A portable potentiostat for the bilirubin-specific sensor prepared from molecular imprinting

A portable amperometric potentiostat was designed and implemented in this work. It was developed to acquisit the current signals produced from bilirubin by an electrochemical sensor. Based on an SOC-based chip, this potentiostat has the merits of moderate accuracy, small size, low cost, and high portability. The bilirubin electrode was prepared by synthesizing a thin layer of bilirubin imprinted poly(methacrylic acid-co-ethylene glycol dimethacrylate) onto the Au layer. With the molecularly imprinted polymer (MIP) film, specific detection of bilirubin was successfully achieved. The cyclic voltammogram of the electrode was measured from this assembled potentiostat. The performance from a commercial potentiostat was considered rather stable and was used as a reference to examine and evaluate the performance of the assembled potentiostat. The detected current signals by the bilirubin sensing were obtained. Linear calibration with a sensitivity of 1.344+/-0.38 microA/mg dl was achieved. Our experimental results showed that the proposed potentiostat's performance could achieve sufficient performance. The evaluation was also made from the aspects such as reset time and steady-response time. The self-assembled potentiostat thus demonstrated its ability in precise detection of bilirubin from an electrode layered with the imprinted polymer film.     

Synthesis of bilirubin imprinted polymer thin film for the continuous detection of bilirubin in an MIP/QCM/FIA system

A bilirubin imprinted polymer (BIP) was coated on a thiol pretreated Au electrode on a quartz crystal microbalance (QCM) chip. The BIP thin film was synthesized using 4-vinylpyridine (4-Vpy) as the monomer, divinylbenzene (DVB) as the cross-linker, and benzophenone as the initiator. By using a photo-graft surface polymerization technique with irradiation by ultra-violet (UV) light, a thin BIP film was prepared, from which a biomimetic sensor for the detection of bilirubin was developed. The sensor was able to discriminate bilirubin in solution owing to the specific binding of the imprinted sites. The BIP/QCM chip has been repeatedly used for more than 7 months in many continuous experiments. The detection signal of bilirubin from the BIP thin film/QCM was compared with the non-BIP thin film/QCM. Biliverdin, an analogue of bilirubin, was used for comparison. The analogue comparison confirmed the binding specificity of the BIP film toward bilirubin. The selectivity can be as high as 31.2. The effect of pH on the detection of bilirubin is also discussed. With proper solvent for elution and recovery, flow injection analysis (FIA) could be applied to the system. The performance of the BIP/QCM chip was evaluated. A linear calibration of the bilirubin concentration with respect to the frequency shift was successfully obtained. The reproducibility of measurements from the same BIP/QCM chip was confirmed. In addition, repeatability of detection was also confirmed from different BIP/QCM chips. In conclusion, a combined BIP thin film/QCM/FIA method was successfully established for the detection of bilirubin concentration using a molecularly imprinted film.     

Urea biosensor based on PANi(urease)-Nafion/Au composite electrode

The polyaniline (PANi)-Nafion composite film was prepared onto the ceramic plate by the cyclic voltammetry (CV) method with the various cycle numbers. When the PANi-Nafion/Au/ceramic plate with the preparing cycle number of 5 was as working electrode, the cathodic peak current was achieved as 84.0 microA in 60 mg dl(-1) NH4Cl buffer solution. On the other hand, the small cathodic peak currents for buffer solution in the presence of 60 mg dl(-1) LiOH, NaCl and KCl, respectively, were found with the same composite electrode as working electrode. The cathodic peak current decreased from 84.0 to 16.3 microA in the 60 mg dl(-1) NH4Cl buffer solution when the cycle number for preparing PANi-Nafion/Au/ceramic plate composite electrode with the CV method increased from 5 to 15. The enzyme of urease was immobilized onto the PANi-Nafion/Au/ceramic plate composite film by the electrochemical immobilization and the casting methods and used as sensing electrode to detect the concentration of urea in the buffer solution. The sensitivity of composite electrode immobilized with the casting method was greater than that of electrochemical immobilization method. The sensitivity and the detecting limit of the urea sensor were found to be 0.7 and 5.27 microA (mg dl(-1))(-1)cm(-2), as well as 6 and 0.3 mg dl(-1), respectively, when urease was immobilized by glutaraldehyde (GA) cross-linker and Nafion network, respectively.     

