The Nova Cells Lifestyle

Ethical stem cells only: placental, umbilical cord, Wharton’s Jelly, bone marrow

Safety: Top notch.

Efficacy: Well established.

Pricing: Below market. No middlemen, marketers, brokers or PR people.

Contracted facilities: modern high-tech hospital near the US-Mexico border. Safe, secure.

NCIM doctor holding patient

Contracted healthcare professionals: MDs and RNs. MDs include internists, diagnosticians, traumatologists, and board certified specialists.

Stem cell treatments: Done mostly by intravenous (IV) means but intrathecal and local injections done if needed/required.

Unique to NCIM: Donor immune cell therapy for cancer; stem cell homing compound “The Beacon Factor“; others.

Support: Pre- and post- treatment support and follow-up.

NCInfodesk@gmail.com, 1-562-916-3410 (US information desk)

Quick read – NCIM Program

Nova Cells Institute of Mexico contracted MDs treat children and adults with umbilical cord blood stem cells and in some instances a patient’s own bone marrow stem cells. MDs who work with Nova Cells also administer its proprietary “Beacon Factor“, a nontoxic compound that greatly enhances stem cell homing, improves circulation, reduces inflammation, improves nerve signal transmission, and steps up the processing of intracellular “junk” by lysosomes (The cells “garbage disposal” system whose malfunctioning is linked to all kinds of neurodegenerative diseases and conditions).

Nova Cells uses only certifiably disease free umbilical cord stem cells and those from Wharton’s Jelly, and sometimes a patient’s own bone marrow stem cells, all of which are processed in Mexico in a state-of-the-art laboratory run by our firm’s director of laboratory services, Dr. Abel Pena (Photo above).

Dr. Pena, who is a biochemist, was trained by a leading US stem cell biologist and maintains the highest levels of safety and hygiene in his lab in Tijuana. In addition, he has pioneered numerous methods for priming stem cells; that is, getting them to respond to chemical signals in target tissues by becoming cells that tend to effect or support healing or relief. Stem cells primed using his methods have produced impressive, sometimes remarkable clinical responses in people with a wide variety of neurologic & other diseases and conditions.

CONTACT: NCIM

Phone: 1-562- 916-3410 E-mail: NCInfodesk@gmail.com

Wharton’s Jelly Stem Cells: safety & more

ADVANTAGES OF WHARTON’S JELLY STEM CELLS ESPECIALLY MESENCYMALS (Designated as WJ-MSC for convenience below) ESPECIALLY WITH RESPECT TO SAFETY

WJ HAS MORE STEM CELLS THAN EITHER BONE MARROW OR ADIPOSE TISSUE

The quantity of mesenchymal stem cells which can typically be obtained from bone marrow is far less than that Wharton’s Jelly: 0.001 to 0.01% mononuclear cells from BM, with 1 g of adipose tissue yielding ~ 5 × 10³ stem cells, and Wharton’s jelly 1 to 5 × 10⁴ cells/cm of umbilical cord. In side-by-side comparison studies of MSC from bone marrow adipose tissue and Wharton’s jelly, WJ-MSCs had the highest proliferative capacity.

WJ STEM CELLS ARE MORE PRIMITIVE THAN OTHER ADULT STEM CELL TYPES YET DO NOT PRODUCE TUMORS AND ACTUALLY HAVE ANTI-TUMOR EFFECTS IN VITRO (Lab dish) AND IN VIVO (In living animals & humans)  

WJ-MSC differ from other adult MSCs with respect to the fact they demonstrate far more primitive characteristics e.g., they express embryonic-like stem cell markers including  pluripotency genes, Oct-4, Nanog, and SOX-2 but at levels well below that of embryonic stem (ESC) cells. Despite this, WJ-MSCs do not form tumors (teratomas). This is attributed to the fact that WJ-MS’s have a lower expression of pluripotency genes than embryonic stem cells (ESCs being very pluripotent and by virtue of this are prone to develop teratomas when injected into animals or humans). When WJ-MSCs were injected in immunocompromised and immunodeficient animals they still failed to form tumors.

Also: WJ-MSCs express low levels of the embryonic stem cell pluripotency markers POUF1, NANOG, SOX2 and LIN28, which also plays a role in the fact they do not produce teratomas. WJ-MSCs also synthesize and express several cytokines including IL12A which is associated with the induction of apoptosis (programmed cell death) which is believed to underlie their ability to lyse (eradicate) tumor cells.

