https://www.clevelandclinic.org/ReproductiveResearchCenter/docs/agradoc114.pdf

Role of reactive oxygen species in the pathophysiology of human reproduction

Predictive value of abnormal sperm morphology in in vitro fertilization

Reproduction is required for the survival of all mammalian species, and thousands of essential 'sex' genes are conserved through evolution. Basic research helps to define these genes and the mechanisms responsible for the development, function and regulation of the male and female reproductive systems. However, many infertile couples continue to be labeled with the diagnosis of idiopathic infertility or given descriptive diagnoses that do not provide a cause for their defect. For other individuals with a known etiology, effective cures are lacking, although their infertility is often bypassed with assisted reproductive technologies (ART), some accompanied by safety or ethical concerns. Certainly, progress in the field of reproduction has been realized in the twenty-first century with advances in the understanding of the regulation of fertility, with the production of over 400 mutant mouse models with a reproductive phenotype and with the promise of regenerative gonadal stem cells. Indeed, the past six years have witnessed a virtual explosion in the identification of gene mutations or polymorphisms that cause or are linked to human infertility. Translation of these findings to the clinic remains slow, however, as do new methods to diagnose and treat infertile couples. Additionally, new approaches to contraception remain elusive. Nevertheless, the basic and clinical advances in the understanding of the molecular controls of reproduction are impressive and will ultimately improve patient care.

/pdf/the-biology-of-infertility-research-advances-and-clinical-36ufrj51t1.pdf

The biology of infertility: research advances and clinical challenges

Extensive research in our center at the Cleveland Clinic indicates that the seminal oxidative stress test has diagnostic and prognostic capabilities beyond those of conventional tests of sperm quality or functions. An oxidative stress test can accurately discriminate between fertile and infertile men and identify patients with a clinical diagnosis of male-factor infertility who are likely to initiate a pregnancy if they are followed over a period of time. In addition, the test can help select subgroups of patients with infertility in which oxidative stress is a significant factor, and who may benefit from antioxidant supplementation. Incorporation of such a test into routine andrology laboratory practice may be of particular importance to the future management of male infertility. In recent years, the generation of reactive oxygen species (ROS) in the male reproductive tract has become a real concern because of their potential toxic effects at high levels on sperm quality and function. ROS are highly reactive oxidizing agents belonging to the class of free radicals (Aitken, 1994). A free radical is defined as ‘‘any atom or molecule that possesses one or more unpaired electrons’’ (Warren et al, 1987). Recent reports have indicated that high levels of ROS are detected in semen samples of 25% to 40% of infertile men (de Lamirande et al, 1995; Padron et al, 1997). However, a strong body of evidence suggests that small amounts of ROS are necessary for spermatozoa to acquire fertilizing capabilities (Aitken, 1999). Spermatozoa, like all cells living in aerobic conditions, constantly face the oxygen (O2) paradox: O2 is required to support life, but its metabolites such as ROS can modify cell functions, endanger cell survival, or both (de Lamirande and Gagnon, 1995). Hence, ROS must be continuously inactivated to keep only a small

https://onlinelibrary.wiley.com/doi/pdf/10.1002/j.1939-4640.2002.tb02324.x

Oxidative stress and male infertility: from research bench to clinical practice.

Abnormal sperm parameters in humans are indicative of an abortive apoptotic mechanism linked to the fas-mediated pathway

New method of evaluating sperm morphology with predictive value for human in vitro fertilization

Acrosin, a neutral proteinase, is located within the acrosome. The aim of this study was to evaluate acrosin concentrations in patients with severe damage of the sperm head and to determine whether acrosin concentration could predict the chances of fertilization in an IVF program. Sixty patients were accepted into this study, prospectively. The patients were divided into two groups, those with a normal morphology of 20 million sperm/ml and >30% progressively motile sperm. The acrosin assays were performed on the semen sample obtained on the day of IVF. Routine IVF insemination procedures were used, and only mature oocytes were considered. The only factor that showed a significant correlation with fertilization was normal morphology (p< 0.01). The mean acrosin level was 73.4 ± 38.6 mIU/10 million sperm in group I and 70.9 ± 42.7 mIU/10 million sperm in group II (no significant d...

Correlation Between Sperm Morphology, Acrosin, and Fertilization in an IVF Program

A multivariate analysis of phytoplankton assemblages in the western North Atlantic

In this study we investigated the aquatic macroinvertebrate community structure in a coastal Virginia salt marsh. Sixteen samples were taken weekly from two different sites on Smith Island, Va., from April to mid-October 1982. Bimonthly samples were taken during the months of March and November, due to low density of organisms and reduced growth rates at these times. A total of 46 macroinvertebrate taxa were collected, with 17 occurring in at least 5% of the samples, indicating a relatively diverse fauna. Temporal changes in the macroinvertebrate community could not be attributed to the wide fluctuations observed in the physical environment except during extremes. Seasonal changes in the community were attributed to cycling due to individual life cycles of the resident organisms and drying and flooding of the marsh. Species diversity remained high throughout the summer months and was only reduced drastically during drought periods. Fast recolonization of prey species resulted in higher densities at the site with the most severe conditions (highest frequency of drying). We thought this was due to predator elimination caused by drying.

James F. Matta

Papers

New method of evaluating sperm morphology with predictive value for human in vitro fertilization

Correlation Between Sperm Morphology, Acrosin, and Fertilization in an IVF Program

A multivariate analysis of phytoplankton assemblages in the western North Atlantic

Aquatic macroinvertebrates in an irregularly flooded salt marsh: diversity and seasonal variation