10 results on '"Lin, Richard L."'
Search Results
2. Reduced insula habituation associated with amplification of trigeminal brainstem input in migraine.
- Author
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Jeungchan Lee, Lin, Richard L., Garcia, Ronald G., Jieun Kim, Hyungjun Kim, Loggia, Marco L., Mawla, Ishtiaq, Wasan, Ajay D., Edwards, Robert R., Rosen, Bruce R., Hadjikhani, Nouchine, Napadow, Vitaly, Lee, Jeungchan, Kim, Jieun, and Kim, Hyungjun
- Subjects
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MIGRAINE , *HEADACHE , *CEREBRAL cortex , *BRAIN , *SOMATOSENSORY cortex - Abstract
Background Impaired sensory processing in migraine can reflect diminished habituation, increased activation, or even increased gain or amplification of activity from the primary synapse in the brainstem to higher cortical/subcortical brain regions. Methods We scanned 16 episodic migraine (interictal) and 16 healthy controls (cross-sectional study), and evaluated brain response to innocuous air-puff stimulation over the right forehead in the ophthalmic nerve (V1) trigeminal territory. We further evaluated habituation, and cortical/subcortical amplification relative to spinal trigeminal nucleus (Sp5) activation. Results Migraine subjects showed greater amplification from Sp5 to the posterior insula and hypothalamus. In addition, while controls showed habituation to repetitive sensory stimulation in all activated cortical regions (e.g. the bilateral posterior insula and secondary somatosensory cortices), for migraine subjects, habituation was not found in the posterior insula. Moreover, in migraine, the habituation slope was correlated with the amplification ratio in the posterior insula and secondary somatosensory cortex, i.e. greater amplification was associated with reduced habituation in these regions. Conclusions These findings suggest that in episodic migraine, amplified information processing from spinal trigeminal relay nuclei is linked to an impaired habituation response. This phenomenon was localized in the posterior insula, highlighting the important role of this structure in mechanisms supporting altered sensory processing in episodic migraine. [ABSTRACT FROM AUTHOR]
- Published
- 2017
- Full Text
- View/download PDF
3. Modulation of brainstem activity and connectivity by respiratory-gated auricular vagal afferent nerve stimulation in migraine patients.
- Author
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Garcia, Ronald G., Lin, Richard L., Jeungchan Lee, Jieun Kim, Barbieri, Riccardo, Sclocco, Roberta, Wasan, Ajay D., Edwards, Robert R., Rosen, Bruce R., Hadjikhani, Nouchine, Napadow, Vitaly, Lee, Jeungchan, and Kim, Jieun
- Subjects
- *
MIGRAINE , *PATHOLOGICAL physiology , *FINITE nuclei , *VAGUS nerve , *NEURAL stimulation , *BRAIN , *BRAIN stem , *MAGNETIC resonance imaging , *PAIN , *RESEARCH funding , *TRANSCUTANEOUS electrical nerve stimulation , *THERAPEUTICS - Abstract
Migraine pathophysiology includes altered brainstem excitability, and recent neuromodulatory approaches aimed at controlling migraine episodes have targeted key brainstem relay and modulatory nuclei. In this study, we evaluated the impact of respiratory-gated auricular vagal afferent nerve stimulation (RAVANS), a novel neuromodulatory intervention based on an existing transcutaneous vagus nerve stimulation approach, in the modulation of brainstem activity and connectivity in migraine patients. We applied 3T-functional magnetic resonance imaging with improved in-plane spatial resolution (2.62 × 2.62 mm) in episodic migraine (interictal) and age- and sex-matched healthy controls to evaluate brain response to RAVANS (gated to either inhalation or exhalation) and sham stimulation. We further investigated RAVANS modulation of tactile trigeminal sensory afference response in the brainstem using air-puff stimulation directed to the forehead during functional magnetic resonance imaging. Compared with sham and inhalatory-gated RAVANS (iRAVANS), exhalatory-gated RAVANS (eRAVANS) activated an ipsilateral pontomedullary region consistent with nucleus tractus solitarii (NTS). During eRAVANS, NTS connectivity was increased to anterior insula and anterior midcingulate cortex, compared with both sham and iRAVANS, in migraine patients. Increased connectivity was inversely correlated with relative time to the next migraine attack, suggesting clinical relevance to this change in connectivity. Poststimulation effects were also noted immediately after eRAVANS, as we found increased activation in putative pontine serotonergic (ie, nucleus raphe centralis) and noradrenergic (ie, locus coeruleus) nuclei in response to trigeminal sensory afference. Regulation of activity and connectivity of brainstem and cortical regions involved in serotonergic and noradrenergic regulation and pain modulation may constitute an underlying mechanism supporting beneficial clinical outcomes for eRAVANS applied for episodic migraine. [ABSTRACT FROM AUTHOR]
