Your search keyword '"Blomgran, Parmis"' showing total 32 results

1. Increased mast cell degranulation and co-localization of mast cells with the NMDA receptor-1 during healing after Achilles tendon rupture

Author

Alim, Md. Abdul, Ackermann, Paul W., Eliasson, Pernilla, Blomgran, Parmis, Kristiansson, Per, Pejler, Gunnar, and Peterson, Magnus

Published

2017

2. Correction to: Glutamate triggers the expression of functional ionotropic and metabotropic glutamate receptors in mast cells

Author

Alim, Md Abdul, Grujic, Mirjana, Ackermann, Paul W., Kristiansson, Per, Blomgran, Parmis, Eliasson, Pernilla, Peterson, Magnus, and Pejler, Gunnar

Published

2020

3. Metabolic adverse events associated with systemic corticosteroid therapy—a systematic review and meta-analysis

Author

Kulkarni, Spoorthy, primary, Durham, Hannah, additional, Glover, Luke, additional, Ather, Osaid, additional, Phillips, Veronica, additional, Nemes, Szilard, additional, Cousens, Leslie, additional, Blomgran, Parmis, additional, and Ambery, Philip, additional

Published

2022

4. Characterization of Selective and Potent JAK1 Inhibitors Intended for the Inhaled Treatment of Asthma

Author

Nilsson, Magnus, primary, Rhedin, Magdalena, additional, Hendrickx, Ramon, additional, Berglund, Susanne, additional, Piras, Antonio, additional, Blomgran, Parmis, additional, Cavallin, Anders, additional, Collins, Mia, additional, Dahl, Göran, additional, Dekkak, Bilel, additional, Ericsson, Therese, additional, Hagberg, Niklas, additional, Holmberg, Ann Aurell, additional, Leffler, Agnes, additional, Lundqvist, Anders J, additional, Markou, Thomais, additional, Pinkerton, James, additional, Rönnblom, Lars, additional, Siu, Stacey, additional, Taylor, Vanessa, additional, Wennberg, Tiiu, additional, Zervas, Dimitrios, additional, Laurence, Arian D J, additional, Mitra, Suman, additional, Belvisi, Maria G, additional, Birrell, Mark, additional, and Borde, Annika, additional

Published

2022

5. Characterization of Selective and Potent JAK1 Inhibitors Intended for the Inhaled Treatment of Asthma

Author

Nilsson, Magnus, Rhedin, Magdalena, Hendrickx, Ramon, Berglund, Susanne, Piras, Antonio, Blomgran, Parmis, Cavallin, Anders, Collins, Mia, Dahl, Goran, Dekkak, Bilel, Ericsson, Therese, Hagberg, Niklas, Holmberg, Ann Aurell, Leffler, Agnes, Lundqvist, Anders J., Markou, Thomais, Pinkerton, James, Rönnblom, Lars, Siu, Stacey, Taylor, Vanessa, Wennberg, Tiiu, Zervas, Dimitrios, Laurence, Arian D. J., Mitra, Suman, Belvisi, Maria G., Birrell, Mark, Borde, Annika, Nilsson, Magnus, Rhedin, Magdalena, Hendrickx, Ramon, Berglund, Susanne, Piras, Antonio, Blomgran, Parmis, Cavallin, Anders, Collins, Mia, Dahl, Goran, Dekkak, Bilel, Ericsson, Therese, Hagberg, Niklas, Holmberg, Ann Aurell, Leffler, Agnes, Lundqvist, Anders J., Markou, Thomais, Pinkerton, James, Rönnblom, Lars, Siu, Stacey, Taylor, Vanessa, Wennberg, Tiiu, Zervas, Dimitrios, Laurence, Arian D. J., Mitra, Suman, Belvisi, Maria G., Birrell, Mark, and Borde, Annika

Abstract

Purpose: Janus kinase 1 (JAK1) is implicated in multiple inflammatory pathways that are critical for the pathogenesis of asthma, including the interleukin (IL)-4, IL-5, IL-13, and thymic stromal lymphopoietin cytokine signaling pathways, which have previously been targeted to treat allergic asthma. Here, we describe the development of AZD0449 and AZD4604, two novel and highly selective JAK1 inhibitors with promising properties for inhalation. Methods: The effects of AZD0449 and AZD4604 in JAK1 signaling pathways were assessed by measuring phosphorylation of signal transducer and activator of transcription (STAT) proteins and chemokine release using immunoassays of whole blood from healthy human volunteers and rats. Pharmacokinetic studies performed on rats evaluated AZD0449 at a lung deposited dose of 52 mu g/kg and AZD4604 at 30 mu g/kg. The efficacy of AZD0449 and AZD4604 was assessed by evaluating lung inflammation (cell count and cytokine levels) and the late asthmatic response (average enhanced pause [Penh]). Results: Both compounds inhibited JAK1-dependent cytokine signaling pathways in a dose-dependent manner in human and rat leukocytes. After intratracheal administration in rats, both compounds exhibited low systemic exposures and medium-to-long terminal lung half-lives (AZD0449, 34 hours; AZD4604, 5 hours). Both compounds inhibited STAT3 and STAT5 phosphorylation in lung tissue from ovalbumin (OVA)-challenged rats. AZD0449 and AZD4604 also inhibited eosinophilia in the lung and reduced the late asthmatic response, measured as Penh in the OVA rat model. Conclusion: AZD0449 and AZD4604 show potential as inhibitors of signaling pathways involved in asthmatic immune responses, with target engagement demonstrated locally in the lung. These findings support the clinical development of AZD0449 and AZD4604 for the treatment of patients with asthma.