New sorbent for bilirubin removal from human plasma: Cibacron Blue F3GA-immobilized poly(EGDMA–HEMA) microbeads

Cibacron Blue F3GA-immobilized poly(EGDMA–HEMA) microbeads were investigated as a specific sorbent for bilirubin removal from human plasma. The poly(EGDMA–HEMA) microbeads were prepared by a modified suspension copolymerization technique. Cibacron Blue F3GA was covalently coupled to the poly(EGDMA–HEMA) microbeads via the nucleophilic reaction between the chloride of its triazine ring and the hydroxyl groups of the HEMA molecule, under alkaline conditions. Bilirubin adsorption was investigated from hyperbilirubinemic human plasma on the poly(EGDMA–HEMA) microbeads containing different amounts of immobilized Cibacron Blue F3GA, (between 5.0–16.5 μmol/g). The non-specific bilirubin adsorption on the unmodified poly(EGDMA–HEMA) microbeads were 0.32 mg/g from human plasma. Higher bilirubin adsorption values, up to 14.8 mg/g, were obtained with the Cibacron Blue F3GA-immobilized microbeads. Bilirubin molecules interacted with these sorbents directly. Contribution of albumin adsorption on the bilirubin adsorption was pronounced. Bilirubin adsorption increased with increasing temperature.     

Role of high-density lipoprotein in transport of circulating bilirubin in rats

The analbuminemic rat strain established by Nagase et al. (Nagase, S., Shimamune, K., and Shumiya, S. (1979) Science 205, 590-591) exhibits hereditary deficiency in albumin biosynthesis. Serum bilirubin concentration is rather lower in homozygous (aa) rats (0.009 +/- 0.002 mg/dl) as compared with heterozygous (Aa) rats (0.047 +/- 0.009 mg/dl) or wild-type Sprague-Dawley (AA) rats (0.034 +/- 0.006 mg/dl) as evidenced by high pressure liquid chromatography analysis of bilirubin. After intravenous administration of various amounts of [heme-3H]hemoglobin in rats, [3H]bilirubin derived from [3H]heme of hemoglobin in vivo is more efficiently excreted into bile in aa rats than in Aa or AA rats. [3H]Bilirubin is exclusively bound with high-density lipoprotein (HDL) in aa rats, and a significant amount of [3H]bilirubin is shown to bind with HDL in Aa or AA rats in vivo. Scatchard plots revealed that [3H]bilirubin is bound with HDL in three binding modes depending on the molar ratio of [3H]bilirubin to HDL: Kd = 0.8 X 10(-7) M (molar ratio, 0.02-0.06), Kd = 1.6 X 10(-6) M (molar ratio, 0.06-0.41), and Kd = 1.2 X 10(-4) M (molar ratio, 0.79-9.02). Even under extreme conditions of excess hemoglobin administration, the molar ratio remains under 0.041; and thus, expected the Kd value would remain around 0.8 X 10(-7) M. Binding of [3H]bilirubin to rat serum albumin revealed two distinct binding modes depending on the molar ratio of [3H]bilirubin to rat serum albumin: Kd = 3.6 X 10(-7) M (molar ratio, 0.03-0.21), and Kd = 5.0 X 10(-6) M (molar ratio, 0.21-2.46). Under physiological conditions in Aa or AA rats, the former mode would be more reliable than the latter. Thus, HDL could bind with approximately 4.5 times higher affinity than rat serum albumin in Aa or AA rats under physiological conditions in vivo.     