Furthermore, the transcriptome of WJ-MSC and ESC differs substantially in that WJ-MSCs demonstrate high expression levels of several tumor suppressor genes and suppresses tumors both in vitro and in vivo. Moreover, large quantities of tumor growth inhibiting cytokines and growth factors are secreted by WJ-MSCs. Also, WJ-MSC cell lysates as well as the conditioned medium they are cultured in strongly inhibited the growth of breast adenocarcinoma, ovarian carcinoma, osteosarcoma, benign neoplastic keloid cells, bladder tumor, and lymphoma cells  in vitro. When WJ-MSC cell lysates and conditioned medium were injected into mammary carcinoma, osteosarcoma, and pancreatic and lung tumors it inhibited their growth and shrank the tumors in vivo .

WJ-MSCs DO NOT CAUSE IMMUNE REJECTION OR ADVERSE REACTIONS  

WJ-MSCs have also been found to be immunoprivileged which is to say they escape rejection or adverse immune reactions. Part of the reason for this lies in the fact WJ-MSCs have low MHC-I levels and an absence of MHC-II expression. And, though they synthesize low amounts of MHC class I, WJ-MSCs have no immunogenicity. Research indicates that this is due to the fact they  do not express costimulatory molecules such as CD 40, CD80, CD86, and also produce high levels of immune response inhibitors such as indoleamine-2,3-dioxygenase (IDO), prostaglandin E2 (PGE2) and leukocyte antigen G6 (HLA-G6).

NOVA CELLS INSTITUTE HARVESTS & MAKES CLINICAL USE OF STEM CELLS ISOLATED FROM (UMBILICAL CORD) WHARTON’S JELLY CELLS: https://ncimx.wordpress.com/2015/03/15/whartons-jelly-stem-cells/

ADDITIONAL REFERENCES – NIH PubMed results (5-1-2016)

