WO2007041525A2 - Method of treating pancreatitis - Google Patents
Method of treating pancreatitis Download PDFInfo
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- WO2007041525A2 WO2007041525A2 PCT/US2006/038509 US2006038509W WO2007041525A2 WO 2007041525 A2 WO2007041525 A2 WO 2007041525A2 US 2006038509 W US2006038509 W US 2006038509W WO 2007041525 A2 WO2007041525 A2 WO 2007041525A2
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- WIPO (PCT)
- Prior art keywords
- hemin
- pancreatitis
- mice
- human
- administering
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- A61K31/409—Heterocyclic compounds having nitrogen as a ring hetero atom, e.g. guanethidine or rifamycins having five-membered rings with one nitrogen as the only ring hetero atom, e.g. sulpiride, succinimide, tolmetin, buflomedil having four such rings, e.g. porphine derivatives, bilirubin, biliverdine
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Definitions
- Hemin up-regulates HO-I a stress-induced enzyme implicated in protection from a variety of injuries while its related isoform HO-2 is constitutively expressed.
- mice develop anemia and high tissue iron levels with consequent oxidative damage in the liver, glomerulonephritis and splenomegaly. These mice have >80% embryolethality and most surviving mice die within 6 months due to presumed multi-organ failure.
- Hemin is the prosthetic moiety for a broad range of proteins that play essential roles in oxygen delivery, mitochondrial function, and signal transduction including hemoglobin, cytochromes, prostaglandin endoperoxide and nitrous oxide synthases, catalase and peroxidases.
- Various formulations of hemin such as hematin and other alternate intravenous formulations (e.g. panhematin) are currently available and have been used in patients since the 1970' s with reported minimal side effects to successfully treat acute porphyrias, to control liver allograft failure due to recurrence of erythropoietic protoporphyria, and in patients with thalassemia intermedia.
- the present invention provides a method of treating pancreatitis comprising administering to a human in need thereof an effective amount of hemin.
- the administration of hemin is preferably parenteral.
- parenteral is given its ordinary and customary meaning in the field of pharmaceutical drug routes of administration. According to the Food and Drug Administration's Center for Drug Evaluation and Research Data Standards Manual (CDER Data Element Number C-DRG-00301; Data Element Name: Route of Administration) "parenteral" refers to administration by injection, infusion or implantation.
- Injection and infusion include administration into a vein (intravenous), into an artery (intraarterial), into a muscle (intramuscular), under the skin (subcutaneous), and into the peritoneum (intraperitoneal).
- a vein intravenous
- artery intraarterial
- muscle intramuscular
- subcutaneous subcutaneous
- peritoneum intraperitoneal
- the present invention provides a method of pancreatitis prophylaxis comprising administering to a human in need thereof an effective amount of hemin.
- prophylaxis is given its ordinary and customary meaning in the medical art, generally defined as the prevention of or protective treatment for a disease, in this instance pancreatitis.
- An effective amount of hemin is that amount that is determined to treat or be prophylactic for pancreatitis.
- An effective amount of hemin can be from 1 to 6 mg/kg/day, or more preferably from 1 to 4 mg/kg/day, although an effective amount of hemin can readily be determined by a treating or attending physician by considering, inter alia, the age of the patient, the extent of disease, and the overall medical condition of the patient. Accordingly, it is well within the ken of one of ordinary skill in the art to determine a pancreatitis prophylactic effective amount of hemin, or a pancreatitis treatment effective amount of hemin according to the teachings of the present invention.
- the present invention contemplates a method of inducing an HO gene comprising administering to a human in need thereof an HO-inducing effective amount of hemin.
- An HO-inducing effective amount of hemin can be from 1 to 6 mg/kg/day or preferably 1 to 4 mg/kg/day, but as discussed elsewhere herein an HO-inducing effective amount can readily be determined by a worker of ordinary skill in the art based upon considerations of the human to be treated.
- the HO gene is the HO-I gene.
- induction or upregulation of an HO gene is given its ordinary and customary meaning, which includes turning on or turning up the expression of an HO gene by genetic mechanisms that are outside of the scope of the present invention. Those genetic mechanisms are not to be construed as limiting the invention to any particular theory of induction or upregulation of an HO gene. Induction or upregulation of an HO gene can be readily determined using methods and assays discussed elsewhere herein.
