16D0 Zoga, Adam C. - Thomas Jefferson University - Thomas Jefferson University
acz124

Adam Zoga, MD

Contact Dr. Zoga

132 South 10th Street
Suite 1096, Main Building
Philadelphia, PA 19107

(215) 955-8890
(215) 923-1562 fax

Most Recent Peer-reviewed Publications

  1. Association of Gluteus Medius and Minimus Muscle Atrophy and Fall-Related Hip Fracture in Older Individuals Using Computed Tomography
  2. Cervical facet oedema: Prevalence, correlation to symptoms, and follow-up imaging
  3. Prevalence and pattern of gluteus medius and minimus tendon pathology and muscle atrophy in older individuals using MRI
  4. Treatment of massive and recurrent rotator cuff tears augmented with a poly-l-lactide graft, a preliminary study
  5. The Role of Magnetic Resonance Imaging in Athletic Pubalgia and Core Muscle Injury
  6. Frequency, imaging findings, risk factors, and long-term sequelae of distal clavicular osteolysis in young patients
  7. ACR appropriateness criteria acute trauma to the foot
  8. ACR appropriateness criteria acute trauma to the ankle
  9. Acromial apophysiolysis: Superior shoulder pain and acromial nonfusion in the young throwing athlete
  10. Core muscle injuries
  11. ACR appropriateness criteria acute hip pain - Suspected fracture
  12. Acute calcific tendinitis of the flexor pollicis longus in an 8-year-old boy
  13. Current understanding of core muscle injuries (Athletic Pubalgia, Sports Hernia)
  14. Imaging of athletic pubalgia and core muscle injuries. Clinical and therapeutic Correlations
  15. Magnetic resonance imaging of athletic pubalgia and the sports hernia: Current understanding and practice
  16. The effect of meniscal tears on cartilage loss of the knee: Findings on serial MRIs
  17. Review of MRI Technique and imaging findings in athletic pubalgia and the "sports hernia"
  18. Insufficiency and nondisplaced fractures of the talar head: MRI appearances
  19. A 14-year-old with lateral knee pain and locking
  20. The effect of meniscal tears on cartilage loss of the knee: findings on serial MRIs.
0