Philadelphia University + Thomas Jefferson University
Sidney Kimmel Medical College
Department of Dermatology & Cutaneous Biology

Keller, Matthew S

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Matthew S. Keller, MD

Matthew S. Keller, MD

Contact Dr. Keller

833 Chestnut Street
Suite 740
Philadelphia, PA 19107

(215) 955-6680
(215) 503-3333 fax

Medical School

Jefferson Medical College - 2005


Thomas Jefferson University Hospital

Board Certification


Hospital Appointment

Thomas Jefferson University Hospital
Christiana Care Health System

Expertise and Research Interests

I practice general Dermatology with an emphasis on Psoriasis and other papulosquamous disease. I have a particular interest in the use of light therapy and systemic agents in the treatment of these disorders.


Most Recent Peer-Reviewed Publications

  1. Vocoder simulations of highly focused cochlear stimulation with limited dynamic range and discriminable steps
  2. Simplified approach for modeling of distortion in powder bed fusion processes
  3. Analytical approaches for determining heat distributions and thermal criteria for infrared neural stimulation
  4. Laser source development for infrared neural stimulation
  5. Microstructure evolution during laser additive manufacturing of Ti6Al4V alloy
  6. Effect of rotation speed on microstructure evolution during underwater friction stir processing Al-Cu alloys
  7. Comparison of three pulsed infrared lasers for optical stimulation of the rat prostate cavernous nerves
  8. In vitro testing of dual-mode thulium microsurgical laser
  9. Selective, high-optrode-count, artifact-free stimulation with infrared light via intrafascicular Utah Slanted Optrode Arrays
  10. Effect of normal variations on disease classification of Raman spectra from cervical tissue
  11. Development of a spatially offset Raman spectroscopy probe for breast tumor surgical margin evaluation
  12. Near-infrared autofluorescence for the detection of parathyroid glands
  13. Development of VCSELs for optical nerve stimulation
  14. A comparison of methionine, histidine and cysteine in copper(i)-binding peptides reveals differences relevant to copper uptake by organisms in diverse environments
  15. Monte cario model of spatially offset raman spectroscopy for breast tumor margin analysis
  16. Autofluorescence and diffuse reflectance spectroscopy and spectral imaging for breast surgical margin analysis
  17. Spatially offset Raman spectroscopy of layered soft tissues
  18. Application of Raman spectroscopy for cervical dysplasia diagnosis
  19. Comparison of autofluorescence, diffuse reflectance, and Raman spectroscopy for breast tissue discrimination
  20. Fluorescence and reflectance spectroscopy and spectral imaging for evaluating surgical margin status during breast cancer resection