Book contents
- Frontmatter
- Contents
- PREFACE
- CONTRIBUTORS
- PART ONE ANATOMY AND THE AGING PROCESS
- PART TWO ANESTHESIA AND SEDATION FOR OFFICE COSMETIC PROCEDURES
- PART THREE FILLERS AND NEUROTOXINS
- Chap. 6 FILLERS: PAST, PRESENT, AND FUTURE
- Chap. 7 HYALURONIC ACID FILLERS: HOW STRUCTURE AFFECTS FUNCTION
- Chap. 8 RESTYLANE: GENERAL CONCEPTS
- Chap. 9 THE RESTYLANE FAMILY OF FILLERS: CANADIAN EXPERIENCE
- Chap. 10 THE JUVÉDERM FAMILY OF FILLERS
- Chap. 11 PURAGEN: A NEW DERMAL FILLER
- Chap. 12 PURAGEN: ASIAN EXPERIENCE
- Chap. 13 REVIEW OF COLLAGEN FILLERS
- Chap. 14 HUMAN AND BOVINE COLLAGEN-BASED FILLERS
- Chap. 15 PORCINE COLLAGEN: EVOLENCE
- Chap. 16 CALCIUM HYDROXYLAPATITE (RADIESSE): A FACIAL PLASTIC SURGEON'S APPROACH
- Chap. 17 CALCIUM HYDROXYLAPATITE (RADIESSE): A DERMASURGEON'S APPROACH
- Chap. 18 CALCIUM HYDROXYLAPATITE FOR HAND VOLUME RESTORATION
- Chap. 19 LONG-LASTING FILLERS: HOW STRUCTURE AFFECTS FUNCTION
- Chap. 20 ACRYLIC PARTICLE–BASED FILLERS: ARTEFILL
- Chap. 21 POLY-L-LACTIC ACID FILLERS
- Chap. 22 POLY-L-LACTIC ACID (SCULPTRA) FOR HAND VOLUME RESTORATION
- Chap. 23 BIOALKAMIDE
- Chap. 24 SILICONE
- Chap. 25 AUTOLOGOUS FAT TRANSFER: AN INTRODUCTION
- Chap. 26 SMALL-VOLUME FAT TRANSFER
- Chap. 27 LARGER-VOLUME FAT TRANSFER
- Chap. 28 FAMI TECHNIQUE AND FAT TRANSFER FOR HAND REJUVENATION
- Chap. 29 ADDING VOLUME TO THE AGING FACE: FAT GRAFTING VERSUS FILLERS AND IMPLANTS IN EUROPE
- Chap. 30 FILLERS: HOW WE DO IT
- Chap. 31 CHOOSING A FILLER
- Chap. 32 FILLER COMPLICATIONS
- Chap. 33 NEUROTOXINS: PAST, PRESENT, AND FUTURE
- Chap. 34 BOTOX: HOW WE DO IT
- Chap. 35 COSMETIC BOTOX: HOW WE DO IT
- Chap. 36 BOTOX: BEYOND THE BASICS
- Chap. 37 BOTOX FOR HYPERHIDROSIS
- Chap. 38 DYSPORT
- Chap. 39 NEUROTOXIN ALTERNATIVE: RADIOFREQUENCY CORRUGATOR DENERVATION
- Chap. 40 FILLERS AND NEUROTOXINS IN ASIA
- Chap. 41 FILLERS AND NEUROTOXINS IN SOUTH AMERICA
- PART FOUR COSMETIC APPLICATIONS OF LIGHT, RADIOFREQUENCY, AND ULTRASOUND ENERGY
- PART FIVE OTHER PROCEDURES
- INDEX
- References
Chap. 20 - ACRYLIC PARTICLE–BASED FILLERS: ARTEFILL
from PART THREE - FILLERS AND NEUROTOXINS
Published online by Cambridge University Press: 06 July 2010
- Frontmatter
- Contents
- PREFACE
- CONTRIBUTORS
- PART ONE ANATOMY AND THE AGING PROCESS
- PART TWO ANESTHESIA AND SEDATION FOR OFFICE COSMETIC PROCEDURES
- PART THREE FILLERS AND NEUROTOXINS
- Chap. 6 FILLERS: PAST, PRESENT, AND FUTURE
- Chap. 7 HYALURONIC ACID FILLERS: HOW STRUCTURE AFFECTS FUNCTION
- Chap. 8 RESTYLANE: GENERAL CONCEPTS
- Chap. 9 THE RESTYLANE FAMILY OF FILLERS: CANADIAN EXPERIENCE
- Chap. 10 THE JUVÉDERM FAMILY OF FILLERS
- Chap. 11 PURAGEN: A NEW DERMAL FILLER
- Chap. 12 PURAGEN: ASIAN EXPERIENCE
- Chap. 13 REVIEW OF COLLAGEN FILLERS
- Chap. 14 HUMAN AND BOVINE COLLAGEN-BASED FILLERS
- Chap. 15 PORCINE COLLAGEN: EVOLENCE
- Chap. 16 CALCIUM HYDROXYLAPATITE (RADIESSE): A FACIAL PLASTIC SURGEON'S APPROACH
- Chap. 17 CALCIUM HYDROXYLAPATITE (RADIESSE): A DERMASURGEON'S APPROACH
- Chap. 18 CALCIUM HYDROXYLAPATITE FOR HAND VOLUME RESTORATION
