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×èòàòåëü Íåäóã.Ðó
Óâàæàåìûå microveda, qwerty è äðóãèå êîìó ýòî èíòåðåñíî!
Ñîîáùåíèÿ î òðèõîìîíàäíîé ïíåâìîíèè âñòðå÷àë ó Øàïîøíèêîâà "Âåíåðè÷åñêèå áîëåçíè" â ñîîòâåòñòâóþùåì ðàçäåëå. Ïðàâäà, òàì èäåò ðå÷ü î áîëåå-ìåíåå ðåàëüíîé ñèòóàöèè - çàðàæåíèè íîâîðîæäåíîãî T. vaginalis ïðè ïðîõîæäåíèè ÷åðåç ðîäîâûå ïóòè èíôèöèðîâàííîé ìàòåðè. Çäåñü æå...
Èìååòñÿ ñîâñåì ñâåæåå ñîîáùåíèå î íàõîæäåíèè òðèõîìîíàä â ëåãêèõ :
Acta Cytol. 2005 May-Jun;49(3):273-7. Related Articles, Links
Frequency of trichomonads as coinfecting agents in Pneumocystis pneumonia.
Duboucher C, Gerbod D, Noel C, Durand-Joly I, Delgado-Viscogliosi P, Leclerc C, Pham S, Capron M, Dei-Cas E, Viscogliosi E.
ß ñïðîñèë ãîñïîäèíà Duboucher C. î êàêèõ òðèõîìîíàäàõ èäåò ðå÷ü. Êàêîâî æå áûëî ìîå óäèâëåíèå, êîãäà îí îòâåòèë:
Actually, we have identified the trichomonad in two cases. T vaginalis in one
case, and another trichomonad in the second case that is not one of the four human known trichomonads, but I cannot tell you more.
It is easier to discuss with pictures. So, we have put a collection of
photographs on a web site that I invite you to visit.
http://christophe.duboucher.free.fr/trichomoniasis/index
You must the login "kovalyk" and the password "87mGR2".
Ïîëíîòåêñòîâóþ ñòàòüþ â .pdf ìîãó âûñëàòü ïî çàïðîñó.
Çàðàíåå áëàãîäàðåí. Âëàäèìèð.
Óâàæàåìûé Âëàäèìèð! Ñïàñèáî çà ññûëêó, ÿ ïîñìîòðåëà âûëîæåííûå êàðòèíêè. Ñ ìîåé òî÷êè çðåíèÿ, êà÷åñòâî èëëþñòðàöèé íå ïîçâîëÿåò èäåíòèôèöèðîâàòü ïàðàçèòîâ äî âèäà. Òî, ÷òî Trichomonas tenax - ðîòîâàÿ òðèõîìîíàäà - ìîæåò èíîãäà ïðîíèêàòü â ëåãêèå è ñëóæèòü òðèããåðîì áàêòåðèàëüíîé ïíåâìîíèè, îïèñàíî äàâíî. Ñàìà òðèõîìîíàäà òàì áûñòðî ïîãèáàåò, íî óñïåâàåò ñîçäàòü áàçó äëÿ âòîðè÷íîé èíôåêöèè. Âïîëíå âîçìîæíî, ÷òî ó ÂÈ×-ïåðñîí ïàðàçèò íå ãèáíåò, à ïðîäîëæàåò æèòü â ëåãêèõ âìåñòå ñ áàêòåðèàëüíûì àãåíòîì. Ðàç ó Âàñ åñòü ïîëíîòåêñòîâàÿ âåðñèÿ (áóäó áëàãîäàðíà, åñëè ïðèøëåòå - ñåé÷àñ íåò âðåìåíè ëåçòü â E-Library) ïîñìîòðèòå â ðàçäåëå ""Ìàòåðèàëû è ìåòîäû", êàê îíè èäåíòèöèöèòîâàëè ïàðàçèòîâ äî âèäà. Åñëè òàì òîëüêî ñâåòîâàÿ ìèêðîñêîïèÿ, ðåçóëüòàòû êàæóòñÿ ñîìíèòåëüíûìè. Ìåíÿ íåñêîëüêî ñìóùàåò óïîìèíàíèå î 4-õ òðèõîìîíàäàõ ÷åëîâåêà â îòïðàâëåííîì Âàì ïèñüìå.  îáùåì, íàäî ðàçáèðàòüñÿ. Acta Cytol. - æóðíàë ñ íå î÷åíü âûñîêèì ðåéòèíãîì.