Published

2022

6. Characterization of Selective and Potent JAK1 Inhibitors Intended for the Inhaled Treatment of Asthma

Author

Nilsson,Magnus, Rhedin,Magdalena, Hendrickx,Ramon, Berglund,Susanne, Piras,Antonio, Blomgran,Parmis, Cavallin,Anders, Collins,Mia, Dahl,Göran, Dekkak,Bilel, Ericsson,Therese, Hagberg,Niklas, Holmberg,Ann Aurell, Leffler,Agnes, Lundqvist,Anders J, Markou,Thomais, Pinkerton,James, Rönnblom,Lars, Siu,Stacey, Taylor,Vanessa, Wennberg,Tiiu, Zervas,Dimitrios, Laurence,Arian D J, Mitra,Suman, Belvisi,Maria G, Birrell,Mark, Borde,Annika, Nilsson,Magnus, Rhedin,Magdalena, Hendrickx,Ramon, Berglund,Susanne, Piras,Antonio, Blomgran,Parmis, Cavallin,Anders, Collins,Mia, Dahl,Göran, Dekkak,Bilel, Ericsson,Therese, Hagberg,Niklas, Holmberg,Ann Aurell, Leffler,Agnes, Lundqvist,Anders J, Markou,Thomais, Pinkerton,James, Rönnblom,Lars, Siu,Stacey, Taylor,Vanessa, Wennberg,Tiiu, Zervas,Dimitrios, Laurence,Arian D J, Mitra,Suman, Belvisi,Maria G, Birrell,Mark, and Borde,Annika

Abstract

Magnus Nilsson,1 Magdalena Rhedin,2 Ramon Hendrickx,3 Susanne Berglund,1 Antonio Piras,2 Parmis Blomgran,2 Anders Cavallin,2 Mia Collins,2 Göran Dahl,4 Bilel Dekkak,5 Therese Ericsson,3 Niklas Hagberg,6 Ann Aurell Holmberg,3 Agnes Leffler,2 Anders J Lundqvist,3 Thomais Markou,5,7 James Pinkerton,5,7 Lars Rönnblom,6 Stacey Siu,8 Vanessa Taylor,8 Tiiu Wennberg,2 Dimitrios Zervas,5,7 Arian D J Laurence,9 Suman Mitra,2 Maria G Belvisi,5,7 Mark Birrell,5,7 Annika Borde2 1Medicinal Chemistry, Research and Early Development, Respiratory & Immunology, BioPharmaceuticals R&D, AstraZeneca, Gothenburg, Sweden; 2Bioscience, Research and Early Development, Respiratory & Immunology, BioPharmaceuticals R&D, AstraZeneca, Gothenburg, Sweden; 3DMPK, Research and Early Development, Respiratory & Immunology, BioPharmaceuticals R&D, AstraZeneca, Gothenburg, Sweden; 4Discovery Science, R&D, AstraZeneca, Gothenburg, Sweden; 5Respiratory Pharmacology Group, Division of Airway Disease, National Heart and Lung Institute, Imperial College London, London, UK; 6Rheumatology and Science for Life Laboratories, Department of Medical Sciences, Uppsala University, Uppsala, Sweden; 7Research and Early Development, Respiratory & Immunology, BioPharmaceuticals R&D, AstraZeneca, Gothenburg, Sweden; 8Rigel Pharmaceuticals, South San Francisco, CA, USA; 9Department of Haematology, University College London Hospitals NHS Foundation Trust, London, UKCorrespondence: Magnus Nilsson, Medicinal Chemistry, Research and Early Development, Respiratory & Immunology, BioPharmaceuticals R&D, AstraZeneca, Gothenburg, SE-431 83, Sweden, Tel +46722237222, Email Magnus.Nilsson@astrazeneca.comPurpose: Janus kinase 1 (JAK1) is implicated in multiple inflammatory pathways that are critical for the pathogenesis of asthma, including the interleukin (IL)-4, IL-5, IL-13, and thymic stromal lymphopoietin cytokine signaling pathways, which have previously been targeted to treat allerg

Published

2022

7. Role of Macrophages During early Achilles Tendon Healing

Author

Blomgran, Parmis, Hammerman, Malin, Blomgran, Robert, Aspenberg, Per, Blomgran, Parmis, Hammerman, Malin, Blomgran, Robert, and Aspenberg, Per

