Determination of PFAS compounds in human serum using laminar flow tandem mass spectrometry

Haynes, Halia Heather

02 February 2023

Per- and polyfluoroalkyl substances (PFAS) encompass a large group of manufactured compounds that have been used in various production processes such as food packaging, commercial products, workplaces, homes, water supplies, and food. PFAS are persistent, resistant to degradation, and can bioaccumulate. Although an exposure limit that predicts adverse health effects has yet to be determined, the Center for Disease Control and Prevention’s 2015-16 health survey found average blood levels of 4.72 ng/ml for PFOS and 1.56 ng/ml for PFOA. The objective of this research was to evaluate the use of laminar flow tandem mass spectrometry following solid phase extraction (SPE) using weak anion exchange (WAX) properties on the detection and quantitation of PFAS compounds. Seven-point calibration standards applied to this research were prepared using certified reference materials (Wellington Laboratories, Ontario, CA), and calibrators were run without sample extraction. The concentrations varied slightly based on the PFAS analyte of interest. All samples and quality controls were prepared by spiking certified reference material (Wellington Laboratories) into pooled human serum (BioIVT, Westbury, NY, USA). A laminar flow QSight®220 ultra-high pressure liquid chromatography-tandem mass spectrometer (LC-MS/MS, PerkinElmer, Waltham, MA, USA) was equipped with a Selectra C18 100 x 2.1mm x 3μm (UCT, Bristol, PA, USA) column with a Brownlee C18 delay column (PerkinElmer) and followed the LC-MS/MS parameters developed for the method. Extraction was accomplished using a WAX SPE column (UCT, ECWAX053) by first conditioning the columns with 1 mL of methanol (Fisher Scientific, Fair Lawn, NJ, USA) followed by 1 mL of 100 mM pH 7 phosphate buffer (Acros Organics, Geel, Belgium, EU). Samples were loaded onto the column at a rate of 1-2 mL/min. The SPE cartridges were washed with 1 mL of 100 mM pH 7 phosphate buffer and 1 mL of millipore water (Millipore Milli- Q Ultrapure Type 1 water system, Millipore Sigma, Burlington, MA, USA), then dried under full flow for 5 minutes. Elution was carried out with 2.5mL of a 98:2 methanol: OptimaTM grade ammonium hydroxide (Fisher Scientific) solution. The eluted samples were then evaporated to dryness using a MULTIVAP® Nitrogen Evaporator (Organomation,Berlin,MA,USA) at 55°C and 5psi. All samples were reconstituted in 100 μL of a 96:4 methanol:water solution. The parameters assessed followed Academy Standards Board Standard 036: Standard Practices for Method Validation in Forensic Toxicology, including matrix interferences, limit of detection (LOD), limit of quantitation (LOQ), a recovery study, and a calibration model. The results of the study were gathered from the following eleven analytes: PFBA, PFBS, PFHxA, PFHpA, PFHxS, PFOA, PFOS, PFNA, PFDA, PFUnA, and PFDoA. Depending on the analyte, a lower LOQ was established at 0.16 – 1.75ng/mL and an upper LOQ at 43.75 – 51.41 ng/mL. Based on the established linear calibration model an LOD in the range of 0.11 - 0.51 ng/mL was achieved. All eleven PFAS analytes showed an acceptable bias of ±20%. All analytes showed a between-run precision (%CV) in an acceptable range of ±20%. No matrix interferences were detected. The average recovery for SPE ranges from 77.64- 104.73% with recovery of 77.64% for PFBS, 83.89% for PFBA, and 95.64-104.73% for PFHxA, PFHpA, PFHxS, PFOA, PFOS, PFNA, PFDA, PFUnA, and PFDoA. Utilizing the UCT WAX SPE column, good recovery for the PFAS compounds was demonstrated. Further, the extraction technique was efficient for high throughput analysis with the extraction time comparable to other traditional SPE methods. The total analytical run time of 11 minutes using the QSight®220 coupled with the UCT Selectra C18 100 x 2.1mm x 3μm column allowed for adequate re-equilibration and system washes to prevent carryover and contamination of these persistent pollutants with excellent chromatography. Having the ability to efficiently and accurately quantify PFAS compounds in biological matrices will allow for better understanding of prevalence, bioaccumulation in biological matrices, and will aid in understanding how these concentrations relate to various health outcomes.

Toxicology

Forensic toxicology

Human placenta

Human serum

Method validation

Per- and polyfluoroalkyl substances

UHPLC-MS/MS

Effect of the Golden Liquid from Honeybees and Refined Granulated Sugar on the Blood Glucose and Serum Iron Levels of Albino Rats.

