28 Managing Excessive Scar Tissue (Adhesive Syndrome)

2021 ◽  
Keyword(s):  
Scar Tissue ◽  
Tissue Adhesive

Dupuytren's Contracture and Microvessels

1981 ◽  
Vol 39 ◽  
pp. 470-471
Author(s):  
C. W. Klscher ◽  
D. Speer
Keyword(s):  
Hypertrophic Scar ◽  
Active Form ◽  
Scar Tissue ◽  
Vascular Supply ◽  
Fiber Bundles ◽  
Dupuytren’S Contracture ◽  
Palmar Fascia ◽  
Immune Disease ◽  
Dupuytren's Contracture ◽  
Longitudinal Fiber

Dupuytren's Contracture is a nodular proliferation of the longitudinal fiber bundles of palmar fascia with its attendant contraction. The factors attributed to its etiology have included trauma, diabetes, alcoholism, arthritis, and auto-immune disease. The tissue has been observed by electron microscopy and found to contain myofibroblasts.Dupuytren's Contracture constitutes a scar, and as such, excessive collagen can be observed, along with an active form of fibroblast.Previous studies of the hypertrophic scar have led us to propose that integral in the initiation and sustenance of scar tissue is a profusion of microvascular regeneration, much of which becomes and remains occluded producing a hypoxia which stimulates fibroblast synthesis. Thus, when considering a study of Dupuytren's Contracture, we predicted finding occluded microvessels at or near the fascial scarring focus.Three cases of Dupuytren's Contracture yielded similar specimens, which were fixed in Karnovskys fluid for 2 to 20 days. Upon removal of the contracture bands care was taken to include the contiguous fatty and areolar tissue which contain the vascular supply and to identify the junctional area between old and new fascia.

Mussel mimetic tissue adhesive (mussel glue) for fetal membrane repair in vivo

2013 ◽  
Vol 217 (S 01) ◽  
Author(s):  
N Ochsenbein-Kölble ◽  
AS Kivelio ◽  
P Dekoninck ◽  
M Perrini ◽  
C Brubaker ◽  
...  
Keyword(s):  
Tissue Adhesive ◽  
Fetal Membrane ◽  
Membrane Repair

Cytocompatibility of Carbon Nanofiber Materials for Neural Applications

2003 ◽  
Vol 774 ◽  
Author(s):  
Janice L. McKenzie ◽  
Michael C. Waid ◽  
Riyi Shi ◽  
Thomas J. Webster
Keyword(s):  
Carbon Fiber ◽  
Surface Energy ◽  
Carbon Nanofibers ◽  
Carbon Fibers ◽  
Carbon Nanofiber ◽  
Fiber Composite ◽  
Scar Tissue ◽  
Pc 12 Cells ◽  
Low Surface Energy ◽  
Poly Carbonate

AbstractSince the cytocompatibility of carbon nanofibers with respect to neural applications remains largely uninvestigated, the objective of the present in vitro study was to determine cytocompatibility properties of formulations containing carbon nanofibers. Carbon fiber substrates were prepared from four different types of carbon fibers, two with nanoscale diameters (nanophase, or less than or equal to 100 nm) and two with conventional diameters (or greater than 200 nm). Within these two categories, both a high and a low surface energy fiber were investigated and tested. Astrocytes (glial scar tissue-forming cells) and pheochromocytoma cells (PC-12; neuronal-like cells) were seeded separately onto the substrates. Results provided the first evidence that astrocytes preferentially adhered on the carbon fiber that had the largest diameter and the lowest surface energy. PC-12 cells exhibited the most neurites on the carbon fiber with nanodimensions and low surface energy. These results may indicate that PC-12 cells prefer nanoscale carbon fibers while astrocytes prefer conventional scale fibers. A composite was formed from poly-carbonate urethane and the 60 nm carbon fiber. Composite substrates were thus formed using different weight percentages of this fiber in the polymer matrix. Increased astrocyte adherence and PC-12 neurite density corresponded to decreasing amounts of the carbon nanofibers in the poly-carbonate urethane matrices. Controlling carbon fiber diameter may be an approach for increasing implant contact with neurons and decreasing scar tissue formation.