Óâàæàåìûé Âëàäèìèð ßêîâëåâè÷! Ñïàñèáî çà ññûëêó. Ðàáîòó îáÿçàòåëüíî ïîñìîòðþ, è ñ âåäóùèìè ïðîòîçîîëîãàìè ïðîêîíñóëüòèðóþñü. Ñåé÷àñ ÿ íå ãîòîâà îòâåòèòü Âàì îäíîçíà÷íî. Ìíå ñàìîé èíòåðåñíî, êàê òàêîé öèòîñêåëåò ìîæåò ïåðåñòðàèâàòüñÿ. Ñåãîäíÿ óõîæó â îòïóñê, òàê ÷òî ïðè æåëàíèè ïðîäîëæàòü - óæå â ñåíòÿáðå.
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×èòàòåëü Íåäóã.Ðó
Ìîé îòâåò. Íàøó äèñêóññèþ ëó÷øå ïåðåíåñòè â ðàçäåë ëàáîðàòîðíîé äèàãíîñòèêè. ß äóìàþ, ÷òî ó÷àñòíèêè è àäìèíèñòðàöèÿ ôîðóìà ñ ïîíèìàíèåì îòíåñåòñÿ ê òàêîìó ïðåäëîæåíèþ.
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×èòàòåëü Íåäóã.Ðó
The Journal of Eukaryotic Microbiology
GROUPMENT DES PROTISTOLOGUES DE LANGUE FRANÇAISE (GPLF)
42ndAnnual Meeting, 2004
© 2004 by the Society of Protozoologists
Trichomonas and GFP, the absolute misfit...?
G. BRICHEUX and G. COFFE
Equipe cytosquelette, Biologie des Protistes, UMR 6023, Université Blaise Pascal, 63177 Aubière, France .
Âëàäèìèð ßêîâëåâè÷! Äàéòå, ïîæàëóéñòà, ïîëíóþ áèáëèîãðàôè÷åñêóþ ññûëêó - ïî òàêîé óñå÷åííîé ÿ íå ìîãó íàéòè ñòàòüþ.
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×èòàòåëü Íåäóã.Ðó
Âëàäèìèð ßêîâëåâè÷! Äàéòå, ïîæàëóéñòà, ïîëíóþ áèáëèîãðàôè÷åñêóþ ññûëêó - ïî òàêîé óñå÷åííîé ÿ íå ìîãó íàéòè ñòàòüþ.
Ê ñîæàëåíèþ, ïî ôðàíöóçñêîé ðàáîòå èìååòñÿ â äîñòóïíûõ äëÿ ìåíÿ èñòî÷íèêàõ, òîëüêî àííîòàöèÿ.
Íî ñíèìêè T. vaginalis â àòèïè÷íûõ ôîðìàõ ïðèâîäÿòñÿ è â öåëîì ðÿäå äðóãèõ ðàáîò. Íàïðèìåð, http://cmr.asm.org/cgi/content/full/11/2/300
FIG. 1. (B) T. vaginalis on the surface of a vaginal epithelial cell prior to ameboid transformation. (C) Ameboid morphology of T. vaginalis as seen in cell culture.
Êðîìå òîãî, îáøèðíûå è ìíîãîïëàíîâûå èññëåäîâàíèÿ áîëüøîé ãðóïïû áðàçèëüñêèõ ìèêðîáèîëîãîâ, ññûëêó íà êîòîðûå (ïîëíûé òåêñò) ïðèâîäèë â ïðåäûäóùåì ñîîáùåíèè, ðàçâå íå çàñëóæèâàþò âíèìàíèå?
Óâàæàåìàÿ qwerty!
