Christopher J. Hernandez

Christopher J. Hernandez's AcademicInfluence.com Rankings

Engineering

#4255

World Rank

#5440

Historical Rank

#1084

USA Rank

Aerospace Engineering

#157

World Rank

#170

Historical Rank

#50

USA Rank

Mechanical Engineering

#829

World Rank

#896

Historical Rank

#104

USA Rank

Electrical Engineering

#2830

World Rank

#2976

Historical Rank

#383

USA Rank

engineering Degrees

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Engineering

Christopher J. Hernandez's Degrees

Bachelors Mechanical Engineering University of California, Berkeley
PhD Electrical Engineering Stanford University

Why Is Christopher J. Hernandez Influential?

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According to Wikipedia, Christopher J. Hernandez is an American engineer and scientist who currently serves as professor at the University of California, San Francisco in the departments of Orthopaedic Surgery and Bioengineering and Therapeutic Sciences.

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Christopher J. Hernandez's Published Works

Number of citations in a given year to any of this author's works

Total number of citations to an author for the works they published in a given year. This highlights publication of the most important work(s) by the author

Published Works

A biomechanical perspective on bone quality. (2006) (310)
Trabecular microfracture and the influence of pyridinium and non-enzymatic glycation-mediated collagen cross-links. (2005) (204)
Osteocyte apoptosis and control of bone resorption following ovariectomy in mice. (2010) (198)
Osteocyte density in woven bone. (2004) (128)
A Biomechanical Analysis of the Effects of Resorption Cavities on Cancellous Bone Strength (2006) (110)
Alterations to the Gut Microbiome Impair Bone Strength and Tissue Material Properties (2017) (98)
How can bone turnover modify bone strength independent of bone mass? (2008) (82)
Altered Tissue Composition, Microarchitecture, and Mechanical Performance in Cancellous Bone From Men With Type 2 Diabetes Mellitus (2019) (74)
Microdamage Caused by Fatigue Loading in Human Cancellous Bone: Relationship to Reductions in Bone Biomechanical Performance (2013) (63)
Understanding Bone Strength Is Not Enough (2017) (63)
Bone marrow lesions in osteoarthritis: What lies beneath (2018) (54)
Three‐dimensional dynamic bone histomorphometry (2012) (49)
Trabecular Microarchitecture of Hominoid Thoracic Vertebrae (2009) (49)
Quantitative relationships between microdamage and cancellous bone strength and stiffness. (2014) (48)
The Microbial Metagenome and Tissue Composition in Mice with Microbiome-Induced Reductions in Bone Strength (2019) (43)
Material heterogeneity in cancellous bone promotes deformation recovery after mechanical failure (2016) (41)
Bone-inspired microarchitectures achieve enhanced fatigue life (2019) (40)
Dietary vitamin K is remodeled by gut microbiota and influences community composition (2021) (36)
Three‐dimensional surface texture visualization of bone tissue through epifluorescence‐based serial block face imaging (2009) (32)
Mechanical failure begins preferentially near resorption cavities in human vertebral cancellous bone under compression. (2012) (31)
Human Evolution and Osteoporosis-Related Spinal Fractures (2011) (30)
The Microbiome and Bone and Joint Disease (2017) (30)
The effects of tensile-compressive loading mode and microarchitecture on microdamage in human vertebral cancellous bone. (2014) (30)
The relationship between basic multicellular unit activation and origination in cancellous bone. (1999) (28)
Immunomodulatory nanogels overcome restricted immunity in a murine model of gut microbiome–mediated metabolic syndrome (2019) (27)