- the present invention contemplates a method of inducing an HO gene in leukocytes for recruitment to the pancreas to treat pancreatitis comprising administering to a human in need thereof an HO-inducing effective amount of hemin.
- leukocyte is given its ordinary and customary meaning, generally referring to any of several types of blood cells, including granulocytes (including neutrophils (heterophils), basophils and eosinophils; monocytes (including macrophages); and lymphocytes.
- the recruitment or migration to the pancreas of leukocytes in which an HO gene has been induced or upregulated is accomplished by mechanisms that are outside the scope of the present invention and should not be construed as limiting the invention to any particular mechanism or theory of recruitment or migration of leukocytes to the pancreas.
- the present invention contemplates a method of inducing an HO gene in leukocytes for recruitment to the pancreas for prophylaxis of pancreatitis comprising administering to a human in need thereof an HO-inducing effective amount of hemin.
- the present invention provides a method of ex vivo treatment of pancreatitis comprising a first step of providing peripheral blood leukocytes.
- Providing peripheral blood leukocytes can be accomplished by techniques well known to those of ordinary skill in the art, including for example intravenous removal of leukocytes from the peripheral blood vasculature of a patient by venous puncture. PBLs are separated and isolated from other blood constituents by, for example by density gradient centrifugation with polysucrose followed by removal of the leukocyte layer.
- the thus-obtained peripheral blood lymphocytes are next contacted with hemin to form induced peripheral blood lymphocytes.
- the PBLs are contacted with hemin by methods well known to those of ordinary skill in the art, including by admixing PBLs with hemin in vitro for a time and under conditions appropriate to induce the PBLs. More particularly, those genetic elements of the PBLs, such as the HO gene (and more preferably the HO-I gene) are induced or upregulated, as discussed elsewhere herein.
- the PBLs are then infused into a human in need thereof.
- the induced PBLs are infused into a human in need thereof using techniques that are well known to those of ordinary skill in the art, including the parenteral administration of the induced PBLs into a human.
- Hemin or other agents can be pre-administered, or co-administered with the induced PBLs, to promote the selective migration of the induced PBLs to the pancreas.
- Humans in need of hemin-induced PBLs include humans that are suffering from pancreatitis, who are at risk for pancreatitis, or require prophylaxis against pancreatitis.
- Fig. 1 Effect of hemin or pancreatic injury on HO-I induction, and inhibition of pancreatic injury by hemin.
- A, B Total tissue homogenates were obtained from pancreata of caerulein- injected or choline deficient diet (CDD)-fed mice. Two age and sex-matched mice were used for each time point. Homogenates were tested by blotting using antibodies to HO-I or HO-2.
- C Mice (3 mice/condition) were given hemin by intraperitoneal injection (4x during one week, or 8x during two weeks). Two "control" mice were injected with vehicle alone. Pancreatic homogenates were then obtained and blotted with anti-HO-1/2.
- Fig.2 Effect of hemin on caerulein-induced pancreatitis and its pulmonary complications.
- mice were injected intraperitoneally with hemin (H) or vehicle (V; 7 mice/group) every other day (3x; arrows) followed by injection with either saline (Sal) or caerulein (Cae) hourly (7x; arrows) and then harvesting of the pancreata and lungs at 12 h after first Sal or Cae injection. Sera were collected for amylase/lipase measurement.
- C-E Pancreatic and lung tissues (from panels A,B) were used to determine trypsin (pmol/mg protein) and myeloperoxidase (MPO; ng/mg wet tissue) enzyme activities and to assess extent of tissue injury. Data are presented as mean ⁇ SD.
- Fig.3 Heniin increases HO-I + pancreatic macrophages in association with MCP- 1 and MIP-Ia induction.
- B Mice were treated intraperitoneally with hemin (H) or vehicle (V) once (H x 1) or 3x (H x 3, V x 3) during a one week period, followed by feeding with CDD or regular chow for 3 d.
- Pancreata were collected followed by staining and counting F4/80 + macrophages in 10 randomly selected high power fields (HPF). The mean ⁇ SD (3 mice/group) and p-value for the indicated comparisons are shown.
- C Hemin (H) or vehicle (V) were injected intraperitoneally once followed by harvesting of pancreata after 24 h. A non-injected control "C” group was also included.