ß òàê íàñòîé÷èâ, íå ïîòîìó, ÷òî ýòîò âîïðîñ ìåíÿ ñèëüíî èíòåðåñóåò, à òîëüêî äëÿ òîãî, ÷òîáû íà ýòîì ïðèìåðå åù¸ ðàç ïðîäåìîíñòðèðîâàòü, ÷òî ëè÷íûå àìáèöèè (ÝÒÎ ÍÅ Î ÂÀÑ), äîìèíèðóþùèå âî ìíîãèõ îáñóæäåíèÿõ ÄÊ, «äîêàçàòåëüñòâà» ÷åðåç ñàìîâîçâåëè÷èâàíèå è îáñóæäåíèå ëè÷íîñòè îïïîíåíòà, ïðîñòî îñòàâëÿþò çà áîðòîì óðàâíîâåøåííîå, íîðìàëüíîå îáñóæäåíèå êîíêðåòíîãî âîïðîñà, ñïîñîáíîå ïîìî÷ü â íåì ðàçîáðàòüñÿ.
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×èòàòåëü Íåäóã.Ðó
ß òàê íàñòîé÷èâ, íå ïîòîìó, ÷òî ýòîò âîïðîñ ìåíÿ ñèëüíî èíòåðåñóåò, à òîëüêî äëÿ òîãî, ÷òîáû íà ýòîì ïðèìåðå åù¸ ðàç ïðîäåìîíñòðèðîâàòü...çà÷åì?
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×èòàòåëü Íåäóã.Ðó
Íà ñíèìêàõ áðàçèëüñêèõ ìèêðîáèîëîãîâ ÷åòêî âèäíû èçìåíåíèÿ â ìîðôîëîãèè òèïè÷íûõ òðèõîìîíàä è ýòè èçìåíåíèÿ âîçíèêëè âñëåäñòâèè òîãî, ÷òî äëÿ ôîòîãðàôèðîâàíèÿ òðèõîìîíàäû èç êóëüòóðû ïîìåñòèëè íà ïëîñêóþ ïîâåðõíîñòü ïðåäìåòíîãî ñòåêëà, ïîëíîñòüþ îãðàíè÷èâ òàêèì ñïîñîáîì èõ æèçíåäåÿòåëüíîñòü.  ñâîáîäíîé æèäêîé ñðåäå òðèõîìîíàäû íèêîãäà íå óäàåòñÿ ïîìåñòèòü â îäèí ôîêóñ ðåçêîñòè âñåõ ñðàçó, îíè ïëàâàþò âåðõ è âíèõ. Ñòðåëêàìè óêàçàííû îñîáè, êîòîðûå óæå èìåþò ðàçðóøåíèÿ â ñòóêòóðå ìåìáðàíû, î÷åíü áîëüøèå îñîáè, êîòîðûå ãîòîâû ê äåëåíèþ è åùå î÷åíü ìíîãî àðòåôàêòîâ, êîòîðûå âñåãäà ìîæíî íàáëþäàòü â âûðàùåííîé êóëüòóðå. Òàì âñåãäà åñòü ïîëóæèâûå, ïîëóðàçðóøåííûå êëåòêè, êîòîðûå ìîãóò èìåòü ìîðôîëîãèþ Ìàäîííû. ß íå óäèâëþñü, åñëè ÷åðåç íåêîòîðîå âðåìÿ ïîÿâÿòñÿ íà ôîðóìå ãðàìîòåè, êîòîðûå áóäóò ýòî óòâåðæäàòü.
Óâàæàåìûå òîâàðèùè, ïðîøó Âàñ íå âûñòàâëÿòü âïåðåä ãðóäü â "ñåêîíäõåíäå" íåïîíÿòíî êàêîãî êà÷åñòâà è ïîøèâà, à òî ïîëó÷àåòñÿ óìíîå ëèöî ñ ãîëûì çàäîì. Êàêîå îòíîøåíèå ê áîëåçíè òðèõîìîíèàç èìåþò ïîäîõøèå â ñðåäå òðèõîìîíàäû è ðàñïëàñòàâøèåñÿ âñëåäñòâèè ýòîãî â íåïðèðîäíûõ ïîçàõ? Ïîêàæèòå ýòî, ïîæàëóéñòà, â êëèíè÷åñêîì ìàòåðèàëå ñ ðåàëüíîé äèíàìè÷åñêîé âèäåîñúåìêîé. Ìîé ïî÷òîâûé àäðåñ ê Âàøèì óñëóãàì êðóãëîñóòî÷íî.
