Sukru Demir scite author profile

Background The aim of this study is to histologically and biomechanically investigate the effects of local PRP and ozone therapy (O2O3) on tendon-to-bone healing in a rabbit model of the supraspinatus tendon tear. Methods Four groups were formed to have seven rabbits in each group: repair, R; repair + PRP, RP; repair + ozone, RO; and repair + PRP + ozone, RPO. The supraspinatus tendon was detached by sharp dissection from the footprint and an acute tear pattern was created. Thereafter, tendon repair was performed with the transosseous technique. In the RP group, PRP, and in the RPO group, PRP + O2O3 mixture was injected to the tendon repair site. In the RO group, O2O3 gas mixture was injected into subacromial space three times a week for a total of 4 weeks. The study was ended at postoperative 6th week. Results When compared with the R group, a statistically significant increase was observed in the biomechanical strength of the RP and RPO groups. The highest increase in biomechanical strength was detected in the RPO group. The histology of the RO and RPO groups showed better collagen fiber continuity and orientation than the R and RP groups. Conclusions The results obtained from this study show that the ozonized PRP can be used as biological support to increase tendon-to-bone healing. However, these results need to be supported by clinical studies.

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Salter osteotomy without open reduction in the Tönnis type II developmental hip dysplasia: A retrospective clinical study

Gürger

Demir

Yılmaz³

et al. 2019

J Orthop Surg (Hong Kong)

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Purpose: We aimed to evaluate the clinical and radiological outcomes of children older than 18 months who were treated with Salter osteotomy without open reduction for Tönnis type II hip dysplasia. Methods: Thirty-two type II hips of 24 patients were included in the study. The mean age was 43.22 (18–108) months. The mean follow-up period was 50 (24–142) months. Seven patients had left sided, nine had right sided, and eight had bilateral developmental dysplasia of the hip. All patients underwent closed reduction and Salter osteotomy. Preoperative and postoperative radiographs were assessed by measuring the center-edge (CE) angle of Wiberg, Smith’s c/b and h/b ratio, and acetabular index (AI). Patients were evaluated clinically according to McKay’s criteria and radiologically according to Severin criteria. The Kalamchi and MacEwen criteria were used in the evaluation of avascular necrosis. Results: The mean preoperative AI, CE angle, c/b, and h/b ratio were 36.7° (±4.1), 7.2° (±5.9), 0.9 (±0.08), and 0.05 (±0.04), respectively. The mean latest follow-up AI, CE angle, c/b, and h/b ratio were 18.2° (±1.7), 38.8° (±5.4), 0.6 (±0.03), and 0.19 (±0.04), respectively. The comparison of preoperative and postoperative radiological values revealed statistically significant improvement (p < 0.01). On the latest physical examinations of the patients, 25 (78.1%) hips were rated excellent, and 7 (21.9%) were rated good according to the McKay criteria. The Severin classification determined 25 (78.1%) hips were grade I and 7 (21.9%) hips were grade II. Type I avascular necrosis (AVN) was seen in four (12.5%) hips. Three of these four hips were more superolateral in preoperative radiographs (c/b > 1 and h/b < 0.05). Conclusions: Salter osteotomy without open reduction is a good surgery option for Tönnis type II hip dysplasia, in which closed reduction can be performed. However, the risk of AVN should be kept in mind in more superolateral type 2 hips.

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Multiscale modeling of biomedical, biological, and behavioral systems (Part 1) [Introduction to the special issue

White

Peng

Demir

2009

IEEE Eng. Med. Biol. Mag.

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Mathematical and computational modeling provide a natural infrastructure for systematically bringing together the wealth of data and knowledge obtained from biological, physiological, and clinical research. Furthermore, the power of this infrastructure is the ability for the model to simulate pathophysiology and predict how, when, and in whom diseases will develop. Historically, the majority of models in biology and physiology are created to understand a particular process or phenomenon by putting together known biological constructs, using modeling to fill in the gaps of the unknown, creating new hypotheses, and redesigning the models based on experimental outcomes and measures. These models are often used to supplement research efforts focused on specific biological questions and domain areas to provide new insights in understanding data.

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ViVGG19: Novel exemplar deep feature extraction-based shoulder rotator cuff tear and biceps tendinosis detection using magnetic resonance images

Key

Demir²,

Gürger³

et al. 2022

Medical Engineering & Physics

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Sukru Demir

An exemplar pyramid feature extraction based humerus fracture classification method

The effect of the platelet-rich plasma and ozone therapy on tendon-to-bone healing in the rabbit rotator cuff repair model

Salter osteotomy without open reduction in the Tönnis type II developmental hip dysplasia: A retrospective clinical study

Multiscale modeling of biomedical, biological, and behavioral systems (Part 1) [Introduction to the special issue

ViVGG19: Novel exemplar deep feature extraction-based shoulder rotator cuff tear and biceps tendinosis detection using magnetic resonance images

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