	Wharton’s Jelly-derived mesenchymal stem cells alleviate memory deficits and reduce amyloid-β deposition in an APP/PS1 transgenic mouse model.
	Xie ZH, Liu Z, Zhang XR, Yang H, Wei LF, Wang Y, Xu SL, Sun L, Lai C, Bi JZ, Wang XY.
	Clin Exp Med. 2016 Feb;16(1):89-98. doi: 10.1007/s10238-015-0375-0. Epub 2015 Jul 19.
	PMID: 26188488 [PubMed – in process]
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	Therapeutic influence of intraperitoneal injection of Wharton’s jelly-derived mesenchymal stem cells on oviduct function and fertility in rats with acute and chronic salpingitis.
	Luo HJ, Xiao XM, Zhou J, Wei W.
	Genet Mol Res. 2015 Apr 17;14(2):3606-17. doi: 10.4238/2015.April.17.10.
	PMID: 25966129 [PubMed – indexed for MEDLINE] Free Article
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	Effect of human Wharton’s jelly mesenchymal stem cell secretome on proliferation, apoptosis and drug resistance of lung cancer cells.
	Hendijani F, Javanmard ShH, Rafiee L, Sadeghi-Aliabadi H.
	Res Pharm Sci. 2015 Mar-Apr;10(2):134-42.
	PMID: 26487890 [PubMed] Free PMC Article
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	Preserved β-cell function in type 1 diabetes by mesenchymal stromal cells.
	Carlsson PO, Schwarcz E, Korsgren O, Le Blanc K.
	Diabetes. 2015 Feb;64(2):587-92. doi: 10.2337/db14-0656. Epub 2014 Sep 9.
	PMID: 25204974 [PubMed – indexed for MEDLINE] Free Article
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.	The Potential of Wharton’s Jelly Derived Mesenchymal Stem Cells in Treating Patients with Cystic Fibrosis.
	Boruczkowski D, Gładysz D, Demkow U, Pawelec K.
	Adv Exp Med Biol. 2015;833:23-9. doi: 10.1007/5584_2014_17. Review.
	PMID: 25248343 [PubMed – indexed for MEDLINE]
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	Wharton’s jelly derived mesenchymal stem cells: future of regenerative medicine? Recent findings and clinical significance.
	Kalaszczynska I, Ferdyn K.
	Biomed Res Int. 2015;2015:430847. doi: 10.1155/2015/430847. Epub 2015 Mar 15. Review.
	PMID: 25861624 [PubMed – indexed for MEDLINE] Free PMC Article
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	Undifferentiated Wharton’s Jelly Mesenchymal Stem Cell Transplantation Induces Insulin-Producing Cell Differentiation and Suppression of T-Cell-Mediated Autoimmunity in Nonobese Diabetic Mice.
	Tsai PJ, Wang HS, Lin GJ, Chou SC, Chu TH, Chuan WT, Lu YJ, Weng ZC, Su CH, Hsieh PS, Sytwu HK, Lin CH, Chen TH, Shyu JF.
	Cell Transplant. 2015;24(8):1555-70. doi: 10.3727/096368914X683016. Epub 2014 Jul 15.
	PMID: 25198179 [PubMed – in process]
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	Effects of Wharton’s jelly-derived mesenchymal stem cells on neonatal neutrophils.
	Khan I, Zhang L, Mohammed M, Archer FE, Abukharmah J, Yuan Z, Rizvi SS, Melek MG, Rabson AB, Shi Y, Weinberger B, Vetrano AM.
	J Inflamm Res. 2014 Dec 31;8:1-8. doi: 10.2147/JIR.S71987. eCollection 2015.
	PMID: 25678809 [PubMed] Free PMC Article
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	A comparison of Wharton’s jelly and cord blood as a source of mesenchymal stem cells for diabetes cell therapy.
	El-Demerdash RF, Hammad LN, Kamal MM, El Mesallamy HO.
	Regen Med. 2015;10(7):841-55. doi: 10.2217/rme.15.49. Epub 2015 Nov 6.
	PMID: 26541176 [PubMed – in process]
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.	Comparisons of Differentiation Potential in Human Mesenchymal Stem Cells from Wharton’s Jelly, Bone Marrow, and Pancreatic Tissues.
	Kao SY, Shyu JF, Wang HS, Lin CH, Su CH, Chen TH, Weng ZC, Tsai PJ.
	Stem Cells Int. 2015;2015:306158. doi: 10.1155/2015/306158. Epub 2015 Jul 29.
	PMID: 26294917 [PubMed] Free PMC Article
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.	Roles of the co-culture of human umbilical cord Wharton’s jelly-derived mesenchymal stem cells with rat pancreatic cells in the treatment of rats with diabetes mellitus.
	Wang G, Li Y, Wang Y, Dong Y, Wang FS, Ding Y, Kang Y, Xu X.
	Exp Ther Med. 2014 Nov;8(5):1389-1396. Epub 2014 Sep 22.
	PMID: 25289028 [PubMed] Free PMC Article
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	Comprehensive characterization of four different populations of human mesenchymal stem cells as regards their immune properties, proliferation and differentiation.
	Li X, Bai J, Ji X, Li R, Xuan Y, Wang Y.
	Int J Mol Med. 2014 Sep;34(3):695-704. doi: 10.3892/ijmm.2014.1821. Epub 2014 Jun 25.
	PMID: 24970492 [PubMed – indexed for MEDLINE] Free PMC Article