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×èòàòåëü Íåäóã.Ðó
Äà è íå íàäî. Âàøà ðåïóòàöèÿ íà ýòîì ôîðóìå ãîâîðèò ñàìà çà ñåáÿ. È òî, ÷òî Âû çàíèìàåòåñü øàðëàòàíñòâîì íà ìåäèöèíñêîé ïî÷âå çíàþò âñå ó÷àñòíèêè ÄÊ. ß óæå Âàì ãîâîðèë, ÷òî åñëè áû ðàñïîëàãàë âðåìåíåì ñ óäîâîëüñòâèåì áû âñòðåòèëñÿ ñ Âàìè â ñóäå è ïîêîí÷èë áû ñ áåññîâåñòíûìè ýêñïåðèìåíòàìè íàä ëþäüìè íà îçîíîâîé ïî÷âå ðàç è íàâñåãäà. Íåò âðåìåíè íà Âàñ, óâû. Äà è ýòî ñàìîå âðåìÿ ðàçáåðåòñÿ ñ Âàìè è áåç ìåíÿ, ðàññòàâèâ âñå íà ñâîè ìåñòà.
Ïðèïóãíóòü ìåíÿ ðåøèëè? Âåäü õàìñòâîì íà õàìñòâî çäåñü íå îòâå÷àþ, òîëüêî ïîòîìó, ÷òî îïóñêàòüñÿ äî ýòîãî óðîâíÿ ïðîòèâíî, íî íå ïîòîìó ÷òî òàêîé ðîáêèé, áåçîáèäíûé.
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×èòàòåëü Íåäóã.Ðó
Ðàç óæ ïðîäîëæàþò ìåíÿ ðàç çà ðàçîì çà ÎÒ ê ïîçîðíîìó ñòîëáó ïðèãâîæäàòü, õîòÿ óæå äîâîëüíî äàâíî â ýòîì ÄÊ «çàìîðîçèë» ñâîé ôîðóì, õî÷ó íàïîìíèòü (äîíåñòè) íà êîãî åù¸ ñóäåáíûå äåëà ìîæíî îòêðûâàòü. À òî îäíîìó êàê-òî îòâå÷àòü (ñèäåòü) îáèäíî.
Èç ïîñëåäíèõ ïóáëèêàöèé.
AJNR Am J Neuroradiol. 2005 May;26(5):996-1000.
Intraforaminal O(2)-O(3) versus periradicular steroidal infiltrations in lower back pain: randomized controlled study.
Bonetti M, Fontana A, Cotticelli B, Volta GD, Guindani M, Leonardi M.
Department of Neuroradiology and Division of Neurology, Istituto Clinico Citta di Brescia, Italy.
BACKGROUND AND PURPOSE: Reports about steroids and oxygen-ozone therapy to treat lower back pain have been increasing. The purpose of our study was to compare the clinical outcomes in patients treated with infiltrations of O(2)-O(3) gas or steroids at short-, medium-, and long-term follow-up. METHODS: A total of 306 patients (166 with primarily disk disease, 140 with nondisk vertebral disease) with acute or chronic low back and sciatic nerve pain received a CT-guided intraforaminal infiltration of an O(2)-O(3) gas mixture or an periradicular infiltration of steroids. Neurologists unaware of the type of treatment assessed the patients. RESULTS: At 1-week follow-up, most patients had a complete remission of pain, regardless of the treatment. At 6-month follow-up, differences in favor of O(2)-O(3) treatment were significant in patients with disk disease (P = .0021) but not in those without disk disease (P = .0992). Clinical outcomes were poor in 13 (15.1%) of 86 patients receiving O(2)-O(3) infiltration and in 18 (22.5%) of 80 patients receiving steroid injection (P = .2226). Among patients without disk disease, six (8.6%) of 70 patients receiving O(2)-O(3) infiltration but 21.4% of the patients receiving steroid injections had poor outcomes (P = .0332). CONCLUSION: Oxygen-ozone treatment was highly effective in relieving acute and chronic lower back pain and sciatica. The gas mixture can be administered as a first treatment to replace epidural steroids.