Abstract

Background. Macrophages are a heterogeneous cell population that plays an important role in the initiation of the inflammatory response to trauma as well as its resolution during healing. However, their role during Achilles tendon healing is unclear. The aim of this study was to investigate if macrophage reduction by using clodronate liposome inject ion would influence the mechanical properties of the healing tendon. Methods. The right Achilles tendon of 46 rats were transected and left to heal spontaneously (day 0). The reduction of macrophages during the inflammatory phase of tendon healing was studied by injecting clodronate liposomes day - 3, - 1 and 1. To study the early remodeling phase, clodronate was injected day 3, 5 and 7. The controls received saline and the rats were evaluated by mechanical testing day 7 and 12, respectively. Results. Clodronate injections during the inflammatory phase increased transverse area (p = 0.006) and stiffness (p = 0.044) day 7. In contrast, no significant effects were seen at day 12. Flow cytometry evaluation confirmed reduction of mature and polarized macrophages. Conclusions. Reduction of macrophages during the inflammatory phase of Achilles tendon healing influenced the mechanical properties, suggesting a regulatory role of macrophages during this phase., Funding Agencies|Swedish Research CouncilSwedish Research CouncilEuropean Commission

Published

2021

8. Diminishing effects of mechanical loading over time during rat Achilles tendon healing

Author

Khayyeri, Hanifeh, primary, Hammerman, Malin, additional, Turunen, Mikael J., additional, Blomgran, Parmis, additional, Notermans, Thomas, additional, Guizar-Sicairos, Manuel, additional, Eliasson, Pernilla, additional, Aspenberg, Per, additional, and Isaksson, Hanna, additional

Published

2020

9. Abstract P176: Metabolic Side Effects Of Systemic Corticosteroids - A Systematic Review

Author

Kulkarni, Spoorthy, primary, Durham, Hannah, additional, Glover, Luke, additional, Cousens, Leslie, additional, Blomgran, Parmis, additional, Ather, Osaid, additional, and Ambery, Philip, additional

Published

2020

10. Diminishing effects of mechanical loading over time during rat Achilles tendon healing

Author

Khayyeri, Hanifeh, Hammerman, Malin, Turunen, Mikael J., Blomgran, Parmis, Notermans, Thomas, Guizar-Sicairos, Manuel, Eliasson, Pernilla T., Aspenberg, Per, Isaksson, Hanna, Khayyeri, Hanifeh, Hammerman, Malin, Turunen, Mikael J., Blomgran, Parmis, Notermans, Thomas, Guizar-Sicairos, Manuel, Eliasson, Pernilla T., Aspenberg, Per, and Isaksson, Hanna

Abstract

Mechanical loading affects tendon healing and recovery. However, our understanding about how physical loading affects recovery of viscoelastic functions, collagen production and tissue organisation is limited. The objective of this study was to investigate how different magnitudes of loading affects biomechanical and collagen properties of healing Achilles tendons over time. Achilles tendon from female Sprague Dawley rats were cut transversely and divided into two groups; normal loading (control) and reduced loading by Botox (unloading). The rats were sacrificed at 1, 2- and 4-weeks post-injury and mechanical testing (creep test and load to failure), small angle x-ray scattering (SAXS) and histological analysis were performed. The effect of unloading was primarily seen at the early time points, with inferior mechanical and collagen properties (SAXS), and reduced histological maturation of the tissue in unloaded compared to loaded tendons. However, by 4 weeks no differences remained. SAXS and histology revealed heterogeneous tissue maturation with more mature tissue at the peripheral region compared to the center of the callus. Thus, mechanical loading advances Achilles tendon biomechanical and collagen properties earlier compared to unloaded tendons, and the spatial variation in tissue maturation and collagen organization across the callus suggests important regional (mechano-) biological activities that require more investigation., Funding Agencies|European Communitys Seventh Framework Program (FP7/2007-2013) [262348]; Marie Curie Intra-European Fellowship for Career DevelopmentEuropean Union (EU) [PIEF-GA-2012-626941]; Knut and Alice Wallenberg FoundationKnut & Alice Wallenberg Foundation [2017.0221]

Published

2020

11. Different mechanisms activated by mild versus strong loading in rat Achilles tendon healing

Author

Hammerman, Malin, Dietrich, Franciele, Blomgran, Parmis, Eliasson, Pernilla T., and Aspenberg, Per

Subjects

Fysiologi, Physiology, Immunology, Toxic Agents, Bacterial Toxins, lcsh:Medicine, Gene Expression, Botulinum Toxin, Pathology and Laboratory Medicine, Toxicology, Achilles Tendon, Blood Plasma, Rats, Sprague-Dawley, Tendons, Random Allocation, Signs and Symptoms, Tendon Injuries, Diagnostic Medicine, Elastic Modulus, Tissue Repair, Medicine and Health Sciences, Genetics, Animals, Toxins, lcsh:Science, Immune Response, Inflammation, Wound Healing, lcsh:R, Biology and Life Sciences, Cell Biology, Biomechanical Phenomena, Body Fluids, Extracellular Matrix, Disease Models, Animal, Biological Tissue, Blood, Gene Expression Regulation, Connective Tissue, lcsh:Q, Female, Anatomy, Cellular Structures and Organelles, Physiological Processes, Research Article

