Conceptually innovative fluorophores for functional bioimaging.

Fluorophore chemistry is at the forefront of bioimaging, revolutionizing the visualization of biological processes with unparalleled precision. From the serendipitous discovery of mauveine in 1856 to cutting-edge fluorophore engineering, this field has undergone transformative evolution. Today, the synergy of chemistry, biology, and imaging technologies has produced diverse, specialized fluorophores that enhance brightness, photostability, and targeting capabilities. This review delves into the history and innovation of fluorescent probes, showcasing their pivotal role in advancing our understanding of cellular dynamics and disease mechanisms. We highlight groundbreaking molecules and their applications, envisioning future breakthroughs that promise to redefine biomedical research and diagnostics.

Fluorescent Probe for in Vivo Partitioning into Dynamic Lipid Droplets Enables Monitoring of Water Permeability-Induced Edema.

Lipid droplets (LDs) are intracellular organelles found in most cell types from adipocytes to cancer cells. Although recent investigations have implicated LDs in numerous diseases, the current available methods to monitor them in vertebrate models rely on static imaging using fluorescent dyes, limiting the investigation of their rapid in vivo dynamics. Here, we report a fluorophore chemistry approach to enable in vivo LD dynamic monitoring using a Nernstian partitioning mechanism. Interestingly, the effect of atorvastatin and osmotic treatments toward LDs revealed an unprecedented dynamic enhancement. Then, using a designed molecular probe with an optimized response to hydration and LD dynamics applied to Zebrafish developing pericardial and yolk-sac edema, which represents a tractable model of a human cardiovascular disease, we also provide a unique dual method to detect disease evolution and recovery.

Mitochondria-Assisted Photooxidation to Track Singlet Oxygen at Homeostatic Membrane Microviscosity.

Using intracellular-controlled photochemistry to track dynamic organelle processes is gaining attention due to its broad applications. However, most of the employed molecular probes usually require toxic photosensitizers and complex bioanalytical protocols. Here, the synthesis and performance of two new subcellular probes (MitoT1 and MitoT2) are described. The probes undergo photooxidation in the damaged tissue of zebrafish, a model system for tissue regeneration studies. Using high-resolution confocal microscopy and fluorescence spectroscopy, we combine the mentioned photoinduced interconversion at the homeostatic membrane viscosity to track singlet oxygen activity selectively. The continuous and real-time biosensing method reported here provides a new approach for simultaneously detecting endogenous singlet oxygen and viscosity status.

Fluorescence labeling of mitochondria in living cells by the cationic photosensitizer ZnTM2,3PyPz, and the possible roles of redox processes and pseudobase formation in facilitating dye uptake.

The study of labeling selectivity and mechanisms of fluorescent organelle probes in living cells is of continuing interest in biomedical sciences. The tetracationic phthalocyanine-like ZnTM2,3PyPz photosensitizing dye induces a selective violet fluorescence in mitochondria of living HeLa cells under UV excitation that is due to co-localization of the red signal of the dye with NAD(P)H blue autofluorescence. Both red and blue signals co-localize with the green emission of the mitochondria probe, rhodamine 123. Microscopic observation of mitochondria was improved using image processing and analysis methods. High dye concentration and prolonged incubation time were required to achieve optimal mitochondrial labeling. ZnTM2,3PyPz is a highly cationic, hydrophilic dye, which makes ready entry into living cells unlikely. Redox color changes in solutions of the dye indicate that colorless products are formed by reduction. Spectroscopic studies of dye solutions showed that cycles of alkaline titration from pH 7 to 8.5 followed by acidification to pH 7 first lower, then restore the 640 nm absorption peak by approximately 90%, which can be explained by formation of pseudobases. Both reduction and pseudobase formation result in formation of less highly charged and more lipophilic (cell permeant) derivatives in equilibrium with the parent dye. Some of these are predicted to be lipophilic and therefore membrane-permeant; consequently, low concentrations of such species could be responsible for slow uptake and accumulation in mitochondria of living cells. We discuss the wider implications of such phenomena for uptake of hydrophilic fluorescent probes into living cells.

BRCA1 and BRCA2 screening of nine Chilean founder mutations through allelic-discrimination and real-time PCR in breast/ovarian cancer patients.