- Chap. 19 LONG-LASTING FILLERS: HOW STRUCTURE AFFECTS FUNCTION
- Chap. 20 ACRYLIC PARTICLE–BASED FILLERS: ARTEFILL
- Chap. 21 POLY-L-LACTIC ACID FILLERS
- Chap. 22 POLY-L-LACTIC ACID (SCULPTRA) FOR HAND VOLUME RESTORATION
- Chap. 23 BIOALKAMIDE
- Chap. 24 SILICONE
- Chap. 25 AUTOLOGOUS FAT TRANSFER: AN INTRODUCTION
- Chap. 26 SMALL-VOLUME FAT TRANSFER
- Chap. 27 LARGER-VOLUME FAT TRANSFER
- Chap. 28 FAMI TECHNIQUE AND FAT TRANSFER FOR HAND REJUVENATION
- Chap. 29 ADDING VOLUME TO THE AGING FACE: FAT GRAFTING VERSUS FILLERS AND IMPLANTS IN EUROPE
- Chap. 30 FILLERS: HOW WE DO IT
- Chap. 31 CHOOSING A FILLER
- Chap. 32 FILLER COMPLICATIONS
- Chap. 33 NEUROTOXINS: PAST, PRESENT, AND FUTURE
- Chap. 34 BOTOX: HOW WE DO IT
- Chap. 35 COSMETIC BOTOX: HOW WE DO IT
- Chap. 36 BOTOX: BEYOND THE BASICS
- Chap. 37 BOTOX FOR HYPERHIDROSIS
- Chap. 38 DYSPORT
- Chap. 39 NEUROTOXIN ALTERNATIVE: RADIOFREQUENCY CORRUGATOR DENERVATION
- Chap. 40 FILLERS AND NEUROTOXINS IN ASIA
- Chap. 41 FILLERS AND NEUROTOXINS IN SOUTH AMERICA
- PART FOUR COSMETIC APPLICATIONS OF LIGHT, RADIOFREQUENCY, AND ULTRASOUND ENERGY
- PART FIVE OTHER PROCEDURES
- INDEX
- References
Summary
ARTEFILL HISTORY AND PATHOPHYSIOLOGY
Polymethymethacrylate (PMMA) was first synthesized by Roehm in 1902 and patented as Plexiglas in 1928. It has been used in dentures, prosthetic devices, and intraocular lenses and as a carrier for antibiotics. In 1985, PMMA was studied by G. Lemperle for soft tissue augmentation.
ArteFill is classified as a permanent soft tissue implant composed of 20% homogenous PMMA microspheres evenly suspended in an 80% mixture of 3.5% purified bovine collagen, 0.3% sodium chloride, and 0.3% lidocaine. The PMMA microspheres stimulate fibroblasts to produce autologous collagen, which then encapsulates each PMMA microsphere. The bovine collagen component of the filler serves as a carrier for deep dermal implantation that prevents clumping on injection and stimulates tissue ingrowth. Following injection, the collagen carrier is degraded by collagenases within one to four months and is replaced by the body's own collagen, ensuring a steady rate of augmentation consisting of 80% autologous connective tissue and 20% PMMA.
PMMA fillers have evolved substantially from Arteplast to Artecoll, now ArteFill. Predecessors of ArteFill had PMMA microspheres of less than 20 μm in size, while those in ArteFill are virtually all 30–42 μm. This optimum size is large enough to avoid phagocytosis, thus facilitating connective tissue encapsulation, but small enough to allow injection into the deep dermis through a 26-gauge needle. Additionally, the PMMA is washed and coated with high-viscosity bovine collagen (versus the Tween 80 or gelatin medium in Arteplast), which reduces the rate of foreign body granuloma formation from 2.5% with Arteplast to 0.01% reported with Artecoll.
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- Information
- Office-Based Cosmetic Procedures and Techniques , pp. 84 - 87Publisher: Cambridge University PressPrint publication year: 2010
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