Estimation of total and direct serum bilirubin using modified micro assay method

Estimation of total and direct bilirubin in serum plays an important role in differential diagnosis of hyperbilirubinemia. Several direct spectrophotometric methods are commercially available for total and direct bilirubin estimation in which the amount of the sample (serum) varies from 200 ml to 800 ml. It is difficult to collect such amount of serum from infants, as neonatal jaundice is the most common problem in this age group. To overcome this problem modified micro assay method was developed using dimethylsulfoxide (DMSO). The amount of the serum sample is reduced from 100 ml to 20 ml per test for both total and direct bilirubin. A method comparison study was performed using 100 consecutive serum samples, by modified micro assay method and a reference Jendrassik-Grof method. Total bilirubin in these human serum samples ranged from 0.4-15.0 mg/dl and direct bilirubin ranged from 0.05-12.0 mg/dl. The results conclude that modified micro assay method had significant correlation with r-value of 0.99989 for total serum bilirubin and with r-value of 0.99971 for direct serum bilirubin. Linearity of the method is 20 mg/dl and 15 mg/dl for total and direct bilirubin, respectively. Monoreagent used during the assay is stable for 24 hours at 2-8 degrees C while the kit is stable for one year at 2-8 degrees C. In conclusion this micro assay method is rapid, reliable, simple and accurate for the estimation of total and direct bilirubin with small serum quantities. It is equally reliable for manual; semi automated and automated chemistry analyzers.     

A comprehensive review of bilirubin determination methods with special emphasis on biosensors

Bilirubin, is a tetrapyrrole yellow coloured compound found in digestive juice. It is generated from degradation of hemoglobin (Hb). The normal range of total bilirubin in serum is 0.30–1.20 mg/dl. The elevated range of serum bilirubin is considered as biomarker for finding and therapeutic administration of many liver diseases. Various analytical methods for determination of bilirubin, including spectrophotometery, thin layer chromatography, fluorometry, capillary electrophoresis, high performance liquid chromatographic, polarography and chemiluminescence have been applied for clinical purposes. These conventional methods are tedious, time-consuming, and require costly equipments and skilled person to operate. To overcome these limitations, the most popular biosensing technology has been employed at a large scale. The present review describes the principle, advantages and disadvantages of different analytic methods for measurement of bilirubin with focusing on biosensors, including electrochemical, photo-electrochemical, piezoelectric, optical and luminescent biosensors in detail. The working conditions for optimum activity and shelf life of all bilirubin biosensors have been summarized & compared and their future perspectives are discussed.     

Molecularly imprinted hydroxyapatite thin film for bilirubin recognition

A novel piezoelectric sensor has been developed for bilirubin (BR) detection, based on the modification of molecularly imprinted hydroxyapatite (HAP) film onto a quartz crystal by molecular imprinting and surface sol-gel technique. The performance of the developed BR biosensor was evaluated and the results indicated that a sensitive BR biosensor could be fabricated. The obtained BR biosensor presents high-selectivity monitoring of BR, better reproducibility, shorter response time (37 min), wider linear range (0.05-80μM) and lower detection limit (0.01μM). The analytical application of the BR biosensor confirms the feasibility of BR detection in serum sample.     

Microbial imprinted polypyrrole/poly(3-methylthiophene) composite films for the detection of Bacillus endospores

The fabrication of Bacillus subtilis endospore imprinted conducting polymer films and subsequent electrochemical detection of bound spores is reported. Imprinted films were prepared by absorbing spores on the surface of glassy carbon electrodes upon which a polypyrrole, followed by a poly(3-methylthiophene), layer were electrochemically deposited. Spore template release was achieved through soaking the modified electrode in DMSO. Binding of endospores to imprinted films could be detected via impedance spectroscopy by monitoring changes in Y' (susceptance) using Mn(II)Cl2 (0.5M pH 3) as the supporting electrolyte. Here, the change in Y' could be correlated to spore densities between 10(4) and 10(7)cfu/ml. More sensitive detection of absorbed spores was achieved by following endospore germination via changes in film charge as measured using cyclic voltammetry. Here, imprinted films were submerged in spore suspensions to permit absorption, heat activated at 70 degrees C for 10 min prior to transferring to an electrochemical cell containing germination activators. By using the assay format it was possible to detect 10(2)cfu/ml. The observed changes in film charge could be attributed to the interaction of the supporting conducting polymer with dipicolinic acid (DPA) and other constituents released from the core in the course of germination. In all cases, it was not possible to regenerate the imprinted films without losing electrode response. In summary, the study has provided proof-of-concept for fabricating microbial imprinted films using conducting polymers.     

