Anish Sharda, MD, MPH
Assistant ProfessorCards
About
Research
Publications
2026
Correction: A proteomic map of thromboinflammatory signatures in antiphospholipid syndrome: results from antiphospholipid syndrome alliance for clinical trials and international networking (APS ACTION) registry
Pine A, Butt A, Andreoli L, Knight J, Gerosa M, Cecchi I, Branch D, Lopez-Pedrera R, Belmont H, Kello N, Petri M, Cervera R, Pengo V, Meroni P, Cohen H, Willis R, Bertolaccini M, Goshua G, Gu S, Hwa J, Lee A, Erkan D, Sharda A. Correction: A proteomic map of thromboinflammatory signatures in antiphospholipid syndrome: results from antiphospholipid syndrome alliance for clinical trials and international networking (APS ACTION) registry. Frontiers In Immunology 2026, 17: 1807468. DOI: 10.3389/fimmu.2026.1807468.Commentaries, Editorials and Letters
2025
Platelet-related biomarkers and catheter-associated thrombosis in critically ill children: An exploratory study
Regmi H, Li I, Prozora S, Sharda A, Shabanova V, Faustino E, Investigators C. Platelet-related biomarkers and catheter-associated thrombosis in critically ill children: An exploratory study. Thrombosis Research 2025, 256: 109534. PMID: 41223722, PMCID: PMC12712714, DOI: 10.1016/j.thromres.2025.109534.Peer-Reviewed Original ResearchConceptsCatheter-associated deep venous thrombosisClinically Relevant BleedingCritically Ill ChildrenCentral venous catheterProphylactic enoxaparinPlatelet factor 4P-selectinIL-6Ill childrenTNF-aPlatelet activationBiomarkers of platelet activationCatheter-associated thrombosisDeep venous thrombosisFactor 4Platelet-poor plasmaSeverity of illnessRelevant bleedingPharmacological prophylaxisPlatelet countVenous cathetersMulticenter studyVenous thrombosisIL-2IL-1BA proteomic map of thromboinflammatory signatures in antiphospholipid syndrome: results from antiphospholipid syndrome alliance for clinical trials and international networking (APS ACTION) registry
Pine A, Butt A, Andreoli L, Knight J, Gerosa M, Cecchi I, Branch D, Lopez-Pedrera R, Belmont H, Kello N, Petri M, Cervera R, Pengo V, Meroni P, Cohen H, Willis R, Bertolccini M, Goshua G, Gu S, Hwa J, Lee A, Erkan D, Sharda A. A proteomic map of thromboinflammatory signatures in antiphospholipid syndrome: results from antiphospholipid syndrome alliance for clinical trials and international networking (APS ACTION) registry. Frontiers In Immunology 2025, 16: 1676578. PMID: 41181143, PMCID: PMC12571811, DOI: 10.3389/fimmu.2025.1676578.Peer-Reviewed Original ResearchConceptsAntiphospholipid syndromeInflammatory signatureClinical trialsAdaptive immune response pathwaysPersistently aPL-positive patientsPathogenesis of antiphospholipid syndromeClinical antiphospholipid syndromePathophysiology of antiphospholipid syndromeAPL-positive patientsCirculating antiphospholipid antibodiesPresence of aPLAntiphospholipid syndrome classificationAdaptive immune activationActivation of coagulationStatistical significanceAntiPhospholipid Syndrome AllianceMultiple pathophysiological mechanismsObstetric morbidityAntiphospholipid antibodiesImmune response pathwaysImmune cellsImmune activationAutoimmune diseasesProteomic screenClinical severityEROdicating arterial thrombosis with a novel endoplasmic reticulum oxidoreductase 1α inhibitor
Yarovinsky T, Sharda A, Hwa J. EROdicating arterial thrombosis with a novel endoplasmic reticulum oxidoreductase 1α inhibitor. Molecular Therapy 2025, 33: 4682-4683. PMID: 40975058, PMCID: PMC12848167, DOI: 10.1016/j.ymthe.2025.09.012.Peer-Reviewed Original ResearchAnalytical Review: Neutrophil Extracellular Traps and Antiphospholipid syndrome
Butt A, Sharda A, Lee A, Knight J. Analytical Review: Neutrophil Extracellular Traps and Antiphospholipid syndrome. Transfusion Medicine Reviews 2025, 40: 150909. PMID: 40783311, DOI: 10.1016/j.tmrv.2025.150909.Peer-Reviewed Original ResearchNeutrophil extracellular trapsAntiphospholipid syndromeAdenosine A2A receptorNegative regulatorP-selectin glycoprotein ligand-1Anti-NET antibodiesInduction of NETosisTranscription factor KLF2Regulation of NETosisAutoimmune prothrombotic disorderDecondensed chromatinDevelopment of thrombosisElevated NET levelsNeutrophil-mediated mechanismsGranule proteinsComplement system activationActivated Protein CObstetric complicationsAntiphospholipid antibodiesProthrombotic disordersNeutrophil-derived granule proteinsThrombotic eventsThrombotic riskClinical manifestationsAutoimmune disordersRalB uncoupling from exocyst is required for endothelial Weibel-Palade body exocytosis
Yang M, Boye-Doe A, Ali M, Abosabie S, Barr A, Mendez L, Sharda A. RalB uncoupling from exocyst is required for endothelial Weibel-Palade body exocytosis. Molecular Biology Of The Cell 2025, 36: ar62. PMID: 40172988, PMCID: PMC12086567, DOI: 10.1091/mbc.e24-11-0493.Peer-Reviewed Original ResearchConceptsWeibel-Palade body exocytosisHypervariable regionWeibel-Palade bodiesC-terminal hypervariable regionHemostatic protein von Willebrand factorGDP-bound stateGTP-bound stateExocytosis of Weibel-Palade bodiesDegree of homologyRal isoformsEffector proteinsCell stimulationProtein kinase C (PKC)-dependent phosphorylationNonphosphorylatable mutantRal GTPasesExocystSite mutantsSerine residuesRas-likeCellular processesExocytosisRalBRegulate effectorsEndothelial secretory granulesSecretory granulesCongenital T-cell activation impairs transitional-to-follicular B-cell maturation in humans