PMID: 15891150 [PubMed - in process]
À âîò ýòó èñïàíñêóþ åù¸ íå ïðèâîäèë.
Journal of Alternative and Complementary Medicine
Intravesical Ozone Therapy for Progressive Radiation-Induced Hematuria
Jun 2005, Vol. 11, No. 3: 539-541
Bernardino Clavo, M.D.
Department of Radiation Oncology and Research Unit and Cronic Pain Unit of the Dr. Negrin University Hospital, Las Palmas, Spain.
Canary Islands Institute for Cancer Research (ICIC), Las Palmas, Spain.
Grupo de Investigaci??n Clínica en Oncología Radioterápica (GICOR), Spain.
Dominga Gutiérrez, R.N.
Department of Radiation Oncology and Research Unit, Las Palmas, Spain.
Dionisio Martín, M.D.
Department of Urology of the Insular Hospital, Spain.
Gerardo Suárez, R.N.
Department of Radiation Oncology and Research Unit, Las Palmas, Spain.
Canary Islands Institute for Cancer Research (ICIC), Las Palmas, Spain.
María A. Hernández, M.D.
Department of Radiation Oncology and Research Unit, Las Palmas, Spain.
Canary Islands Institute for Cancer Research (ICIC), Las Palmas, Spain.
Francisco Robaina, Ph.D.
Cronic Pain Unit of the Dr. Negrin University Hospital, Las Palmas, Spain.
Canary Islands Institute for Cancer Research (ICIC), Las Palmas, Spain.
Background: Progressive radiation-induced cystitis can become a serious clinical problem the therapeutic solution of which is limited and almost invariably aggressive. Ozone therapy is a nonconventional therapy that has been reported to offer benefits in late-onset wound healing and ischemic disorders. This report describes a patient with progressive radiation-induced hematuria from standard conservative treatment that was further treated with ozone therapy.
Method: Ozone therapy was achieved by intravesical instillation of ozonized bi-distilled water over a period of 30 minutes, three sessions per week during the first weeks. Later, ozone therapy sessions were decreased and involved ozonized water or direct intravesicular instillation of ozone at 20 25 µg/mL.
Results: Hematuria was successfully controlled by intravesical application of ozone therapy.
Conclusions: The successes achieved with this technique suggest that intravesicular instillation of ozonized bi-distilled water or ozone merits further investigation with a view to its application to counter this radiationinduced side-effect.
Äàæå àìåðèêàíöû âñå áîëüøå íà «øàðëàòàíñêóþ» ìåòîäèêó íà÷èíàþò îãëÿäûâàòüñÿ è ïðè ýòîì íàãëî âðóò, ÷òî «Oxygen/ozone therapy is a well established complementary therapy practiced in many European countries»
Med Hypotheses. 2005;65(4):752-9.
Can the combination of localized "proliferative therapy" with "minor ozonated autohemotherapy" restore the natural healing process?
Gracer RI, Bocci V.
Gracer Medical Group, 5401 Norris Canyon Road, Ste. 102, San Ramon, California, 94583, USA; Department of Physiology, University of Siena, 53100, Siena, Italy.
Regenerative injection therapy (RIT), also known as proliferative therapy, has been used for over 30 years in the USA in patients with spinal and peripheral joint and ligamentous pathologies. It involves the injection of mildly irritating medications onto ligaments and tendons, most commonly at origins and insertions. These injections cause a mild inflammatory response which "turns on" the normal healing process and results in the regeneration of these structures. At the same time they strengthen and become less sensitive to pain through a combination of neurolysis of small nerve fibers (C-fibers) and increased stability of the underlying structures. Oxygen/ozone therapy is a well established complementary therapy practiced in many European countries. The ozone dissolves in body fluids and immediately reacts with biomolecules generating messengers responsible for biological and therapeutic activities. This results in an anti inflammatory response, which also results in a similar trophic reaction to that of RIT. It is logical to expect that combining these two modalities would result in enhanced healing and therefore improved clinical outcomes. Oxygen/ozone therapy, accomplished by autohemotherapy (AHT), is performed by either administering ozonated blood intravenously (Major AHT) or via intramuscular route (Minor AHT). These procedures result in stimulation of the immune and healing systems. Our concept is that the local injection of this activated blood injected directly to the ligamentous areas that are also being treated with RIT will act as a direct stimulation to the healing process. In addition, combining this with intravenous major AHT should stimulate the immune system to augment and support this process. RIT and oxygen/ozone therapy have been extensively studied separately. We propose a study of lumbosacral ligamentous pain to explore this therapeutic combination. We hope that this paper will stimulate general interest in this area of medicine and result in investigation of the "interface" between these treatment modalities.
