Your search keyword '"Kernan KF"' showing total 5 results

1. IMPACT OF ABCC8 AND TRPM4 GENETIC VARIATION IN CENTRAL NERVOUS SYSTEM DYSFUNCTION ASSOCIATED WITH PEDIATRIC SEPSIS.

Author

Kernan KF, Adkins A, Jha RM, Kochanek PM, Carcillo JA, Berg RA, Wessel D, Pollack MM, Meert K, Hall M, Newth C, Lin JC, Doctor A, Cornell T, Harrison RE, Zuppa AF, Notterman DA, and Aneja RK

Subjects

Humans, Male, Female, Child, Child, Preschool, Infant, Adolescent, Central Nervous System Diseases genetics, TRPM Cation Channels genetics, Sepsis genetics, Sepsis complications, Sulfonylurea Receptors genetics, Genetic Variation

Abstract

Abstract: Background: Sepsis-associated brain injury is associated with deterioration of mental status, persistent cognitive impairment, and morbidity. The SUR1/TRPM4 channel is a nonselective cation channel that is transcriptionally upregulated in the central nervous system with injury, allowing sodium influx, depolarization, cellular swelling, and secondary injury. We hypothesized that genetic variation in ABCC8 (SUR1 gene) and TRPM4 would associate with central nervous system dysfunction in severe pediatric sepsis. Methods: 326 children with severe sepsis underwent whole exome sequencing in an observational cohort. We compared children with and without central nervous system dysfunction (Glasgow Coma Scale <12) to assess for associations with clinical characteristics and pooled rare variants in ABCC8 and TRPM4. Sites of variation were mapped onto protein structure and assessed for phenotypic impact. Results: Pooled rare variants in either ABCC8 or TRPM4 associated with decreased odds of central nervous system dysfunction in severe pediatric sepsis (OR 0.14, 95% CI 0.003-0.87), P = 0.025). This association persisted following adjustment for race, organ failure, viral infection, and continuous renal replacement therapy (aOR 0.11, 95% CI 0.01-0.59, P = 0.038). Structural mapping showed that rare variants concentrated in the nucleotide-binding domains of ABCC8 and N-terminal melastatin homology region of TRPM4 . Conclusion : This study suggests a role for the ABCC8/TRPM4 channel in central nervous system dysfunction in severe pediatric sepsis. Although exploratory, the lack of therapies to prevent or mitigate central nervous system dysfunction in pediatric sepsis warrants further studies to clarify the mechanism and confirm the potential protective effect of these rare ABCC8/TRPM4 variants., Competing Interests: The remaining authors report no conflicts of interest., (Copyright © 2024 by the Shock Society.)

Published

2024

2. Hyperferritinemia Screening to Aid Identification and Differentiation of Patients with Hyperinflammatory Disorders.

Author

Carol HA, Mayer AS, Zhang MS, Dang V, Varghese J, Martinez Z, Schneider C, Baker JE, Tsoukas P, Behrens EM, Cron RQ, Diorio C, Henderson LA, Schulert G, Lee P, Kernan KF, and Canna SW

Subjects

Humans, Female, Male, Child, Child, Preschool, Infant, Adolescent, Diagnosis, Differential, Intercellular Signaling Peptides and Proteins blood, Chemokine CXCL9 blood, Inflammation diagnosis, Inflammation blood, Inflammation immunology, Retrospective Studies, Lymphohistiocytosis, Hemophagocytic diagnosis, Lymphohistiocytosis, Hemophagocytic blood, Lymphohistiocytosis, Hemophagocytic immunology, Biomarkers blood, Interleukin-18 blood, Hyperferritinemia diagnosis, Hyperferritinemia blood, Ferritins blood

