Your search keyword '"Bhuvaneshwar GS"' showing total 21 results

1. In vitro cytotoxicity and cellular uptake of curcumin-loaded Pluronic/Polycaprolactone micelles in colorectal adenocarcinoma cells

Author

Raveendran, Radhika, primary, Bhuvaneshwar, GS, additional, and Sharma, Chandra P, additional

Published

2012

2. In vitro cytotoxicity and cellular uptake of curcumin-loaded Pluronic/Polycaprolactone micelles in colorectal adenocarcinoma cells.

Author

Raveendran, Radhika, Bhuvaneshwar, GS, and Sharma, Chandra P

Subjects

*CELL-mediated cytotoxicity, *CURCUMIN, *POLYCAPROLACTONE, *COLON cancer, *ADENOCARCINOMA, *CANCER cells, *AQUEOUS solutions, *MICELLES

Abstract

Clinical application of curcumin has been limited due to poor aqueous solubility and consequently minimal systemic bioavailability. We investigated the preparation of curcumin-loaded micelles based on amphiphilic Pluronic/Polycaprolactone (Pluronic/PCL) block copolymer, which proved to be efficient in enhancing curcumin’s aqueous solubility. Curcumin-loaded micelles of size below 200 nm was characterized by dynamic light scattering and transmission electron microscopy. The critical micelle concentration (CMC) of the amphiphilic polymer was determined using pyrene as a fluorescent probe. Hemolysis and aggregation studies were investigated to evaluate the blood compatibility of the micelles. Sodium dodecyl sulphate polyacrylamide gel electrophoresis was performed to study the stability of the micelles toward plasma proteins. In vitro cytotoxicity and cellular uptake of the curcumin-loaded micelles were demonstrated in colorectal adenocarcinoma (Caco2) cells. The results indicated that Pluronic/PCL micelles could be a promising candidate for curcumin delivery to cancer cells. [ABSTRACT FROM AUTHOR]

Published

2013

3. Long-term evaluation of TTK Chitra™ heart valve prosthesis - a retrospective-prospective cohort study.

Author

Varma PK, Vijayakumar M, Bhuvaneshwar GS, Kumar AS, and Krishna N

Abstract

Purpose: The TTK Chitra™ heart valve has more than 1,40,000 implantations so far, but no long-term data has been published. This study aims to provide long-term results of the valve., Methodology: A cohort of 476 patients with implantations from January 2006 to December 2018 were followed up prospectively consisting of 104 aortic valve replacement (AVR), 87 double valve replacement (DVR), and 285 mitral valve replacement (MVR) patients. Total follow-up was 4079 patient-years (py) (AVR = 983, MVR = 2392, DVR = 704), being 96% complete., Results: The results showed that actuarial survival at 15 years was 82.3% for AVR, 60.7% for MVR, and 52.2% for DVR. Freedom from all valve-related mortality and morbidity at 15 years was 73.8%, 64.8%, and 61.9% for AVR, MVR, and DVR, respectively. There was one instance of structural failure of valve disc leading to severe valvar regurgitation. Valve thrombosis incidence was 1 in AVR (0.1%/py), 6 in MVR (0.25%/py), and 1 in DVR (0.14%/py). Thrombo-embolic episodes occurred in 50 patients (AVR = 7 patients at 0.7%/py; MVR = 36 patients at 1.5%/py; DVR = 7 patients at 0.99%/py) and major hemorrhage (bleeding) in 24 patients (AVR = 0.61%/py; MVR = 0.5%/py; and DVR = 0.85%/py). The linearized rates of adverse events in this study were found to be lower than earlier published results., Conclusion: The results highlight the continued safety and performance of the TTK Chitra™ heart valve (TTKCHV) in the long term at 15 years., Supplementary Information: The online version contains supplementary material available at 10.1007/s12055-022-01437-9., Competing Interests: Conflict of interestDr. G. S. Bhuvaneshwar reports receiving consultation fees from TTK Healthcare Limited on guidance provided for the company’s post-market clinical studies. The remaining authors have no conflicts of interest to declare., (© The Author(s) 2022.)