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×èòàòåëü Íåäóã.Ðó
Ïðèïóãíóòü ìåíÿ ðåøèëè? Âåäü õàìñòâîì íà õàìñòâî çäåñü íå îòâå÷àþ, òîëüêî ïîòîìó, ÷òî îïóñêàòüñÿ äî ýòîãî óðîâíÿ ïðîòèâíî, íî íå ïîòîìó ÷òî òàêîé ðîáêèé, áåçîáèäíûé.
Ýòî íå õàìñòâî à âñåãî ëèøü êîíñòàòàöèÿ ìîåãî îòíîøåíèÿ ê Âàøåé äåÿòåëüíîñòè è òîãî ôàêòà, ÷òî ïðèìåíåíèå ïîêà åùå â ëó÷øåì ñëó÷àå ýêñïåðèìåíòàëüíîãî ìåòîäà äëÿ "ëå÷åíèÿ" îò âñåõ áîëåçíåé - åñòü øàðëàòàíñòâî. Öèòèðîâàííûå Âàìè ðàáîòû íè÷åãî íå ìåíÿþò - ýòî îïÿòü æå â ëó÷øåì ñëó÷àå ïèëîòíûå èññëåäîâàíèÿ, òðåáóþùèå äàëüíåéøèõ ïðîâåðîê.
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×èòàòåëü Íåäóã.Ðó
ïåðåéäåì â äðóãèå æóðíàëû
ïîêîí÷èë áû....... ðàç è íàâñåãäà. Íåò âðåìåíè íà Âàñ, óâû. Äà è ýòî ñàìîå âðåìÿ ðàçáåðåòñÿ ñ Âàìè è áåç ìåíÿ, ðàññòàâèâ âñå íà ñâîè ìåñòà.
Ê ñëîâó, Ãàëèíà Àôàíàñüåâíà, ýòî äàëåêî íå ïåðâîå controlled study, êîòîðîå ïðèâîäèë â ÄÊ. È åñëè ïîìíèòå, èìåííî îíè âûçûâàëè ó îïïîíåíòîâ íàèáîëüøåå îæåñòî÷åíèå.
Åù¸ ðàç õî÷ó îòìåòèòü, ÷òî ïîëàãàþ, ëàáîðàòîðíûå äàííûå, òèïà: ïîêàçàòåëè ðàçëè÷íûõ ôàêòîðîâ èììóíèòåòà, ìèêðîöèðêóëÿöèÿ, ôèëüòðóåìîñòü ýðèòðîöèòîâ è äð., êîòîðûå ìîæíî ñêîëü óãîäíî ðàç ïåðåïðîâåðèòü è çíà÷èòåëüíî òðóäíåå ïîäòàñîâàòü, ÿâëÿþòñÿ íå ìåíüøèìè äîêàçàòåëüñòâàìè (âìåñòå ñ êëèíè÷åñêèìè ðåçóëüòàòàìè, åñòåñòâåííî), äàæå åñëè äèçàéí êëèíè÷åñêèõ îöåíîê íå ñîáëþäåí äî ïîñëåäíåé çàïÿòîé.
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×èòàòåëü Íåäóã.Ðó
Èç ïîñëåäíèõ ïóáëèêàöèé.
Int J Biol Macromol. 2005 Jul;36(1-2):61-5.
Chemical kinetics measurements on the reaction between blood and ozone.
Cataldo F, Gentilini L.