Ekwebene, Onyeka, Ononye, Benjamin U, Udeagulu, C T, Akunne, C E, Onyewuchi, K C, Mbelede, K C, Chidi, C A, Akubukor, F C, Okafor, K P, Offorbuike, I, Ayaegbunam, S E, Obiefule, I E

25 April 2023

Honey is a naturally sweet substance produced by honeybees from water, pollen, and nectar. Due to its unique nutritional and therapeutic benefits, which are ascribed to the interaction of the various chemical groups it contains, natural honey is one of the most popular consumed products. Modern-day individuals consume a lot of refined granulated sugar, either directly through foods or indirectly from other sources. The consumption of large amounts of refined granulated sugar alters hematological and physiological changes in the body. According to several scientific studies, honey can be a healthier alternative to refined granulated sugar because it does not threaten human health. Consuming natural honey raises serum iron levels and red blood cell counts since it is known that the iron in honey serves as a precursor to hemoglobin. Overconsumption of refined granulated sugar has been identified as a risk factor for metabolic disorders such as obesity, cardiovascular disease, type 2 diabetes, and non-alcoholic fatty liver disease. This study, therefore, investigated the effect of the golden liquid from honeybees (natural honey) and refined granulated sugar on the blood glucose and serum iron levels of 25 Wistar albino rats. The experimental animals used in this study were grouped into five treatments based on the dose of natural honey and refined granulated sugar administered namely: T1 (1.02 g of honey /kg BW), T2 (1.40g of honey /kg BW), T3 (1.02 g of refined granulated sugar /kg BW), T4 (1.40g of refined granulated sugar /kg BW), rats in T5 were not administered honey, and refined granulated sugar served as the control. The blood glucose concentration of the albino rats was measured using the glucose strips with a glucometer while the serum iron analysis was conducted using Atomic Absorption Spectrophotometer. The result revealed that the mean blood glucose level of the rats was highest in T3 (112.95mg/dl), followed by T5 (92.20mg/dl) while the least value was recorded in T2 (74.86mg/dl). There was a significant difference in the blood glucose levels of albino rats orally administered natural honey and refined granulated sugar at varying levels (P0.05) among treatments. It was found that the highest serum iron level was recorded in T5 (1.31±0.395 ppm) followed by T2 (1.22± 0.115 ppm), while the least serum iron level was recorded in T1 (0.88±1.319ppm). It was observed that there were no significant differences in the serum iron levels of the albino rats (p>0.05) among treatments The use of natural honey is recommended since albino rats orally administered honey at varying doses had lower blood glucose levels than those given refined granulated sugar. This work will be a useful tool for understanding the role of honey over granulated sugars, especially among prediabetic and diabetic patients in order to control their sugar levels using diet as a source. This implies that the consumption of natural honey did not significantly increase blood glucose levels. It was therefore recommended that physicians and dietitians should advocate for natural honey use over refined granulated sugar which could be safe for consumption by diabetic patients.

Blood glucose

serum iron level

albino rats

natural honey

refined sugar

Diabetes

An Appropriate Assessment of Kidney Function In Patients with End Stage Liver Disease: Role of Cystatin C

Kaiser, Tiffany E.

27 October 2014

No description available.

Surgery

Cystatin C

Glomerular Filtration Rate

Cirrhosis

Liver Transplantation

Serum Creatinine

Surfactant-Aided Matrix Assisted Laser Desorption/Ionization Mass Spectrometry (SA-MALDI MS)

Tummala, Manorama

January 2004

No description available.

SDS

CMC

Protein Identification

Serum Profiling

Chemical modification

MALDI-MS

Peptide Mass Fingerprinting

Environmentally-friendly disposable Lab-on-a-chip Sensor for Point-of-Care Measurement of Heavy Metals

Jothimuthu, Preetha

20 September 2011

No description available.

Electrical Engineering

bismuth film electrode

lab-on-a-chip sensor

point-of-care

heavy metals

serum

root exudates

Identification of Potential Protein Biomarkers of Low Level Kidney Degradation

Woolard, Christopher Lee

28 July 2009

No description available.

Pharmacology

Toxicology

Biomarker

d-serine, puromycin

bromoethylamine

rat serum

immunodepletion

2D-difference in gel electrophoresis

Applications of Capillary Electrophoresis for Studying Serum Albumin Enantioselection of D,L-Tryptophan Analogs

Stinson, Jelynn A.

11 September 2012

No description available.

Analytical Chemistry

Chemistry

Pharmaceuticals

capillary electrophoresis

glycation

bovine serum albumin

chiral separation

enantioselection

The effect of an environmental reminder on the correct and consistent use of phosphate binders to achieve and maintain a goal range serum phosphorus

Schultz, Connie

27 August 2012

No description available.