- mRNA levels were then estimated from pancreata of 3 mice/group as a ratio of the indicated chemokine to ⁇ -actin (mean ⁇ SD). Changes in RANTES/MEP-2 mRNA levels were not significant after V or H administration.
- Fig.4 Effect of hemin on in vivo macrophage homing to the pancreas using bioluminescence imaging.
- H Hemin
- peritoneal cells were harvested and macrophages were selected using anti-Mac- 1 magnetic beads.
- Luciferase/Mac-1 double-positive cells were transferred intraperitoneally to wild-type (luciferase -/-) mice that were preinjected with one dose of H or vehicle (V) 24 h prior to the transfer. This hemin injection is necessary to induce pancreatic chemokines (Fig.3C).
- FIG. 1 Live images of recipient intact anesthetized mice were taken 5 min (a) or 24 h (b) after cell transfer. Livers and pancreata were removed 24 h after the transfer followed by imaging (c). The signal intensity scale bar is shown below each image.
- Fig.5 Protective effect of hemin-primed peritoneal cells on CDD-induced pancreatitis.
- A Peritoneal cells are isolated from hemin "H” or vehicle “V” pretreated mice (3 injections highlighted by arrows) then transferred intraperitoneally into naive recipient littermates followed by immediate initiation of CDD feeding.
- Fig.6 Inhibition of the protective effect of hemin-primed peritoneal cells using HO-I knock-down in vivo.
- A,B Peritoneal cells were isolated from hemin-treated mice that were also injected intraperitoneally on alternate days with saline (-), HO-I siRNA (construct #1 and #2), or scramble control (Sc) siRNA. The peritoneal cells were then used to examine HO-I and HO-2 levels by immunoblotting.
- C,D Peritoneal cells were harvested from hemin/construct #2 HO-I siRNA or hemin/scrambled siRNA injected mice then transferred into naive recipient littermates followed by immediate initiation of CDD feeding.
- Fig.7 Schematic of the effect of hemin on mouse HO-I induction and homing of peritoneal macrophages to the pancreas. Hemin induces the expression of several pancreas chemokines and increases peritoneal macrophages and their HO-I expression. Peritoneal macrophages that overexpress HO-I home to the pancreas, and are able to provide significant protection from pancreatic injury.
- Fig. 8 HO-I expression and hemin-mediated induction in mouse tissues and cells.
- mice were injected 3x during 7d with vehicle or hemin (2 mice/group) followed by harvesting of the indicated organs and cells then preparation of total tissue/cell homogenates. Protein concentrations of the homogenates were measured followed by SDS-PAGE separation (40 ⁇ g of protein/lane) then blotting using anti-HO-1 antibodies. Note the induction of HO-I in peritoneal cells, liver, pancreas and colon (most prominent change being in pancreas) but not in bone marrow, spleen or brain. HO-2 levels did not change after hemin administration in any of the tissues (not shown).
- Fig. 9 Hemin induction of pancreatic HO-I occurs in non-epithelial cells of mice fed CDD.
- HO-I staining of pancreas from mice treated with vehicle alone (without CDD) afforded background staining (inset of panel a).
- FIG. 11 Effect of PH injection on peritoneal cells over time. Flow cytometric analysis of peritoneal cells is shown following single PH injection given either iv or ip. Resident peritoneal macrophages (F4/80 n ⁇ CDllb n ') are decreased following PH injection consistent with exit of these cells and appearance in the pancreas. This effect is delayed for the iv treated group as compared to ip group over time.
- FIG. 12 Immunohistochemical stain of pancreas.
- Pancreata were isolated from mice treated with PH either ip or iv over time. Frozen sections were acetone fixed and stained with anti-HO-1 antibody. Consistent with the western blot findings, PH causes influx Of HO-I + cells (highlighted by arrow heads in the right and middle panels) to the pancreas (magnification 20X).
- the present invention offers a novel approach of immune-mediated therapy via the unanticipated effect of hemin on leukocyte recruitment to the pancreas.
- the therapeutic approach of the present invention has applicability to other mammalian, particularly human, pancreatitis.
- two types of cell transfers were performed.
- the hemin-primed macrophages are derived from donor mice that were treated with three (3) doses of hemin (excessive dosing decreases the level of HO-I induction, Fig.1C).
