Red Blood Cell Adhesion Index in a Patient with Sickle Cell Disease Prior and Post Hematopoietic Stem Cell Transplant (HSCT)

Introduction: Sickle cell disease (SCD) is one of the most common inherited blood disorders and affects over 100,000 individuals in US only. SCD is caused by a single mutation in the β-globin gene that leads to the production of sickle hemoglobin (HbS). Red blood cells (RBCs) from patients with SCD are sticky, rigid, and prone to hemolysis, resulting in a wide range of acute and chronic complications, such as vaso-occlusive crises, acute chest syndrome, cerebrovascular disease, and multi-organ damage. Hematopoietic stem cell transplant (HSCT) is a curative therapy for SCD, that results in stabilization of organ function and gradual amelioration of cerebrovascular and pulmonary complications, as well vaso-occlusive crises. We report a clinically applicable microfluidic device (SCD Biochip) that enables quantitative evaluation of RBC adhesion to endothelium-associated protein-immobilized microchannels before and after HSCT. Methods: Venous blood samples were collected in EDTA tubes from a 40-year-old male patient with SCD at University Hospitals, Cleveland Medical Center. The sample was tested for abnormal RBCs adhesion with the SCD Biochip at multiple time points from 2016 to 2021. The transplant took place at University Hospitals and we collected the post-transplant blood at two, three and five months. The therapy regimen for the patient before the transplant consisted of transfusions and Hydroxyurea. Fabrication of the microfluidic channels consisted of a glass surface functionalized with Intercellular Adhesion Molecule 1 (ICAM-1) and Laminin (LN), a poly(methyl methacrylate) plastic top (encompassing inlets and outlets), and a sandwiched 50-μm-thick double-sided adhesive tape that defined the height and shape of the microchannels. The samples were injected into the ICAM-1 and LN-immobilized microchannels. An inverted microscope and microscopy camera were used to obtain high-resolution images of whole channel for processing (Adobe Photoshop, San Jose, CA) and quantification of adhered RBCs per unit area (32 mm 2). Adhesion index for ICAM-1 and LN was calculated as the square root of the number of adherent cells counted on the selected areas. Results: RBC adhesion to immobilized ICAM-1 and LN was analyzed under physiologic flow using a standardized microfluidic platform. Three data points were collected both before and after the HCST. The ICAM-1 RBCs adhesion index before and after HSCT is shown in Figure 1a. The LN RBCs adhesion index before and after HSCT is shown in Figure 1b, the green rectangle represents the normal range value for the HbAA controls as established in our previous studies (1,2). The patient had high adhesion indexes in both ICAM-1 and LN before HSCT, a decrease in adhesion indexes to the normal range was observed after HSCT. Conclusion: It has been observed that the adhesion index for ICAM-1 and LN were abnormal in the patient with SCD but they decreased to normal levels post-transplant. These results suggest that the SCD Biochip microfluidic devices could be an effective platform to estimate the RBC adhesion level and to validate the efficacy of HSCT in SCD population. References: 1. Kucukal et al. Blood Adv. 2020 4(15):3688-3698. 2. Kim et al., Microcirculation, 2017, 24, e12374. Figure 1 Figure 1. Disclosures Kucukal: BioChip Labs: Current Employment, Patents & Royalties. Nayak: BioChip Labs: Current Employment. Gurkan: Dx Now Inc.: Patents & Royalties; Hemex Health, Inc.: Current Employment, Patents & Royalties; Biochip Labs: Patents & Royalties; Xatek Inc.: Patents & Royalties.

Use of Red Blood Cell Phenotypes for Second Line Therapy Selection in Sickle Cell Disease