BACKGROUND: In a previous work, we identified nine founder mutations present in close to 80% of BRCA1 and BRCA2 mutation carriers, and distributed across the country. The presence of founder mutations constitutes a valuable opportunity to develop new strategies for genetic screening. Genetic tests are primarily performed by NGS sequencing, which requires sophisticated and expensive equipment, and it takes 2-3 weeks for the results to be informed to the patient. In addition, genetic tests are not covered by insurance companies in Latin American countries. In this work, we present the standardization and technical validation of a real-time PCR based methodology for allelic discrimination in order to identify the nine Chilean founder mutations in BRCA1 and BRCA2 genes. METHODS AND RESULTS: We designed nine pairs of probes and nine pairs of primers to amplify synchronically nine regions of the BRCA1/BRCA2 genes by real-time PCR, in order to identify the nine founder mutations through allelic discrimination analyses. Technical validation was performed using 90 positive and 90 negative samples for each mutation. The methodology was tested in a second group of 60 patients. Our method correctly classified carriers and non-carriers of one of the nine Chilean founder mutations with a 100% specificity and 100% sensitivity, compared with Sanger sequencing performance. CONCLUSIONS: We develop an inexpensive, simple, and fast mutation detection method that could be implemented locally in Hospitals from the Private to Public health system. This methodology may be useful for the screening of BRCA1 and BRCA2 mutations in other populations.

Luminescent imaging of insulin amyloid aggregation using a sensitive ruthenium-based probe in the red region.

A sensitive and selective strategy to identify insulin fibrils remains a challenge for researchers in amyloid protein research. Thus, it is critical to detect, in vitro, the species generated during amyloid aggregation, particularly the fibrillar species. Here we demonstrate that the luminescent complex cis-[Ru(phen)2(3,4Apy)2]2+ (RuApy; phen = 1,10-phenanthroline; 3,4Apy = 3,4-diaminopyridine) is a rapid, low-cost alternative to in vitro detection of fibrillar insulin, using conventional optical techniques. The RuApy complex displays emission intensity enhancement at 655 nm when associated with insulin, which enables imaging of the conformational changes of the protein's self-aggregation. The complex shows high sensitivity to fibrillar insulin with a limit of detection of 0.85 µM and binding affinity of 12.40 ± 1.84 µM which is comparable to those of Thioflavin T and Congo red, with the advantage of minimizing background fluorescence, absorption of light by biomolecules, and light scattering from physiologic salts in the medium.

Simultaneous determination of intraluminal lysosomal calcium and pH by dextran-conjugated fluorescent dyes.

The lysosome is the main catabolic organelle in the cell, also serving as a signaling platform. Lysosomes maintain a low intraluminal pH where dozens of hydrolytic enzymes degrade a wide variety of macromolecules. Besides degradation of polymers, the lysosome is involved in various cellular processes, including energy metabolism, plasma membrane repair and antigen presentation. Recent work has shown that the lysosome is an important calcium store, modulating diverse cellular functions such as membrane fusion and fission, autophagy and lysosomal biogenesis. Precise measurement of free lysosomal calcium concentration has been hampered by its low luminal pH, since the affinity of most calcium probes decreases with higher proton concentration. Here we detailed an adapted protocol for the simultaneous measurement of lysosomal pH and calcium using dextran-conjugated ratiometric fluorescent dyes. As compared with indirect measurements of lysosomal calcium release using genetically-encoded calcium indicators (GECIs), the present method offers the possibility of obtaining pH-corrected, intraluminal calcium concentrations at single lysosome resolution. It also enables simultaneous temporal resolution of lysosomal calcium and pH.

Dataset on pyrene-labelled apolipoprotein A-I, model development and fitting to monitor oligomeric species of its lipid-free form.

This article contains data for the self-association of pyrene-labelled single Cys-mutants of apolipoprotein A-I (apoA-I). Mathematical models were developed to characterise the self-association events at different cysteine positions on apoA-I obtained as a function of protein concentration based on the multi-parametric spectrum of pyrene, particularly P-value and excimer emissions. The present work complements data related to the article entitled "Analysis of pyrene-labelled apolipoprotein A-I oligomerisation in solution: Spectra deconvolution and changes in P-value and excimer formation" Tárraga et al. [1].

Measurement of Reactive Oxygen and Nitrogen Species in Living Cells Using the Probe 2',7'-Dichlorodihydrofluorescein.