Inverse relationship between serum bilirubin and atherosclerosis in men: a meta-analysis of published studies

Bilirubin, a major intravascular product of heme catabolism, is a potent antioxidant compound. Numerous studies have been published showing the relationship between serum bilirubin levels and atherosclerosis. In the present investigation all the epidemiological studies available on the effect of serum bilirubin levels and atherosclerotic disease were analyzed. Studies on the epidemiology of atherosclerotic diseases in relation to serum bilirubin levels were searched in the MEDLINE database. Selected studies were subdivided according to serum bilirubin levels and severity of atherosclerotic disease. Because of the limited number of females involved in the studies, only males were included into meta-analysis. Associations for ordered categorical variables (bilirubin and natural history of graded atherosclerosis) were assessed to find correlation and linear trend between analyzed variables. A stratified analysis was conducted to compare risks of clinical outcomes. Eleven relevant studies were used for analysis. A close negative relationship was found between serum bilirubin levels and severity of atherosclerosis (Spearman rank coefficient r = -0.31,P < 0.0001). The linear trend was confirmed in analysis of proportions with x(2) values for both disease conditions to be very significant (P < 0.0001). Unambiguous inverse relationship between serum bilirubin levels and atherosclerosis was demonstrated in this preliminary meta-analytic study. These results indicate the importance of hem oxygenase-related products in the prevention of oxidative stress-mediated diseases.     

Imprinted polymer-modified hanging mercury drop electrode for differential pulse cathodic stripping voltammetric analysis of creatine

The molecularly imprinted polymer [poly(p-aminobenzoicacid-co-1,2-dichloroethane)] film casting was made on the surface of a hanging mercury drop electrode by drop-coating method for the selective and sensitive evaluation of creatine in water, blood serum and pharmaceutical samples. The molecular recognition of creatine by the imprinted polymer was found to be specific via non-covalent (electrostatic) imprinting. The creatine binding could easily be detected by differential pulse, cathodic stripping voltammetric signal at optimised operational conditions: accumulation potential −0.01 V (versus Ag/AgCl), polymer deposition time 15 s, template accumulation time 60 s, pH 7.1 (supporting electrolyte ≤ 5 × 10⁻⁴ M NaOH), scan rate 10 mV s⁻¹, pulse amplitude 25 mV. The modified sensor in the present study was found to be highly reproducible and selective with detection limit 0.11 ng mL⁻¹ of creatine. Cross-reactivity studies revealed no response to the addition of urea, creatinine and phenylalanine; however, some insignificant magnitude of current was observed for tryptophan and histidine in the test samples.     

Quartz crystal microbalance for the determination of daminozide using molecularly imprinted polymers as recognition element

As the daminozide (DM) and its metabolite have been identified to be potentially carcinogenic, rapid detection method for them is necessary for food safety. A type of piezoelectric crystal sensor has been prepared by using a molecularly imprinted polymer (MIP) as recognition element. The molecularly imprinted polymer was prepared by hot-induced precipitation polymerization, and then the polymer particles were fixed on the surface of the electrode. Scanning electron microscopy (SEM) and atomic force microscopy (AFM) were employed to evaluate the obtained imprinted polymer particles and the MIP sensitive film coated on the electrode. The results showed that a typical time-response curve of the MIP-coated crystal to the DM solution had been given, frequency shifts versus logarithm changes of DM showed good linear correlation within the concentration range of 1.0x10(-9) to 10(-6) mg/mL (y=11.38 lg x+115.45, r=0.9872) and 1.0x10(-6) to 10(-1) mg/mL (y=25.22lgx+209.44, r=0.9938), respectively. The detection limit was 5.0x10(-8) mg/mL (S/N=3), which is lower than that of conventional methods. Further, computer simulation technology was employed to investigate the interaction between methacrylic acid and DM for elucidating the recognition mechanism. The influencing factor pH has also been investigated. The injection experiments of DM structurally related compounds indicated that the obtained sensor has high sensitivity, excellent selectivity, low cost, good reproducibility, and reusable property by combining with piezoelectric crystal and molecularly imprinted polymer.     

UDP-glucuronosyltransferase activity and bilirubin conjugation in the bullfrog.

Bile pigments of bile and serum of Rana catesbeiana were investigated by means of high-pressure liquid chromatography. The major pigment in both bile and serum was bilirubin IX alpha. Bilirubin UDP-glucuronosyltransferase activity was found in the livers of all animals examined, but no conjugated bilirubin was detectable in the bile. Frog bile was found to contain large amounts of beta-glucuronidase. When the beta-glucuronidase inhibitor saccharo-1,4-lactone was introduced into the gall bladder followed by an exogenous bilirubin load, bilirubin glucuronide appeared in the bile.     