- panhematin available from Ovation Pharmaceuticals, Inc., Deerfield, IL
- pancreatic HO-I levels While the relevant in vivo chemokines that are involved in macrophage recruitment to the pancreas remain to be defined, a cellular therapeutic approach can also be envisioned whereby autologous monocytes or other relevant cells can be activated by hematin ex vivo followed by re-infusion.
- hemin or hemin-activated cell therapy in experimental mouse pancreatitis is prophylactic and is analogous to human use in high-risk patients undergoing endoscopic retrograde cholangiopancreatograms who can develop pancreatitis.
- the present invention provides a method of treating pancreatitis by administering hemin to a patient in need thereof.
- the hemin is delivered via a parenteral route.
- the parenteral route is intraperitoneal. More preferably, the parenteral route is intravenous.
- the present invention provides a method of preventing pancreatitis by administering hemin to a patient in need thereof.
- the hemin is delivered via a parenteral route.
- the parenteral route is intraperitoneal.
- the parenteral route is intravenous.
- the dosage of hemin depends upon various factors, including the age of the patient, the body weight of the patient, and the overall health of the patient, with particular focus on renal function or the presence of any coagulopathies or thrombocytopenia. Dosages of hemin useful in the present invention can range from about 1 to about 5 mg/kg/day, and more preferably from about 1 to about 4 mg/kg/day.
- Hemin can be administered via a parenteral route, including intravenously or intraperitoneally.
- the choice of route of administration will depend upon factors considered by the attending physician, including accessibility of intravenous routes and need for rapid infusion of the hemin.
- the route of administration is intravenously.
- the route of administration is intraperitoneal. Without wishing to be bound by theory, it is thought that intraperitoneal administration actively and effectively recruits intraperitoneal macrophages that travel to the pancreas to provide prophylaxis and treatment of pancreatitis.
- CDllb/Mac-1 does not play a role in the migration of HO- 1+ cells to the pancreas and the increased cells seen with the treatment may reflect the rise in circulating monocytes.
- CCR2 may be important for trafficking of "protective" monocyte/macrophage into pancreas since in its absence potential "pro-inflammatory" leukocyte may have advantage over the "protective" monocyte/macrophage to migrate into the pancreas and cause injury.
- Hemin, vehicle and antibodies Hemin (Sigma; St. Louis, MO) was dissolved in 10% ammonium hydroxide in 0.15 M NaCl to prepare a stock solution of 100 mg/ml, then further diluted 1:40 with sterile 0.15 M NaCl and injected into mice (10 ⁇ l/g). Vehicle injected mice received an identical NH4OH-containing solution lacking hemin.
- the antibodies used were directed to: HO-I and HO-2 (StressGen; Victoria, Canada); vimentin, smooth muscle actin, and luciferase (NeoMarkers; Fremont, CA); allophycocyanin-conjugated Gr-I and Mac-1 (BD Pharmingen; San Diego, CA); and FTTC-conjugated F4/80 (Serotec; Raleigh, NC). Panhematin was obtained from Ovation Pharmaceuticals, Inc. (Deerfield IL).
- mice and pancreatitis models were housed under pathogen-free conditions and utilized in two established models of pancreatitis. Jensen, R.T., Lemp, G.F., and Gardner, J.D. 1980. Interaction of cholecystokinin with specific membrane receptors on pancreatic acinar cells. Proc. Natl. Acad. ScL U. S. A. 77:2079-2083; Lombardi, B., Estes, L.W., and Longnecker, D.S. 1975.
- Acute hemorrhagic pancreatitis with fat necrosis induced in mice by DL-ethionine fed with a choline-deficient diet.
- Simple epithelial keratins are dispensable for cytoprotection in two pancreatitis models.
- Organ-specific stress induces mouse pancreatic keratin overexpression in association with NF-kappaB activation. J. Cell ScL 117:1709-1719.
- age- and sex-matched mice were fasted for 12-16 h but allowed water ad libitum.
- mice then received seven hourly intraperitoneal injections of saline (control group) or 50 ⁇ g/kg caerulein (Research Plus; Bayonne, NJ) in saline, and were followed up to 12 h.
- saline control group
- caerulein Repsearch Plus; Bayonne, NJ
- CDD choline/methionine-deficient diet
- young female mice 15-19 g were fasted then fed CDD (Harlan Teklad; Madison WI) supplemented with 0.5% DL- ethionine (Sigma; St. Louis, MO) or normal chow (control group) for 3 d, then switched to normal diet for 1, 2 or 5 d.