Reactive oxygen species and reactive nitrogen species (RONS) are involved in programmed cell death in the context of numerous degenerative and chronic diseases. In particular, the ability of cells to maintain redox homeostasis is necessary for an adaptive cellular response to adverse conditions that can cause damage to proteins and DNA, resulting in apoptosis and genetic mutations. Here, we focus on the 2',7'-dichlorodihydrofluorescein diacetate (DCFH2-DA) assay to detect RONS. Although this fluorescence-based assay is widely utilized due to its high sensitivity to detect changes in cellular redox status that allow measuring alterations in RONS over time, its validity has been a matter of controversy. If correctly carried out, its limitations are understood and results are correctly interpreted, the DCFH2-DA assay is a valuable tool for cell-based studies.

Lipid Peroxidation Assay Using BODIPY-Phenylbutadiene Probes: A Methodological Overview.

The assessment of reactive oxygen species has increasing importance in biomedical sciences, due to their biological role in signaling pathways and induction of cell damage at low and high concentrations, respectively. Detection of lipid peroxidation with sensing probes such as some BODIPY dyes has now wide application in studies using fluorescent microplate readers, flow cytometry, and fluorescence microscopy. Two phenylbutadiene derivatives of BODIPY are commonly used as peroxidation probes, non-oxidized probes and oxidized products giving red and green fluorescence, respectively. Peculiar features of lipoperoxidation and BODIPY dye properties make this assessment a rather complex process, not exempt of doubts and troubles. Color changes and fluorescence fading that are not due to lipid peroxidation must be taken into account to avoid misleading results. As a characteristic feature of lipoperoxidation is the propagation of peroxyl radicals, pitfalls and advantages of a delayed detection by BODIPY probes should be considered.

Use of autofluorescence and fluorescent probes as a potential diagnostic tool for oral cancer: A systematic review.

INTRODUCTION: The prognosis of patients with Oral squamous cell carcinoma (OSCC) are directly related to the stage of development of the tumor at the time of diagnosis, but it is estimated an average delay in diagnosis of 2-5 months. New non-invasive techniques for the early diagnosis of OSCC are being developed, such as methodologies to detect spectral changes of tumor cells. We conducted a systematic review to analyze the potential use of autofluorescence and/or fluorescent probes for OSCC diagnosis. MATERIAL AND METHODS: Four databases (PubMed, Scopus, Embase and Web of Science) were used as research sources. Protocol was registered with PROSPERO. It was included studies that evaluated tissue autofluorescence and/or used fluorescent probes as a method of diagnosing and/or treatment of oral cancer in humans. RESULTS: Forty-five studies were selected for this systematic review, of which 28 dealt only with autofluorescence, 18 on fluorescent probes and 1 evaluated both methods. The VELscope® was the most used device for autofluorescence, exhibiting sensitivity (33%-100%) and specificity (12%-88.6%). 5-Aminolevulinic acid (5-ALA) was the most used fluorescent probe, exhibiting high sensitivity (90%-100%) and specificity (51.3%-96%). Hypericin, rhodamine 6 G, rhodamine 610, porphyrin and γ-glutamyl hydroxymethyl rhodamine green have also been reported. CONCLUSION: Thus, the autofluorescence and fluorescent probes can provide an accurate diagnosis of oral cancer, assisting the dentist during daily clinical activity, but it is not yet possible to suggest that this method may replace histopathological examination.

Characterization of the apo-form of extracellular hemoglobin of Glossoscolex paulistus (HbGp) and its stability in the presence of urea.

The structural study of small heme-containing proteins, such as myoglobin, in the apo-form lacking heme has been extensively described, but the characterization and stability of the giant Glossoscolex paulistus hemoglobin (HbGp), in the absence of heme groups, has not been studied. Spectroscopic data show efficient extraction of the heme groups from the hemoglobin, with relatively small secondary and tertiary structural changes in apo-HbGp noticed compared to oxy-HbGp. Electrophoresis shows a partial precipitation of the trimer abc (significantly lower intensity of the corresponding band in the gel), due to extraction of heme groups, and the predominance of the intense monomeric d band, as well as of two linker bands. AUC and DLS data agree with SDS-PAGE in showing that the apo-HbGp undergoes dissociation into the d and abc subunits. Subunits d and abc are characterized by sedimentation coefficients and percentage contributions of 2.0 and 3.0 S and 76 and 24%, respectively. DLS data suggest that the apo-HbGp is unstable, and two populations are present in solution: one with a diameter around 6.0 nm, identified with the dissociated species, and a second one with diameter 100-180 nm, due to aggregated protein. Finally, the presence of urea promotes the exposure of the fluorescent probes, extrinsic ANS and intrinsic protein tryptophans to the aqueous solvent due to the unfolding process. An understanding of the effect of heme extraction on the stability of hemoproteins is important for biotechnological approaches such as the introduction of non-native prosthetic groups and development of artificial enzymes with designed properties.

