INTRODUCTION: Since there are limited studies about the return-to-work experiences of Filipino amputees, this study will be able to contribute to studies that delve deeper into the lower extremity amputees’ experiences and put into light the factors that may be present in relation to their return to work. METHODS: This study utilized a qualitative phenomenological design. Participants who were willing to join the study were all gathered for a focus group discussion conducted by a hired interviewer. The researchers adapted Colaizzi’s descriptive phenomenological method for analyzing the data. RESULTS: Factors that allowed amputees to have a successful return to work experience were motivation to continue with life, positive impact of lower extremity prosthesis, and rehabilitation. Factors that hindered the successful return to work of amputees were social barriers, work environment, negative self-image, discrimination from the community, and ft of prosthesis. CONCLUSION Employment was possible after amputation among amputees who were provided with prosthesis at UERMMMCI, since most of the respondents of this study were employed. Positive and negative factors that infuenced their return to work were also identifed. Non-compliance to rehabilitation limited the usage of prosthesis resulting in not being able to return to work.
Bioprosthesis

BACKGROUND: Bioprosthetic materials have been made using glutaraldehyde fixation of porcine or bovine pericardium during cardiovascular surgery. But these bioprostheses have the problems of calcification and mechanical failure. We determined changes in tensile strength and elasticity of pericardium after glutaraldehyde, solvent, decellularization and detoxification. MATERIAL AND METHOD: Tissues were allocated to four groups: glutaraldehyde with and without solvent, decellularization, and detoxification. We studied tensile strength and strain on tissues. We measured the tensile strength of fresh pericardium stretched in six directions (with 5 mm width), and % strain, which we calculated from the breaking point when we pulled the pericardium in two directions. RESULT: Tensile strength was reduced when we used the usual concentrated glutaraldehyde fixation (n=83, MPa=11.47+/-5.40, p=0.006), but there was no change when we used solvent. Elasticity was increased after glutaraldehyde fixation (n=83, strain (%)= 24.55+/-9.81, p=0.00), but there was no change after solvent. After decellularization of pericardium, the tensile strength was generally reduced. The decrease in tensile strength after concentrated glutaraldehyde fixation for a long time was significantly greater less than after concentrated solvent (p=0.01, p=0.00). After detoxification, the differences in strength and strain were not significant. CONCLUSION: After glutaraldehyde treatment of pericardium there is no loss in tensile strength (even though we did the glutaraldehyde, solvent and detoxification treatments LOGIC IS UNCLEAR). Also, these treatments had a tendency to increase elasticity. Although post-treatment decellularization led to a significant loss in strength, this effect could be attenuated using a low concentration of solvent or hypertonic solution.
Bioprosthesis ; Elasticity ; Glutaral ; Logic ; Pericardium ; Sprains and Strains ; Tensile Strength

The Bentall-DeBono operation is the technique of choice for aortic root replacement. When the patients have contraindications for lifelong anticoagulation, the biologic Bentall operation may be a good option. However, complex reoperation may be required when bioprosthetic degeneration occurs. For this reason, a new technique for simple reoperation after the Bentall operation has recently been performed by some surgeons. We performed a similar technique in two patients with aortic root dilation and for whom aortic valve sparing techniques could not be performed because of an unrepairable valve contour, we think this modification seems to be simple and reproducible for reoperation.
Aneurysm ; Aorta ; Aortic Valve ; Bioprosthesis ; Cardiovascular Diseases ; Humans ; Reoperation

BACKGROUND: In vitro study, normal cardiac prosthetic valve has functional regurgitation due to structural characteristics of prosthetic valve. To evaluate functional regurgitant characteristics of prosthetic valves, we examined patients who had clinically normal mitral prosthesis. METHODS: Transesophageal two-dimensional and color doppler echocardiography were performed to 25 patients who had the clinically normal mitral prosthesis. RESULTS: Seven patients had the mitral bioprosthesis and 18 patients had the mitral mechanical prosthesis. Regurgitation was found in 4 patients(57%) with bioprosthetic valve, and the pattern of regurgitation was central in three patients and unilateral in one patient. But regurgitation was detected in 17 patients(94%) with mechanical prosthesis, and the pattern of regurgitation was bilateral in twelve patients, unilateral in four patients and central in one patient(p=0.0035). The length of regurgitant jets were 22.00+/-6.73(mm) in bioprosthetic valve and 28.65+/-7.33(mm) in mechanical valve. The regurgitant jets were detected in systolic period in most of patients. But in 4 patients who had tachycardia during TEE, regurgitation was detected in systolic and early diastolic period. CONCLUSION: Regurgitation was found in clinically normal cardiac prosthetic valves by TEE. These findings may be useful to differentiate between normal and abnormal cardiac prosthesis.
Bioprosthesis ; Echocardiography, Doppler, Color ; Echocardiography, Transesophageal* ; Humans ; Prostheses and Implants* ; Tachycardia