Voxel size and measures of individual resorption cavities in three-dimensional images of cancellous bone. (2009) (26)
Spatial relationships between bone formation and mechanical stress within cancellous bone. (2016) (26)
Three-dimensional characterization of resorption cavity size and location in human vertebral trabecular bone. (2012) (26)
Fatigue-induced microdamage in cancellous bone occurs distant from resorption cavities and trabecular surfaces. (2015) (25)
Current Options and Emerging Biomaterials for Periprosthetic Joint Infection (2018) (25)
Trabecular Microfracture Precedes Cortical Shell Failure in the Rat Caudal Vertebra Under Cyclic Overloading (2009) (24)
A microfluidic platform for profiling biomechanical properties of bacteria. (2014) (24)
Biomechanical allometry in hominoid thoracic vertebrae. (2009) (23)
Validity of serial milling-based imaging system for microdamage quantification. (2008) (23)
Alterations in damage processes in dense cancellous bone following gamma-radiation sterilization. (2010) (22)
The Gut Microbiome and Bone Strength (2020) (20)
Can quantitative computed tomography detect bone morphological changes associated with catastrophic proximal sesamoid bone fracture in Thoroughbred racehorses? (2018) (19)
Anti-resorptive agents reduce the size of resorption cavities: a three-dimensional dynamic bone histomorphometry study. (2013) (18)
Finite element models predict the location of microdamage in cancellous bone following uniaxial loading. (2015) (18)
The effects of misalignment during in vivo loading of bone: techniques to detect the proximity of objects in three-dimensional models. (2014) (17)
Disruption of the Gut Microbiome Increases the Risk of Periprosthetic Joint Infection in Mice. (2019) (16)
Ectopic Expression of SOX9 in Osteoblasts Alters Bone Mechanical Properties (2012) (14)
Cell biomechanics and mechanobiology in bacteria: Challenges and opportunities (2020) (14)
Romosozumab Treatment Converts Trabecular Rods into Trabecular Plates in Male Cynomolgus Monkeys (2017) (12)
Mechanical stress compromises multicomponent efflux complexes in bacteria (2019) (12)
Irradiation Does Not Modify Mechanical Properties of Cancellous Bone Under Compression (2012) (11)
Multiple Dietary Vitamin K Forms Are Converted to Tissue Menaquinone-4 in Mice. (2021) (11)
An in vivo model of a mechanically-induced bone marrow lesion. (2017) (11)
Bone Mechanical Function and the Gut Microbiota. (2017) (10)
Chapter A2 Cancellous Bone (2016) (9)
Gut microbial-derived short-chain fatty acids and bone: a potential role in fracture healing. (2021) (8)
Biomechanical effects of simulated resorption cavities in cancellous bone across a wide range of bone volume fractions (2012) (8)
Butyrate Inhibits Osteoclast Activity In Vitro and Regulates Systemic Inflammation and Bone Healing in a Murine Osteotomy Model Compared to Antibiotic-Treated Mice (2021) (7)
Fluorescent Silica Nanoparticles to Label Metastatic Tumor Cells in Mineralized Bone Microenvironments. (2020) (7)
Bone fatigue, stress fractures and bone repair (Sun Valley 2013) (2013) (7)
Alterations to the gut microbiome impair bone tissue strength in aged mice (2021) (6)
Recent Advances in the Evaluation of Antimicrobial Materials for Resolution of Orthopedic Implant-Associated Infections In Vivo. (2021) (6)
Adaptation of skeletal structure to mechanical loading (2021) (6)
The microbiome: A heritable contributor to bone morphology? (2021) (5)
Obesity and load‐induced posttraumatic osteoarthritis in the absence of fracture or surgical trauma (2020) (5)
Musculoskeletal microbiology: The utility of the microbiome in orthopedics (2020) (5)