Chemical features of the photosensitizers new methylene blue N and S137 influence their subcellular localization and photoinactivation efficiency in Candida albicans.

Antimicrobial photodynamic treatment (APDT) has emerged as an effective therapy against pathogenic fungi with both acquired and intrinsic resistance to commonly used antifungal agents. Success of APDT depends on the availability of effective photosensitizers capable of acting on different fungal structures and species. Among the phenothiazinium dyes tested as photoantifungals, new methylene blue N (NMBN) and the novel pentacyclic compound S137 are the most efficient. In the present study we compared the effects of APDT with NMBN and S137 on the survival of Candida albicans and employed a set of fluorescent probes (propidium iodide, FUN-1, JC-1, DHR-123 and DHE) together with confocal microscopy and flow cytometry to evaluate the effects of these two chemically diverse photosensitizers on cell membrane permeability, metabolism and redox status, and mitochondrial activity. Taken together, our results indicate that, due to chemical features resulting in different lipophilicity, NMBN and S137 localize to distinct subcellular structures and hence inactivate C. albicans cells via different mechanisms. S137 localizes mostly to the cell membrane and, upon light exposure, photo-oxidizes membrane lipids. NMBN readily localizes to mitochondria and exerts its photodynamic effects there, which was observed to be a less effective way to achieve cell death at lower light fluences.

Non-Cytotoxic Dibenzyl and Difluoroborate Curcuminoid Fluorophores Allow Visualization of Nucleus or Cytoplasm in Bioimaging.

Curcumin, the most important secondary metabolite isolated from Curcuma longa, is known for its numerous purported therapeutic properties and as a natural dye. Herein, based on curcumin's intrinsic fluorescence, a search for improved curcumin-based fluorophores was conducted. Within the set of semi-synthetic curcumin derivatives i.e. mono (1), di (2), tri (3), tetra (4) benzylated and dibenzyl-fluoroborate (5), the fluorescence properties of 2 and 5 in solution outstood with a two-fold quantum yield compared to curcumin. Furthermore, all benzylated derivatives showed a favorable minimal cytotoxic activity upon screening at 25 µM against human cancer and non-tumoral COS-7 cell lines, with a reduction of its cytotoxic effect related to the degree of substitution. Fluorophores 2 and 5 are versatile bioimaging tools, as revealed by Confocal Fluorescence Microscopy (CFM), and showed permeation of living cell membranes of astrocytes and astrocytomas. When 2 is excited with a 405- (blue) or 543-nm (green) laser, it is possible to exclusively and intensively visualize the nucleus. However, the fluorescence emission fades as the laser wavelength moves towards the red region. In comparison, 5 allows selective visualization of cytoplasm when a 560-nm laser is used, showing emission in the NIR region, while it is possible to exclusively observe the nucleus at the blue region with a 405-nm laser.

A Highly Sensitive Fluorogenic Probe for Imaging Glycoproteins and Mucine Activity in Live Cells in the Near-Infrared Region.

A novel fluorescent molecular probe is reported, which is able to detect glycoproteins, especially mucins, with high sensitivity and with a turn-on response along with a large Stokes shift (>130 nm), within the biologically active window. The probe contains an aminotricarbocyanine as the fluorescent reporter with a linked benzoboroxole as the recognition unit, which operates through a dynamic covalent reaction between the boronic hemiester residue of the receptor and cis-diols of the analyte. The superior selectivity of the probe is displayed by the labeling of mucins present in Calu-3 cells. The new benzoboroxole fluorescent derivative gathers together key properties to make it a highly rated molecular probe: specificity, excellent solubility in water, and off-on near infrared emission. This probe is expected to be an excellent tool for imaging intracellular mucin to evaluate mucus-related diseases as well as a sensing strategy towards glycosylated structures with a high potential for theranostics approaches in biological samples.

Photodynamic therapy for Schistosoma mansoni: Promising outcomes.