Soc. Lupi Chemical Research, Via Casilina 1626/A, 00133 Rome, Italy.
The pseudofirst-order ozonization rate constant of whole bovine blood has been measured in comparison to that of free haemin. The free prosthetic group haemin (which has also the central iron atom in the oxidized form) shows k values in the range of 0.20-0.03s(-1) while the haeme groups inside haemoglobin protein and contained in the whole blood sample show slightly lower k values, just in the range of 0.10-0.02s(-1). It has been found that ozone even with whole blood reacts specifically with haemoglobin of the red cells because it is adsorbed selectively on the iron atoms of the haeme prosthetic groups of haemoglobin. The absorption implies the oxidation of the central iron atom of the haeme groups with formation of methaemoglobin followed by an oxidative fission of the haeme rings. The other blood components do not exert any significant protection to the reaction between ozone and haemoglobin, which appear extremely specific and selective like the reaction between CO or HCN and haemoglobin. By analogy with the behaviour of these other gases ozone may be classified as a blood poison. The results of this work are discussed in the frame of the risks connected to the ozonotherapy and autohaemotherapy involving the blood ozonization of human or animal subjects and the re-injection of ozonized blood into the bodies.
Conclusions
Large emphasis has been given to the fact that molecules like unsaturated fatty acids, uric acid, free aminoacids, Vitamin E and others which occur in the whole blood [1 3], including cholesterol [10], may exert a protective action when ozone is put in contact with blood. The protective action is based on the conjecture that ozone must react very quickly with these “antioxidants” avoiding to damage the blood leucocytes and the erythrocytes [1]. Instead, we have clearly shown that ozone is selectively adsorbed on the iron atoms of the haeme groups of haemoglobin even in the whole blood exactly as it happens for the CO molecule. Therefore, it appears that haemoglobin protects the blood antioxidants from oxidation, exactly the opposite of what it was assumed in the past.The consequence of ozone absorption on the haeme groups is the oxidation of the central iron atom from Fe(II) to F (III) with the formation of methaemoglobin in the red cells of whole blood. Spectroscopical evidences of this fact have been shown previously [10]. Methaemoglobin does not accumulate but it undergoes a further degradation under ozone attack following the scheme: haemoglobin → methaemoglobin → ozonolysis products. The haeme groups are broken down by the oxidization action of ozone. This effect, clearly documented in the present work demonstrates that ozone acts as a blood poison like CO or HCN. The formation of methaemoglobin is completely neglected and undervalued by the promoters of ozonotherapy [1], nothing is reported about the specificity of the reaction between ozone and the haemoglobin prosthetic groups [1].
The pseudofirst-order rate constant in blood ozonolysis has been found just slightly lower than the ozonolysis rate constant of pure haemin.
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×èòàòåëü Íåäóã.Ðó
Äâîéíûå ñòàíäàðòû Äèñêóññèîííîãî êëóáà â äåéñòâèè.
ß óæå áîëåå äâóõ ìåñÿöåâ ñòàðàþñü îòìàë÷èâàòüñÿ çäåñü ïî ÎÒ, õîòÿ âñ¸ ýòî âðåìÿ ìåíÿ ïîñòîÿííî ïðîâîöèðîâàëè (âêëþ÷àÿ îçîíèðîâàíèå òóàëåòîâ). Íî ñòîèëî îòâåòèòü íà î÷åðåäíîé âûïàä, êàê ïîñëåäîâàëî: «yananshs íå îäîáðèë(à): Again?» À âîò «îçîíèðîâàíèå òóàëåòîâ» îíà ðàäîñòíî «îäîáðèëà».
