Browsing by Author "Nair, D"

Now showing 1 - 3 of 3
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    Morbidity predictors in ischemic stroke
    (NEUROLOGY INDIA, 2003) Panicker, JN; Thomas, M; Pavithran, K; Nair, D; Sarma, PS
    Background: Although ischemic CVA is one of the leading causes for death and disability, parameters for predicting long-term outcome in such patients have not been clearly delineated, especially in the Indian context. Methods: A prospective hospital-based study of 105 patients of ischemic stroke, focal neurological deficits and functional score was assessed and the C-reactive protein level (CRP) was measured. A follow-up was done at 5 days and at 6 months and outcome variable was the functional status at 6 months using Barthel Index of Activities of Daily Living. Accordingly, patients were grouped into 3 - Barthel Index < 41: Severely disabled, Barthel Index 41-60: Moderately disabled and Barthel Index > 60: Mildly disabled. Results: At admission, if upper limb power was less than Medical Research Council (MRC) grade 4, or aphasia was present or CRP assay was positive, then at 6 months, these patients most likely belonged to the severely disabled group. If upper limb or lower limb power was greater than MRC grade 3 or there was no aphasia or conjugate gaze deviation or CRP assay was negative, these patients most likely belonged to the mildly disabled group at 6 months. Follow-up rate was 86%. Conclusion: Patients can be stratified according to the predicted prognosis. The treatment and rehabilitation can be properly planned and strictly adhered to in patients predicted to have worse prognosis.
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    Pathological effects of processed bovine pericardial scaffolds- A comparative in vivo evaluation
    (Artificial Organs, 2016-08) Thampi, P; Nair, D; Lalithakunjamma, R; Vijayan, N; Venugopal, S; Ramachandra, U
    The objective of the present study was to assess the biocompatibility and regenerative potential of decellularized bovine pericardial scaffold in comparison with glutaraldehyde-treated and fresh bovine pericardial implants using short-term intramuscular implantation testing in a rat model. The inflammatory and immune responses were assessed using histopathological examination, special stains for connective tissue, histomorphometric evaluation, and immunohistochemistry. The decellularized pericardium showed an active tissue remodeling response with complete cellular invasion, minimum connective tissue encapsulation, extensive fibrovascular tissue formation, and collagen deposition. On the contrary, the glutaraldehyde-treated pericardial implants showed incomplete degradation and cellular invasion, while the fresh pericardial implants elicited a severe foreign body reaction. The results of immunohistochemical staining revealed a minimum T helper (CD4+) lymphocyte response in decellularized pericardial implants compared with its glutaraldehyde-treated and fresh counterparts. The decellularized bovine pericardium was better accepted as a prosthetic scaffold, which permitted maximum collagen deposition and active tissue remodeling by invading host cells and showed good tissue integration in vivo compared with glutaraldehyde-treated and fresh/untreated pericardium.
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    Pathological Effects of Processed Bovine Pericardial ScaffoldsA Comparative In Vivo Evaluation
    (ARTIFICIAL ORGANS, 2013) Thampi, P; Nair, D; Lalithakunjamma, R; Vijayan, N; Venugopal, S; Ramachandra, U
    The objective of the present study was to assess the biocompatibility and regenerative potential of decellularized bovine pericardial scaffold in comparison with glutaraldehyde-treated and fresh bovine pericardial implants using short-term intramuscular implantation testing in a rat model. The inflammatory and immune responses were assessed using histopathological examination, special stains for connective tissue, histomorphometric evaluation, and immunohistochemistry. The decellularized pericardium showed an active tissue remodeling response with complete cellular invasion, minimum connective tissue encapsulation, extensive fibrovascular tissue formation, and collagen deposition. On the contrary, the glutaraldehyde-treated pericardial implants showed incomplete degradation and cellular invasion, while the fresh pericardial implants elicited a severe foreign body reaction. The results of immunohistochemical staining revealed a minimum T helper (CD4+) lymphocyte response in decellularized pericardial implants compared with its glutaraldehyde-treated and fresh counterparts. The decellularized bovine pericardium was better accepted as a prosthetic scaffold, which permitted maximum collagen deposition and active tissue remodeling by invading host cells and showed good tissue integration in vivo compared with glutaraldehyde-treated and fresh/untreated pericardium.