Abstract

Background Mechanical loading stimulates Achilles tendon healing. However, various degrees of loading appear to have different effects on the mechanical properties of the healing tendon, and strong loading might create microdamage in the tissue. This suggests that different mechanisms might be activated depending on the magnitude of loading. The aim of this study was to investigate these mechanisms further. Methods Female rats had their right Achilles tendon cut transversely and divided into three groups: 1) unloading (calf muscle paralysis by Botox injections, combined with joint fixation by a steel-orthosis), 2) mild loading (Botox only), 3) strong loading (free cage activity). Gene expression was analyzed by PCR, 5 days post-injury, and mechanical testing 8 days post-injury. The occurrence of microdamage was analyzed 3, 5, or 14 days post-injury, by measuring leakage of injected fluorescence-labelled albumin in the healing tendon tissue. Results Peak force, peak stress, and elastic modulus of the healing tendons gradually improved with increased loading as well as the expression of extracellular matrix genes. In contrast, only strong loading increased transverse area and affected inflammation genes. Strong loading led to higher fluorescence (as a sign of microdamage) compared to mild loading at 3 and 5 days post-injury, but not at 14 days. Discussion Our results show that strong loading improves both the quality and quantity of the healing tendon, while mild loading only improves the quality. Strong loading also induces microdamage and alters the inflammatory response. This suggests that mild loading exert its effect via mechanotransduction mechanisms, while strong loading exert its effect both via mechanotransduction and the creation of microdamage. Conclusion In conclusion, mild loading is enough to increase the quality of the healing tendon without inducing microdamage and alter the inflammation in the tissue. This supports the general conception that early mobilization of a ruptured tendon in patients is advantageous. Funding Agencies|Swedish Research Council; Swedish Research Council for Sports Science; Ostergotland County (ALF)

Published

2018

12. Systemic corticosteroids improve tendon healing when given after the early inflammatory phase

Author

Blomgran, Parmis, Hammerman, Malin, and Aspenberg, Per

Subjects

Wound Healing, CD8 Antigens, Injections, Subcutaneous, lcsh:R, Biomaterialvetenskap, Anti-Inflammatory Agents, lcsh:Medicine, CD8-Positive T-Lymphocytes, Achilles Tendon, Article, Dexamethasone, Drug Administration Schedule, Immunophenotyping, Rats, Rats, Sprague-Dawley, Tenotomy, Tendon Injuries, Elastic Modulus, Biomaterials Science, Animals, lcsh:Q, Female, lcsh:Science

Abstract

Inflammation initiates tendon healing and then normally resolves more or less completely. Unresolved inflammation might disturb the remodeling process. We hypothesized that suppression of inflammation during the early remodeling phase by systemic dexamethasone treatment can improve healing. 36 rats underwent Achilles tendon transection and were randomized to dexamethasone or saline on days 0-4 after surgery (early inflammatory phase), and euthanasia day 7. Another 54 rats received injections days 5-9 (early remodeling phase) and were euthanized day 12 for mechanical, histological and flow cytometric evaluation. Dexamethasone treatment days 0-4 reduced the cross-sectional area, peak force and stiffness by day 7 to less than half (p amp;lt; 0.001 for all), while material properties (peak stress and elastic modulus) were not significantly affected. In contrast, dexamethasone treatment days 5-9 increased peak force by 39% (p = 0.002) and stiffness by 58% (p amp;lt; 0.001). The cross-sectional area was reduced by 42% (p amp;lt; 0.001). Peak stress and elastic modulus were more than doubled (p amp;lt; 0.001 for both). Semi-quantitative histology at day 12 showed that late dexamethasone treatment improved collagen alignment, and flow cytometry revealed reduced numbers of CD8a(+) cytotoxic T cells in the tendon callus. These results suggest that downregulation of lingering inflammation during the early remodeling phase can improve healing. Funding Agencies|Swedish Research Council [K2013-52X-02031-47-5]; Swedish National Centre for Research in Sports; Ostergotland county (ALF)

Published

2017

13. Stimulation of Tendon Healing With Delayed Dexamethasone Treatment Is Modified by the Microbiome

Author

Dietrich-Zagonel, Franciele, primary, Hammerman, Malin, additional, Tätting, Love, additional, Dietrich, Fabrícia, additional, Kozak Ljunggren, Monika, additional, Blomgran, Parmis, additional, Eliasson, Pernilla, additional, and Aspenberg, Per, additional

Published

2018

14. Different mechanisms activated by mild versus strong loading in rat Achilles tendon healing

Author

Hammerman, Malin, primary, Dietrich-Zagonel, Franciele, additional, Blomgran, Parmis, additional, Eliasson, Pernilla, additional, and Aspenberg, Per, additional

Published

2018

15. Stimulation of Tendon Healing With Delayed Dexamethasone Treatment Is Modified by the Microbiome

Author

Dietrich-Zagonel, Franciele, Hammerman, Malin, Tätting, Love, Dietrich, Fabricia, Kozak Ljunggren, Monika, Blomgran, Parmis, Eliasson, Pernilla T., Aspenberg, Per, Dietrich-Zagonel, Franciele, Hammerman, Malin, Tätting, Love, Dietrich, Fabricia, Kozak Ljunggren, Monika, Blomgran, Parmis, Eliasson, Pernilla T., and Aspenberg, Per