Òåïåðü î ðàáîòå, êîòîðóþ ïðèâåë Åâãåíèé Åâãåíüåâè÷. ×òî ìîæíî ïîäåëàòü, åñëè îïïîíåíòû íå ñëûøàò (èëè äåëàþò âèä, ÷òî íå ñëûøàò) ìíîãîêðàòíî ïîâòîðåííóþ ôðàçó, ÷òî áîëüøèíñòâî ëåêàðñòâ (òîò æå íèòðîãëèöåðèí, ê ïðèìåðó) â îïðåäåëåííûõ äîçèðîâêàõ ñìåðòåëüíî îïàñíû. Ïîêà âñå ðàáîòû ïî òîêñè÷íîñòè ïàðåíòåðàëüíî ââåäåííîãî îçîíà, êîòîðûå öèòèðîâàë Åâãåíèé Åâãåíüåâè÷, ê îçîíîòåðàïèè áûëè ïðèòÿíóòû çà óøè. Ò.ê. èñïîëüçóåìûå â íèõ äîçèðîâêè â ðàçû (ïðè÷åì íå â äâà, òðè ðàçà, à çíà÷èòåëüíî áîëüøå) ïðåâûøàëè òåðàïåâòè÷åñêèå.
Áûëî áû æåëàòåëüíî, ÷òîáû Åâãåíèé Åâãåíüåâè÷ ïðèâåë òåêñò ïîñëåäíåé ðàáîòû ïîëíîñòüþ. Òàê êàê áåç ïîäðîáíîãî îïèñàíèÿ òåõíèêè ïðîâåäåíèÿ ýêñïåðèìåíòîâ, êîëè÷åñòâåííûõ (à íå êà÷åñòâåííûõ) äàííûõ îá èñïîëüçóåìûõ ðåàãåíòàõ, ëþáûå âûâîäû – íåñîñòîÿòåëüíû, êàêèìè áû îãðîìíûìè áóêâàìè îíè íå ïå÷àòàëèñü.
P.S. Ê ñëîâó, òå æå öèàíèäû â î÷åíü íåáîëüøèõ êîëè÷åñòâàõ ïðèñóòñòâóþò â ïèòüåâîé âîäå (ïî åâðîïåéñêèì íîðìàì êîíöåíòðàöèÿ öèàíèäà â ïèòüåâîé íå äîëæíà ïðåâûøàòü 0,05 ìã/ë). Ìû ýòó âîäó åæåäíåâíî ïüåì, ïî÷åìó æå äî ñèõ ïîð íå óìåðëè?
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×èòàòåëü Íåäóã.Ðó
Íó âîò, Âëàäèìèð ßêîâëåâè÷, ïîïðîáóþ ñôîðìóëèðîâàòü äëÿ Âàñ:
Ïîñò #5 Âëàäèìèðà ßêîâëåâè÷à: " ÐÌÑ äåéñòâóþò äâîéíûå ñòàíäàðòû. Âðà÷è ëþáÿò áåñåäîâàòü î ìåäèöèíå ñ âðà÷àìè è íå ëþáÿò áåñåäîâàòü ñ àëüòåðíàòèâíûìè äåÿòåëÿìè. ß êàê ñòàðîæèë ÐÌÑ òàêîå ïîâåäåíèå âðà÷åé íå îäîáðÿþ."Â.ß.Çàéöåâ.
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×èòàòåëü Íåäóã.Ðó
Âðà÷è ëþáÿò áåñåäîâàòü î ìåäèöèíå ñ âðà÷àìè è íå ëþáÿò áåñåäîâàòü ñ àëüòåðíàòèâíûìè äåÿòåëÿìè.
Âû õîòÿ áû ñàìè âåðèòå â îáúÿñíåíèÿ êîòîðûå ïèøåòå? Âåäü ïîñò «ïî îçîíèðîâàíèþ òóàëåòîâ», êîòîðûé Âû ðàäîñòíî ïðèâåòñòâîâàëè, áûë îáðàùåí ëè÷íî êî ìíå. Òàê ñ êåì âðà÷è æåëàþò áåñåäîâàòü (ïðè÷åì íåðåäêî î âåùàõ, î êîòîðûõ èìåþò, â ëó÷øåì ñëó÷àå, ñìóòíîå ïðåäñòàâëåíèå)?
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×èòàòåëü Íåäóã.Ðó
Òàê è åñòü. Âû - äîêòîð Ðàâèíî. Íèêàê íå ìîãó æåðòâîâàòü ñâîèì çäîðîâüåì. Ñåìüÿ... Âñåãî äîáðîãî, Âëàäèìèð ßêîâëåâè÷.
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