Your search keyword '"Morales-Helguera, Aliuska"' showing total 4 results

1. Animal model of implant capsular contracture: effects of chitosan.

Author

Marques M, Brown SA, Rodrigues-Pereira P, Natália M, Cordeiro DS, Morales-Helguera A, Cobrado L, Queirós L, Freitas R, Fernandes J, Correia-Sá I, Rodrigues AG, and Amarante J

Subjects

Animals, Female, Implant Capsular Contracture microbiology, Implant Capsular Contracture pathology, Interleukin-8 metabolism, Microdialysis, Oligosaccharides chemistry, Rabbits, Silicone Gels, Transforming Growth Factor beta1 metabolism, Tumor Necrosis Factor-alpha metabolism, Breast Implants adverse effects, Chitosan pharmacology, Disease Models, Animal, Implant Capsular Contracture etiology

Abstract

Background: The mechanism(s) responsible for breast capsular contracture (CC) remain unknown, but inflammatory pathways play a role. Various molecules have been attached to implant shells in the hope of modifying or preventing CC. The intrinsic antibacterial and antifungal activities of chitosan and related oligochitosan molecules lend themselves well to the study of the infectious hypothesis; chitosan's ability to bind to growth factors, its hemostatic action, and its ability to activate macrophages, cause cytokine stimulation, and increase the production of transforming growth factor (TGF)-β1 allow study of the hypertrophic scar hypothesis., Objective: The authors perform a comprehensive evaluation, in a rabbit model, of the relationship between CC and histological, microbiological, and immunological characteristics in the presence of a chitooligosaccharide (COS) mixture and a low molecular weight chitosan (LMWC)., Methods: Eleven adult New Zealand rabbits were each implanted with three silicone implants: a control implant, one impregnated with COS, and one impregnated with LMWC. At four-week sacrifice, microdialysates were obtained in the capsule-implant interfaces for tumor necrosis factor alpha (TNF-α) and interleukin-8 (IL-8) level assessment. Histological and microbiological analyses were performed., Results: Baker grade III/IV contractures were observed in the LMWC group, with thick capsules, dense connective tissue, and decreased IL-8 levels (p < .05) compared to control and COS groups. Capsule tissue bacterial types and microdialysate TNF-α levels were similar among all groups., Conclusions: Chitosan-associated silicone implantation in a rabbit model resulted in Baker grade III/IV CC. This preclinical study may provide a model to test various mechanistic hypotheses of breast capsule formation and subsequent CC.

Published

2011

2. Effects of coagulase-negative staphylococci and fibrin on breast capsule formation in a rabbit model.

Author

Marques M, Brown SA, Cordeiro ND, Rodrigues-Pereira P, Cobrado ML, Morales-Helguera A, Queirós L, Luís A, Freitas R, Gonçalves-Rodrigues A, and Amarante J

Subjects

Animals, Disease Models, Animal, Female, Fibrin administration & dosage, Implant Capsular Contracture microbiology, Rabbits, Staphylococcal Infections microbiology, Staphylococcus enzymology, Staphylococcus isolation & purification, Tissue Expansion Devices, Breast Implants adverse effects, Fibrin pharmacology, Implant Capsular Contracture etiology, Staphylococcal Infections complications

Abstract

Background: The etiology and ideal clinical treatment of capsular contracture (CC) remain unresolved. Bacteria, especially coagulase-negative staphylococci, have been previously shown to accelerate the onset of CC. The role of fibrin in capsule formation has also been controversial., Objective: The authors investigate whether fibrin and coagulase-negative staphylococci (CoNS) modulate the histological, microbiological, and clinical outcomes of breast implant capsule formation in a rabbit model and evaluate contamination during the surgical procedure., Methods: Thirty-one New Zealand white female rabbits were each implanted with one tissue expander and two breast implants. The rabbits received (1) untreated implants and expanders (control; n = 10), (2) two implants sprayed with 2 mL of fibrin and one expander sprayed with 0.5 mL of fibrin (fibrin; n = 11), or (3) two implants inoculated with 100 µL of a CoNS suspension (10(8)CFU/mL-0.5 density on the McFarland scale) and one expander inoculated with a CoNS suspension of 2.5 × 10(7) CFU/mL (CoNS; n = 10). Pressure/volume curves and histological and microbiological evaluations were performed. Operating room air samples and contact skin samples were collected for microbiological evaluation. The rabbits were euthanized at four weeks., Results: In the fibrin group, significantly decreased intracapsular pressures, thinner capsules, loose/dense (<25%) connective tissue, and negative/mild angiogenesis were observed. In the CoNS group, increased capsular thicknesses and polymorph-type inflammatory cells were the most common findings. Similar bacteria in capsules, implants, and skin were cultured from all the study groups. One Baker grade IV contracture was observed in an implant infected with Micrococcus spp., Conclusions: Fibrin was associated with reduced capsule formation in this preclinical animal model, which makes fibrin an attractive potential therapeutic agent in women undergoing breast augmentation procedures. Clinical strategies for preventing bacterial contamination during surgery are crucial, as low pathogenic agents may promote CC.