Purification, characterization and decolorization of bilirubin oxidase from Myrothecium verrucaria 3.2190

Myrothecium verrucaria 3.2190 is a nonligninolytic fungus that produces bilirubin oxidase. Both M. verrucaria and the extracellular bilirubin oxidase were tested for their ability to decolorize indigo carmine. The biosorption and biodegradation of the dye were detected during the process of decolorization; more than 98% decolorization efficiency was achieved after 7 days at 26°C. Additionally, the crude bilirubin oxidase can efficiently decolorize indigo carmine at 30°C~50°C, pH 5.5~9.5 with dye concentrations of 50 mg l(-1)~200 mg l(-1). Bilirubin oxidase was purified and visualized as a single band on native polyacrylamide gel electrophoresis (PAGE). Several enzymatic properties of the purified enzyme were investigated. Moreover, the identity of the purified bilirubin oxidase (BOD) was confirmed by matrix assisted laser desorption ionisation time-of-flight mass spectrometry (MALDI-TOF-MS). These results demonstrate that the purified bilirubin oxidase in M. verrucaria strain has potential application in dye effluent decolorization.     

Association of serum bilirubin with contrast-induced nephropathy and future cardiovascular events in patients undergoing coronary intervention

Objectives

Enhanced reactive oxygen species formation within the kidney following the administration of contrast media may play a key role in the development of contrast-induced nephropathy (CIN). Bilirubin has emerged as an important endogenous antioxidant molecule. This study was undertaken to determine whether bilirubin is associated with CIN and future cardiovascular events in patients undergoing coronary intervention.

Methods

Totally, 544 consecutive patients received coronary intervention were enrolled. All patients were followed up for at least 3 years or until the occurrence of a major event. The primary endpoint was CIN, defined as a rise in serum creatinine (SCr) of 0.5 mg/dl or a 25% increase from the baseline value within 48 hours after the procedure. The secondary endpoint was the combined occurrence of major adverse cardiovascular events (MACE), including death, nonfatal myocardial infarction, and ischemic stroke.

Results

Overall, CIN occurred in 85 (15.6%) patients. All patients were stratified into 3 groups (low/normal/high) according to the serum bilirubin levels. In a multivariate logistic analysis, the odds ratio for CIN with low-bilirubin levels relative to high-bilirubin levels was 11.82 (95% CI, 3.25–43.03). By Cox regression analysis, serum bilirubin levels was an independent predictor of MACE in patients undergoing coronary intervention (low vs. high hazard ratio 2.26; 95% CI, 1.05–4.90).

Conclusions

CIN is a serious complication of coronary intervention. Higher serum bilirubin concentrations were associated with lower risk of CIN and fewer cardiovascular events. The development of interventions that promote bilirubin levels may be a potential target to reduce CIN and future MACE in patients undergoing coronary intervention.     

Synergie between molecular imprinted polymer based on solid-phase extraction and quartz crystal microbalance technique for 8-OHdG sensing

Recently, the 8-hydroxy-2'-deoxyguanosine (8-OHdG) has been used as a marker to determine the oxidative stress. There is no any cheap and easy determination method based on chips and sensor systems for the determination of 8-OHdG. In this study, we have proposed imprinting methods for 8-OHdG recognition and determination using methacryloylamidohistidine-platinum(II) [MAH-Pt(II)] as a new metal-chelating monomer. The study includes the solid-phase extraction (SPE) of blood sample by a new 8-OHdG imprinted sorbent and the measurement of binding interaction of 8-OHdG imprinted quartz crystal microbalance (QCM) sensor via ligand interaction. 8-OHdG imprinted sorbent has prepared by bulk polymerization of MAH-Pt(II) and N-N'-methylenebisacrylamide. 8-OHdG imprinted sensor has prepared on a QCM chip coating the thiol pretreated Au electrode. At the end of these steps, a thin molecular imprinted polymer (MIP) film for the detection of 8-OHdG has developed and analytical performance of QCM sensor which has prepared using MIP was investigated. The affinity constant (K(a)) for 8-OHdG using MAH-Pt-based thin film has determined by using the Scatchard method. The average percentage recovery of 8-OHdG from plasma samples was found as 80% by using of 8-OHdG imprinted SPE material. At the last step, 8-OHdG level in several blood plasma has been determined by this improved QCM sensor. The obtained results confirmed that the 8-OHdG level in cancer patient's blood was significantly higher than in general subjects.     