Cytocompatibility and Material Properties of Poly-carbonate Urethane/Carbon Nanofiber Composites for Neural Applications

2003 ◽  
Vol 774 ◽  
Author(s):  
Janice L. McKenzie ◽  
Michael C. Waid ◽  
Riyi Shi ◽  
Thomas J. Webster
Keyword(s):  
Mechanical Properties ◽  
Carbon Nanofibers ◽  
Material Properties ◽  
Carbon Nanofiber ◽  
Scar Tissue ◽  
Tissue Response ◽  
Positive Interactions ◽  
Weight Percentage ◽  
Poly Carbonate

AbstractCarbon nanofibers possess excellent conductivity properties, which may be beneficial in the design of more effective neural prostheses, however, limited evidence on their cytocompatibility properties exists. The objective of the present in vitro study was to determine cytocompatibility and material properties of formulations containing carbon nanofibers to predict the gliotic scar tissue response. Poly-carbonate urethane was combined with carbon nanofibers in varying weight percentages to provide a supportive matrix with beneficial bulk electrical and mechanical properties. The substrates were tested for mechanical properties and conductivity. Astrocytes (glial scar tissue-forming cells) were seeded onto the substrates for adhesion. Results provided the first evidence that astrocytes preferentially adhered to the composite material that contained the lowest weight percentage of carbon nanofibers. Positive interactions with neurons, and, at the same time, limited astrocyte functions leading to decreased gliotic scar tissue formation are essential for increased neuronal implant efficacy.

Aplicabilidade clínica das técnicas de liberação manual diafragmática: uma revisão sistemática

2020 ◽  
Vol 18 (3) ◽  
pp. 111-116
Author(s):  
Dulce Marieli Danieli ◽  
Fabíola De Almeida Gomes ◽  
Bruna Eibel ◽  
William Dhein
Keyword(s):  
Low Back Pain ◽  
Back Pain ◽  
Gastroesophageal Reflux ◽  
Randomized Clinical Trials ◽  
Experimental Studies ◽  
Scar Tissue ◽  
Low Back ◽  
Musculoskeletal Manipulations ◽  
Clinical Applicability ◽  
Quasi Experimental

INTRODUÇÃO: O diafragma é o principal músculo respiratório e desempenha um papel importante na respiração e na regulação fisiológica. Uma terapia que visa melhorar essas condições referentes ao diafragma, é a técnica de liberação manual diafragmática. OBJETIVO: O objetivo deste estudo foi verificar a aplicabilidade clínica das técnicas manuais de liberação diafragmática e identificar as principais técnicas, populações investigadas, variáveis avaliadas e seus desfechos. MÉTODOS: Foram pesquisadas as seguintes bases de dados: PubMed, Scielo e Science Direct, com os descritores “Diaphragm [Mesh]” e “Musculoskeletal Manipulations [Mesh]” com seus correspondentes no mesmo idioma. Foram incluídos ensaios clínicos randomizados, não randomizados, estudos semi, quase-experimentais e estudos pilotos ou de caso, que abordaram técnicas de liberação manuais diafragmáticas.RESULTADOS: Há variadas técnicas de liberação diafragmática, sendo as mais mencionadas: normalização dos pilares do diafragma, alongamento e estiramento do diafragma, relaxamento dos pilares do diafragma. Além disso, as técnicas de liberação diafragmática vêm sendo associadas a protocolos de terapia manipulativa osteopática (TMO). As principais populações estudadas foram de pacientes saudáveis, com lombalgia, cervicalgia, osteoartrite, asmáticos, doença pulmonar obstrutiva crônica, constipados, cardiopatas e com refluxo gastroesofágico. Os principais desfechos avaliados são variáveis musculoesqueléticas (dor, flexibilidade, amplitude, espessura diafragmática), variáveis cardiorrespiratórias (pressão inspiratória/expiratória máxima (PImax e Pemax), mobilidade torácica, frequência cardíaca e respiratória), qualidade de vida e disfunções gastrointestinais/gastroesofágicas. CONCLUSÃO: A aplicabilidade clínica das técnicas de liberação diagramática está sendo investigada associado com outras técnicas osteopáticas, em protocolos de TMO em pacientes saudáveis, pneumopatas, cardiopatas, gestantes, em cicatriz pós-cirúrgica, constipados, com refluxo gastroesofágico, osteoartrite, cervicalgia e com lombalgia. Evidencia-se: diminuição ou eliminação das dores musculoesqueléticas, aumento da flexibilidade, ADM, Pimáx e Pemáx, aumento da mobilidade torácica, aumento da qualidade de vida, diminuição do inchaço e dor abdominal e sem efeito em cardiopatas.ABSTRACT. Clinical applicability of manual diaphragmatic release techniques: a systematic review.BACKGROUND: The diaphragm is the main respiratory muscle and plays an important role in breathing and physiological regulation. A therapy that aims to improve these conditions regarding the diaphragm, is the manual diaphragmatic release technique.OBJECTIVE: The aim of this study was to verify the clinical applicability of manual diaphragmatic release techniques and searching the main techniques, population, evaluated variables, and outcomes. METHODS: The following electronic databases were searched: PubMed, Scielo, and Science Direct, with the descriptors “Diaphragm [Mesh]” and “Musculoskeletal Manipulations [Mesh]” with their correspondents in the same language. There were included randomized clinical trial, non-randomized clinical trials, semi, and quasi-experimental studies, and pilot or case studies, which addressed manual diaphragmatic release techniques.RESULTS: There are various diaphragmatic release techniques, the most mentioned are: normalization of the diaphragm pillars, stretching of the diaphragm, relaxation of the diaphragm pillars, and protocols for osteopathic manipulative therapy (OMT) for the diaphragm. The main populations studied were healthy patients, with low back pain, asthmatics, chronic pulmonary obstructive disease, constipated, cardiac patients, and gastroesophageal reflux. The main outcomes assessed are musculoskeletal variables (pain, flexibility, range of motion, diaphragmatic thickness), cardiorespiratory variables (maximal inspiratory/expiratory pressure (MIP and MEP), chest mobility, heart, and respiratory rate), quality of life, and gastrointestinal/ gastroesophageal disorders.CONCLUSION: The clinical applicability of diagrammatic release techniques is being investigated in association with other osteopathic techniques, in protocols of OMT in healthy subjects, patients with lung diseases, heart disease, pregnant women, scar tissue, constipated, with gastroesophageal reflux, osteoarthritis, cervicalgia and with low back pain. There is evidence of reduction and elimination of musculoskeletal pain, increased MIP, increased chest mobility, an increase in health quality, a decrease of bloating and abdominal pain related to constipation, and a decrease of reflux symptoms.

