The aim of this study was to evaluate the possibility of using the anti-varicella zoster virus (anti-VZV, also known as anti-HSV3) vaccine against orobuccal herpes simplex virus type 1 (HSV1) and genital herpes simplex virus type 2 (HSV2). This was suggested by study of the phylogenetic tree of members of the herpes virus family, which showed a close relationship between VZV (HSV3) and the HSV1 and HSV2 herpes viruses. Methods: The present prospective study was conducted from January 2005 through January 2011. Twenty-four patients afflicted with HSV1 and HSV2 herpes recurrences over a period of years, numbering 6-8 and more recurrences per year, agreed to receive the anti-VZV vaccine. They were compared with 26 nonvaccinated patients presenting with herpes simplex diseases 2-5 times a year. All 50 patients were documented with anti-HSV1, anti-HSV2, and anti-VZV antibody serological testing. Results: From 2005 through 2011, for the 24 anti-VZV vaccinated patients, the average number of herpes relapses decreased to 0, correlated with an increased anti-VZV antibody level and clinical recovery of all patients, whereas no improvement was observed for the 26 nonvaccinated herpes patients. Conclusion: Data for the anti-VZV serological antibody levels tested before and after anti-VZV vaccination showed a significant (P , 0.001) increase among vaccinated patients. This suggests defective anti-VZV immune power in these patients. After 6 years of positive results for anti-VZV vaccine, this is a logical and fair hypothesis. We can now undertake a randomized study to confirm these findings.
In 2012, a 50 year-old athletic male presented with weakness, pain and unilateral phrenic paralysis, followed by bilateral phrenic paralysis with deep dyspnea. In 2013, the Parsonage-Turner syndrome was diagnosed. When the patient was seen in September 2014 for the first time, he was facing phrenic neuromuscular failure, which led to the hypothesis of neurotropic herpes viruses. A control of the global serological anti-Herpes immunity to analyze his antibody (Ab) levels confirmed herpes immune genetic deficiency. An appropriate herpes chemotherapy treatment was proposed. Immediately, a spectacular recovery of the patient was observed, and after a few weeks, the respiratory function tests showed normal values. The hypothesis of the inductive role of viruses of the herpes family in the Parsonage-Turner syndrome was thus substantiated. The patient's immune deficiency covers the HSV2, HHV3, HHV4, HHV5 and HHV6 Ab levels. This led to the control of herpes in the family lineage: indeed, his daughter presented alterations of her serological herpes Ab levels.
Introduction: At the onset of the 20th century, ancient clinical observations of cancer epidemics in Bantu populations of Sub-Saharan Africa were discovered. They were reported from 1914 to 1960, but remained unexplained. In 1983, in San Francisco, Calif., USA, cancer epidemics were related to infections by the human immunodeficiency virus type 1 (HIV-1) known as AIDS disease. Yet since 1996, it is known that HIV-1 strains are not the only ones involved. In Sub-Saharan Africa, recurrent orobuccal herpes simplex virus type 1 (HSV-1) and genital recurrent herpes simplex virus type 2 (HSV-2) appeared many times prior to infection by HIV-1. Case Reports: Data on these ancient medical observations regarding African cancer epidemics can today be referred to as the relationship between the unfortunate immune deficiency of herpes in Bantu populations and HIV-1 viral strains. For centuries, the Bantu populations dispersed in forests were living in close proximity to chimpanzees infected by simian immunodeficiency virus (SIV) and were exposed to SIV contamination which became HIV-1 in human beings. Presently, these unexplained Bantu cancer epidemics can be linked to the viral partnership of HSV-1/HSV-2 to HIV-1 strains. Conclusion: The key issue is now to prevent HSV-1/HSV-2 diseases related to HIV-1. An anti-herpes treatment administered early during childhood to Bantu populations will offer a mean of preventing herpes diseases related to HIV-1 infection and hence avoid cancer epidemics.
Background: Synergy exists between DNA and RNA viruses. It was found that the Human Immunodeficiency Viruses (HIV-1) are RNA viruses at the origin of Acquired Immune Deficiency Syndrome (AIDS). The DNA recurrent herpes diseases are associated to AIDS virus at the origin of Sub-Saharan cancer AIDS pandemic. Objective: It is speculated that a varicella virus (HHV-3) immune defect could originate HSV- 1/HSV-2 recurrent herpes diseases that can be cured by varicella vaccine (2012). Methods: At a Symposium held in Kampala, Uganda (1962), impressive Sub-Saharan cancer epidemics: Hodgkin lymphomas and Kaposi sarcomas have been reported since the onset of the 20th century and remained unexplained. Over one thousand publications related to these cancer epidemics were presented. For millenniums, Bantu populations have been living in tropical forests close to chimpanzees infected by Simian Immune Deficiency viruses (SIV). SIV became Human Immune Deficiency viruses (HIV-1). AIDS is a zoonosis. Results: The DNA and RNA viruses, herpes with HIV-1 viruses, are correlated to Sub- Saharan AIDS infections. They induce an extensive immune deficiency with other herpes viruses such as HHV-4 and HHV-8, which are linked to lymphomas and Kaposi sarcomas. It is postulated that a primary HHV-3 immune weakness could be linked to herpes partnership with AIDS pandemic. Conclusion: The Oka, anti-HHV-3, varicella vaccine is able to cure HSV1/HSV2 recurrent herpes diseases. It induces a specific increase of the varicella antibodies. Thus varicella vaccination could prevent herpes recurrences in Sub-Saharan Africa. One- child dose varicella vaccine could be proposed as the first step to overcome HHV-3 herpes deficiency in order to prevent AIDS pandemic.
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