The purpose of this study was to assess, for the very first time, the effects of photodynamic therapy (PDT) on Schistosoma mansoni in vitro by measuring reactive oxygen species (ROS) generation throughout the treatment, as well as the behavior of the parasites (mating, motility and contraction/shortening), and damage to their tegument and excretory systems. The parasites were divided into 4 groups: control, photosensitizer, laser and PDT. Light irradiation was delivered with an InGaAlP low-level laser device operating at 660nm, with 40mW and 100J/cm2. For PDT, different toluidine blue dye (TBO) concentrations and times of exposure were utilized. Interestingly, TBO-mediated PDT was able to kill S. mansoni (P<0.001) due to the significant amount of ROS released that inflicted damages in the tegument and excretory system, as well as contraction and cessation of motility. In addition, males of S. mansoni were shown to be more sensitive to PDT if compared to their corresponding females when the optimal TBO concentration of 31.2µL was considered (P=0.0126). PDT presents two major advantages: not inducing microbial resistance and also lacking adverse effects. Therefore, PDT may become a promising therapeutic alternative for schistosomiasis in the near future, especially for cases of allergy and resistance to praziquantel.

Impacto da qualidade do sêmen sobre a fertilidade a campo em bovinos / Impact of semen quality on field fertility in cattle

A fertilização envolve um processo complexo e requer muitos atributos espermáticos para seu sucesso.Há uma grande variação no sêmen de diferentes touros e partidas, o que causa uma oscilação no potencial defertilidade. A inseminação artificial em tempo fixo (IATF) utilizando partidas de sêmen com reduzido potencialde fertilidade causa um grande impacto na produtividade do rebanho. Partidas de sêmen que apresentamcaracterísticas de motilidade progressiva, vigor, defeitos morfológicos e concentração dentro das aceitáveis parao uso na IA podem mostrar deficiência no potencial de fertilidade, o que pode ser atribuído a alterações emestruturas ou funções espermáticas não contempladas nestas avaliações. Várias técnicas vêm sendodesenvolvidas buscando a identificação de alterações espermáticas que resultam em falha na fertilidade;revelando com mais precisão lesões nas células espermáticas após o processo de criopreservação. Este texto visaabordar, baseados principalmente em nossas experiências, as falhas de fertilidade inerentes ao sêmen e o quantoas técnicas laboratoriais podem predizer sobre o potencial de fertilidade de uma partida de sêmen antes do uso naIATF e seu impacto sobre a fertilidade do rebanho.

Fertilization involves a complex process and requires many sperm attributes for its success. There isgreat variation in the semen of different bulls and batch, which causes an oscillation in fertility potential. Theuse in TAI of semen batch with reduced fertility potential causes a great impact on the productivity of the herd.Semen batches that exhibit characteristics of progressive motility, vigor, morphological defects andconcentration within those acceptable for use in AI may show reduction in fertility potential, which may beattributed to changes in structures or sperm functions not contemplated in these evaluations. Several techniqueshave been developed to identify sperm alterations that result in failure of fertility; revealing more accuratelysperm cell lesions after the cryopreservation process. This paper aims to address, essentially based on ourexperiences, fertility failures inherent to semen and how laboratory techniques can predict the fertility potentialof a semen batch prior to use in TAI and its impact on herd fertility.

Avaliação da qualidade do sêmen de cachaços: o que é possível ser feito? / Evaluation of the boar semen quality: what can be done?

A utilização de técnicas avançadas para a analise de sêmen de cachaços apesar de ainda ser restrita adeterminados setores do sistema de produção de suínos, tem se tornado aplicável e de extrema importânciadentro, tanto de centrais comerciais de sêmen como nos centros de pesquisas ao redor do mundo. Dentre taistecnologias, pode-se citar as análises computadorizadas da motilidade associada a avaliação da morfometriaespermática, além das avaliações por sondas fluorescentes averiguando-se as integridades dos mais diferentescompartimentos celulares, podendo tais técnicas serem realizadas não apenas por microscopia deepifluorescência, mas também por citometria de fluxo. Entretanto, deve-se destacar a não individualização dastécnicas abordadas, devido a inter-relação das estruturas espermáticas perante o processo de fertilização. Assim,as diversas avaliações devem ocorrer simultaneamente, tendo em vista a necessidade da perfeita integridadedeste conjunto de estruturas para a perfeita fisiologia da célula espermática.