INTRODUCTION In sickle cell disease (SCD), abnormal red blood cells (RBCs) sickle upon deoxygenation due to polymerization of hemoglobin S (HbS). Sickle RBCs exhibit poor deformability and increased viscosity, density, and microvascular adhesion. These rheological properties can be measured using existing devices. An oxygen-gradient ektacytometer measures the deformability of sickle RBCs under normoxic (maximum elongation index, or EImax) and hypoxic conditions (minimum elongation index, or EImin), and the pO 2 level at which sickling beings (point of sickling, or PoS). Dense RBCs are measured using a commercially available hematology analyzer. The hematocrit-to-viscosity ratio (HVR), an oxygen delivery index, is calculated based on the viscosity as measured by a cone and plate viscometer. RBC adhesion in the microvasculature can be modeled using a laminin-lined microfluidics device. These rheological biomarkers correlate with clinical complications such as pain events and acute chest syndrome, and are modified by known, clinically effective therapies such as hydroxyurea (HU) and transfusion (TF). HU is the standard of care for most individuals with SCD and positively modifies EImin, EImax, PoS, HVR, adhesion, and %DRBC. Recently, new agents to treat SCD have emerged including voxelotor, crizanlizumab, and pyruvate kinase activators like etavopivat, which have more targeted effects. It is essential to pair the appropriate novel agent to the patient, addressing their most prominent RBC abnormality remaining after HU therapy. We hypothesize that there is significant variability of rheology biomarkers between individuals with SCD on standard of care therapy, and that the most severe aspects of their RBC pathophysiology can be identified and targeted by novel second line therapies for clinical optimization. METHODS We collected peripheral blood in EDTA under an IRB approved protocol from 312 pediatric patients with SCD ranging in age from 2 to 21 years, 70% on HU. Subjects on chronic TF therapy were excluded. We measured whole blood viscosity at 45s -1 shear and calculated the HVR. %DRBC and complete blood counts were obtained using an ADVIA hematology analyzer (Siemens) and EImin, EImax, and PoS obtained using oxygen gradient ektacytometry (Lorrca, RR Mechatronics). RBCs from 17 HbSS subjects were analyzed for adhesion index to a laminin-lined microfluidics device. Values were assembled for each biomarker into histograms to demonstrate distribution, and quartile ranked. Venn diagrams were constructed comparing overlap between top 25% most severe rheology biomarkers to demonstrate effectiveness of a targeted, precision medicine approach to adding second line therapies to individuals with SCD. RESULTS Distribution of biomarkers in a typical pediatric SCD population in a US academic center are shown in Figure 1. High PoS, adhesion index, %DRBC, and low EImin and EImax, low HVR, are associated with disease severity and clinical complications in SCD; biomarker values were stratified from high to low severity association. The most severe quartile subjects from each biomarker were compared, and percentage of overlap noted (Figure 2). CONCLUSION Our rheologic assessment of a large pediatric cohort heavily treated with HU indicates a broad distribution of RBC phenotypes. Even on HU, patients exhibited loss of deformability, sickling, adhesion, or RBC density abnormalities, with little overlap of unrelated biomarkers associated with disease severity in an individual, i.e. the individuals with very high PoS did not have low HVR (16% of highest severity quartile subjects in common), compared to related biomarkers PoS and EImin or EImax (48% of highest severity quartile subjects in common). Only four subjects, all on HU, were in the quartile associated with highest severity for all biomarkers. Given the lack of overlapping pathology between different red cell abnormalities, selection of the appropriate agent should be straightforward. With three new FDA approved therapies for SCD and novel therapies in clinical trials, it is possible to choose the appropriate second agent to be added to HU based on individual patient RBC phenotype according to the principles of precision medicine. Future goals include CLIA certification for novel devices like the oxygen gradient ektacytometer and adhesive microfluidics at major academic SCD centers and use of these biomarkers in routine patient care. Figure 1 Figure 1. Disclosures Rab: Agios Pharmaceuticals: Research Funding; Axcella Health: Research Funding. Lam: Sanguina, Inc.: Current holder of individual stocks in a privately-held company. Wijk: Agios Pharmaceuticals: Membership on an entity's Board of Directors or advisory committees, Research Funding; Axcella health: Research Funding; Global Blood Therapeutics: Membership on an entity's Board of Directors or advisory committees, Research Funding. Sheehan: Beam Therapeutics: Research Funding; Forma Therapeutics: Research Funding; Novartis: Research Funding.

Inhibitory Power of Papaya Leaves to the Adhesion of Streptococcus Mutans Bacteria to Neutrophils

Papaya leaves contain several active substances that are thought to inhibit bacterial adhesion. This study aims to determine the inhibitory power of papaya leaf extraction and papaya leaf infusion to the adhesion of Streptococcus mutans bacteria to neutrophils and differences in inhibition in various concentrations. The method used is an in vitro experimental laboratory with a post-test-only control group design. The sample consisted of several concentrations of papaya leaf extraction and papaya leaf infusion (control, 25%, 50%, 75%, and 100%). The treatment group was added with neutrophil isolates and incubated for 3 hours, then exposed to Streptococcus mutans for 2.5 hours. Knowing the adhesion index can be done by calculating the average number of Streptococcus mutans attached to 100 neutrophils. The results showed successively with rounding in control, 25%, 50%, 75%, 100% papaya leaf infusion, adhesion of 9237, 8929, 7436, 3870, 3162 bacteria to neutrophils occurred. The minimum concentration of 25% papaya leaf extraction and 50% papaya leaf infusion can inhibit the adhesion of Streptococcus mutans to neutrophils. There is a difference in the ability between papaya leaf extraction and papaya leaf infusion in inhibiting the adhesion of Streptococcus mutans to neutrophils as follows: papaya leaf extraction 25% to papaya leaf infusion 25% obtained sig value ≥0.001* with a mean square of -16.38, papaya leaf extraction 50% to Papaya leaf infusion 50% got a sig value of ≥0.001* with a mean square of -42.91, 75% papaya leaf extraction to 75% papaya leaf infusion got a sig value of ≥0.001* with a mean square of -28.85 and 100% papaya leaf extraction to 100% papaya leaf infusion obtained a sig value of ≥0.001* with a mean square of -26.11.