Abstract

High ferritin is an important and sensitive biomarker for the various forms of hemophagocytic lymphohistiocytosis (HLH), a diverse and deadly group of cytokine storm syndromes. Early action to prevent immunopathology in HLH often includes empiric immunomodulation, which can complicate etiologic work-up and prevent collection of early/pre-treatment research samples. To address this, we instituted an alert system at UPMC Children's Hospital where serum ferritin > 1000 ng/mL triggered real-time chart review, assessment of whether the value reflected "inflammatory hyperferritnemia (IHF)", and biobanking of remnant samples from consenting IHF patients. We extracted relevant clinical data; periodically measured serum total IL-18, IL-18 binding protein (IL-18BP), and CXCL9; retrospectively classified patients by etiology into infectious, rheumatic, or immune dysregulation; and subjected a subgroup of samples to a 96-analyte biomarker screen. 180 patients were identified, 30.5% of which had IHF. Maximum ferritin levels were significantly higher in patients with IHF than with either hemoglobinopathy or transplant, and highly elevated total IL-18 levels were distinctive to patients with Stills Disease and/or Macrophage Activation Syndrome (MAS). Multi-analyte analysis showed elevation in proteins associated with cytotoxic lymphocytes in all IHF samples when compared to healthy controls and depression of proteins such as ANGPT1 and VEGFR2 in samples from hyperferritinemic sepsis patients relative to non-sepsis controls. This real-time IFH screen proved feasible and efficient, validated prior observations about the specificity of IL-18, enabled early sample collection from a complex population, suggested a unique vascular biomarker signature in hyperferritinemic sepsis, and expanded our understanding of IHF heterogeneity., (© 2024. The Author(s).)

Published

2024

3. Diagnostic Guidelines for Familial Hemophagocytic Lymphohistiocytosis Revisited.

Author

Henter JI, Sieni E, Eriksson J, Bergsten E, Hed Myrberg I, Canna S, Coniglio ML, Cron RQ, Kernan KF, Kumar AR, Lehmberg K, Minoia F, Naqvi A, Ravelli A, Tang Y, Bottai M, Bryceson YT, Horne A, and Jordan MB

Abstract

Current HLH-2004-based diagnostic criteria for familial hemophagocytic lymphohistiocytosis (FHL) are based on expert opinion. Here we performed a case-control study to test and possibly improve these clinical criteria. We also developed two complementary expert opinion-based diagnostic strategies for FHL in patients with signs/symptoms suggestive of HLH, based on genetic and cellular cytotoxicity assays. The cases (n=366) were children <16 years with verified familial and/or genetic FHL (n=341) or Griscelli syndrome type 2 (GS2) (n=25); 276 from the HLH-94/HLH-2004 databases and 90 from the Italian HLH Registry. All fulfilled the HLH-94/HLH-2004 patient inclusion criteria. Controls were 374 children with systemic-onset juvenile idiopathic arthritis (sJIA) and 329+361 children in two cohorts with febrile infections that could be confused with HLH and sepsis, respectively. To provide complete data sets, multiple imputations were performed. The optimal model, based on the number of diagnostic criteria fulfilled from 17 variables studied, reveled almost similar diagnostic thresholds as the existing criteria, with accuracy 99.1% (sensitivity 97.1%; specificity 99.5%). Notably, assessment of the original HLH-2004 criteria revealed accuracy 97.4% (sensitivity 99.0%; specificity 97.1%). Since cellular cytotoxicity assays here constitute a separate diagnostic strategy, HLH-2004 criteria without NK-cell function was also studied which showed accuracy 99.0% (sensitivity 96.2%; specificity 99.5%). Thus, we conclude that the HLH-2004 criteria (without NK-cell function) have significant validity in their current form when tested against severe infections or sJIA. It is important to exclude underlying malignancies and atypical infections. In addition, complementary cellular and genetic diagnostic guidelines can facilitate necessary confirmation of clinical diagnosis., (Copyright © 2024 American Society of Hematology.)

Published

2024

4. Hyperferritinemia screening to aid identification and differentiation of patients with hyperinflammatory disorders.

Author

Carol HA, Mayer AS, Zhang MS, Dang V, Varghese J, Martinez Z, Schneider C, Baker JE, Tsoukas P, Behrens EM, Cron RQ, Diorio C, Henderson LA, Schulert G, Lee P, Kernan KF, and Canna SW