The use of advanced boar semen analysis although it is restricting to certain sectors of the swineproduction system, it is becoming relevant and extremely important in both commercial AI and research centersaround the world. Of all technologies available, one may mention the computerized motility analysis (CASA)combined with sperm morphology (ASMA), and the use of fluorescent probes to verify the integrity of thedifferent cellular compartments by means of epifluorescence microscopy or flow cytometry. However, it shouldbe emphasized the non-individualization of the techniques discussed, due to the necessity of the perfect integrityof this set of structures for the perfect sperm cell physiology.

Impacto da qualidade do sêmen sobre a fertilidade a campo em bovinos / Impact of semen quality on field fertility in cattle

A fertilização envolve um processo complexo e requer muitos atributos espermáticos para seu sucesso.Há uma grande variação no sêmen de diferentes touros e partidas, o que causa uma oscilação no potencial defertilidade. A inseminação artificial em tempo fixo (IATF) utilizando partidas de sêmen com reduzido potencialde fertilidade causa um grande impacto na produtividade do rebanho. Partidas de sêmen que apresentamcaracterísticas de motilidade progressiva, vigor, defeitos morfológicos e concentração dentro das aceitáveis parao uso na IA podem mostrar deficiência no potencial de fertilidade, o que pode ser atribuído a alterações emestruturas ou funções espermáticas não contempladas nestas avaliações. Várias técnicas vêm sendodesenvolvidas buscando a identificação de alterações espermáticas que resultam em falha na fertilidade;revelando com mais precisão lesões nas células espermáticas após o processo de criopreservação. Este texto visaabordar, baseados principalmente em nossas experiências, as falhas de fertilidade inerentes ao sêmen e o quantoas técnicas laboratoriais podem predizer sobre o potencial de fertilidade de uma partida de sêmen antes do uso naIATF e seu impacto sobre a fertilidade do rebanho.(AU)

Fertilization involves a complex process and requires many sperm attributes for its success. There isgreat variation in the semen of different bulls and batch, which causes an oscillation in fertility potential. Theuse in TAI of semen batch with reduced fertility potential causes a great impact on the productivity of the herd.Semen batches that exhibit characteristics of progressive motility, vigor, morphological defects andconcentration within those acceptable for use in AI may show reduction in fertility potential, which may beattributed to changes in structures or sperm functions not contemplated in these evaluations. Several techniqueshave been developed to identify sperm alterations that result in failure of fertility; revealing more accuratelysperm cell lesions after the cryopreservation process. This paper aims to address, essentially based on ourexperiences, fertility failures inherent to semen and how laboratory techniques can predict the fertility potentialof a semen batch prior to use in TAI and its impact on herd fertility.(AU)

Avaliação da qualidade do sêmen de cachaços: o que é possível ser feito? / Evaluation of the boar semen quality: what can be done?

A utilização de técnicas avançadas para a analise de sêmen de cachaços apesar de ainda ser restrita adeterminados setores do sistema de produção de suínos, tem se tornado aplicável e de extrema importânciadentro, tanto de centrais comerciais de sêmen como nos centros de pesquisas ao redor do mundo. Dentre taistecnologias, pode-se citar as análises computadorizadas da motilidade associada a avaliação da morfometriaespermática, além das avaliações por sondas fluorescentes averiguando-se as integridades dos mais diferentescompartimentos celulares, podendo tais técnicas serem realizadas não apenas por microscopia deepifluorescência, mas também por citometria de fluxo. Entretanto, deve-se destacar a não individualização dastécnicas abordadas, devido a inter-relação das estruturas espermáticas perante o processo de fertilização. Assim,as diversas avaliações devem ocorrer simultaneamente, tendo em vista a necessidade da perfeita integridadedeste conjunto de estruturas para a perfeita fisiologia da célula espermática.(AU)

The use of advanced boar semen analysis although it is restricting to certain sectors of the swineproduction system, it is becoming relevant and extremely important in both commercial AI and research centersaround the world. Of all technologies available, one may mention the computerized motility analysis (CASA)combined with sperm morphology (ASMA), and the use of fluorescent probes to verify the integrity of thedifferent cellular compartments by means of epifluorescence microscopy or flow cytometry. However, it shouldbe emphasized the non-individualization of the techniques discussed, due to the necessity of the perfect integrityof this set of structures for the perfect sperm cell physiology.(AU)