Objectives: At the conclusion of this symposium, delegates will be able to:
• Describe strategies for evidence-based selection and combination of injectable hyaluronic acid and botulinum toxin to achieve multi-level tissue restoration and modulation.
• Summarize key biophysical properties of BDDE-free hybrid cooperative complex hyaluronic acid (HCC HA) and the rationale for its clinical indications;
• Formulate treatment plans for synergistic, patient-tailored combination of hybrid cooperative complex hyaluronic acid (HCC HA) and botulinum toxin to address aging of the face and neck.
@DrHemaSundaram
Introduction: Faculty:
Dalvi Humzah, MBBS, FRCS, MBA
Chiara Schiraldi, PhD
Massimo Signorini, MD
Hema Sundaram, MA, MD, FAAD
Materials / method: In this symposium, an international, multi-disciplinary faculty with expertise in basic science, dermatology and plastic surgery will analyze the synergistic potential of injectable hyaluronic acid and botulinum toxin to achieve multi-level tissue restoration.
Results: Video demonstrations and interactive discussion will highlight the rheology, cell biology and clinical applications of a novel, thermally stabilized, BDDE-free hybrid cooperative complex hyaluronic acid (HCC HA), the rationale for combining HCC HA with botulinum toxin including the possibility of myomodulation, and the development of a new scale to evaluate age-related changes in the neck and formulate patient-tailored treatment plans.
Disclosures
Did you receive any funding to support your research for this TOPIC?
Yes
Please specify entities (individual, company, society): IBSA
Were you provided with any honoraria, payment or other compensation for your work on this study?
No
Do you have any financial relationship with any entity which may closely compete with the medications, materials or instruments covered by your study?
No
Do you own or have you applied for any patents in conjunction with the instruments, medications or materials discussed in your study?
No
This work is presented thanks to the support of: IBSA