Biofilm Formation Capability of Clinical Helicobacter pylori Isolates on MKN-45 Cells

Background: In vitro biofilm formation of H. pylori is demonstrated; however, its potential role in the persistent infection of the human stomach has not yet been addressed. Objectives: The aim of this study was to assess the biofilm formation of clinical H. pylori isolates on an epithelial cell line, a line that produces mucin. Methods: H. pylori isolates consisting of an efficient (19B) and a weak (4B) biofilm formation ability, were selected from screening of the clinical isolates. Their adhesion index was determined after 2h incubation with the semi-confluent monolayers of MKN-45 cells. Their biofilm formation was evaluated after 24 and 72 h incubation with MKN-45 cells using a modified adherence assay developed in this work. Production of biofilm was quantitatively assessed by CFU enumeration and qualitatively by the immunofluorescence, and scanning-electron-microscopic (SEM) methods. Due to the importance of mucin in the binding of H. pylori and biofilm formation, the binding strength of the mucin binding protein, MUC5AC, and MUC1 with docking was investigated using cluspro webserver. Results: Using MKN-45 epithelial cell line as a model, significant differences were observed between the adhesion index of 19B and 4B isolates. After 24h, both isolates were able to form biofilms with significantly higher numbers of CFU for the 19B isolate. These results were confirmed by immunofluorescence and SEM such that after 24h, a cluster of coccoid bacteria on the MKN-45 cells in the form of microcolonies was observed. The docking results showed that MUC5AC demonstrated the most favorable interaction with H. pylori urease and BabA with docking energy scores of -931.1 and -906.3 kcal.mol-1, respectively. Conclusions: By developing an appropriate in situ biofilm assay, we investigated biofilm formation by clinical H. pylori isolates on the MKN-45 epithelial cell line. The establishment of such an in-situ model for studying the biofilm formation ability of clinical isolates can also be used to study cell-bacteria interactions in the context of a complex biofilm and also as a model for drug screening applications.

Effect of Propolis on the Adhesion Index, Morphology and Viability of Candida albicans Cells on Biofilm Formation

About 70-75% of reproductive women have experienced vulvovaginal candidiasis at least once and 40-45% will have recurrences. Candida albicans is the most etiology of vulvovaginal candidiasis and is able to form biofilm that can lead to antifungal resistances and recurrences. One of the natural products that have an antibiofilm effect is propolis. This study expected that propolis from Lawang can be the one of antibiofilm agent candidates to antifungi resistant cases. This study aimed to know the antibiofilm effect of propolis ethanol extract to cell adhesion index, morphology, and viability of Candida albicans cell on biofilm formation. The adhesion index was counted on 100 epithelial cells under light microscopy (1000x). Morphology was seen using light microscopy (400x). Cell viability was examined by CFU assay. At 12.5% concentration of propolis ethanol extract, adhesion index decreased (p=0,000) and hyphal growth was inhibited. Colony growth decreased at 2.5% concentration and was not seen at 10% concentration of propolis ethanol extract (p=0,000). This results indicated that propolis ethanol extract can decrease adhesion index, failed the Candida albicans morphology transition from yeast to hyphal, and decreased Candida albicans cell viability on biofilm formation. Propolis ethanol extract is likely to be one of alternatives to recurrent vulvovaginal candidiasis treatment, especially caused by Candida albicans biofilm formation.

Effect of Propolis on the Adhesion Index, Morphology and Viability of Candida albicans Cells on Biofilm Formation

About 70-75% of reproductive women have experienced vulvovaginal candidiasis at least once and 40-45% will have recurrences. Candida albicans is the most etiology of vulvovaginal candidiasis and is able to form biofilm that can lead to antifungal resistances and recurrences. One of the natural products that have an antibiofilm effect is propolis. This study expected that propolis from Lawang can be the one of antibiofilm agent candidates to antifungi resistant cases. This study aimed to know the antibiofilm effect of propolis ethanol extract to cell adhesion index, morphology, and viability of Candida albicans cell on biofilm formation. The adhesion index was counted on 100 epithelial cells under light microscopy (1000x). Morphology was seen using light microscopy (400x). Cell viability was examined by CFU assay. At 12.5% concentration of propolis ethanol extract, adhesion index decreased (p=0,000) and hyphal growth was inhibited. Colony growth decreased at 2.5% concentration and was not seen at 10% concentration of propolis ethanol extract (p=0,000). This results indicated that propolis ethanol extract can decrease adhesion index, failed the Candida albicans morphology transition from yeast to hyphal, and decreased Candida albicans cell viability on biofilm formation. Propolis ethanol extract is likely to be one of alternatives to recurrent vulvovaginal candidiasis treatment, especially caused by Candida albicans biofilm formation.