Published

2023

4. Evaluation of TTK Chitra heart valve prosthesis in pediatric patients.

Author

Varma PK, Kumar RK, Bhuvaneshwar GS, and Krishna N

Abstract

This report highlights the outcome of valve replacement using TTK Chitra heart mechanical valve in a subgroup of pediatric patients This cohort of 27 pediatric patients with implantations during January 2006 to December 2018 was followed up prospectively. The cohort consisted of 12 aortic valve replacement (AVR), 14 mitral valve replacement (MVR), and 1 double valve replacement (DVR) patients. Total follow-up was 254 patient-years (AVR = 107, MVR = 136, DVR = 11) being 90% complete. The results show that the survival rates and event-free rates were satisfactory. Despite many reservations due to the high risk involved, the long-term benefits of having a durable valve replacement seem to outweigh the risks and offer acceptable long-term survival., Competing Interests: Conflict of interestDr. G. S. Bhuvaneswar reports receiving consultation fees from TTK Healthcare Limited on guidance provided for the company’s post-market clinical studies. The remaining authors have no conflicts of interest to declare., (© Indian Association of Cardiovascular-Thoracic Surgeons 2022, Springer Nature or its licensor (e.g. a society or other partner) holds exclusive rights to this article under a publishing agreement with the author(s) or other rightsholder(s); author self-archiving of the accepted manuscript version of this article is solely governed by the terms of such publishing agreement and applicable law.)

Published

2023

5. Nanosecond laser ablation enhances cellular infiltration in a hybrid tissue scaffold.

Author

Jahnavi S, Arthi N, Pallavi S, Selvaraju C, Bhuvaneshwar GS, Kumary TV, and Verma RS

Subjects

Animals, Cattle, Cells, Cultured, Humans, Laser Therapy, Nanofibers, Polyesters, Tissue Engineering, Tissue Scaffolds

Abstract

Hybrid tissue engineered (HTE) scaffolds constituting polymeric nanofibers and biological tissues have attractive bio-mechanical properties. However, they suffer from small pore size due to dense overlapping nanofibers resulting in poor cellular infiltration. In this study, using nanosecond (ns) laser, we fabricated micro-scale features on Polycaprolactone (PCL)-Chitosan (CH) nanofiber layered bovine pericardium based Bio-Hybrid scaffold to achieve enhanced cellular adhesion and infiltration. The laser energy parameters such as fluence of 25J/cm 2 , 0.1mm instep and 15 mark time were optimized to get structured microchannels on the Bio-Hybrid scaffolds. Laser irradiation time of 40μs along with these parameters resulted in microchannel width of ~50μm and spacing of ~35μm between adjacent lines. The biochemical, thermal, hydrophilic and uniaxial mechanical properties of the Bio-Hybrid scaffolds remained comparable after laser ablation reflecting extracellular matrix (ECM) stability. Human umbilical cord mesenchymal stem cells and mouse cardiac fibroblasts seeded on these laser-ablated Bio-Hybrid scaffolds exhibited biocompatibility and increased cellular adhesion in microchannels when compared to non-ablated Bio-Hybrid scaffolds. These findings suggest the feasibility to selectively ablate polymer layer in the HTE scaffolds without affecting their bio-mechanical properties and also describe a new approach to enhance cellular infiltration in the HTE scaffolds., (Copyright © 2017 Elsevier B.V. All rights reserved.)

Published

2017

6. Biological and mechanical evaluation of a Bio-Hybrid scaffold for autologous valve tissue engineering.

Author

Jahnavi S, Saravanan U, Arthi N, Bhuvaneshwar GS, Kumary TV, Rajan S, and Verma RS

Subjects

Animals, Biomechanical Phenomena, Cattle, Cell Communication, Cells, Cultured, Collagen metabolism, Fluorescent Antibody Technique, Heart Valves cytology, Humans, Microscopy, Electron, Scanning, Pericardium metabolism, Stress, Mechanical, Transplantation, Autologous, Heart Valve Prosthesis, Heart Valves physiology, Tissue Engineering methods, Tissue Scaffolds chemistry