Behavioral Sciences

Health Sciences

Nutrition

serum phosphorus

phosphorus binders

non-adherence

environmental reminder

Serum-free media development using black soldier fly protein isolate and hydrolysate for cultivated meat

Garg, Palak

03 January 2024

The global demand for animal proteins is projected to rise by 14% by 2030, amplifying the environmental toll of conventional animal-based protein production. Cultivated meat technology can alleviate the growing demand for protein and address the environmental and ethical concerns associated with conventional livestock farming. However, it faces a critical challenge: the high cost of cell culture media, primarily due to the use of Fetal Bovine Serum (FBS). Substituting serum with protein hydrolysates reduces the production expense of cultivated meat products and promotes establishing a sustainable food system. This study explores black soldier fly larvae (Hermetia illucens) as an emerging ethical and cost-effective alternative protein source to replace serum in media, particularly for cultivated meat production. The development of BSFL protein isolate involved defatting the larva, followed by protein extraction. The protein isolate was then hydrolyzed using an enzyme to produce BSFL hydrolysates. The goal was to supplement the protein isolate and hydrolysates with a serum-free media (B8) and determine their efficacy in replacing the 20% serum requirement for the cell culture of Bovine Satellite Cells. The BSFL protein isolate developed had a crude protein content of 80.42% and an amino acid composition conducive to cell proliferation. Experimental concentrations, ranging from 0.006 mg/ml for hydrolysate to 0.06 mg/ml for protein isolate, exhibited enhanced cell growth. Data from dsDNA quantification revealed no significant difference in growth between cells fed serum-containing growth media (BSC-GM) and BSFL protein hydrolysate (BSFLH_1h) over a short-term study. Results from the multi-passage growth study revealed that BSFLH_1h significantly improved cell growth compared to B8 over 4 passages. However, its doubling time was slower than BSC-GM. Additionally, it was observed that the protein isolate and hydrolysate were cytotoxic at higher concentrations. In the future, identifying and removing the cytotoxic compounds can further optimize the media composition. Immunostaining using Pax7 and DAPI identified supplemented media-maintained satellite cell identity of Bovine satellite cells, offering crucial insights into cellular proliferation. Furthermore, since each cell type requires varying serum and nutrients, testing these isolates and hydrolysates on different cell lines can provide better insight into creating a universal serum-free media. / Master of Science in Life Sciences / The global demand for animal proteins is projected to rise by 14% by 2030, amplifying the environmental toll of conventional animal-based protein production. Meat, dairy, aquaculture, and eggs significantly contribute to food-related emissions and occupy a vast portion of global farmland. Cultivated meat production can alleviate the growing demand for protein and address the environmental and ethical concerns associated with conventional livestock farming. Currently, the production of cultivated meat faces a significant hurdle: the high cost of culture media, primarily attributed to the use of Fetal Bovine Serum (FBS). Substituting serum with protein isolates or hydrolysates reduce the production expense of cultivated meat products and promotes a sustainable food system. Protein isolate and hydrolysates derived from black soldier fly larvae (Hermetia illucens) are rich in protein and essential amino acids and can be used as a cost-effective alternative to serum in cell culture media. The protein isolate and hydrolysates derived from BSFL were tested as supplements to a serum-free media (B8) to evaluate their effectiveness in supporting the growth of Bovine Satellite Cells. The protein hydrolysate demonstrated enhanced cell growth at experimental concentrations. However, it could not completely replace serum requirements without slowing cell growth. Despite challenges such as cytotoxicity at higher concentrations, our study suggests that further refinements and application on various cell types can assist in creating a sustainable and affordable serum-free media for cultivated meat production.

Cultivated meat

serum-free media

black soldier fly

protein hydrolysate

bovine satellite cells

Understanding the Inhibition of the Alzheimer's Ab peptide by Human Serum Albumin

Milojevic, Julijana

04 1900

<p>Aggregation of the<strong> </strong>Alzheimer’s Aβ peptide in the brain and blood plasma is controlled by endogenous Aβ binding proteins. The structural basis for the interaction between the Aβ peptide and the Aβ binding proteins is critical not only to understand how Aβ amyloids are controlled in vivo, but also to guide the design of novel Aβ-self association inhibitors. However, the current knowledge of the structures of the Aβ/Aβ binding protein complexes is still sparse. This thesis focuses mainly on the interaction of the Aβ peptide with Human Serum Albumin (HSA). It is known that HSA binds ~90% of the Aβ in human plasma and prevents the Aβ self-association into amyloid fibrils. However, the mechanism of Aβ self-association inhibition by albumin was not understood prior to our work. We have shown that albumin preferentially binds toxic Aβ oligomers and fibrils inhibiting their growth into larger Aβ assemblies through a “monomer competitor” mechanism. Using a combination of NMR, domain deletion mutants, dynamic light scattering and ultrafiltration we have investigated the stoichiomery and affinity of the Aβ oligomer: HSA complexes. Our results indicate that all three domains of HSA bind Aβ oligomers and fibrils with an affinity in the 1-100 nM range. Such binding site degeneracy explains how albumin minimizes competition by other ligands such as fatty acids and drugs. Moreover we have used the soluble and NMR suitable domain 3 of albumin to dissect further the determinants of the Aβ oligomer binding to albumin at subdomain and peptide resolution. We show that both subdomains of the HSA domain 3 (<em>i.e</em>. 3A and 3B) bind the Aβ oligomers. In addition, we identified a peptide sequence within subdomain 3B that displays significant potency in the inhibition of Aβ self-association.</p> / Doctor of Philosophy (PhD)

Alzheimer's Disease

Amyloid

NMR

Human Serum Albumin