Allard-Chamard H, Hillier K, Ramseier M, Bertocchi A, Kaneko N, Premo K, Yuen G, Karpel M, Mahajan V, Tsekeri C, Hong J, Vencic J, Crotty R, Sharda A, Barmettler S, Westermann-Clark E, Walter J, Ghebremichael M, Shalek A, Farmer J, Pillai S. Congenital T-cell activation impairs transitional-to-follicular B-cell maturation in humans. Blood Advances 2025, 9: 520-532. PMID: 39626280, PMCID: PMC11814514, DOI: 10.1182/bloodadvances.2024013267.Peer-Reviewed Original ResearchConceptsCytotoxic T-lymphocyte-associated protein 4B cell maturationRegulatory T cellsT cell activationT cellsMammalian target of rapamycin complex 1B cellsEffector CD4+ T cellsExcessive T cell activationFunctional regulatory T cellsCD4+ T cellsHumoral immune dysfunctionB cell defectsMammalian targetPatients lymph nodesTransitional B cellsB cell stageB cell developmentCell-to-cell contactCD27- B cellsMammalian target of rapamycin complex 1 signalingCD40L levelsImmune dysfunctionReplacement therapyLymph nodes
2024
CRE24-052: Hyperfibrinolysis as the Primary Presenting Sign of Metastatic Prostate Cancer: A Diagnostic Challenge
Lobo A, Zengin Z, Kenworthy C, Sharda A. CRE24-052: Hyperfibrinolysis as the Primary Presenting Sign of Metastatic Prostate Cancer: A Diagnostic Challenge. Journal Of The National Comprehensive Cancer Network 2024, 22 DOI: 10.6004/jnccn.2023.7326.Peer-Reviewed Original Research
2023
Insights into platelet pharmacology from a cryo-EM structure of the ABCC4 transporter
Sharda A, Gu S, Hwa J. Insights into platelet pharmacology from a cryo-EM structure of the ABCC4 transporter. Nature Cardiovascular Research 2023, 2: 606-608. PMID: 37655224, PMCID: PMC10470688, DOI: 10.1038/s44161-023-00293-z.Peer-Reviewed Reviews, Practice Guidelines, Standards, and Consensus Statements
2022
Aspirin thromboprophylaxis in joint replacement surgery
Sharda A, Fatovic K, Bauer K. Aspirin thromboprophylaxis in joint replacement surgery. Research And Practice In Thrombosis And Haemostasis 2022, 6: e12649. PMID: 35106432, PMCID: PMC8785144, DOI: 10.1002/rth2.12649.Peer-Reviewed Original ResearchJoint replacement surgeryRisk of venous thromboembolismVenous thromboembolismReplacement surgeryRisk of symptomatic venous thromboembolismPrevention of venous thromboembolismLow-risk patientsMonths of followReal-world cohortSymptomatic venous thromboembolismVenous thromboembolic eventsProspective observational studyReal-world settingsPharmacological prophylaxisProspective studyAspirin monotherapyObservational studyPharmacological agentsThromboprophylaxisSurgeryTotal kneeAspirinAspirin thromboprophylaxis
Academic Achievements & Community Involvement
Clinical Care
Overview
Anish Sharda, MBBS (a medical degree awarded outside of the U.S.), is a physician-scientist and an assistant professor of medicine at Yale School of Medicine. Dr Sharda is a classical hematologist who specializes in the treatment of bleeding, clotting, and platelet disorders.
Dr. Sharda runs a National Institutes of Health-funded laboratory that conducts research in bleeding and clotting disorders, specifically von Willebrand disease. His research aims to improve understanding of this bleeding disorder as well as discover novel treatments.
Dr. Sharda completed his medical training at B.P. Koirala Institute of Health Sciences in Nepal, followed by a residency in internal medicine at the University of Minnesota Medical Center. He then pursued a clinical and research fellowship in hematology and oncology at Beth Israel Deaconess Medical Center and Harvard Medical School, where he was a faculty member until 2022.
Clinical Specialties
Fact Sheets
Bleeding Disorders
Learn More on Yale MedicineBlood Clots in Veins, Heart and Lungs
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Yale Medicine News
News & Links
Media
Smilow Shares with Primary Care: Benign Hematology and Elevated Blood Counts
January 7, 2025
Presentations by: Frank Ciminiello, MD, Kelsey Martin, MD, and Anish Sharda, MD, MPH
News
- January 08, 2025
Smilow Shares with Primary Care: Benign Hematology and Elevated Blood Counts
- February 15, 2024
Educational Exchange Brings Ugandan Hematologist Dr. Christine Sekaggya-Wiltshire to Yale School of Medicine
- December 08, 2023
New Research Reveals How Modifying a Key Molecular Regulator Could Improve the Treatment of von Willebrand Disease
- November 28, 2023
Yale Cancer Center Experts Present New Research at Hematology Annual Meeting
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300 George St
New Haven, Connecticut 06511
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