Abstract

Background: The immune system reflects the microbiome (microbiota). Modulation of the immune system during early tendon remodeling by dexamethasone treatment can improve rat Achilles tendon healing. The authors tested whether changes in the microbiota could influence the effect of dexamethasone treatment. Hypothesis: A change in microbiome would influence the response to dexamethasone on regenerate remodeling, specifically tendon material properties (peak stress). Study Design: Controlled laboratory study. Methods: Specific opportunist and pathogen-free female rats were housed separately (n = 41) or together with specific pathogen-free rats carrying opportunistic microbes such as Staphylococcus aureus (n = 41). After 6 weeks, all co-housed rats appeared healthy but now carried S aureus. Changes in the gut bacterial flora were tested by API and RapID biochemical tests. All rats (clean and contaminated) underwent Achilles tendon transection under aseptic conditions. Flow cytometry was performed 8 days postoperatively on tendon tissue. Sixty rats received subcutaneous dexamethasone or saline injections on days 5 through 9 after transection. The tendons were tested mechanically on day 12. The predetermined primary outcome was the interaction between contamination and dexamethasone regarding peak stress, tested by 2-way analysis of variance. Results: Dexamethasone increased peak stress in all groups but more in contaminated rats (105%) than in clean rats (53%) (interaction, P = .018). A similar interaction was found for an estimate of elastic modulus (P = .021). Furthermore, dexamethasone treatment reduced transverse area but had small effects on peak force and stiffness. In rats treated with saline only, contamination reduced peak stress by 16% (P = .04) and elastic modulus by 35% (P = .004). Contamination led to changes in the gut bacterial flora and higher levels of T cells (CD3+CD4+) in the healing tendon (P < .05). Conclusion: Chan, Funding Agencies|Swedish Research Council [VR 02031-47-5]; Swedish National Centre for Research in Sports, Linkoping University; Ostergotland County Council

Published

2018

16. Correction: Effect of platelet-rich plasma on rat Achilles tendon healing is related to microbiota (vol 15, pg 1, 2017)

Author

Dietrich, Franciele, Hammerman, Malin, Blomgran, Parmis, Tätting, Love, Faccin Bampi, Vinicius, Braga Silva, Jefferson, and Aspenberg, Per

Subjects

Klinisk medicin, Clinical Medicine

Abstract

n/a

Published

2017

17. Achilles tendon compositional and structural properties are altered after unloading by botox

Author

Khayyeri, Hanifeh, primary, Blomgran, Parmis, additional, Hammerman, Malin, additional, Turunen, Mikael J., additional, Löwgren, Annika, additional, Guizar-Sicairos, Manuel, additional, Aspenberg, Per, additional, and Isaksson, Hanna, additional

Published

2017

18. Effect of platelet-rich plasma on rat Achilles tendon healing is related to microbiota

Author

Dietrich, Franciele, primary, Hammerman, Malin, additional, Blomgran, Parmis, additional, Tätting, Love, additional, Bampi, Vinicius Faccin, additional, Silva, Jefferson Braga, additional, and Aspenberg, Per, additional

Published

2017

19. Increased mast cell degranulation and co-localization of mast cells with the NMDA receptor-1 during healing after Achilles tendon rupture

Author

Alim, Md Abdul, Ackermann, Paul W, Eliasson, Pernilla, Blomgran, Parmis, Kristiansson, Per, Pejler, Gunnar, Peterson, Magnus, Alim, Md Abdul, Ackermann, Paul W, Eliasson, Pernilla, Blomgran, Parmis, Kristiansson, Per, Pejler, Gunnar, and Peterson, Magnus

Abstract

The role of inflammation and the mechanism of tendon healing after rupture has historically been a matter of controversy. The purpose of the present study is to investigate the role of mast cells and their relation to the NMDA receptor-1 (a glutamate receptor) during healing after Achilles tendon rupture. Eight female Sprague Dawley rats had their right Achilles tendon transected. Three weeks after rupture, histological quantification of mast cell numbers and their state of degranulation was assessed by histochemistry. Co-localization of mast cell tryptase (a mast cell marker) and NMDA receptor-1 was determined by immunofluorescence. The intact left Achilles tendon was used as control. An increased number of mast cells and a higher proportion of degranulated mast cells were found in the healing Achilles tendon compared to the intact. In addition, increased co-localization of mast cell tryptase and NMDA receptor-1 was seen in the areas of myotendinous junction, mid-tendon proper and bone tendon junction of the healing versus the intact tendon. These findings introduce a possible role for mast cells in the healing phase after Achilles tendon rupture.

Published

2017

20. Inflammation and tendon healing

Author

Blomgran, Parmis and Blomgran, Parmis

Abstract

Tendons heal through three different overlapping phases; the inflammatory, proliferative and remodeling phase. Many studies have investigated what factors influence healing of tendons. However, little was known about inflammation and the immune cells present during Achilles tendon healing by the time this thesis started. We developed a flow cytometry method for our rat model of tendon healing, which enabled us to study different leukocyte subpopulations during Achilles tendon healing. The general aim of this thesis was to understand more about inflammation and the immune cell populations present during tendon healing and how the immune cell composition changes during normal tendon healing. Moreover, we investigated how different factors that are known to influence tendon healing affected the composition of the immune cell population. First, we described the immune cells during the time course of tendon healing focusing on different subpopulations of macrophages and T cells. Then, we studied how these cells were influenced by reduced mechanical loading. Mechanical loading prolonged the presence of M1 macrophages and delayed the switch to regulatory T cells and M2 macrophages compared to reduced mechanical loading. Next, the effect of nonsteroidal anti-inflammatory drugs (NSAIDs) on the leukocyte composition revealed that, even though NSAIDs influence the mechanical properties of healing tendon, this effect was not mediated via changes in the leukocyte sub-populations during early and mid-time tendon healing. Further, the effect of corticosteroids during the inflammatory and remodeling phases of tendon healing was an improved healing of tendons and a reduction of CD8a T cells when corticosteroid was administered after the inflammatory phase. Lastly, we investigated if impairment of tendon healing by NSAIDs was related to mechanotransduction or microdamage during mechanical loading and showed that NSAIDs impair tendon healing by reducing the response to microdamage. In