Abstract

Major challenge in heart valve tissue engineering for paediatric patients is the development of an autologous valve with regenerative capacity. Hybrid tissue engineering approach is recently gaining popularity to design scaffolds with desired biological and mechanical properties that can remodel post implantation. In this study, we fabricated aligned nanofibrous Bio-Hybrid scaffold made of decellularized bovine pericardium: polycaprolactone-chitosan with optimized polymer thickness to yield the desired biological and mechanical properties. CD44 + , αSMA + , Vimentin + and CD105 - human valve interstitial cells were isolated and seeded on these Bio-Hybrid scaffolds. Subsequent biological evaluation revealed interstitial cell proliferation with dense extra cellular matrix deposition that indicated the viability for growth and proliferation of seeded cells on the scaffolds. Uniaxial mechanical tests along axial direction showed that the Bio-Hybrid scaffolds has at least 20 times the strength of the native valves and its stiffness is nearly 3 times more than that of native valves. Biaxial and uniaxial mechanical studies on valve interstitial cells cultured Bio-Hybrid scaffolds revealed that the response along the axial and circumferential direction was different, similar to native valves. Overall, our findings suggest that Bio-Hybrid scaffold is a promising material for future development of regenerative heart valve constructs in children., (Copyright © 2016 Elsevier B.V. All rights reserved.)

Published

2017

7. Hemocompatible curcumin-dextran micelles as pH sensitive pro-drugs for enhanced therapeutic efficacy in cancer cells.

Author

Raveendran R, Bhuvaneshwar GS, and Sharma CP

Subjects

Antineoplastic Agents adverse effects, Blood Cells drug effects, Cell Line, Tumor, Cells, Cultured, Hemolysis, Humans, Hydrogen-Ion Concentration, Prodrugs adverse effects, Antineoplastic Agents chemistry, Curcumin analogs & derivatives, Dextrans chemistry, Micelles, Prodrugs chemistry

Abstract

Curcumin, a component in spice turmeric, is renowned to possess anti-cancer therapeutic potential. However, low aqueous solubility and instability of curcumin which subsequently affects its bioavailability pose as major impediments in its translation to clinical application. In this regard, we focused on conjugating hydrophobic curcumin to the hydrophilic backbone of dextran via succinic acid spacer to design a pro-drug. The structural confirmation of the conjugates was carried out using FTIR and (1)H NMR spectroscopy. Critical micelle measurement affirmed the micelle formation of the pro-drug in aqueous media. The size distribution and zeta potential of the curcumin-dextran (Cur-Dex) micelles were determined using dynamic light scattering technique. The micellar architecture bestowed curcumin negligible susceptibility to degradation under physiological conditions along with enhanced aqueous solubility. Biocompatibility of the micelles was proved by the blood component aggregation and plasma protein interaction studies. In vitro release studies demonstrated the pH sensitivity release of curcumin which is conducive to the tumour micro environment. Profound cytotoxic effects of Cur-Dex micelles in C6 glioma cells were observed from MTT and Live/Dead assay experiments. Moreover, enhanced cellular internalization of the Cur-Dex micelles compared to free curcumin in the cancer cells was revealed by fluorescence microscopy. Our study focuses on the feasibility of Cur-Dex micelles to be extrapolated as promising candidates for safe and efficient cancer therapy., (Copyright © 2015 Elsevier Ltd. All rights reserved.)

Published

2016

8. Engineering of a polymer layered bio-hybrid heart valve scaffold.

Author

Jahnavi S, Kumary TV, Bhuvaneshwar GS, Natarajan TS, and Verma RS

Subjects

Animals, Cattle, Cell-Free System chemistry, Cells, Cultured, Coated Materials, Biocompatible chemical synthesis, Elastic Modulus physiology, Endothelial Cells cytology, Equipment Design, Equipment Failure Analysis, Extracellular Matrix chemistry, Extracellular Matrix transplantation, Humans, Materials Testing, Pericardium chemistry, Tensile Strength physiology, Tissue Engineering instrumentation, Bioprosthesis, Chitosan chemistry, Endothelial Cells physiology, Heart Valve Prosthesis, Polyesters chemistry, Tissue Scaffolds

Abstract

Current treatment strategy for end stage valve disease involves either valvular repair or replacement with homograft/mechanical/bioprosthetic valves. In cases of recurrent stenosis/ regurgitation, valve replacement is preferred choice of treatment over valvular repair. Currently available mechanical valves primarily provide durability whereas bioprosthetic valves have superior tissue compatibility but both lack remodelling and regenerative properties making their utility limited in paediatric patients. With advances in tissue engineering, attempts have been made to fabricate valves with regenerative potential using various polymers, decellularized tissues and hybrid scaffolds. To engineer an ideal heart valve, decellularized bovine pericardium extracellular matrix (DBPECM) is an attractive biocompatible scaffold but has weak mechanical properties and rapid degradation. However, DBPECM can be modified with synthetic polymers to enhance its mechanical properties. In this study, we developed a Bio-Hybrid scaffold with non-cross linked DBPECM in its native structure coated with a layer of Polycaprolactone-Chitosan (PCL-CH) nanofibers that displayed superior mechanical properties. Surface and functional studies demonstrated integration of PCL-CH to the DBPECM with enhanced bio and hemocompatibility. This engineered Bio-Hybrid scaffold exhibited most of the physical, biochemical and functional properties of the native valve that makes it an ideal scaffold for fabrication of cardiac valve with regenerative potential., (Copyright © 2015 Elsevier B.V. All rights reserved.)

