TESSLIFT TECHNOLOGY

WORLD'S FIRST PATENTED TECHNOLOGY FOR NOVEL TISSUE SUSPENSION METHODS

GROW YOUR LIGAMENT TISSUE TREES

Facial anatomy and Tissue physiology

Our mesh-integrated based products

Are deployed via subcutaneous layers and attach both skin tissues and SMAS plane by adhesion. The mesh functions are a graft for the surrounding tissue and retaining ligament branches. Such mesh induces the growth of the surrounding tissues. Tissue ingrowths of the surrounding tissues and ligament branching via the mesh pores significantly induce the overall tissue suspension.

Must be properly understood before one can make a smart action with the aging complicated problems, most knowingly, the tissue sagging. The conventional method to tissue aging has avoided the proper understanding of the anatomical structures, and thereby contain their efforts to provide the effective results. The original foundation for the conventional thread suspension methods as not considered the importance of the retaining ligaments that branch out like the tress from the deep skeleton into and via the entire SMAS layer and Skin

Tree-like branches of retaining ligaments

Control the facial expressions. The soft tissues in between the SMAS plane and skin can be suspended by the conventional thread methods. However, their results are only momentary and unsuccessful. For such reasons, some surgeons recommend the invasive methods to tissue suspension in which they can take control of the ligaments. The invasive surgeries can be threatening due to damaging the nerves. They are not simple and usually require multiple of hours. Thus, for tissue suspension, the ligament extensions overlying the skeleton must be easily handled for more natural and long-lasting results.

MESH DESIGN NETWORK TO CREAT THE GREATER TREES THAT ATTACH THE SOFT TISSUES TO DEEP SKELETON.

HANDLING OF THE LIGAMENTS IS MADE EASY

WITH TESSLIST'S NOVEL TECHNOLOGY

THE CONVENTIONAL THREADS HAVE IGNORED THE SIGNIFICANCE OF LIGAMENTS AND OTHER INVASIVE SURGERIES MAY BE THREATENING DUE TO POSSIBlE NERVE DAMAGING.

1

INITIATION RESPONSE

TISSUE RESPONSE BEGINS WITHING HOURS OF CONTACT WITH THE MESH SURFACE

2

INFLAMMATORY RESPONSE

MACROPHAGES ARE RELEASE, AUTOLYSING, AND NECROTIC TISSUES. PLUS, GROWTH FACTORS AND CYTOKINES ARE RELEASED.

3

ANGIOGENESIS

DURING ANGIOGENESIS, NEW GRANULATION TISSUE WHICH ARE COMPOSED OF COLLAGEN AND EXTRACELLULAR MATRIX DEVELOP.

PHYSIOLOGY OF TISSUE INGROWTHS

FULLY EFFECTIVE TISSUE INGROWTH

VIA PORES IS FINISHED WITHING 2 WEEKS.

74% OF THE 12 WEEKS STRENGTH IS ACHIEVED BY 2 WEEKS POST-OPERATIVELY.

TISSUE INGROWTH VIA PATENTED TECHNOLOGY

KEYS TO SCIENCE OF TISSUE SUSPENSION

GENERAL OVERVIEW OF SUSPENSION MECHANISM

PREVENTING THE EARLY RECURRENCE OF SAGGING

THE SPECIALLY WOVEN POLYMERIC MONOFILAMENT IMPLANT ENABLES THE TISSUE INGROWTHS OF THE SURROUNDING TISSUES. IN THE POST-OPERATION, THE IMPLANT-TISSUE ADHESION INCREASES DRAMATICALLY, PREVENTING THE EARLY RECURRENCE OF SAGGING.

REFERENCES

1. TISSUE INGROWTHS AND LAPAROSCOPIC VENTRAL HERNIA MESH MATERIALS. AN UPDATED REVIEW OF THE LITERATURE. 2010 SPRINGER BERLIN NY.

2. NEW OBJECTIVE MEASUREMENT TO CHARACTERIZE THE POROSITY. JOURNAL OF BIOMEDICAL MATERIALS RESEARCH PART B: APPLIED BIOMATERIALS 2007.

3. MESHES: BENEFITS AND RISKS. 2004 PG.179-186. SPRINGER BERLIN NY.

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