Published

2017

21. Cox-2 inhibition and the composition of inflammatory cell populations during early and mid-time tendon healing

Author

Blomgran, Parmis, Blomgran, Robert, Ernerudh, Jan, Aspenberg, Per, Blomgran, Parmis, Blomgran, Robert, Ernerudh, Jan, and Aspenberg, Per

Abstract

Background: During early tendon healing, the cells within the regenerating tissue are, to a large part, inflammatory leukocytes (CD45+). In a rat Achilles tendon healing model, the inflammation resolves between 5 and 10 days. In the same model, Cox inhibitors (NSAIDs) impair healing when given during the first 5 days, but have a positive effect if given later. We tested the hypothesis that a Cox inhibitor would exert these effects by influencing inflammation, and thereby the composition of the inflammatory cell subpopulations.Methods: Achilles tendon transection was performed in 44 animals. Animals were randomized to either parecoxib or saline injections. Healing was evaluated by mechanical testing day 7 after surgery and by flow cytometry day 3 and 10.Results: Cross-sectional area, peak force and stiffness were reduced by parecoxib 31, 33, and 25% respectively (p=0.005, p=0.002, and p=0.005). By flow cytometry, there was a strong effect of time (p<0.001) on virtually all inflammatory cell subpopulations (CD45, CD11b, CD68, CCR7, CD163, CD206, CD3, CD4), but no significant effect of parecoxib at any time point.Conclusion: The results suggest that the negative effects of Cox inhibitors on tendon healing might be exerted mainly via mechanisms not directly related to inflammatory cells.

Published

2017

22. Different gene response to mechanical loading during early and late phases of rat Achilles tendon healing

Author

Hammerman, Malin, Blomgran, Parmis, Dansac, Arie, Eliasson, Pernilla T., Aspenberg, Per, Hammerman, Malin, Blomgran, Parmis, Dansac, Arie, Eliasson, Pernilla T., and Aspenberg, Per

Abstract

Mechanical loading stimulates tendon healing both when applied in the inflammatory phase and in the early remodeling phase of the process, although not necessarily via the same mechanisms. We investigated the gene response to mechanical loading in these two phases of tendon healing. The right Achilles tendon in rats was transected, and the hindlimbs were unloaded by tail suspension. The rats were exposed to 5 min of treadmill running 3 or 14 days after tendon transection. Thereafter, they were resuspended for 15 min or 3 h until euthanasia. The controls were suspended continuously. Gene analysis was first performed by microarray analysis followed by quantitative RTPCR on selected genes, focusing on inflammation. Fifteen minutes after loading, the most important genes seemed to be the transcription factors EGR1 and C-FOS, regardless of healing phase. These transcription factors might promote tendon cell proliferation and differentiation, stimulate collagen production, and regulate inflammation. Three hours after loading on day 3, inflammation was strongly affected. Seven inflammation-related genes were upregulated according to PCR: CCL20, CCL7, IL-6, NFIL3, PTX3, SOCS1, and TLR2. These genes can be connected to macrophages, T cells, and recruitment of leukocytes. According to Ingenuity Pathway Analysis, the recruitment of leukocytes was increased by loading on day 3, which also was confirmed by histology. This inflammation-related gene response was not seen on day 14. Our results suggest that the immediate gene response after mechanical loading is similar in the early and late phases of healing but the late gene response is different. NEW amp; NOTEWORTHY This study investigates the direct effect of mechanical loading on gene expression during different healing phases in tendon healing. One isolated episode of mechanical loading was studied in otherwise unloaded healing tendons. This enabled us to study a time sequence, i.e., which genes were the first ones to be regu, Funding Agencies|Swedish Research Council [K2013-52X-02031-47-5]; Swedish National Centre for Research in Sports

Published

2017

23. Achilles tendon compositional and structural properties are altered after unloading by botox

Author

Khayyeri, Hanifeh, Blomgran, Parmis, Hammerman, Malin, Turunen, Mikael J., Lowgren, Annika, Guizar-Sicairos, Manuel, Aspenberg, Per, Isaksson, Hanna, Khayyeri, Hanifeh, Blomgran, Parmis, Hammerman, Malin, Turunen, Mikael J., Lowgren, Annika, Guizar-Sicairos, Manuel, Aspenberg, Per, and Isaksson, Hanna