Influence of Removable Denture Cleaning Agents on Adhesion of Oral Pathogenic Microflora In Vitro: A Randomized Controlled Trial

Introduction: Removable dentures are used by 20% of the population. These may be accompanied by denture stomatitis in 15-70% of patients. The choice of the optimal cleansing agent for removable dental prostheses is of high significance. Aim: The aim of our research was to study the influence of removable denture cleansing products on the adhesion of microorganisms and yeast. Materials and Methods: We manufactured 144 specimens of standardized round shape with a diameter of 10 mm from 4 types of modern polymeric materials used by prosthetic dentistry to produce removable dentures, 12 specimens of each material were placed into suspensions of bacterial cultures of Staphylococcus aureus, Escherichia coli, Candida albicans, then into “ClearaSept” (Test group 1), “Рrotefix active cleanser” (Test group 2), saline solution (Control group), followed by nutrient media. The adhesion index was calculated and analyzed. Results: There was no reliable lowering of adhesion index of Staphylococcus Aureus to all materials detected in Test group 1 (U=6, p>0.05 for Bio XS; U=8, p>0.05 for Dental D, Denotokeep Peek, Vertex Rapid Simplified). In Test group 2, the adhesion index of Staphylococcus Aureus reliably decreased to all materials compared to the Control group (U=0, p≤0.01). The adhesion index of Candida albicans and Escherichia coli to all materials in Test group 1 had a minor to moderate reliable reduction compared to the Control group (U=0, p≤0.01). Test group 2 showed a significant reliable decrease in Candida albicans and Escherichia coli adhesion index to all materials in comparison with the Control group (U=0, p≤0.01). Conclusion: The research showed an unreliable or minor and moderate reliable decrease in microorganisms adhesion index depending on the microorganism species after treatment of denture material specimens by antibacterial soap “ClearaSept” and a reliable significant decrease in microbial and yeast adhesion after application of Protefix active cleaner solution, which demonstrates a more significant antimicrobial effect in comparison to “ClearaSept” against Staphylococcus aureus, Escherichia coli, and Candida albicans.

Determination of the Strength Characteristics of Bituminous-Mineral Mixtures

The paper presents the results of the development and testing of a laboratory method for determining the strength characteristics of bitumen-mineral mixtures on the Lintel PK-21-01 strength meter. The conditions for testing the strength of bitumen-mineral mixtures are selected. The dependence between the bitumen adhesion index and the compressive strength of samples of bitumen-mineral mixtures based on it, determined according to the developed method, is shown. A decrease in the strength and adhesive properties of the binder was found with an increase in the content of the DST-30-01 polymer in bitumen. It is proposed to evaluate the possibility of performing research for the development of new types of bitumen products, to develop various production technologies and to select the optimal parameters for its production on the basis of standardized methods of testing bitumen and the developed methodology for determining the strength characteristics of bitumen-mineral mixtures.

Study of the effect of chia seeds (Salvia Hispanica L.) on structural-mechanical characteristics of a cream-blown paste for candies

The influence of whole and crushed chia seeds on the characteristics of unstructured and structured cream-blown candy paste made with different gelling agents (agar, pectin and modified starch) was investigated. It was found that when adding an additive, the viscosity of unstructured candy pastes changes insignificantly. The adhesion of unstructured cream-blown candy pastes at the maximum dosage of chia seeds increases by 7.2... 8.5%, depending on the type used by the gelling agents. Modern equipment usually has an anti-adhesive coating. Therefore, a slight increase in the adhesion index will not affect the performance of the technological process. It is noted that the Introduction of chia seeds causes an increase in the density and strength of the structured candy pastes. According to the maximum investigated dosage of the additive, they do not meet the requirements of regulatory documents in terms of density and have unfavorable organoleptic characteristics. To ensure the high quality of cream-blown candy pastes, it is recommended to introduce whole chia seeds in an amount of 50% of the mass of dry egg albumin, and chopped seeds in an amount of 40% of the fat mass with a corresponding decrease in their prescription content.