- Published
- 2017
- Full Text
- View/download PDF
4. Decreased tumor-infiltrating lymphocytes in nodular melanomas compared with matched superficial spreading melanomas.
- Author
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Lin, Richard L., Wang, Thomas J., Joyce, Cara J., Mihm Jr, Martin C., Murphy, George F., Lian, Christine G., and Lin, Jennifer Y.
- Published
- 2016
- Full Text
- View/download PDF
5. Systemic causes of hair loss.
- Author
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Lin, Richard L., Garibyan, Lilit, Kimball, Alexandra B., and Drake, Lynn A.
- Abstract
Hair loss is both a common chief complaint by patients and a clinical challenge for physicians, especially general practitioners, yet few dermatological problems yield as much patient satisfaction when resolved as hair loss. The diagnosis is often attributed to androgen-related hair loss, while other causes, some of which are life-threatening but treatable, are overlooked. We searched for relevant literature on hair loss and supported these findings with our clinical experience to identify seven major systemic etiologies of hair loss, ranging from infectious agents to consumption of unsafe supplements. Many causes are only described in the literature through case studies, though some original articles and meta-analyses are available. Careful history taking, proper examination techniques, and judicious use of laboratory tests are essential to reach at the correct diagnosis in a cost-effective manner when performing patient work-up. Such methodical evaluation of hair loss can result in the appropriate treatment plan and provide significant patient satisfaction. Key messagesHair loss is a common chief complaint and a difficult challenge for both general practitioners and dermatology consultants.We identified seven major categories of systemic hair loss etiology and present a framework for their clinical evaluation.A methodical approach to hair loss can result in the appropriate treatment plan and provide significant patient satisfaction. [ABSTRACT FROM PUBLISHER]
- Published
- 2016
- Full Text
- View/download PDF
6. Widespread Modulation of Cerebral Perfusion Induced during and after Transcranial Direct Current Stimulation Applied to the Left Dorsolateral Prefrontal Cortex.
- Author
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Stagg, Charlotte J., Lin, Richard L., Mezue, Melvin, Yazhuo Kong, Jingyi Xie, and Tracey, Irene
- Subjects
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PERFUSION , *CEREBELLUM physiology , *NEURAL stimulation , *PREFRONTAL cortex , *PSYCHIATRY , *SHORT-term memory , *PAIN perception - Abstract
Noninvasive neuromodulatory techniques such as transcranial direct current stimulation (tDCS) are attracting increasing interest as potential therapies for a wide range of neurological and psychiatric conditions. When targeted to the dorsolateral prefrontal cortex (DLPFC), anodal, facilitatory tDCS has been shown to improve symptoms in a range of domains including working memory, mood, and pain perception (Boggio et al., 2008a; Dockery et al., 2009; Kalu et al., 2012). However, the mechanisms underlying these promising behavioral effects are not well understood. Here, we investigated brain perfusion changes, as assessed using whole-brain arterial spin labeling (ASL), during tDCS applied to the left DLPFC in healthy humans. We demonstrated increased perfusion in regions closely anatomically connected to the DLPFC during anodal tDCS in conjunction with a decreased functional coupling between the left DLPFC and the thalami bilaterally. Despite highly similar effects on cortical excitability during and after stimulation (Nitsche and Paulus, 2000, 2001), cortical perfusion changes were markedly different during these two time periods, with widespread decreases in cortical perfusion being demonstrated after both anodal and cathodal tDCS compared to the period during stimulation. These findings may at least partially explain the different effects on behavior in these time periods described previously in the motor system (Stagg et al., 2011). In addition, the data presented here provide mechanistic explanations for the behavioral effects of anodal tDCS applied to the left DLPFC in terms of modulating functional connectivity between the DLPFC and thalami, as has been hypothesized previously (Lorenz et al., 2003). [ABSTRACT FROM AUTHOR]
- Published
- 2013
- Full Text
- View/download PDF
7. Structural Connectivity Variances Underlie Functional and Behavioral Changes During Pain Relief Induced by Neuromodulation.
