Treating the Abdominotorso Region of the Massive Weight Loss Patient: An Algorithmic Approach

Wallach, Steven G.

doi:10.1097/01.prs.0000302463.55208.bf

Cited by 8 publications

(4 citation statements)

References 39 publications

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“…Numerous authors have advocated strategies for approaching this problem; however, there is relatively little evidence assessing how staging and different combination strategies affect clinical outcomes. [1][2][3] We sought to quantify our experience with combined procedures to provide evidence-based analysis of staging and outcomes in post-bariatric surgery body contouring.…”

mentioning

confidence: 99%

Multiple Procedures and Staging in the Massive Weight Loss Population

Coon

Michaels

Gusenoff

et al. 2010

Plastic and Reconstructive Surgery

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In a large experience at a high-volume center, concomitant procedures were performed safely in carefully selected patients with low major complication rates. Although aggregate minor complication rates were predictably higher than in single-procedure cases, there was no significant increase on a per-procedure basis. Multiple procedures can be combined safely in the body contouring patient, with surgical staging offering a viable alternative for patients who are unable to undergo combined procedures.

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confidence: 99%

Multiple Procedures and Staging in the Massive Weight Loss Population

Coon

Michaels

Gusenoff

et al. 2010

Plastic and Reconstructive Surgery

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“…This finding has major implications for the post-bariatric or plastic surgeon since a large armamentarium of different abdominal body-contouring techniques has been described [2], all of which, depending on the specific technique used may further impair abdominal sensory function [3]. In case that pre-existing abdominal scars further compromise abdominal sensitivity, as is the case among others after open gastric bypass, the selection of a contouring technique that preserves abdominal sensory function by considering the existing scar's position and orientation (vertical or horizontal) is of major clinical importance and may reduce later patient complaints.…”

Section: Sirmentioning

confidence: 93%

Skin Sensory Function in Post-Bariatric Patients—Implications for Selection of Post-Bariatric Abdominal Body-Contouring Techniques

Rieger

2011

OBES SURG

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“…When an adult's growth hormone production decreases, skin nutrition is disrupted and it becomes atrophic: it becomes pale, cold, dry, sweat and fat secretion decreases, small wrinkles appear, its elasticity is lost. At the raised level of somatotropic hormone, the skin thickens, roughens, the expressiveness of skin folds amplifies, the number of sweat glands increases and a real thickening of all layers of the skin occurs [35][36][37]. In Cushing's syndrome or after treatment with glucocorticoids in appropriate pharmacological doses, there is often the appearance of stasis, overflow of skin vessels with blood, thinning of the skin, a tendency to bruising [39].…”

Section: Fig 1 Stages Of Skin Deformationmentioning

confidence: 99%

Anatomical Basis of Biomechanical Properties of Superficial Tissues of the Anterior Abdominal Wall

Drabovskiy

Kerbazh

Akeyshi

et al. 2020

Act. Probl. of the Modern Med.

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Biomechanics is a science that studies the mechanical properties of tissues, individual organs and systems and the body as a whole. The unique mechanical properties of the skin provide the function of support and protection of internal organs through the skin mobility and elasticity. This feature of the skin is determined by its microstructural organization and arrangement of connective tissue fibres. The mechanical properties of the skin are mainly determined by the collagen-rich dermis. The mechanics of the dermis, in turn, depends on the structure, density and direction of collagen fibres. Each biological tissue is able to acquire deformation properties i.e. stretching or contraction. At each stage of deformation in the tissues of different topographic and anatomical areas there are changes in histoarchitectonics (within the plastic characteristics, and outside these parameters). Different structural interactions are expressed by different mechanical factors, which are adequate to the magnitude and direction of tensile forces (deformation vectors), form the typical features of the connective tissue matrix of abdominal wall tissues. Normalization of the direction of tissue stress vectors, uniform distribution of the direction and force of deformation prevent microstructural rearrangement of the surface tissues of the abdominal wall. Dynamic changes in the histological structure and biomechanical behaviour of the skin are closely related to the aging process, hormonal background, mechanical factors: physiological stretching of the skin during rapid growth in adolescence, pregnancy, overweight (or rapid weight loss), under the influence of physical load and wound healing. All these factors lead to connective tissue remodelling. Thus, the skin has a complex three-dimensional morphological structure; it is subjected to prolonged exposure to internal and external factors that determines its mechanical properties.

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Treating the Abdominotorso Region of the Massive Weight Loss Patient: An Algorithmic Approach

Cited by 8 publications

References 39 publications

Multiple Procedures and Staging in the Massive Weight Loss Population

Multiple Procedures and Staging in the Massive Weight Loss Population

Skin Sensory Function in Post-Bariatric Patients—Implications for Selection of Post-Bariatric Abdominal Body-Contouring Techniques

Anatomical Basis of Biomechanical Properties of Superficial Tissues of the Anterior Abdominal Wall

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