Published

2015

9. Pullulan-histone antibody nanoconjugates for the removal of chromatin fragments from systemic circulation.

Author

Rekha MR, Pal K, Bala P, Shetty M, Mittra I, Bhuvaneshwar GS, and Sharma CP

Subjects

Animals, Apoptosis, Cell Line, Cells, Cultured, Doxorubicin, Glucans chemistry, Hep G2 Cells, Humans, Immunoconjugates chemistry, Immunoconjugates immunology, Mice, Mice, Inbred BALB C, Nanoconjugates chemistry, Neutropenia chemically induced, Rats, Rats, Wistar, Sepsis immunology, Chromatin isolation & purification, Glucans therapeutic use, Histones immunology, Immunoconjugates therapeutic use, Nanoconjugates therapeutic use, Neutropenia drug therapy, Sepsis drug therapy

Abstract

The billions of cells that die in the adult human body daily release considerable amounts of fragmented chromatin in the form of mono- and oligonucleosomes into the circulation in normal individuals, and in higher quantities in many disease conditions. Recent results suggest that circulating chromatin fragments (Cfs) especially from abnormal cells can spontaneously enter into healthy cells to damage their DNA and induce genomic instability. Furthermore, Cfs isolated from cancer patients may induce oncogenic transformation in the recipients' cells. Thus, it follows that if such Cfs emanating from apoptotic cells could be prevented from reaching other cells, it could potentially inhibit pathological conditions, including cancer. Here we have developed pullulan based histone antibody nanoconjugates for the removal of Cfs. Nanoconjugates were developed and various physico-chemical characterizations were carried out. The efficacy of these nanoconjugates on removing Cfs was evaluated both in vitro and in vivo. Our results indicate that nanoconjugates may have therapeutic value in the efficient removal of Cfs, reducing inflammation and fatality in a mouse model of sepsis, and in preventing neutropenia following treatment with Adriamycin., (Copyright © 2013 Elsevier Ltd. All rights reserved.)

Published

2013

10. The toxicological quandary in the use of plasticizers in medical devices.

Author

Krishnan VK and Bhuvaneshwar GS

Subjects

Animals, Diethylhexyl Phthalate chemistry, Equipment Design, Equipment Reuse, Equipment Safety, Equipment and Supplies, Humans, Polyvinyl Chloride chemistry, Rats, Specimen Handling, Blood Preservation instrumentation, Blood Preservation methods, Blood Transfusion methods, Diethylhexyl Phthalate toxicity, Plasticizers chemistry, Plasticizers toxicity

Published

2004

11. Quantitation of platelet adhesion to Ti and DLC-coated Ti in vitro using (125)I-labeled platelets.

Author

Krishnan LK, Varghese N, Muraleedharan CV, Bhuvaneshwar GS, Derangère F, Sampeur Y, and Suryanarayanan R

Subjects

Blood Platelets physiology, Carbon, Cell Adhesion, Cell Count, Humans, In Vitro Techniques, Iodine Radioisotopes, Isotope Labeling methods, Radionuclide Imaging, Blood Platelets diagnostic imaging, Coated Materials, Biocompatible, Diamond, Materials Testing methods, Platelet Adhesiveness, Titanium

Abstract

Measurement of platelet adhesion in vitro is a good indicator of its reactivity to implant devices in vivo. Platelets were labeled with I-125 without affecting its normal morphology and function and the labeled platelets were suspended in platelet poor plasma and exposed to Ti and diamond like carbon-coated (DLC) Ti discs, under dynamic conditions, using a parallel plate flow chamber. The test materials were washed, dried, exposed to a phosphor screen and scanned to get the images. The number of platelets that adhered to Ti was found to be higher than those that adhered to DLC coated Ti sample, irrespective of the shear stress which was varied between 2 and 16 dynes/cm(2).