Abstract

Tendon function and homeostasis rely on external loading. This study investigates the biological mechanisms behind tendon biomechanical function and how the mechanical performance is affected by reduced daily loading. The Achilles tendons of 16 weeks old female Sprague Dawley rats (n = 40) were unloaded for 5 weeks by inducing muscle paralysis with botulinum toxin injections in the right gastrocnemius and soleus muscles. The contralateral side was used as control. After harvest, the tendons underwent biomechanical testing to assess viscoelasticity (n = 30 rats) and small angle X-ray scattering to determine the structural properties of the collagen fibrils (n = 10 rats). Fourier transform infrared spectroscopy and histological staining (n = 10 rats) were performed to investigate the collagen and proteoglycan content. The results show that the stiffness increased in unloaded tendons, together with an increased collagen content. Creep and axial alignment of the collagen fibers were reduced. Stress-relaxation increased whereas hysteresis was reduced in response to unloading with botox treatment. Our findings indicate that altered matrix deposition relies on mechanical loading to reorganize the newly formed tissue, without which the viscoelastic behavior is impaired. The results demonstrate that reduced daily loading deprives tendons of their viscoelastic properties, which could increase the risk of injury., Funding Agencies|European Communitys Seventh Framework Programme (FP7) [262348]; Marie Curie Intra-European Fellowship for Career Development [PIEF-GA-2012-626941]; Academy of Finland [286091]

Published

2017

24. Effect of platelet-rich plasma on rat Achilles tendon healing is related to microbiota

Author

Dietrich, Franciele, Hammerman, Malin, Blomgran, Parmis, Tätting, Love, Faccin Bampi, Vinicius, Braga Silva, Jefferson, Aspenberg, Per, Dietrich, Franciele, Hammerman, Malin, Blomgran, Parmis, Tätting, Love, Faccin Bampi, Vinicius, Braga Silva, Jefferson, and Aspenberg, Per

Abstract

Background and purpose - In 3 papers in Acta Orthopaedica 10 years ago, we described that platelet-rich plasma (PRP) improves tendon healing in a rat Achilles transection model. Later, we found that microtrauma has similar effects, probably acting via inflammation. This raised the suspicion that the effect ascribed to growth factors within PRP could instead be due to unspecific influences on inflammation. While testing this hypothesis, we noted that the effect seemed to be related to the microbiota. Material and methods - We tried to reproduce our old findings with local injection of PRP 6h after tendon transection, followed by mechanical testing after 11 days. This failed. After fruitless variations in PRP production protocols, leukocyte concentration, and physical activity, we finally tried rats carrying potentially pathogenic bacteria. In all, 242 rats were used. Results - In 4 consecutive experiments on pathogen-free rats, no effect of PRP on healing was found. In contrast, apparently healthy rats carrying Staphylococcus aureus showed increased strength of the healing tendon after PRP treatment. These rats had higher levels of cytotoxic T-cells in their spleens. Interpretation - The failure to reproduce older experiments in clean rats was striking, and the difference in response between these and Staphylococcus-carrying rats suggests that the PRP effect is dependent on the immune status. PRP functions may be more complex than just the release of growth factors. Extrapolation from our previous findings with PRP to the situation in humans therefore becomes even more uncertain.1, Funding Agencies|CAPES-the Brazilian Federal Agency for Support and Evaluation of Graduate Education within the Ministry of Education of Brazil, at Linkoping University

Published

2017

25. Cox-2 inhibition and the composition of inflammatory cell populations during early and mid-time tendon healing

Author

Blomgran, Parmis, primary

Published

2017

26. A possible link between loading, inflammation and healing: Immune cell populations during tendon healing in the rat

Author

Blomgran, Parmis, Blomgran, Robert, Ernerudh, Jan, Aspenberg, Per, Blomgran, Parmis, Blomgran, Robert, Ernerudh, Jan, and Aspenberg, Per

Abstract

Loading influences tendon healing, and so does inflammation. We hypothesized that the two are connected. 48 rats underwent Achilles tendon transection. Half of the rats received Botox injections into calf muscles to reduce mechanical loading. Cells from the regenerating tissue were analyzed by flow cytometry. In the loaded group, the regenerating tissue contained 83% leukocytes (CD45(+)) day 1, and 23% day 10. The M1/M2 macrophage ratio (CCR7/CD206) peaked at day 3, while T helper (CD3(+)CD4(+)) and T-reg cells (CD25(+) Foxp3(+)) increased over time. With Botox, markers associated with down-regulation of inflammation were more common day 5 (CD163, CD206, CD25, Foxp3), and M1 or M2 macrophages and T-reg cells were virtually absent day 10, while still present with full loading. The primary variable, CCR7/CD206 ratio day 5, was higher with full loading (p = 0.001) and the T-reg cell fraction was lower (p amp;lt; 0.001). Free cage activity loading is known to increase size and strength of the tendon in this model compared to Botox. Loading now appeared to delay the switch to an M2 type of inflammation with more T-reg cells. It seems a prolonged M1 phase due to loading might make the tendon regenerate bigger., Funding Agencies|Swedish Research Council [K2013-52X-02031-47-5]; Swedish National Centre for Research in Sports; King Gustaf V and Queen Victoria Free Mason Foundation

Published

2016

27. A possible link between loading, inflammation and healing: Immune cell populations during tendon healing in the rat

Author

Blomgran, Parmis, primary, Blomgran, Robert, additional, Ernerudh, Jan, additional, and Aspenberg, Per, additional

Published

2016

28. COX-2 inhibition impairs mechanical stimulation of early tendon healing in rats by reducing the response to microdamage