An amperometric bilirubin biosensor based on a conductive poly-terthiophene-Mn(II) complex

An amperometric bilirubin biosensor was fabricated by complexing the Mn(II) ion with a conducting polymer and the final biosensor surface was coated with a thin polyethyleneimine (PEI) film containing an enzyme, ascorbate oxidase (AsOx). The complexation between poly-5,2'-5',2'-terthiophene-3-carboxylic acid (PolyTTCA) and Mn(II) through the formation of Mn-O bond was confirmed by XPS. The PolyTTCA-Mn(II) complex was also characterized using cyclic voltammetry. The PolyTTCA-Mn(II)/PEI-AsOx biosensor specifically detect bilirubin through the mediated electron transfer by the Mn(II) ion. To optimize the experimental condition, various experimental parameters such as pH, temperature, and applied potential were examined. A linear calibration plot for bilirubin was obtained between 0.1 microM and 50 microM with the detection limit of 40+/-3.8 nM. Interferences from other biological compounds, especially ascorbate and dopamine were efficiently minimized by coating the biosensor surface with PEI-AsOx. The bilirubin sensor exhibited good stability and fast response time (<5s). The applicability of this bilirubin sensor was tested in a human serum sample.     

Enzymatic oxidation of bilirubin by intestinal mucosa

Bilirubin oxidase, an aerobic enzyme which degrades bilirubin 'in vitro' to colourless diazo-negative compounds, including propentdyopents and trace amounts of biliverdin, has been demonstrated in homogenates of rat intestine, kidney and liver. The enzyme in the intestinal mucosa has been partially characterised and appears to be mitochondrial in origin; maximal activity was detected in the jejunum. Intestinal bilirubin oxidase has a mean activity of 0.51 +/- 0.03 (S.D.) nmol bilirubin degraded/min per mg protein. Similar bilirubin oxidase activities were found in the tissue of Sprague-Dawley and Gunn rats. The role of the enzyme 'in vivo' remains to be determined.     

Synthesis and characterization of a biospecific adsorbent containing bovine serum albumin as a ligand and its use for bilirubin retention.

Epoxy-activated gels from cross-linked polybutadiene-hydroxyethylmethacrylate (PB-HEMA) copolymer and epichlorohydrin (ECH) were prepared and characterized. Albumin was covalently bonded to the matrix and used as support of affinity chromatography in bilirubin (BR) retention experiments. PB-HEMA-ECH with different amounts of immobilized albumin (between 5.20 and 6.80 mg/g dry gel) were obtained. Bilirubin retention of 3.10 mg/g of these beads was observed at 5 degrees C.     

Application of a quartz crystal nanobalance to the molecularly imprinted recognition of phenylalanine in solution

A quartz crystal nanobalance (QCN) biosensor was developed for the selective determination of phenylalanine (Phe) in aqueous solutions. A Phe imprinted copolymer was synthesized using polyacrylonitrile and acrylic acid [poly(AN-co-AA)]. The copolymer was then coated on quartz crystal electrode to form complementary structures for the template recognition of Phe. The composite electrode was then used to determine Phe levels in solution. Determinations were based on frequency shifts of molecularly imprinted polymer (MIP) modified quartz crystal electrode caused by Phe adsorption. The frequency shifts were linearly dependent on Phe concentration over the range 50∼500 mgL⁻¹. The results obtained show that the imprinted poly(AN-co-AA) modified biosensor had higher sensitivity (0.5839 Hz/mgL⁻¹) than a non-molecularly imprinted copolymer (0.2724 Hz/mgL⁻¹). Furthermore, good reproducibility, R.S.D. = 1.84% (n = 7) was observed, and the detection limit was 45 mgL⁻¹. The selectivity of the imprinted poly(AN-co-AA) modified biosensor was examined using a number of analytes similar to Phe, i.e., dopamine (DA), ascorbic acid (AscA), vanillylmandelic acid (VMA), uric acid (UA), tryptophan (Trp), and tyrosine (Tyr), and the results obtained showed a size dependent selective effect.