- Author
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Lin, Richard L., Douaud, Gwenaëlle, Filippini, Nicola, Okell, Thomas W., Stagg, Charlotte J., and Tracey, Irene
- Abstract
An increased understanding of the relationship between structural connections and functional and behavioral outcomes is an essential but under-explored topic in neuroscience. During transcranial direct current stimulation (tDCS)-induced analgesia, neuromodulation occurs through a top-down process that depends on inter-regional connections. To investigate whether variation in anatomical connectivity explains functional and behavorial outcomes during neuromodulation, we first combined tDCS and a tonic pain model with concurrent arterial spin labelling that measures cerebral perfusion related to ongoing neural activity. Left dorsolateral prefrontal cortex (L-DLPFC) tDCS induced an analgesic effect, which was explained by reduced perfusion to posterior insula and thalamus. Second, we used diffusion imaging to assess white matter structural integrity between L-DLPFC and thalamus, two key components of the neuromodulatory network. Fractional anisotropy of this tract correlated positively with functional and behavioral modulations. This suggests structural dependence by the neuromodulatory process to induce analgesia with potential relevance for patient stratification. [ABSTRACT FROM AUTHOR]
- Published
- 2017
- Full Text
- View/download PDF
8. Use of a Buried Intradermal (Subcutaneous) Running Suture for Superficial Repair to Optimize Cosmetic Outcome
- Author
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Lin RL, Wu EM, and Hale EK
- Subjects
- Adult, Aged, Carcinoma, Squamous Cell pathology, Dermatologic Surgical Procedures, Female, Forehead, Humans, Leg, Male, Melanoma pathology, Skin Neoplasms pathology, Subcutaneous Tissue, Suture Techniques, Carcinoma, Squamous Cell surgery, Melanoma surgery, Skin Neoplasms surgery
- Abstract
Superficial repair after excisions helps to optimize cosmetic outcomes. Possibly due to how wound closures are traditionally taught in dermatology, simple interrupted or continuous sutures are overwhelmingly favored by dermatologic surgeons in superficial repair, especially on cosmetically sensitive areas such as face and ears. However, this repair method risks wound overgrowth around the points where the suture traverses through the epidermis, and long-term postsurgical healing frequently leaves behind scars with ‘railroad track’ suture marks rather than a fine line. Here, we present buried intradermal running suture technique as an alternative superficial repair method compared to the simple interrupted or running suture techniques. We demonstrate the superior cosmetic outcome offered by buried intradermal suture with 2 patient cases, who had defects on the temple and shin. While dermatologists can now offer energy-based devices and neuromodulators to improve cosmesis, our approach helps optimize scar appearance so that patients can have the best possible surgical outcome without necessitating further interventions. J Drugs Dermatol. 2019;18(5):481-482.