- CDD choline/methionine-deficient diet
- RNA was isolated from pancreatic tissue using a commercial kit (TEL-TEST; Friendswood, TX). First strand cDNA was synthesized using oligo-dT primers and Superscript II reverse transcriptase (Invitrogen; Carlsbad, CA). Real-time quantitative PCR was performed with an ABI Prism 7900 Sequence Detection System (PE Biosystems; Foster City, CA) and established primers for MCP-I, MIP- l ⁇ , MIP-2, RANTES 1 and ⁇ -actin. Zhong, B., et al., /.
- Murine sclerodermatous graft- versus-host disease a model for human scleroderma: cutaneous cytokines, chemokines, and immune cell activation. /. Immunol. 168:3088-3098; Walzog, B., Weinmann, P., Jeblonski, F., Scharffetter-Kochanek, K., Bommert, K., and Gaehtgens, P. 1999.
- the luciferase-overexpressing transgenic mice (in an FVB/n background) and their nontransgenic counterparts [Cao, Y.A., Wagers, AJ., Beilhack, A., Dusich, J., Bachmann, M.H., Negrin, R.S., Weissman, I.L., and Contag, CH. 2004. Shifting foci of hematopoiesis during reconstitution from single stem cells.
- Proc. Natl. Acad. ScL U. S. A. 101:221-226 received 3 doses of hemin on days -5, -3, and -1.
- peritoneal cells were harvested and the Mac-1 cells were selected using Mac-1 (anti-CD 1 Ib) coated microbeads (Miltenyi Biotec; Auburn, CA). Lucif erase/Mac- 1 double-positive cells (2 x 10 ) were transferred i.p. to wild-type FVB/n mice pretreated a day earlier with one dose of hemin or vehicle in order to prime cellular homing. Bioluminescent in vivo images of the recipient mice were obtained 5 min and 24 h after cell transfer as described. Cao, Y. A., et al., Proc. Natl. Acad. ScL U. S. A. 101:221-226. Mice that were imaged 24 h after transfer were then killed followed by isolation of several organs for luciferase imaging and immunofluorescence staining.
- mice Hemin pretreated peritoneal cell transfer into CDD-fed mice.
- Peritoneal cells were harvested from hemin or vehicle pretreated (3 doses given every other day) young female Balb/c mice (15-19 g). Isolated cells were washed with PBS, and equivalent cells were transferred into naive Balb/c littermates i.p. followed by initiation of CDD feeding. Mice were sacrificed after 2.5 d of CDD feeding, followed by isolation of the pancreata (for histological and fluorescence staining) and blood. Serum was isolated from clotted blood followed by measurement of amylase and BUN using standard methods.
- HO-I siRNA and hemin pretreated cell transfer were injected i.p. every other day (3 total injections) with either saline or with two HO-I siRNA constructs (2 mg/kg body weight), or with a scrambled siRNA sequence. Hemin was injected in the intervening days (an additional 3 injections). After 7 days, peritoneal cells were harvested and analyzed by immunoblotting using antibodies to HO- 1/2.
- construct #2 Since significant inhibition of HO-I occurred with construct #2, construct #2 was used for subsequent transfer of peritoneal cells (pretreated with hemin + ⁇ scrambled siRNA or with hemin + HO-I siRNA) to naive recipient mice that were then fed CDD for 2.5 days followed by isolation of the pancreata.
- the siRNAs were synthesized by Dharmacon Research Inc. (Lafayette, CO) and tested previously. Zhang, X., Shan, P., Jiang, D., Noble, P. W., Abraham, N.G., Kappas, A., and Lee, PJ. 2004.
- RNA targeting heme oxygenase- 1 enhances ischemia-reperfusi on-induced lung apoptosis. J. Biol. Chem. 279: 10677-10684.
- the sense and antisense strands sequences of the two HO-I siRNA and nonspecific siRNA scrambled duplex were:
- mice Un-treated mice were compared with groups treated with panhematin via an intravenous or intraperitoneal route. Mice were also treated with anti-Mac-1 antibody either at the time of or Ih prior to treating with intraperitoneal panhematin. In addition, wild-type or CCR2 -/- mice were treated with either panhematin or vehicle. Western blot analysis and immunohistochemistry (IHC) were used to determine HO-I expression in the pancreas. Flow cytometric analysis (FACS) was used to phenotype peritoneal and blood leukocytes.