Published

2002

12. Long term tissue response to titanium coated with diamond like carbon.

Author

Mohanty M, Anilkumar TV, Mohanan PV, Muraleedharan CV, Bhuvaneshwar GS, Derangere F, Sampeur Y, and Suryanarayanan R

Subjects

Animals, Carbon classification, Carbon pharmacology, Materials Testing standards, Muscle, Skeletal immunology, Prostheses and Implants, Rabbits, Time Factors, Coated Materials, Biocompatible, Diamond, Materials Testing methods, Muscle, Skeletal pathology, Titanium

Abstract

Diamond like carbon (DLC) coatings were deposited on to Ti substrates by plasma enhanced chemical vapor deposition technique. Ti and DLC/Ti samples were implanted in skeletal muscle of rabbits. The samples were explanted after 1, 3, 6 and 12 months and the tissue-cell interaction was studied. Our data indicate both DLC/Ti and bare Ti to be compatible with skeletal muscle.

Published

2002

13. In vitro cytocompatibility studies of Diamond Like Carbon coatings on titanium.

Author

Kumari TV, Anil Kumar PR, Muraleedharan CV, Bhuvaneshwar GS, Sampeur Y, Derangere F, and Suryanarayanan R

Subjects

Animals, Carbon adverse effects, Carbon chemistry, Cell Adhesion drug effects, Cell Division drug effects, Cell Line, Endothelium, Vascular drug effects, Endothelium, Vascular ultrastructure, Fibroblasts drug effects, Fibroblasts ultrastructure, Hardness, Humans, Materials Testing methods, Mice, Osteoblasts drug effects, Osteoblasts ultrastructure, Spectrum Analysis, Raman, Coated Materials, Biocompatible adverse effects, Coated Materials, Biocompatible chemistry, Diamond adverse effects, Diamond chemistry, Titanium chemistry

Abstract

Diamond like carbon (DLC) films were deposited on to titanium (Ti) substrates by Plasma Enhanced Chemical Vapour Deposition (PECVD) process. The quality of the films were checked by Raman spectra and nano-hardness tests. The cytocompatibility of titanium and DLC coated titanium were studied using continuous cell lines of mouse fibroblast cells ( L-929), Human Osteoblast cells (HOS) and primary human umbilical cord vein endothelial cells (HUVEC). The cellular responses to the materials were assessed both quantitatively and qualitatively. The adhesion and spreading of cells on materials were compared using Ti as a control. Present study indicates an improved cytocompatibility of DLC coated Ti in comparison to bare Ti.

Published

2002

14. Chitra heart valve: results of a multicenter clinical study.

Author

Sankarkumar R, Bhuvaneshwar GS, Magotra R, Muralidharan S, Rajan RS, Saha D, Subba Rao KS, Valiathan MS, Radhakrishna S, and Ramani AV

Subjects

Adolescent, Adult, Anticoagulants therapeutic use, Aortic Valve surgery, Child, Child Welfare, Embolism etiology, Embolism mortality, Embolism therapy, Endocarditis, Bacterial etiology, Endocarditis, Bacterial mortality, Female, Follow-Up Studies, Heart Valve Diseases complications, Heart Valve Diseases therapy, Heart Valve Prosthesis Implantation adverse effects, Heart Valve Prosthesis Implantation mortality, Hemorrhage etiology, Hemorrhage mortality, Humans, Incidence, India epidemiology, Male, Middle Aged, Mitral Valve surgery, Prosthesis Design, Prosthesis-Related Infections etiology, Prosthesis-Related Infections mortality, Reoperation, Rheumatic Heart Disease complications, Rheumatic Heart Disease therapy, Risk Factors, Survival Rate, Thrombolytic Therapy, Thrombosis etiology, Thrombosis mortality, Thrombosis therapy, Time Factors, Treatment Outcome, Dental Alloys therapeutic use, Heart Valve Prosthesis Implantation instrumentation

