Hair Million, for hair growth




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Avian Dis. 2000 Jul-Sep;44(3):507-18.
Morphologic observations on respiratory tracts of chickens after hatchery infectious bronchitis vaccination and formaldehyde fumigation.

Di Matteo AM, Sonez MC, Plano CM, von Lawzewitsch I.

Facultad de Ciencias Veterinarias, Departamento de Fisiologia y Ciencias Basicas, Universidad de Buenos Aires, Buenos Aires, Argentina.

The histologic changes in the respiratory tracts of chickens were evaluated after hatchery fumigation with 40% formaldehyde vapors and vaccination against infectious bronchitis virus with live attenuated vaccine (Massachusetts serotype). One-day-old chickens were housed in four isolation units in controlled environmental conditions, fed and watered ad libitum, and separated into four groups: 1) fumigated and vaccinated birds (FV group); 2) nonfumigated and vaccinated birds (NFV group); 3) fumigated and nonvaccinated birds (FNV group); and 4) control group (C group). All birds were tested to be free from Mycoplasma gallisepticum and Mycoplasma synoviae. After necropsy on the first, eighth, and twenty-sixth days after birth, samples from tracheal upper portion and lungs were conventionally processed for light, scanning, and transmission electron microscopy. Tissue response was monitored by microscopic examination of trachea and lung. On the first day of observation, fumigated and vaccinated birds (FV group) showed extensively damaged tracheal epithelium with exfoliated areas and some active glands with electrodense granules, and in the lung, the primary bronchi epithelium had disorganized cilia and abundant lymphocytes, with emphysematous areas in tertiary bronchus. On day 8 after vaccination, cubical and cylindrical tracheal cell proliferation was observed, and on day 26, ciliated columnar epithelium was almost regenerated with heterophil corion infiltration, and hyaline cartilage nodules appeared in parabronchi. The nonfumigated and vaccinated birds (NFV) revealed less injury on the epithelial surface and a more rapid response to epithelial regeneration than the in only fumigated animals (FNV). The control group did not show remarkable morphologic changes. Postvaccinal and fumigation effects on the upper respiratory tract were temporary, whereas in lungs, increased emphysema, cartilage nodules in the interchange zone, and general lymphocyte infiltration had caused intensive injury.


online pharmacy ref. source: www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=PubMed&list_uids=11006997&dopt=Abstract



Avian Dis. 2000 Jul-Sep;44(3):536-44.
Protective immunity to infectious bronchitis in broilers vaccinated against Marek's disease either in ovo or at hatch and against infectious bronchitis at hatch.

Avakian AP, Wakenell PS, Grosse D, Whitfill CE, Link D.

Embrex, Inc., Research Triangle Park, NC 27709-3989, USA.

Two experiments were conducted using commercial broiler chickens to determine if Marek's disease (MD) vaccines HVT/SB-1 and HVT plus CVI-988 given either in ovo or at hatch adversely affected the efficacy of infectious bronchitis (IB) vaccines (Ark and Mass serotypes) given by eyedrop on the day of hatch. Nonvaccinated negative controls and controls that received only IB vaccines were included in each study. Birds were challenged with either infectious bronchitis virus (IBV) Mass-41 or IBV Ark-99 on either day 26 or 27 of age. Protection was assessed 5 days post-IBV challenged by virus isolation from the trachea. The day of hatch mean antibody titer to IBV was 12,668 +/- 4704 and 2503 +/- 3243 by enzyme-linked immunosorbent assay in experiments 1 and 2, respectively. In each study, nonvaccinated controls had a significantly higher (P < or = 0.05) incidence (88%-100%) of IBV challenge virus isolation than did controls vaccinated for IB but not for MD. Analysis of data from both studies showed that protection to IB in groups that received only IB vaccines at hatch ranged from 55.0% to 77.3%, whereas protection to IB in groups receiving both MD and IB vaccines ranged from 50.0% to 95.5%. In both experiments and within IBV challenge serotype, broilers given MD vaccines (in ovo or at hatch) and IB vaccines at hatch had protection rates to IBV challenges that were not significantly less (P < or = 0.05) than IB protection rates of groups that received only IB vaccines at hatch. Analysis of these data shows that administration of high-titered MD vaccines either in ovo or at hatch did not affect the efficacy of an IB vaccination (serotypes Ark and Mass) given by eyedrop at hatch.


online pharmacy ref. source: www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=PubMed&list_uids=11007000&dopt=Abstract



Avian Dis. 2000 Jul-Sep;44(3):568-81.
Emergence of subtype strains of the Arkansas serotype of infectious bronchitis virus in Delmarva broiler chickens.

Nix WA, Troeber DS, Kingham BF, Keeler CL Jr, Gelb J Jr.

Delaware Agricultural Experiment Station, Department of Animal and Food Sciences, College of Agriculture and Natural Resources, University of Delaware, Newark 19717-1303, USA.