Abstract

High ferritin is an important and sensitive biomarker for hemophagocytic lymphohistiocytosis (HLH), a diverse and deadly group of cytokine storm syndromes. Early action to prevent immunopathology in HLH often includes empiric immunomodulation, which can complicate etiologic work-up and prevent collection of early/pre-treatment research samples. To address this, we instituted an alert system where serum ferritin > 1000ng/mL triggered real-time chart review, assessment of whether the value reflected "inflammatory hyperferritnemia (IHF)", and biobanking of remnant samples from consenting IHF patients. We extracted relevant clinical data; periodically measured serum total IL-18, IL-18 binding protein (IL-18BP), and CXCL9; retrospectively classified patients by etiology into infectious, rheumatic, or immune dysregulation; and subjected a subgroup of samples to a 96-analyte biomarker screen. 180 patients were identified, 30.5% of which had IHF. Maximum ferritin levels were significantly higher in patients with IHF than with either hemoglobinopathy or transplant, and highly elevated total IL-18 levels were distinctive to patients with Stills Disease and/or Macrophage Activation Syndrome (MAS). Multi-analyte analysis showed elevation in proteins associated with cytotoxic lymphocytes in all IHF samples when compared to healthy controls and depression of proteins such as ANGPT1 and VEGFR2 in samples from hyperferritinemic sepsis patients relative to non-sepsis controls. This single-center, real-time IFH screen proved feasible and efficient, validated prior observations about the specificity of IL-18, enabled early sample collection from a complex population, suggested a unique vascular biomarker signature in hyperferritinemic sepsis, and expanded our understanding of IHF heterogeneity., Competing Interests: Hallie A. Carol: no disclosures Adam S. Mayer: no disclosures Michael S Zhang: previously employed at the University of Pittsburgh and University of Pittsburgh Medical Center, and currently employed at Regeneron Pharmaceuticals Inc. Michael S. Zhang contributed to this article as an employee of the University of Pittsburgh and University of Pittsburgh Medical Center and the views expressed do not necessarily represent the views of Regeneron Pharmaceuticals Inc. Vinh Dang: no disclosures Jemy Varghese: no disclosures Zachary Martinez: no disclosures Corinne Schneider: no disclosures Elizabeth (Joy) Baker: no disclosures Paul Tsoukas: no disclosures Ed Behrens Randy Q. Cron: Research support from Histiocytosis Association; consultant to Sobi and AbbVie; adjudication committee clinical trial work for AbbVie, Pfizer Caroline Diorio: no disclosures Lauren A. Henderson: Consulting for Sobi, adaptive biotechnologies. Investigator initiated grant support for BMS. Was on a grant review panel for Pfizer Grant Schulert: Research support from IpiNovyx, consultant for SOBI and Boehringer Ingelheim Pui Lee Kate F Kernan: no disclosures Scott W. Canna: Speaking fees for Sobi and PractivePointCME, Consulting for Simcha, Apollo, J&J, and Bristol Myers Squibb. Funding: National Institute of Arthritis and Musculoskeletal and Skin Diseases, T32AR076951 (HAC, ASM) The RK Mellon Institute for Pediatric Research and R01HD098428 (CS, VD, SWC) The Childhood Arthritis and Rheumatology Research Alliance (CARRA) (CS, VD, LAH, SWC). National Institute od Child Health and Human Development, R01HD098428 (CS, VD, SWC) SickKids Clinician Scientist training Program Scholarship (PT) Children’s Hospital of Philadelphia, Immune Dysregulation Frontiers Program (EMB, SWC) Histiocytosis Association (RQC) Paul Calabresi K12 Career Development Award, 5K12CA076931–24 (CJD) Canadian Institute for Health Research (CIHR) Fellowship Award(CJD) Alex’s Lemonade Stand Fund (ALSF) ‘A’ Award (CJD) National Institute of Arthritis and Musculoskeletal and Skin Diseases, R01AR083424 (LAH) IpiNovyx (GS) National Institute of General Medical Sciences, K23GM148827–01 (KFK)

Published

2024

5. The authors reply.

Author

Cheung C, Kernan KF, and Fink EL

Abstract

Competing Interests: Dr. Kernan’s institution received funding from the National Institute of General Medical Sciences (K23GM148827). Drs. Kernan and Fink received support for article research from the National Institutes of Health. Dr. Fink’s institution received funding from the Neurocritical Care Society; she received funding from the American Board of Pediatrics. Dr. Cheung has disclosed that she does not have any potential conflicts of interest.

Published

2024