Abstract

Background and Aim of the Study: The Chitra tilting disc valve was developed in India to meet the need for a low-cost cardiac valve. The valve has an integrally machined cobalt-based alloy cage, an ultra-high molecular-weight polyethylene disc, and a polyester suture ring. An important feature of this valve is its soft closing sound, by virtue of a plastic occluder., Methods: Between December 1990 and January 1995, 306 patients underwent isolated aortic (AVR, n = 101) or mitral valve replacement (MVR, n = 205) at six institutions in India. The early mortality rate was 6.9% (seven after AVR; 14 after MVR). A total of 285 survivors was followed up until September 1998; total follow up was 1212 patient-years (pt-yr) (AVR, 445 pt-yr; MVR, 767 pt-yr)., Results: There were 52 late deaths (4.3%/pt-yr; AVR 2.2%/pt-yr; MVR 5.5%/pt-yr). Thirty-five deaths were valve-related (23 were due to unknown causes). One AVR patient (0.2%/pt-yr) and 12 MVR patients (1.6%/pt-yr) developed valve thrombosis, and embolic episodes occurred in 25 patients (seven after AVR, 1.6%/pt-yr; 18 after MVR, 2.4%/pt-yr). Bleeding events and infectious endocarditis occurred infrequently (AVR 0.9 and 0.7%/pt-yr; MVR 0.4 and 0.5%/pt-yr, respectively). There was no incidence of paravalvular leak or structural dysfunction of the valve. Actuarial survival rates at seven years were 82.4+/-4.0% for AVR and 65.2+/-5.0% for MVR. During the same interval, thrombus-free and embolism-free survival after AVR and MVR occurred in 98.9+/-1.1% and 94.1+/-1.9%, and 92.3+/-2.8% and 82.1+/-5.7% of patients, respectively. Freedom from all valve-related mortality and morbidity at seven years was 81.5+/-4.1% after AVR, and 64.2+/-5.1% after MVR., Conclusion: The Chitra valve appears to be safe and to have performance comparable with that of other currently used tilting disc valves. This valve costs substantially less than other valves, and is therefore within reach of a larger subset of Indian patients.

Published

2001

15. Development of the Chitra tilting disc heart valve prosthesis.

Author

Bhuvaneshwar GS, Muraleedharan CV, Vijayan GA, Kumar RS, and Valiathan MS

Subjects

Adult, Animals, Aortic Valve, Echocardiography, Electric Impedance, Equipment Design, Hemodynamics, Humans, India, Materials Testing, Mitral Valve, Postoperative Complications, Pressure, Pulsatile Flow, Sheep, Heart Valve Prosthesis instrumentation

Abstract

Background and Aims of the Study: The high prevalence of rheumatic valvular disease in the young population and the high cost of imports necessitated the development of an Indian valve. The development of a tilting disc prosthesis was successfully concluded in February 1995, when the third model completed its clinical trial. The tilting disc valve has an integrally machined cobalt alloy cage, an ultra high molecular weight polyethylene disc and a polyester suture ring. The choice of design was based on its superior hydrodynamics and the age distribution of patients, the majority of whom were below 30 years. The polymer-metal combination was selected for its extremely low wear rate and proven durability in the human body., Materials and Methods: The hydrodynamic performance was tested under steady and pulsatile flow conditions. The accelerated durability of nine test valves was evaluated at 800-840 cycles/min for over 350 million cycles each. Size 23 mm valves mere implanted in the mitral position of five sheep. In a clinical trial, 306 patients with isolated mitral or aortic valve replacements were followed up for a total of 371 patient years (mean 1.37 years and range 0-4 years)., Results: The hydrodynamic performance was comparable to that of proven clinical models. The accelerated testing indicated lifetimes in excess of 50 years and the animal trials showed the valve to be safe. In the clinical trial, there was no incidence of structural failure or paravalvular leak. The linearized rate of late thromboembolism was 6.2%/patient-year (pty), anticoagulant related hemorrhage 0.54%/pty and infective endocarditis 0.54%/pty. At two years, the total actuarial survival was 89.5%. The higher incidence of thromboembolism and the very low incidence of anticoagulant related hemorrhage illustrate the difficulty in the management of anticoagulant therapy in a developing country, while the low incidence of endocarditis reflects their greater resistance to infection., Conclusion: These data clearly showed the valve to be safe and comparable to other similar valves in clinical use.