Currently, as the key raw material of artificial biological heart valve, bovine pericardium is mainly depend on import and has become a "bottleneck" challenge, greatly limiting the development of domestic biological heart valve. Therefore, the localization of bovine pericardium is extremely urgent. In this study, the pericardium of Sichuan yak was compared with that of Australian cattle in terms of fundamental properties and anti-calcification performance. The results demonstrated that the appearance and thickness of yak pericardium were more advantageous than the Australian one. Sichuan yak pericardium and Australian cattle pericardium had comparable performance in shrinkage temperature, mechanical test and anti-calcification test. This study preliminarily verifies the feasibility of substitution of Australian cattle pericardium by Sichuan yak pericardium and promotes the progression of bovine pericardium localization with data support.
Animals ; Australia ; Bioprosthesis ; Cattle ; Heart Valve Prosthesis ; Pericardium

BACKGROUND: Valvular heart disease is still the most common health problem i n Korea.By the end of the year 1999,there has been 94,586 cases of open heart surgery since the first case in 1958.Among them,36,247 cases were acquired heart diseases and 20,704 of those had valvular heart disease.But there was no database system and every surgeon and physician had great difficulties in analysing and utilizing those tremendous medical resources. Therefore,we developed a valve registry database program and utilize it for risk factor analysis and so on. MATERIAL AND METHOD: Personal computer-based multiuser database program was created using Microsoft AccessTM.That consisted of relational database structure with fine-tuned compact field variables and server-client architecture.Simple graphic user interface showed easy-to-use accessability and comprehensibility.User-oriented modular structure enabled easier modification through native AccessTM functions.Infinite application of query function aided users to extract, summarize,analyse and report the study result promptly. RESULT: About three-thousand cases of valve replacement procedure were performed in our hospital from 1968 to 1999.Total number of prosthesis replaced was 3,700.The numbers of cases for mitral,aortic and tricuspid valve replacement were 1600,584,76, respectively. Among them,700 patients received prosthesis in more than two positions. Bioprosthesis or mechanical prosthesis were used in 1,280 and 1,500 patients respectively. Redo valve replacements were performed in 460 patients totally and 40 patients annually. CONCLUSION: Database program for registry of valvular heart disease was successfully developed and used in personal computer-based multiuser environment.This revealed promising results and perspectives in database management and utilization system.
Bioprosthesis ; Heart ; Heart Diseases ; Heart Valve Diseases ; Humans ; Prostheses and Implants ; Risk Factors* ; Thoracic Surgery ; Tricuspid Valve

BACKGROUND: Bioprostheses for cardiovascular surgery have limitations in their use following as calicification. alpha-galactosidase epitope is known as a stimulant of immune response and then shows a progressing calcification. The objective of this study was to evaluate histologic characteristics and mechanical properties of decellularization and treated with alpha-galactosidase. MATERIALS AND METHODS: Bovine pericardial tissues were allocated into three groups: fixation only with glutaraldehyde, decellularization with sodium dodesyl sulfate and decellularization plus treatment with alpha-galactosidase. We confirmed immunohistological characteristics and mechanical properties as fatigue test, permeability test, compliance test, tensile strength (strain) test and thermal stability test. RESULTS: Decellularization and elimination of alpha-gal were confirmed through immunohistologic findings. Decellularization had decreased mechanical properties compared to fixation only group in permeability (before fatigue test p=0.02, after fatigue test p=0.034), compliance (after fatigue test p=0.041), and tensile strength test (p=0.00). The group of decellularization plus treatment with alpha-galactosidase had less desirable mechanical properties than the group of decellularization in concerns of permeability (before fatigue test p=0.043) and strain test (p=0.001). CONCLUSION: Favorable decellularization and elimination of alpha-gal were obtained in this study through immunohistologic findings. However, those treatment including decellularization and elimination of alpha-gal implied the decreased mechanical properties in specific ways. We need more study to complete appropriate ioprosthesis with decellularization and elimination of alpha-gal including favorable mechanical properties too.
alpha-Galactosidase ; Bioprosthesis ; Compliance ; Fatigue ; Glutaral ; Pericardium ; Permeability ; Sodium ; Sprains and Strains ; Tensile Strength