- IHC immunohistochemistry
- FACS Flow cytometric analysis
- panhematin Both intravenous and intraperitoneal administration of panhematin induce HO-I expression in the pancreas as early as 2 hours after administration.
- resident peritoneal macrophages F4/80hiCDllbhi
- EHC HO-1+ cells were identified in the pancreas in both intravenous and intraperitoneal treated groups as early as 4 hours and increased in numbers by 24 hours.
- mice were treated with anti-Mac-1 antibody at the time of panhematin administration (and especially given Ih prior) increased numbers of HO- 1+ cells were observed in the pancreas 4 hours later by EHC.
- panhematin treatment alone caused pancreatitis in CCR2-/- mice.
- Panhematin injected either intravenously or intraperitoneally induces HO-I within 2 hours and causes migration of HO-1+ cells into the pancreas.
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Priority Applications (5)
Application Number | Priority Date | Filing Date | Title |
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AU2006299502A AU2006299502A1 (en) | 2005-09-30 | 2006-10-02 | Method of treating pancreatitis |
MX2008004284A MX2008004284A (en) | 2005-09-30 | 2006-10-02 | Method of treating pancreatitis. |
CA002624467A CA2624467A1 (en) | 2005-09-30 | 2006-10-02 | Method of treating pancreatitis |
BRPI0616448-0A BRPI0616448A2 (en) | 2005-09-30 | 2006-10-02 | pancreatitis treatment and prophylaxis method, ho gene induction method and pancreatitis ex vivo treatment method |
EP06825362A EP1940425A4 (en) | 2005-09-30 | 2006-10-02 | Method of treating pancreatitis |
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US72228405P | 2005-09-30 | 2005-09-30 | |
US60/722,284 | 2005-09-30 |
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PCT/US2006/038509 WO2007041525A2 (en) | 2005-09-30 | 2006-10-02 | Method of treating pancreatitis |
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US (1) | US7745402B2 (en) |
EP (1) | EP1940425A4 (en) |
AU (1) | AU2006299502A1 (en) |
BR (1) | BRPI0616448A2 (en) |
CA (1) | CA2624467A1 (en) |
MX (1) | MX2008004284A (en) |
WO (1) | WO2007041525A2 (en) |
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CA2132690A1 (en) * | 1994-09-22 | 1996-03-23 | Dean Willis | Control and modulation of inflammatory response in humans in need of such control and modulation |
AU3673000A (en) * | 1999-04-16 | 2000-11-02 | Sumitomo Pharmaceuticals Company, Limited | Agents for ameliorating pancreatic function disorder |
MXPA04012863A (en) * | 2002-06-21 | 2005-03-31 | Univ Pittsburgh | Pharmaceutical use of nitric oxide, heme oxygenase-1 and products of heme degradation. |
EP1558084A4 (en) * | 2002-11-07 | 2008-04-30 | Univ Pittsburgh | Treatment for hemorrhagic shock |
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2006
- 2006-10-02 WO PCT/US2006/038509 patent/WO2007041525A2/en active Application Filing
- 2006-10-02 AU AU2006299502A patent/AU2006299502A1/en not_active Abandoned
- 2006-10-02 EP EP06825362A patent/EP1940425A4/en not_active Withdrawn
- 2006-10-02 CA CA002624467A patent/CA2624467A1/en not_active Abandoned
- 2006-10-02 BR BRPI0616448-0A patent/BRPI0616448A2/en not_active IP Right Cessation
- 2006-10-02 MX MX2008004284A patent/MX2008004284A/en not_active Application Discontinuation
- 2006-10-02 US US11/542,522 patent/US7745402B2/en active Active
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Also Published As
Publication number | Publication date |
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EP1940425A2 (en) | 2008-07-09 |
AU2006299502A1 (en) | 2007-04-12 |
US20070232525A1 (en) | 2007-10-04 |
US7745402B2 (en) | 2010-06-29 |
BRPI0616448A2 (en) | 2011-06-21 |
MX2008004284A (en) | 2008-10-23 |
EP1940425A4 (en) | 2010-02-03 |
WO2007041525A3 (en) | 2007-09-13 |
CA2624467A1 (en) | 2007-04-12 |
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