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	Safety and feasibility of umbilical cord mesenchymal stem cells in treatment-refractory systemic lupus erythematosus nephritis: time for a double-blind placebo-controlled trial to determine efficacy.
	Woodworth TG, Furst DE.
	Arthritis Res Ther. 2014 Jul 30;16(4):113. doi: 10.1186/ar4677.
	PMID: 25166210 [PubMed – indexed for MEDLINE] Free PMC Article
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	A preliminary evaluation of efficacy and safety of Wharton’s jelly mesenchymal stem cell transplantation in patients with type 2 diabetes mellitus.
	Liu X, Zheng P, Wang X, Dai G, Cheng H, Zhang Z, Hua R, Niu X, Shi J, An Y.
	Stem Cell Res Ther. 2014 Apr 23;5(2):57. doi: 10.1186/scrt446.
	PMID: 24759263 [PubMed – indexed for MEDLINE] Free PMC Article
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	Protein synthesis and secretion in human mesenchymal cells derived from bone marrow, adipose tissue and Wharton’s jelly.
	Amable PR, Teixeira MV, Carias RB, Granjeiro JM, Borojevic R.
	Stem Cell Res Ther. 2014 Apr 16;5(2):53. doi: 10.1186/scrt442.
	PMID: 24739658 [PubMed – indexed for MEDLINE] Free PMC Article
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	Therapeutic effect of transplanted human Wharton’s jelly stem cell-derived oligodendrocyte progenitor cells (hWJ-MSC-derived OPCs) in an animal model of multiple sclerosis.
	Mikaeili Agah E, Parivar K, Joghataei MT.
	Mol Neurobiol. 2014 Apr;49(2):625-32. doi: 10.1007/s12035-013-8543-2. Epub 2013 Aug 28.
	PMID: 23982748 [PubMed – indexed for MEDLINE]
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	Microvesicles derived from human Wharton’s Jelly mesenchymal stromal cells ameliorate renal ischemia-reperfusion injury in rats by suppressing CX3CL1.
	Zou X, Zhang G, Cheng Z, Yin D, Du T, Ju G, Miao S, Liu G, Lu M, Zhu Y.
	Stem Cell Res Ther. 2014 Mar 19;5(2):40. doi: 10.1186/scrt428.
	PMID: 24646750 [PubMed – indexed for MEDLINE] Free PMC Article
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.	Effect of combined therapy of human Wharton’s jelly-derived mesenchymal stem cells from umbilical cord with sitagliptin in type 2 diabetic rats.
	Hu J, Wang F, Sun R, Wang Z, Yu X, Wang L, Gao H, Zhao W, Yan S, Wang Y.
	Endocrine. 2014 Mar;45(2):279-87. doi: 10.1007/s12020-013-9984-0. Epub 2013 May 18.
	PMID: 23686639 [PubMed – indexed for MEDLINE]
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	Effect of human Wharton’s jelly mesenchymal stem cell paracrine signaling on keloid fibroblasts.
	Arno AI, Amini-Nik S, Blit PH, Al-Shehab M, Belo C, Herer E, Jeschke MG.
	Stem Cells Transl Med. 2014 Mar;3(3):299-307. doi: 10.5966/sctm.2013-0120. Epub 2014 Jan 16.
	PMID: 24436441 [PubMed – indexed for MEDLINE] Free PMC Article
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	Human Wharton’s jelly mesenchymal stem cells promote skin wound healing through paracrine signaling.
	Arno AI, Amini-Nik S, Blit PH, Al-Shehab M, Belo C, Herer E, Tien CH, Jeschke MG.
	Stem Cell Res Ther. 2014 Feb 24;5(1):28. doi: 10.1186/scrt417.
	PMID: 24564987 [PubMed – indexed for MEDLINE] Free PMC Article
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.	Characterization of hepatic markers in human Wharton’s Jelly-derived mesenchymal stem cells.
	Buyl K, De Kock J, Najar M, Lagneaux L, Branson S, Rogiers V, Vanhaecke T.
	Toxicol In Vitro. 2014 Feb;28(1):113-9. doi: 10.1016/j.tiv.2013.06.014. Epub 2013 Jun 29.
	PMID: 23820183 [PubMed – indexed for MEDLINE]
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	Human Wharton’s Jelly Mesenchymal Stem Cells plasticity augments scar-free skin wound healing with hair growth.
	Sabapathy V, Sundaram B, V M S, Mankuzhy P, Kumar S.
	PLoS One. 2014 Apr 15;9(4):e93726. doi: 10.1371/journal.pone.0093726. eCollection 2014.
	PMID: 24736473 [PubMed – indexed for MEDLINE] Free PMC Article
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	Stem cells from umbilical cord Wharton’s jelly from preterm birth have neuroglial differentiation potential.
	Messerli M, Wagner A, Sager R, Mueller M, Baumann M, Surbek DV, Schoeberlein A.
	Reprod Sci. 2013 Dec;20(12):1455-64. doi: 10.1177/1933719113488443. Epub 2013 May 13.
	PMID: 23670950 [PubMed – indexed for MEDLINE] Free PMC Article
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	Wharton’s jelly-derived mesenchymal stem cells promote myocardial regeneration and cardiac repair after miniswine acute myocardial infarction.