- Published
- 2019
9. Reduced insula habituation associated with amplification of trigeminal brainstem input in migraine.
- Author
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Lee J, Lin RL, Garcia RG, Kim J, Kim H, Loggia ML, Mawla I, Wasan AD, Edwards RR, Rosen BR, Hadjikhani N, and Napadow V
- Subjects
- Adult, Cross-Sectional Studies, Evoked Potentials, Somatosensory physiology, Female, Humans, Male, Middle Aged, Trigeminal Nerve physiopathology, Brain Stem physiopathology, Cerebral Cortex physiopathology, Habituation, Psychophysiologic physiology, Migraine Disorders physiopathology
- Abstract
Background Impaired sensory processing in migraine can reflect diminished habituation, increased activation, or even increased gain or amplification of activity from the primary synapse in the brainstem to higher cortical/subcortical brain regions. Methods We scanned 16 episodic migraine (interictal) and 16 healthy controls (cross-sectional study), and evaluated brain response to innocuous air-puff stimulation over the right forehead in the ophthalmic nerve (V
1 ) trigeminal territory. We further evaluated habituation, and cortical/subcortical amplification relative to spinal trigeminal nucleus (Sp5) activation. Results Migraine subjects showed greater amplification from Sp5 to the posterior insula and hypothalamus. In addition, while controls showed habituation to repetitive sensory stimulation in all activated cortical regions (e.g. the bilateral posterior insula and secondary somatosensory cortices), for migraine subjects, habituation was not found in the posterior insula. Moreover, in migraine, the habituation slope was correlated with the amplification ratio in the posterior insula and secondary somatosensory cortex, i.e. greater amplification was associated with reduced habituation in these regions. Conclusions These findings suggest that in episodic migraine, amplified information processing from spinal trigeminal relay nuclei is linked to an impaired habituation response. This phenomenon was localized in the posterior insula, highlighting the important role of this structure in mechanisms supporting altered sensory processing in episodic migraine.- Published
- 2017
- Full Text
- View/download PDF
10. Rapid automated cell quantification on HIV microfluidic devices.
- Author
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Alyassin MA, Moon S, Keles HO, Manzur F, Lin RL, Hæggstrom E, Kuritzkes DR, and Demirci U
- Subjects
- CD3 Complex immunology, CD4 Antigens immunology, CD4 Lymphocyte Count instrumentation, CD4 Lymphocyte Count methods, CD4-Positive T-Lymphocytes cytology, CD4-Positive T-Lymphocytes immunology, HIV Infections immunology, Humans, Lymphocyte Count economics, Lymphocyte Count instrumentation, Lymphocytes immunology, Microfluidic Analytical Techniques economics, Microfluidic Analytical Techniques instrumentation, Sensitivity and Specificity, Time Factors, HIV Infections blood, Lymphocyte Count methods, Lymphocytes cytology, Microfluidic Analytical Techniques methods
- Abstract
Lab-chip device analysis often requires high throughput quantification of fluorescent cell images, obtained under different conditions of fluorescent intensity, illumination, focal depth, and optical magnification. Many laboratories still use manual counting--a tedious, expensive process prone to inter-observer variability. The manual counting process can be automated for fast and precise data gathering and reduced manual bias. We present a method to segment and count cells in microfluidic chips that are labeled with a single stain, or multiple stains, using image analysis techniques in Matlab and discuss its advantages over manual counting. Microfluidic based cell capturing devices for HIV monitoring were used to validate our method. Captured CD4(+) CD3(+) T lymphocytes were stained with DAPI, AF488-anti CD4, and AF647-anti CD3 for cell identification. Altogether 4788 (76 x 3 x 21) gray color images were obtained from devices using discarded 10 HIV infected patient whole blood samples (21 devices). We observed that the automatic method performs similarly to manual counting for a small number of cells. However, automated counting is more accurate and more than 100 times faster than manual counting for multiple-color stained cells, especially when large numbers of cells need to be quantified (>500 cells). The algorithm is fully automatic for subsequent microscope images that cover the full device area. It accounts for problems that generally occur in fluorescent lab-chip cell images such as: uneven background, overlapping cell images and cell detection with multiple stains. This method can be used in laboratories to save time and effort, and to increase cell counting accuracy of lab-chip devices for various applications, such as circulating tumor cell detection, cell detection in biosensors, and HIV monitoring devices, i.e. CD4 counts.
- Published
- 2009
- Full Text
- View/download PDF
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