Popular Diet. Current Gastroenterology Reports 2017, 19: 54. PMID: 28948465, DOI: 10.1007/s11894-017-0597-2.Peer-Reviewed Original ResearchSummary Points and Consensus Recommendations From the International Protein Summit
Hurt R, McClave S, Martindale R, Gautier J, Coss‐Bu J, Dickerson R, Heyland D, Hoffer L, Moore F, Morris C, Paddon‐Jones D, Patel J, Phillips S, Rugeles S, Sarav M, Weijs P, Wernerman J, Hamilton‐Reeves J, McClain C, Taylor B. Summary Points and Consensus Recommendations From the International Protein Summit. Nutrition In Clinical Practice 2017, 32: 142s-151s. PMID: 28388374, DOI: 10.1177/0884533617693610.Peer-Reviewed Original ResearchMeSH KeywordsConsensusCritical IllnessDietary ProteinsHumansIntensive Care UnitsNutritional RequirementsNutritional StatusNutritional SupportConceptsIntensive care unitPhase of critical illnessHigh nutritional riskInitial phase of critical illnessCritically ill patientsHealthcare professionalsMammalian target of rapamycinNutritional riskImproved insulin sensitivityDose of proteinClinical nutritionProtein goalsMuscle massNutrition therapyHigh doses of proteinClinical outcomesProtein administrationTarget of rapamycinBody protein homeostasisSummary PointsMeeting energy goalsHigh dosesNew protein synthesisProtein doseConsensus recommendationsAssessment of Protein Turnover in Health and Disease
Wernerman J, Morris C, Paddon‐Jones D, Sarav M. Assessment of Protein Turnover in Health and Disease. Nutrition In Clinical Practice 2017, 32: 15s-20s. PMID: 28388375, DOI: 10.1177/0884533617694611.Peer-Reviewed Original ResearchMeSH KeywordsAgedAgingDietary ProteinsHumansMiddle AgedNutrition AssessmentNutritional RequirementsOxidation-ReductionProtein Requirements for Critically Ill Patients With Renal and Liver Failure
Patel J, McClain C, Sarav M, Hamilton‐Reeves J, Hurt R. Protein Requirements for Critically Ill Patients With Renal and Liver Failure. Nutrition In Clinical Practice 2017, 32: 101s-111s. PMID: 28208022, DOI: 10.1177/0884533616687501.Peer-Reviewed Original ResearchMeSH KeywordsAcute Kidney InjuryCritical IllnessDietary ProteinsHumansIntensive Care UnitsLiver FailureNutritional RequirementsConceptsDecompensated liver cirrhosisAcute kidney injuryAcute liver failureNegative nitrogen balanceMuscle wastingRenal replacement therapyCritically ill patientsRespiratory failureLiver dysfunctionReplacement therapyKidney injuryLiver failureLiver cirrhosisAmino acid lossesICU admissionIncreased riskOptimal protein supplementationSevere formIll patientsCritical illnessNitrogen balanceProtein abnormalitiesAssociated with proteolysisProtein requirementsAcid loss