	Zhang W, Liu XC, Yang L, Zhu DL, Zhang YD, Chen Y, Zhang HY.
	Coron Artery Dis. 2013 Nov;24(7):549-58. doi: 10.1097/MCA.0b013e3283640f00.
	PMID: 23892469 [PubMed – indexed for MEDLINE]
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	Reduction of fibrosis in dibutyltin dichloride-induced chronic pancreatitis using rat umbilical mesenchymal stem cells from Wharton’s jelly.
	Zhou CH, Li ML, Qin AL, Lv SX, Wen-Tang, Zhu XY, Li LY, Dong Y, Hu CY, Hu DM, Wang SF.
	Pancreas. 2013 Nov;42(8):1291-302. doi: 10.1097/MPA.0b013e318296924e.
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	Human Wharton’s jelly-derived mesenchymal stromal cells reduce renal fibrosis through induction of native and foreign hepatocyte growth factor synthesis in injured tubular epithelial cells.
	Du T, Zou X, Cheng J, Wu S, Zhong L, Ju G, Zhu J, Liu G, Zhu Y, Xia S.
	Stem Cell Res Ther. 2013 Jun 4;4(3):59. doi: 10.1186/scrt215.
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	Higher propensity of Wharton’s jelly derived mesenchymal stromal cells towards neuronal lineage in comparison to those derived from adipose and bone marrow.
	Balasubramanian S, Thej C, Venugopal P, Priya N, Zakaria Z, Sundarraj S, Majumdar AS.
	Cell Biol Int. 2013 May;37(5):507-15. doi: 10.1002/cbin.10056. Epub 2013 Feb 18.
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	Immunosuppressive properties of mesenchymal stromal cells derived from amnion, placenta, Wharton’s jelly and umbilical cord.
	Manochantr S, U-pratya Y, Kheolamai P, Rojphisan S, Chayosumrit M, Tantrawatpan C, Supokawej A, Issaragrisil S.
	Intern Med J. 2013 Apr;43(4):430-9. doi: 10.1111/imj.12044.
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.	Mesenchymal stem cells derived from Wharton’s Jelly of the umbilical cord: biological properties and emerging clinical applications.
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	Curr Stem Cell Res Ther. 2013 Mar;8(2):144-55. Review.
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	Proangiogenic features of Wharton’s jelly-derived mesenchymal stromal/stem cells and their ability to form functional vessels.
	Choi M, Lee HS, Naidansaren P, Kim HK, O E, Cha JH, Ahn HY, Yang PI, Shin JC, Joe YA.
	Int J Biochem Cell Biol. 2013 Mar;45(3):560-70. doi: 10.1016/j.biocel.2012.12.001. Epub 2012 Dec 12.
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	Mesenchymal stem cells isolated from peripheral blood and umbilical cord Wharton’s jelly.
	Trivanović D, Kocić J, Mojsilović S, Krstić A, Ilić V, Djordjević IO, Santibanez JF, Jovcić G, Terzić M, Bugarski D.
	Srp Arh Celok Lek. 2013 Mar-Apr;141(3-4):178-86.
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	Wharton’s jelly or bone marrow mesenchymal stromal cells improve cardiac function following myocardial infarction for more than 32 weeks in a rat model: a preliminary report.
	López Y, Lutjemeier B, Seshareddy K, Trevino EM, Hageman KS, Musch TI, Borgarelli M, Weiss ML.
	Curr Stem Cell Res Ther. 2013 Jan;8(1):46-59.
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	Perspectives of employing mesenchymal stem cells from the Wharton’s jelly of the umbilical cord for peripheral nerve repair.
	Ribeiro J, Gartner A, Pereira T, Gomes R, Lopes MA, Gonçalves C, Varejão A, Luís AL, Maurício AC.
	Int Rev Neurobiol. 2013;108:79-120. doi: 10.1016/B978-0-12-410499-0.00004-6. Review.
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	Mesenchymal stem cells from human umbilical cord express preferentially secreted factors related to neuroprotection, neurogenesis, and angiogenesis.
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	PLoS One. 2013 Aug 22;8(8):e72604. doi: 10.1371/journal.pone.0072604. eCollection 2013.
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	Comparison of mesenchymal stem cells derived from fat, bone marrow, Wharton’s jelly, and umbilical cord blood for treating spinal cord injuries in dogs.
	Ryu HH, Kang BJ, Park SS, Kim Y, Sung GJ, Woo HM, Kim WH, Kweon OK.
	J Vet Med Sci. 2012 Dec;74(12):1617-30. Epub 2012 Aug 9.
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	Hydrogen peroxide preconditioning enhances the therapeutic efficacy of Wharton’s Jelly mesenchymal stem cells after myocardial infarction.
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	Chin Med J (Engl). 2012 Oct;125(19):3472-8.
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Stem cell homing = Better clinical outcomes