Prevalence and Localization of Hibernating Myocardium Among Patients with Left Ventricular Dysfunction

2019 ◽  
Vol 15 (9) ◽  
pp. 884-889
Author(s):  
Emine Acar ◽  
Ayşegül Aksu ◽  
Gökmen Akkaya ◽  
Gamze Çapa Kaya
Keyword(s):  
Scar Tissue ◽  
Left Ventricular ◽  
Hibernating Myocardium ◽  
Circumflex Artery ◽  
Irrigation Area ◽  
Left Circumflex Artery ◽  
Pet Ct ◽  
Perfusion Defects ◽  
The Right ◽  
Fdg Pet Ct

Objective: This study evaluated how much of the myocardium was hibernating in patients with left ventricle dysfunction and/or comorbidities who planned to undergo either surgical or interventional revascularization. Furthermore, this study also identified which irrigation areas of the coronary arteries presented more scar and hibernating tissue. Methods: At rest, Tc-99m MIBI SPECT and cardiac F-18 FDG PET/CT images collected between March 2009 and September 2016 from 65 patients (55 men, 10 women, mean age 64±12) were retrospectively analyzed in order to evaluate myocardial viability. The areas with perfusion defects that were considered metabolic were accepted as hibernating myocardium, whereas areas with perfusion defects that were considered non-metabolic were accepted as scar tissue. Results: Perfusion defects were observed in 26% of myocardium, on average 48% were associated with hibernation whereas other 52% were scar tissue. In the remaining Tc-99m MIBI images, perfusion defects were observed in the following areas in the left anterior descending artery (LAD; 31%), in the right coronary artery (RCA; 23%) and in the Left Circumflex Artery (LCx; 19%) irrigation areas. Hibernation areas were localized within the LAD (46%), LCx (54%), and RCA (64%) irrigation areas. Scar tissue was also localized within the LAD (54%), LCx (46%), and RCA (36%) irrigation areas. Conclusion: Perfusion defects are thought to be the result of half hibernating tissue and half scar tissue. The majority of perfusion defects was observed in the LAD irrigation area, whereas hibernation was most often observed in the RCA irrigation area. The scar tissue development was more common in the LAD irrigation zone.

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