| scholarly article | Q13442814 |
| P50 | author | ??? | Q124638513 |
| Ren G. Dong | Q66413831 | ||
| John Z. Wu | Q82879278 | ||
| Dan E. Welcome | Q84571848 | ||
| P2860 | cites work | Biodynamic response of human fingers in a power grip subjected to a random vibration | Q23919757 |
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| Effects of static compression on the vibration modes of a fingertip | Q24704524 | ||
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| Tactile sensibility in the human hand: relative and absolute densities of four types of mechanoreceptive units in glabrous skin | Q41573027 | ||
| Neural mechanisms in vibrotactile adaptation | Q48115478 | ||
| How to test very soft biological tissues in extension? | Q48909427 | ||
| Detection thresholds for stimuli in humans and monkeys: comparison with threshold events in mechanoreceptive afferent nerve fibers innervating the monkey hand | Q51111957 | ||
| An elastic-viscoplastic model for excised facial tissues. | Q52209111 | ||
| An ultrasound indentation system for biomechanical properties assessment of soft tissues in-vivo | Q62711159 | ||
| Tactile sensory changes in hands occupationally exposed to vibration | Q68002243 | ||
| Assessing the severity of the neurological component of the hand-arm vibration syndrome | Q69650610 | ||
| A comparison of vibrotactile thresholds on the finger obtained with different equipment | Q72715245 | ||
| A comparison of vibrotactile thresholds on the finger obtained with ISO type equipment and Japanese equipment | Q73566900 | ||
| Neurological and functional effects of short-term exposure to hand-arm vibration | Q74693281 | ||
| Ultrasonic and viscoelastic properties of skin under transverse mechanical stress in vitro | Q77535174 | ||
| Effects of local vibration transmitted from ultrasonic devices on vibrotactile perception in the hands of therapists | Q93596632 | ||
| P433 | issue | 13 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | biomechanics | Q193378 |
| musculoskeletal disorder of the upper extremities | Q26989030 | ||
| P5008 | on focus list of Wikimedia project | Wikimedia–NIOSH collaboration | Q104416361 |
| P304 | page(s) | 2445-2456 | |
| P577 | publication date | 2006-01-01 | |
| P1433 | published in | Journal of Biomechanics | Q4862281 |
| P859 | sponsor | NIOSH Health Effects Laboratory Division | Q123344455 |
| P1476 | title | Analysis of the dynamic strains in a fingertip exposed to vibrations: Correlation to the mechanical stimuli on mechanoreceptors | |
| P478 | volume | 39 |
| Q23914634 | A method for analyzing absorbed power distribution in the hand and arm substructures when operating vibrating tools |
| Q23919689 | A method to quantify hand-transmitted vibration exposure based on the biodynamic stress concept |
| Q23920065 | A proposed theory on biodynamic frequency weighting for hand-transmitted vibration exposure |
| Q64134558 | Acute Vibration Induces Peripheral Nerve Sensitization in a Rat Tail Model: Possible Role of Oxidative Stress and Inflammation |
| Q23923973 | An examination of an adapter method for measuring the vibration transmitted to the human arms |
| Q23923863 | An investigation on characteristics of the vibration transmitted to wrist and elbow in the operation of impact wrenches |
| Q24170025 | Analysis of the biodynamic interaction between the fingertip and probe in the vibrotactile tests: the influences of the probe/fingertip contact orientation and static indentation |
| Q23915733 | Antivibration gloves: effects on vascular and sensorineural function, an animal model |
| Q40076385 | Asymmetric response properties of rapidly adapting mechanoreceptive fibers in the rat glabrous skin |
| Q47316282 | Contact area affects frequency-dependent responses to vibration in the peripheral vascular and sensorineural systems |
| Q64095974 | Development of a finger adapter method for testing and evaluating vibration-reducing gloves and materials |
| Q23916432 | Frequency-dependent effects of vibration on peripheral nerves and sensory nerve function in a rat model of hand-arm vibration syndrome. (Erratum: Characterization of frequency-dependent responses of the vascular system |
| Q23916435 | Frequency-dependent effects of vibration on physiological systems: experiments with animals and other human surrogates |
| Q64943977 | Health effects associated with occupational exposure to hand-arm or whole body vibration. |
| Q23914693 | Increased oxidant activity mediates vascular dysfunction in vibration injury |
| Q40351250 | Justification for a 2D versus 3D fingertip finite element model during static contact simulations |
| Q23920054 | Mechanical impedances distributed at the fingers and palm of the human hand in three orthogonal directions |
| Q23920055 | Modeling of the biodynamic responses distributed at the fingers and palm of the hand in three orthogonal directions |
| Q35048459 | Retracted: Fluid-Structure Interaction-Based Biomechanical Perception Model for Tactile Sensing |
| Q58700272 | Static and active tactile perception and touch anisotropy: aging and gender effect |
| Q23916436 | The effects of impact vibration on peripheral blood vessels and nerves |
| Q47396522 | The relationships between hand coupling force and vibration biodynamic responses of the hand-arm system |
| Q35877558 | Thresholds of skin sensitivity are partially influenced by mechanical properties of the skin on the foot sole |
| Q24853136 | Transcriptional pathways altered in response to vibration in a model of hand-arm vibration syndrome |
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