Infectious bronchitis virus (IBV) field isolates of the Arkansas (Ark) serotype were identified by reverse transcription-polymerase chain reaction (RT-PCR) as the most common serotype isolated from 1993 to 1997. These isolates were recovered from broiler flocks with respiratory disease raised on the Delmarva peninsula in spite of Ark vaccination in the region. For the purposes of investigating this apparently paradoxical finding, five RT-PCR Ark-positive field isolates recovered in 1995 and 1996 were selected for further characterization. The isolates were compared with Ark reference strains by reciprocal virus neutralization (VN) in embryonated eggs, S-1 gene sequence analysis, and challenge of immunity studies in specific-pathogen-free (SPF) chickens. Antigenic (VN) comparisons and S-1 gene analysis confirmed that the five RT-PCR Ark-positive field isolates were of the Ark serotype but also revealed that the viruses could be readily distinguished from Ark reference strains. Four of the isolates (Ark/213/96, Ark/15C/96, Ark/1529/95, Ark/1534/95) were found to have higher antigenic relatedness percentages to each other (95%-100%) than to Ark reference strains DPI (52%-72%) and Georgia variant (Georgia var) (53%-68%) by VN. Another isolate, Ark/1535/95, was found to differ antigenically from the other four RT-PCR Ark-positive field isolates (34%-61%), Ark DPI (44%), and Georgia var (43%) strains. The trends in the S-1 gene sequencing results were similar to those observed for the VN findings. Isolates Ark/213/96, Ark/15C/96, Ark/1529/95, and Ark/1534/95 demonstrated a higher degree of predicted S-1 amino acid similarity to each other (96.5%-98.7%) than to Ark DPI (92.4%-93.7%), Ark 99 (93.2%-94.7%), and Georgia var (89.3%-90.8%). Ark/1535/95 S-1 amino acid similarity values were lower compared with those of the other four RT-PCR Ark-positive field isolates (93.4%-94.8%), Ark DPI (91.9%), Ark 99 (93.0%), and Georgia var (88.7%). Furthermore, the isolates could be distinguished from the Ark reference strains by a characteristic sequence polymorphism, a six-nucleotide deletion encoding amino acids 57 (Asp) and 58 (Asp) in hypervariable region 1 of S-1. On the basis of the VN and sequencing findings, isolates Ark/213/96, Ark/15C/96, Ark/1529/95, and Ark/1534/95 were considered to be a single subtype of the Ark serotype. The fifth isolate, Ark/1535/95, may constitute another subtype of the Ark serotype. Vaccination of SPF chickens with a high-titering commercially available live vaccine containing the Ark DPI strain provided solid protection (>90%) against challenge with the RT-PCR Ark-positive field isolates. Immunization of SPF chickens with Ark/213/96 produced 100% protection against challenge with the homologous strain, as well as isolates Ark/1535/95 and Ark 99 but lower levels of protection against Ark DPI (58%) and Georgia var (55%). Primers for RT-PCR were designed to distinguish between the Ark subtypes and the Ark reference strains on the basis of the characteristic six-nucleotide deletion identified in the S-1 gene of the Ark subtypes. Retrospective analysis of RT-PCR Ark-positive isolates found that the Ark subtypes existed as early as 1992 in Delmarva broilers and became prevalent by 1995. With RT-PCR, restriction fragment length polymorphism analysis, and DNA sequencing techniques, the presence of Ark subtype viruses was demonstrated in two commercial Ark DPI strain vaccines and in our Ark DPI laboratory stocks that were the original source of the virus used for vaccine development. The demonstration of the Ark subtype and reference strains in the Ark DPI strain is evidence of the existence of IBV quasispecies. Factors possibly influencing the emergence of the Ark subtype in commercial broilers are discussed.


online pharmacy ref. source: www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=PubMed&list_uids=11007004&dopt=Abstract



Avian Dis. 2000 Jul-Sep;44(3):582-9.
Characterization of infectious bronchitis viruses isolated from outbreaks of disease in commercial flocks in Brazil.

Di Fabio J, Rossini LI, Orbell SJ, Paul G, Huggins MB, Malo A, Silva BG, Cook JK.

J F Laboratorio Patologia Animal, Campinas, SP., Brazil.

Fifteen isolations of infectious bronchitis (IB) virus were made from a total of 126 Brazilian poultry flocks of all ages that were examined. These flocks (14 chicken and 1 quail) were experiencing a variety of IB-like conditions including respiratory disease, digestive and kidney problems, and drops in egg production. One of the isolates was of the Massachusetts serotype. The remainder were examined by means of cross-neutralization tests in tracheal organ cultures and were shown to belong to at least four antigenic groups, all different from ones described previously in other countries. Some, but not all, of the flocks from which they were isolated had been vaccinated against IB with vaccines of the Massachusetts serotype. In vivo protection studies showed that the MA5 vaccine (of the Massachusetts serotype) protected well against challenge with four of these isolates, representing the different serotypes reported in this study.


online pharmacy ref. source: www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=PubMed&list_uids=11007005&dopt=Abstract







Natural Herbal Supplement: Hair Million


Hair Loss, or alopecia is a concern for increasing number of folks in aging society. Loss of hair is a visible problem, and affects the appearance and changes identity of a person.
The phenomenon of hair thinning and hair loss is most commonly associated with natural aging, although there are many other causes of hair loss, which include inherited or genetic conditions, illnesses, malnutrition, stress, hormonal problems, chemotherapy, and use of some drugs.
Hair growth is a sophisticated biological process, which has not yet been completely understood. A multitude of therapeutic measures, including drugs, surgery, and suppelements have been made available, and used. However, due to the heterogeneity in the underlying cause, there is no perfect cure for all hair loss cases. Most of chemical drugs and hair transplantation surgeries are not free from varying degrees of undesirable side effects on health.

Hair Million is an alternative solution to hair loss problems. Anecdotally, it shows prositive results and improvement for age-related hair thinning and hair loss for a fraction of people who take it. We do not know the mechanisms of action as to how Hair Million works to help stop hair loss, and promote hair growth. We only know by anecdotal observations. There has been no clinical trials nor placebo controlled statistical analysis on the efficacy of Hair Million on hair loss and hair growth. However, there are two merits in this hair restoration herbal formula:
Firstly, Hair Million is rather inexpensive, and secondly, it is made of well known herbs that are safe when consumed in regular quantities.












DHEA is a natural hormone, and it is produced in our body by the adrenal glands. DHEA has been suggested to provide numerous potential benefits. DHEA (or dehydroepiandrosterone) is converted into androgens (male hormones) or estrogens (female hormones) in the cells.





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