Published

2011

3. Effects of fibrin, thrombin, and blood on breast capsule formation in a preclinical model.

Author

Marques M, Brown SA, Cordeiro ND, Rodrigues-Pereira P, Cobrado ML, Morales-Helguera A, Lima N, Luís A, Mendanha M, Gonçalves-Rodrigues A, and Amarante J

Subjects

Animals, Blood metabolism, Disease Models, Animal, Female, Implant Capsular Contracture microbiology, Pressure, Rabbits, Staphylococcal Infections complications, Staphylococcus isolation & purification, Tissue Expansion Devices, Wound Healing, Breast Implants adverse effects, Fibrin Tissue Adhesive metabolism, Implant Capsular Contracture etiology, Thrombin metabolism

Abstract

Background: The root cause of capsular contracture (CC) associated with breast implants is unknown. Recent evidence points to the possible role of fibrin and bacteria in CC formation., Objectives: The authors sought to determine whether fibrin, thrombin, and blood modulated the histological and microbiological outcomes of breast implant capsule formation in a rabbit model., Methods: The authors carried out a case-control study to assess the influence of fibrin, thrombin, and blood on capsule wound healing in a rabbit model. Eighteen New Zealand white rabbits received four tissue expanders. One expander acted as a control, whereas the other expander pockets received one of the following: fibrin glue, rabbit blood, or thrombin sealant. Intracapsular pressure/volume curves were compared among the groups, and histological and microbiological evaluations were performed (capsules, tissue expanders, rabbit skin, and air). The rabbits were euthanized at two or four weeks., Results: At four weeks, the fibrin and thrombin expanders demonstrated significantly decreased intracapsular pressure compared to the control group. In the control and fibrin groups, mixed inflammation correlated with decreased intracapsular pressure, whereas mononuclear inflammation correlated with increased intracapsular pressure. The predominant isolate in the capsules, tissue expanders, and rabbit skin was coagulase-negative staphylococci. For fibrin and thrombin, both cultures that showed an organism other than staphylococci and cultures that were negative were associated with decreased intracapsular pressure, whereas cultures positive for staphylococci were associated with increased intracapsular pressure., Conclusions: Fibrin application during breast implantation may reduce rates of CC, but the presence of staphylococci is associated with increased capsule pressure even in the presence of fibrin, so care should be taken to avoid bacterial contamination.

Published

2011

4. Long-term follow-up of breast capsule contracture rates in cosmetic and reconstructive cases.

Author

Marques M, Brown SA, Oliveira I, Cordeiro MNDS, Morales-Helguera A, Rodrigues A, and Amarante J

Subjects

Adult, Aged, Chronic Disease, Female, Follow-Up Studies, Humans, Middle Aged, Retrospective Studies, Time Factors, Breast Diseases epidemiology, Breast Diseases etiology, Breast Implants adverse effects, Mammaplasty

Abstract

Background: Silicone gel breast implants are associated with long-term adverse events, including capsular contracture, with reported incidence rates as high as 50 percent. However, it is not clear how long the follow-up period should be and whether there is any association with estrogen or menopausal status. In addition, the placement of Baker grade II subjects in the majority of reports has been in data sets of controls instead of capsular contracture., Methods: A retrospective medical study (1998 to 2004) was performed in women (n = 157) who received textured silicone breast implants for aesthetic or reconstructive procedures at the Hospital of S. João (Portugal). Medical data were collected that included the following: patient demographics, history, lifestyle factors, surgical procedures, and postoperative complications. Statistical analyses included Pearson chi-square testing, logistic regression modeling, and chi-squared automatic interaction detection (CHAID) methods., Results: The reconstructive cohort had a great incidence of capsular contracture compared with the cosmetic cohort. If one considered no capsular contracture versus capsular contracture, the follow-up period should be longer than 42 months. However, if considering no capsular contracture and grade II subjects versus grade III or IV subjects, a longer follow-up period of 64 months was determined. There was no association between capsular contracture and menopause/estrogen status., Conclusions: Increased frequencies of capsular contracture were recorded in breast reconstruction that were not attributable to estrogen or menopausal status. On the basis of these results, the authors propose a follow-up period longer than 42 months and the inclusion of Baker grade II subjects.

Published

2010