Stem cell homing makes a big difference in clinical outcomes. Watch this short video to learn more about how Nova Cells pulls this off.  

Nova Cells Institute gets stem cells to target tissues using its Beacon Factor. Learn more by getting our FREE e-book “Heroic Medicine” (Click to download). Read about our successful stem cell treatments for spina bifida, cancer, stroke, dementia, autoimmune diseases, and more. Get your FREE e-book “Heroic Medicine” now!

Arthritis & vertigo turnaround in 85 year old lady from Nevada (USA)

In later 2014 eight-five (85) year old Patricia Rodriguez went to Mexico to have her longstanding arthritis treated by Nova Cells Institute. During her one day stay she was given umbilical cord stem cells that had been primed to become cells that fight arthritis and promote healing and joint restoration, along with the Beacon Factor.

Upon her return stateside, the very next day Patricia noticed a surge of energy and strength upon walking. However, week after week   positive things of all kinds began surfacing. Her  daughter, Tina, summarized these for Nova Cells as follows:

She has incredible strength in comparison to what was true before (her treatment). She can walk all over Walmart and then when we went to a mall near her home she walked the entire length of it not once but twice, and was only a little tired when we got back to her house”, although, I was tired too.

Tina added, “She can get up from the rocking chair without my daughter having to pull her up.  And she can open a can of soda using a finger that could not bear doing this last year”. This was one month after her treatment.

“Also, …and this is the latest thing,…for 48 years Mom had incredibly bad vertigo if she laid on her right side which did not happen when she laid down on her left side. She often said her vertigo was like having the room spin at one hundred miles per hour. Naturally when she slept she made every effort to sleep on her right side. Then last week she woke up on her right side and was absolutely shocked to find she had no vertigo. It has not returned!”

Four months after her treatment she had no arthritis pain, in her hands and right arm, whatsoever.

“Mom was also always afraid of losing her balance. She never fell, but she felt that she might one day do so. She would instinctively grab the rail to go up the stairs in her home and also in mine, and then slowly, cautiously take one step at  a time. She would hold onto the rail and moving up it by taking one step and at the same time moving her left hand over the right hand. She never would let one hand go until she had the other on the rail.”

“Now 5 months after her stem cell treatment she goes up the 15 stair staircase without holding onto anything.”

Nova Cells Institute Mexico offers free case evaluations: 

Call 1-562-916-3410

Email NCInfodesk@gmail.com

Dreaming for Dryden: Facebook Community Page Update with photos!

https://www.facebook.com/DreamingForDryden

https://ncimx.wordpress.com/?s=Dryden

Many “giant steps” for Dani

Danielle “Dani” Smith was born in September 2006 with spina bifida in which her spinal cord did not completely form and resulted in partial paralysis from the waist down (Myelomeningocele). Since then this brave little girl has had five major operations including one to place her spinal cord back in her body, three brain surgeries, and double eye surgery. She then did two stem cell treatments and has undergone lots of physical therapy. And, during June 2013 she was treated in Mexico by Nova Cells using primed stem cells and its Beacon Factor. This treatment and Dani’s responses are reflected in this news release from October 2013: http://www.24-7pressrelease.com/pdf/2013/10/05/press_release_364003.pdf

Dani has made many gains during the year since that news release was published including, most recently, something captured by her mother in a short video. This clip was inserted in an animated video which can be accessed by going to https://www.youtube.com/watch?v=RUBvyFt0Vm4#t=109 or click the screen image below,

 

 

Facebook video & written update by Kara Underwood on her son, Bryson

Kara Underwood

Walking on the treadmill for the first time in his life! He’s in a harnessing system and only has braces from the knees down! We were told he would NEVER in his lifetime do this! All I have to say to every doctor that said NO and he CAN’T and he NEVER WILL is this…….we serve an awesome mighty God who says my son WILL WALK! He promises healing to all who ask for it as we receive it for our son in the name of Jesus!

Hayden’s Journey: 2 months after his NCIM stem cell treatment (Patient blogsite)

http://haydentrigg.blogspot.com/2014/08/two-months-post-stem-cell-treatment.html?spref=fb

Ryan Weber (Anoxic Brain Injury): Improvements began surfacing right after his treatment!

