A teoria do desenvolvimento político e a questão da ordem e da estabilidade

Summary Temporal frequency is a fundamental sensory dimension in audition and touch. In audition, analysis of temporal frequency is necessary for speech and music perception [1]; in touch, the spectral analysis of vibratory signals has been implicated in texture perception [2, 3] and in sensing the environment through tools [4–7]. Environmental oscillations impinging upon the ear are generally thought to be processed independently of oscillations impinging upon the skin. Here, we show that frequency channels are perceptually linked across audition and touch. In a series of psychophysical experiments, we demonstrate that auditory stimuli interfere with tactile frequency perception in a systematic manner. Specifically, performance on a tactile frequency-discrimination task is impaired when an auditory distractor is presented with the tactile stimuli, but only if the frequencies of the auditory and tactile stimuli are similar. The frequency-dependent interference effect is observed whether the distractors are pure tones or band-pass noise, so an auditory percept of pitch is not required for the effect to be produced. Importantly, distractors that strongly impair frequency discrimination do not interfere with judgments of tactile intensity. This surprisingly specific crosstalk between different modalities reflects the importance of supramodal representations of fundamental sensory dimensions.

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Fenestration Improves Acellular Dermal Matrix Biointegration: An Investigation of Revascularization with Photoacoustic Microscopy

Cottler

Olenczak

Ning

et al. 2019

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Background: Acellular dermal matrices have revolutionized alloplastic breast reconstruction. Furthering our knowledge of their biointegration will allow for improved design of these biomaterials. The ideal acellular dermal matrix for breast reconstruction would provide durable soft-tissue augmentation while undergoing rapid biointegration to promote physiologic elasticity and reduced infectious complications. The inclusion of fenestrations in their design is thought to promote the process of biointegration; however, the mechanisms underlying this theory have not been evaluated. Methods: Biointegration of standard and fenestrated acellular dermal matrices was assessed with serial photoacoustic microscopic imaging, in a murine dorsal skinfold window chamber model specifically designed to recapitulate the microenvironment of acellular dermal matrix–assisted alloplastic breast reconstruction. Photoacoustic microscopy allows for a serial, real-time, noninvasive assessment of hemoglobin content and oxygen saturation in living tissues, generating high-resolution, three-dimensional maps of the nascent microvasculature within acellular dermal matrices. Confirmatory histologic and immunohistochemical assessments were performed at the terminal time point. Results: Fenestrated acellular dermal matrices demonstrated increased fibroblast and macrophage lineage host cell infiltration, greater mean percentage surface area vascular penetration (21 percent versus 11 percent; p = 0.08), and greater mean oxygen saturation (13.5 percent versus 6.9 percent; p < 0.05) than nonfenestrated matrices by 2 weeks after implantation. By 21 days, host cells had progressed nearly 1 mm within the acellular dermal matrix fenestrations, resulting in significantly more vascularity across the top of the fenestrated matrix (3.8 vessels per high-power field versus 0.07 vessels per high-power field; p < 0.05). Conclusions: Inclusion of fenestrations in acellular dermal matrices improves the recellularization and revascularization that are crucial to biointegration of these materials. Future studies will investigate the optimal distance between fenestrations.

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Posttraumatic Midface Pain

Olenczak

Hui-Chou

Aguila

et al. 2015

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Effects of Collagenase Digestion and Stromal Vascular Fraction Supplementation on Volume Retention of Fat Grafts

Olenczak

Seaman

Lin

et al. 2017

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Tissue Monitoring with Three-Wavelength Light Emitting Diode–Based Near-Infrared Spectroscopy

Olenczak

Murariu

Ikeda

et al. 2016

J reconstr Microsurg

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Flap monitoring with near-infrared spectroscopy (NIRS) facilitates early detection of vascular compromise. However, standard NIRS devices that employ two wavelengths of light to assess tissue oxygenation (StO) are susceptible to artifact from background noise and demonstrate significant variability in the clinical setting. As the number of wavelengths detected by a NIRS device is increased, the precision of StO measurements can be improved and additional chromophores other than oxyhemoglobin and deoxyhemoglobin can be measured. A three-wavelength light emitting diode NIRS device (Artinis, Zetten, the Netherlands) that also detects cytochrome , a measure of intracellular oxygen demand, was compared with the standard two-wavelength device commonly used for flap monitoring (ViOptix device, ViOptix Inc., Freemont, CA) to determine if there is an improvement in the precision of tissue oxygen measurements. ViOptix and Artinis were applied to the forearms of human volunteers ( = 15) and a blood pressure cuff was placed around the upper arm to occlude arterial and venous flow. StO measurements were obtained from both devices. Artinis also yielded cytochrome oxidation state measurements. StO measurements from both devices were proportionate during ischemia ( = 0.79, < 0.01). Monte Carlo stimulation showed Artinis outperformed ViOptix ( < 0.01) as a measure of change in StO during ischemia. Artinis did not detect a reduction in cytochrome associated with the decrease in StO during ischemia. The addition of a third wavelength to NIRS monitoring may improve the precision of StO trend monitoring. However, the three-wavelength device lacked the sensitivity to reliably measure changes in cytochrome .

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Short-Term Application of Doxorubicin Chemotherapy Immunosuppressive Side Effects for Composite Tissue Allotransplantation

Hui-Chou¹,

Olenczak²,

Drachenberg³

et al. 2012

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Evaluation of Sidestream Darkfield Microscopy for Real-Time Imaging Acellular Dermal Matrix Revascularization

DeGeorge

Olenczak

Cottler

et al. 2016

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Third Molar Eruption and Hardware Fungal Infection Following Treatment of Mandibular Angle Fracture

Olenczak

Shaffrey

Shaeffer

et al. 2019

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Appropriate management of lower 3rd molars is crucial to successful treatment of mandibular angle fractures. A unique case of a patient who presented for initial management of a left mandibular angle fracture with an unerupted lower 3rd molar was discussed in this study. After treatment with open reduction and internal fixation of the fracture, the lower 3rd molar erupted and the patient subsequently developed fungal osteomyelitis and hardware failure. This was successfully treated with hardware removal, maxillomandibular fixation, and combined use of an intravenous antibiotic and oral antifungal.

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J. Bryce Olenczak

Temporal Frequency Channels Are Linked across Audition and Touch

Fenestration Improves Acellular Dermal Matrix Biointegration: An Investigation of Revascularization with Photoacoustic Microscopy

Posttraumatic Midface Pain

Effects of Collagenase Digestion and Stromal Vascular Fraction Supplementation on Volume Retention of Fat Grafts

Tissue Monitoring with Three-Wavelength Light Emitting Diode–Based Near-Infrared Spectroscopy

Short-Term Application of Doxorubicin Chemotherapy Immunosuppressive Side Effects for Composite Tissue Allotransplantation

Evaluation of Sidestream Darkfield Microscopy for Real-Time Imaging Acellular Dermal Matrix Revascularization

Third Molar Eruption and Hardware Fungal Infection Following Treatment of Mandibular Angle Fracture

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