Understanding Bone Strength from Finite Element Models: Concepts for Non-engineers (2016) (4)
3D Visualization and Measurement of Resorption Cavities in Cancellous Bone (2002) (4)
Components of the Gut Microbiome That Influence Bone Tissue‐Level Strength (2021) (4)
Distributions of Microdamage Are Altered Between Trabecular Rods and Plates in Cancellous Bone From Men With Type 2 Diabetes Mellitus (2022) (3)
Investigation of Vitamin K Quinone Metabolism by Human Gut Bacteria (2020) (2)
Mechanical stimuli activate gene expression via a cell envelope stress sensing pathway (2022) (2)
Impaired Bone Matrix: The Key to Fragility in Type 2 Diabetes? (2021) (1)
Musculoskeletal Microbiology: The Microbiome in Orthopaedic Biomechanics. (2021) (1)
Bone-Inspired Microarchitectured Materials with Enhanced Fatigue Life (2018) (1)
A 2 Cancellous Bone (2017) (0)
Microscopic Tissue Damage Forms Preferentially Near Resorption Cavities in Human Vertebral Cancellous Bone (2012) (0)
AWARD NUMBER: W81XWH-15-1-0239 TITLE: Alterations in Gut Microbiota and Post-Traumatic Osteoarthritis PRINCIPAL INVESTIGATOR: Dr. Christopher Hernandez CONTRACTING ORGANIZATION: CORNELL UNIVERSITY, INC (2017) (0)
Multiple Dietary Vitamin K Forms Are Converted to Tissue Menaquinone-4 in Mice. (2022) (0)
VxrAB signaling in Vibrio cholerae is activated by diverse mechanical stimuli (2022) (0)
Modifying the Gut Microbiome Through Diet or Antibiotics Alters Bone Phenotypes in Older Mice (2021) (0)
Alterations in Gut Microbiota and Post-Traumatic Osteoarthritis (2016) (0)
Fatigue Failure in Cancellous Bone is Primarily Due to Propagation of Microdamage from Pre-existing Microdamage Sites (2015) (0)
Non-Uniform Mechanical Stress Promotes Metal Efflux Pump Disassembly (2018) (0)
Reply to Zadpoor: Fatigue mechanisms observed in bone provide insight to microarchitectured materials (2020) (0)
Dietary and Supplemental Menaquinones Accumulate in Liver and Feces of C57BL6 Mice (P06-006-19). (2019) (0)
Author response for "Components of the Gut Microbiome that Influence Bone Tissue‐Level Strength" (2021) (0)
Chapter A 2 Cancellous Bone (2019) (0)
Characterization of Ultralow‐Density Cellular Solids: Lessons from 30 years of Bone Biomechanics Research (2021) (0)
Mechanical Stress Promotes Disassembly of the Antibiotic Efflux Complex MacAB-TolC (2020) (0)
Reduction in Resorption Cavity Size following Anti-Resorptive Drug Treatment (2013) (0)
Microdamage assessment in equine bone resulting from high hydrostatic pressure and/or irradiation (2007) (0)
COMPUTATIONAL MODEL PREDICTS GENETIC DIFFERENCES IN BONE TISSUE AGE AND MINERALIZATION (2002) (0)
Animal Models of Bone Marrow Lesions in Osteoarthritis (2021) (0)
Sub-Micron 3D Fluorescent Imaging and Visualization of Remodeling Cavities in Cancellous Bone (2008) (0)
Near-terminal creep damage does not substantially influence fatigue life under physiological loading. (2011) (0)
Quantitative Relationships Between The Amount of Microdamage and Reductions in Cancellous Bone Stiffness and Strength (2014) (0)
Optical Coherence Tomography for the Management of Fibrous Dysplasia of the Skull Base with Optic Nerve Involvement (2018) (0)
In the Rodent Tail Loading Model, Locations of Cancellous Tissue with High Mechanical Strain are not Affected by Small Off-axis Loads (2013) (0)

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Christopher J. Hernandez's Academic­Influence.com Rankings

Christopher J. Hernandez's Degrees

Why Is Christopher J. Hernandez Influential?

Christopher J. Hernandez's Published Works

Published Works

Other Resources About Christopher J. Hernandez

What Schools Are Affiliated With Christopher J. Hernandez?

Christopher J. Hernandez's AcademicInfluence.com Rankings