BACKGROUND: As cardiovascular operations become more complex and sophisticated, there is an increasing need for various bioprostheses for use as components of blood vessels and heart valves. We developed a fatigue stimuli test instrument to objectively evaluate the mechanical durability of a bioprosthesis, and we tested several currently- known processing methods for bovine pericardium and we then compared the results. MATERIAL AND METHOD: Fresh bovine pericardium was collected at the butcher shop with using aseptic technique, and each piece of pericardium was fixated and/or decellularized by 16 representative methods. We measured the permeability and compliance of the processed bovine pericardium samples, and measured them again after exposure to the fatigue stimuli. All the pieces of pericardium underwent microscopic examinations before and after the fatigue stimuli. RESULT: A mixture of glutaraldehyde and solvent treatment showed better mechanical durability than did the single glutaraldehyde treatment. High concentration glutaraldehyde treatment showed equal or no worse results than did low concentration glutaraldehyde treatment. After SDS (sodium dodecylsulfate) decellularization, the mechanical property of the bioprosthesis became much worse (20~190 times) and the mechanical durability to the fatigue stimuli was also very poor. CONCLUSION: We obtained the basic durability data after various fixation methods with using a home-made fatigue test instrument.
Biomedical Engineering ; Bioprosthesis ; Blood Vessels ; Compliance ; Fatigue ; Glutaral ; Heart Valves ; Pericardium ; Permeability

BACKGROUND: Bioprosthetic devices for treating cardiovascular diseases and defects may provide alternatives to autologous and homograft tissue. We evaluated the mechanical and physical conditions of a porcine pericardial bioprosthesis treated with Glutaraldehyde (GA), Ethanol, or Sodium dodecylsulfate (SDS) before implantation. MATERIAL AND METHOD: 1) Thirty square-shaped pieces of porcine pericardium were fixed in 0.625%, 1.5% or 3% GA solution. 2) The tensile strength and thickness of these and other bioprosthesis, including fresh porcine pericardium, fresh human pericardium, and commercially produced heterografts, were measured. 3) The tensile strength and thickness of the six treated groups (GA-Ethanol, Ethanol-GA, SDS only, SDS-GA, Ethanol-SDS-GA and SDS-Ethanol-GA) were measured. RESULT: 1) Porcine pericardium fixed in 0.625% GA the thinnest and had the lowest tensile strength, with thickness and tensile strength increasing with the concentration of GA solution. The relationship between tensile strength and thickness of porcine pericardium increased at thicknesses greater than 0.1 mm (correlation-coefficient 0.514, 0<0.001). 2) There were no differences in tensile strength or thickness between commercially-produced heterografts. 3) Treatment of GA, ethanol, or SDS minimally influenced thickness and tensile strength of porcine pericardium, except for SDS alone. CONCLUSION: Porcine pericardial bioprosthesis greater than 0.1 mm thick provide better handling and advantageous tensile strength. GA fixation did not cause physical or mechanical damage during anticalcification or decellularization treatment, but combining SDS-ethanol pre-treatment and GA fixation provided the best tensile strength and thickness.
Bioprosthesis ; Cardiovascular Diseases ; Ethanol ; Glutaral ; Handling (Psychology) ; Humans ; Pericardium ; Sodium ; Tensile Strength ; Transplantation, Heterologous ; Transplantation, Homologous

BACKGROUND: Current vascular prostheses are considered still inadequate for reconstruction of small-diameter vessels. To evaluate the potential use of xenograft vessels as small diameter arterial grafts, we implanted porcine vessels in goats. The grafts were treated with two different processes, freezing and acellularization, before implantation, and gross inspection as well as microscopic examination followed after a predetermined period. MATERIAL AND METHOD: Bilateral porcine carotid arteries were harvested and immediately stored at -70 degrees C within tissue preservation solution. One of them was designated as frozen xenograft vessel. The other one was put on acellularization process using NaCl-SDS solution and stored frozen until further use. Grafts were implanted in the place of carotid arteries of the same goat. The grafts have remained implanted for 1, 3, and 6 months in three animals, respectively. Periodic ultrasonographic examinations were performed during the observation period. After explantation, the grafts were analyzed grossly and histologically under light microscope. RESULT: All animals survived the experimental procedure without problems. Ultrasonographic examinations showed excellent patency of all the grafts during the observation period. Gross examination revealed nonthrombotic, patent lumens with smooth surfaces. Microscopic examinations of the explanted grafts showed cellular reconstruction at the 6-month stage in both grafts. Although more inflammatory responses were observed in the early phase of frozen xenografts, there was no evidence of significant rejection. CONCLUSION: These findings suggest that porcine xenograft vessels, regardless of pre-implantation processes of acelluarization or freezing, can be acceptably implanted in goats, although short duration of observation in a small number of animals may limit this study.
Animals ; Bioprosthesis ; Blood Vessel Prosthesis ; Carotid Arteries ; Freezing ; Goats* ; Heterografts ; Tissue Preservation ; Transplantation, Heterologous* ; Transplants*