Published

1996

16. Prevention of calcification of tissue valves.

Author

Chanda J, Rao SB, Mohanty M, Lal AV, Muraleedharan CV, Bhuvaneshwar GS, and Valiathan MS

Subjects

Animals, Biomechanical Phenomena, Cattle, Chitin analogs & derivatives, Chitosan, Collagenases pharmacology, Glutaral, Pericardium, Rats, Rats, Wistar, Bioprosthesis, Calcinosis prevention & control, Heart Valve Prosthesis

Abstract

In this study an attempt was made to find an optimum method of chemical treatment to prevent the calcification of bioprosthetic heart valves. Bovine pericardium was washed in a 5% sodium chloride solution followed by trypsin (Tr) treatment and was kept in 0.1% glutaraldehyde (GA) with a gradual increase in concentration up to 0.25% GA and finally posttreated with a 4% chitosan (Ch) solution. Fresh, 0.2% GA, 0.625% GA, and sodium chloride-Tr-GA treated pericardial samples were taken for comparative study. Tensile testing showed comparable strength and elongation at the breaking point for all groups. The thermal shrinkage studies indicated merit of the proposed treatment (5% sodium chloride-trypsin-glutaraldehyde treated pericardia with chitosan and without chitosan posttreatment). Collagenase assay showed that all differently treated (GA) materials were equally resistant to collagenase. All samples were implanted subcutaneously in rats for 2, 4, 8, or 12 weeks for calcification study. Morphological and mineral analyses showed complete prevention of calcification in sodium chloride-trypsin-GA-chitosan treated pericardium (Ca was 1.1 +/- 0.27 mg/g, von Kossa 0) at the 12th week of implantation.

Published

1994

17. Use of glutaraldehyde-gentamicin-treated bovine pericardium as a wound dressing.

Author

Chanda J, Rao SB, Mohanty M, Muraleedharan CV, Arthur VL, Bhuvaneshwar GS, and Valiathan MS

Subjects

Animals, Cattle, Guinea Pigs, Wound Healing, Biological Dressings, Gentamicins therapeutic use, Glutaral therapeutic use, Pericardium

Abstract

Glutaraldehyde (GA)-pretreated gentamicin post-fixed bovine pericardium has been evaluated as a wound dressing in this study. Two excisions approximately 7 x 4 cm, each of full thickness skin, from the upper and lower parts down to, but not including, the panniculus carnosus were made from the back of the guinea pig. The skin excised from the upper part was placed on the wound bed of the lower part as an autograft, whereas the upper wound was closed using 5% sodium chloride-trypsin-0.1% GA-0.048% gentamicin-treated bovine pericardium and sutured for comparative study. The wounds were inspected every 3-6 d for infection and exudation. Histopathological studies were performed at weekly intervals in the post-operative period. At the fifth week, a very thin linear scar on the epidermal aspect without remarkable contracture was observed and histopathology showed the completion of epithelization across the wounds in all cases. This study demonstrates that GA-pretreated, gentamicin-post-fixed bovine pericardium may be used as an alternative biological dressing in the case of large wounds.

Published

1994

18. Infrared diameter gauge for in vitro mechanical testing of vascular grafts.

Author

How TV, Bhuvaneshwar GS, and Annis D

Subjects

Infrared Rays, Biomedical Engineering instrumentation, Blood Vessel Prosthesis

Abstract

A diameter gauge employing modulated infrared radiation has been developed for in vitro mechanical testing of small diameter vascular grafts. A linear range of greater than 6 mm has been achieved using a 100 mm2 photodiode. The device is immune to ambient illumination. Temperature stability has been greatly improved by using a simple closed-loop control circuit. The pressure-diameter relationship of a polyurethane artery graft, 4 mm internal diameter, has been determined under static and dynamic loading. The results show that the distensibility of the graft is relatively constant up to about 6 Hz but increases rapidly at frequencies greater than 10 Hz.

Published

1984

19. Development of textile fabrics for surgical application.

Author

Bhuvaneshwar GS, Venkatesan VS, Pattankar VL, Kartha CC, Lal VA, and Valiathan MS

Subjects

Animals, Dogs, Heart Atria surgery, Surgical Mesh adverse effects, Textiles, Wound Healing

Published

1981

20. Cardiac valvular prosthesis: an indigenous approach to development.

Author

Valiathan MS and Bhuvaneshwar GS

Subjects

Humans, In Vitro Techniques, India, Heart Valve Prosthesis

Published

1982

21. A preliminary report on the development of an arterial prosthesis.

Author

Bhuvaneshwar GS, Valiathan MS, Lal GA, and Kartha CC

Subjects

Animals, Aorta, Thoracic surgery, Polyethylene Terephthalates, Prosthesis Design, Swine, Blood Vessel Prosthesis

Published

1983