Author

Hammerman, Malin, Blomgran, Parmis, Ramstedt, Sandra, Aspenberg, Per, Hammerman, Malin, Blomgran, Parmis, Ramstedt, Sandra, and Aspenberg, Per

Abstract

Early tendon healing can be stimulated by mechanical loading and inhibited by cyclooxygenase (COX) inhibitors (nonsteroidal anti-inflammatory drugs). Therefore, we investigated if impairment of tendon healing by a COX-2 inhibitor (parecoxib) is related to loading. Because loading might infer microdamage, which also stimulates healing, we also investigated if this effect is inhibited by parecoxib. The Achilles tendon was transected in 114 rats. Three degrees of loading were used: full loading, partial unloading, and unloading (no unloading, Botox injections in the plantar flexor muscles, or Botox in combination with tail suspension). For each loading condition, the rats received either parecoxib or saline. In a second experiment, rats were unloaded with Botox, and the tendon was subjected to microdamage by needling combined with either saline or parecoxib. Mechanical testing day 7 showed that there was a significant interaction between loading and parecoxib for peak force at failure (P less than 0.01). However, logarithmic values showed no significant interaction, meaning that we could not exclude that the inhibitory effect of parecoxib was proportionate to the degree of loading. Microbleeding was common in the healing tissue, suggesting that loading caused microdamage. Needling increased peak force at failure (P less than 0.01), and this effect of microdamage was almost abolished by parecoxib (P less than 0.01). Taken together, this suggests that COX-2 inhibition impairs the positive effects of mechanical loading during tendon healing, mainly by reducing the response to microdamage., Funding Agencies|Swedish Research Council [K2013-52X-02031-47-5]; Swedish National Centre for Research in Sports; King Gustaf V and Queen Victoria Free Mason Foundation

Published

2015

29. COX-2 inhibition impairs mechanical stimulation of early tendon healing in rats by reducing the response to microdamage

Author

Hammerman, Malin, primary, Blomgran, Parmis, additional, Ramstedt, Sandra, additional, and Aspenberg, Per, additional

Published

2015

30. Inflammation and tendon healing

Author

Blomgran, Parmis, primary

31. Correction: Glutamate triggers the expression of functional ionotropic and metabotropic glutamate receptors in mast cells (vol 74, pg 613, 2020)

Author

Alim, Md Abdul, Grujic, Mirjana, Ackermann, Paul W., Kristiansson, Per, Blomgran, Parmis, Eliasson, Pernilla T., Peterson, Magnus, Pejler, Gunnar, Alim, Md Abdul, Grujic, Mirjana, Ackermann, Paul W., Kristiansson, Per, Blomgran, Parmis, Eliasson, Pernilla T., Peterson, Magnus, and Pejler, Gunnar

Abstract

An amendment to this paper has been published and can be accessed via a link at the top of the paper.

32. Different gene response to mechanical loading during early and late phases of rat Achilles tendon healing.

Author

Hammerman M, Blomgran P, Dansac A, Eliasson P, and Aspenberg P

Subjects

Animals, Early Growth Response Protein 1 metabolism, Female, Gene Expression Regulation, Hindlimb Suspension, Inflammation genetics, Proto-Oncogene Proteins c-fos metabolism, Rats, Sprague-Dawley, Running, Tendon Injuries genetics, Achilles Tendon metabolism, Inflammation metabolism, Physical Conditioning, Animal, Tendon Injuries metabolism, Wound Healing

Abstract

Mechanical loading stimulates tendon healing both when applied in the inflammatory phase and in the early remodeling phase of the process, although not necessarily via the same mechanisms. We investigated the gene response to mechanical loading in these two phases of tendon healing. The right Achilles tendon in rats was transected, and the hindlimbs were unloaded by tail suspension. The rats were exposed to 5 min of treadmill running 3 or 14 days after tendon transection. Thereafter, they were resuspended for 15 min or 3 h until euthanasia. The controls were suspended continuously. Gene analysis was first performed by microarray analysis followed by quantitative RT-PCR on selected genes, focusing on inflammation. Fifteen minutes after loading, the most important genes seemed to be the transcription factors EGR1 and C-FOS, regardless of healing phase. These transcription factors might promote tendon cell proliferation and differentiation, stimulate collagen production, and regulate inflammation. Three hours after loading on day 3 , inflammation was strongly affected. Seven inflammation-related genes were upregulated according to PCR: CCL20, CCL7, IL-6, NFIL3, PTX3, SOCS1, and TLR2. These genes can be connected to macrophages, T cells, and recruitment of leukocytes. According to Ingenuity Pathway Analysis, the recruitment of leukocytes was increased by loading on day 3 , which also was confirmed by histology. This inflammation-related gene response was not seen on day 14 Our results suggest that the immediate gene response after mechanical loading is similar in the early and late phases of healing but the late gene response is different. NEW & NOTEWORTHY This study investigates the direct effect of mechanical loading on gene expression during different healing phases in tendon healing. One isolated episode of mechanical loading was studied in otherwise unloaded healing tendons. This enabled us to study a time sequence, i.e., which genes were the first ones to be regulated after the loading episode., (Copyright © 2017 the American Physiological Society.)

Published

2017