To Grace & All The Nova Cells Family:

Sorry for not getting back to you sooner but it has been crazy busy. Mexico was great, nothing we imagined. The hospital where Ryan received his Stem Cell Treatment was so clean and I have been in many different hospitals here in the United States that was not as clean. We enjoyed the Mexican food as it was so flavorful. It made me sad to leave.

Ryan’s Stem Cell treatment was a great success! We noticed a huge difference in his muscle tone when they brought him back from the O.R. I cried when I first picked Ryan up because it was like holding a different kid. Ryan’s muscle tone is completely relaxed. Ryan has started back up with his outpatient physical therapy, warm water therapy and his massage appointments. His therapist were shocked at the difference in his muscle tone. Ryan has more control over his muscles.

Some of the things Ryan has done since his Stem Cell Treatment that he was not able to do before hand include:

HEAD CONTROL -He holds his head in a neutral position now and freely moves it to the left and right to look around. Before Stem Cells, Ryan would either have it tilted to one side or the other or front or back.

Picture taken the day after Ryan’s treatment at the San Diego Zoo. Look at how his arms are more bend, his legs are bend, head in right position. Ryan is actually sitting on the tusk.

HANDS – Ryan is able to open and close his hands freely. He regained the infant grasp reflex. With this he is able to reach out and grab items. Last night (8/26/14), he reached up and grabbed his Dad’s glasses and the later in the night he reached up and grabbed a handful of my hair. Before Stem Cells, Ryan kept his hands closed in a tight fist.

Picture of Ryan’s hands after his Stem Cell treatment

ARMS – Ryan actually is able to control both his arms equally. He is able to bend both elbows at his choice. Ryan is able to control his arms to reach to get items he wants. He still favors the left arm over the right but he was left handed dominant. Before Stem Cells, Ryan did have minimal control over the left arm and no control over the right arm.

Rick and Ryan at the beach before Ryan’s Stem cell treatment. Look at the stiff straight arms and tight closed fist hands

TRUNK (TORSO) – Ryan is able to sit in upright position on our lap with little help. When Ryan sits his chest and belly are straighter. Before Stem Cells, Ryan sat on our lap and needed a lot of help to stay in upright position and usually was tilted to one side or the other.

LEGS – Ryan legs are able to bend at the knees. He is able to control them better alternating them to walk in his walker and today walked in the pool with very little help by himself without a walker. When Ryan sits on our laps Ryan will bend his knees and sit like any other “scientifically Normal” child. When he lays on the floor he will pick up his legs to reposition them. Before Stem Cells, Ryan legs were mainly in a locked straight position. It was a battle to have him sit on our lap, put him in his car seat or in anything that required him to be in a bend position. He would walk in his walker but his body looked like an “S”.

MENTAL – Ryan is happier; he smiles and laughs more. I credit the Stem Cells as he is not always having to deal with very tight muscle which were probably really sore. When Ryan looks at you, he just smiles like he can actually see us clearly. Before he recognized the important people like his siblings, Grandparents and us as his parents but since his Stem Cell treatment-couple of our friends have talked to Ryan and this time Ryan interacted with them.

Most of Ryan’s improvements have been “small” but when you put all the small pieces together it makes for a huge improvement. It’s the little things that matter. I have to tell you a story about our day before we were picked up to go to Mexico.

We were all around and waiting for the phone call to tell us you were on your way. We were sitting outside at the patio set when I opened my pictures in my Phone to find the Creative Miracle Prayer I wanted to say before Ryan’s Stem Cell treatment. My phone usually opens to the last picture taken but that day when I opened my pictures, I started to cry because it automatically opened to a picture of Rick holding Ryan the day he was born back on 12/17/09 (See below). Rick asked what was wrong and I turned my phone to show him the picture that popped up and his jaw dropped. This is the picture that popped up.

I took that as a sign from above that Ryan would be born again. With all of Ryan’s improvements that is exactly what happened! We cannot thank you all enough for making this miracle happen for Ryan. I will send pictures in another email with little explanations of them. Just wanted to get this email of Ryan’s improvements to you. You may share this with everyone and if they want to follow Ryan his Facebook page is www.facebook.com/littlewarriorryan.

Thank you for giving us our little boy back! Lots of love.

Gina & Rick Weber