They Are Happier. They Are In Less Pain: Butler Co. Vet Uses Stem Cell Therapy To Help Heal Dogs – CBS Pittsburgh

PITTSBURGH (KDKA) Dr. Mike Hutchinson, DVM performed his first stem cell procedure in 2008. Nearly 12 years later, he can tell you all about his first case.

It was a lab mix. It couldnt get up on this floor. We tried to help it up, and it was having trouble walking so we treated it, says Hutchinson.

Fourteen days later, it came for suture removal, and it was already walking in here. He even put his front feet on the table.

Based on early success stories like that, KDKA-TV featured a 10-year-old German Shepherd named Angel.

When we met her, Angel limped noticeably from arthritis in her hips. After stem cell treatment, the dogs owner Jane Fornear says her beloved pet looked like a new dog.

Within 48 hours, her eyes were clear, explained Fornear.

She had Angel show us how much better she felt: she asked the big shepherd to sit in front of her, then told Angel, Give me your paw.

WATCH: Angels Journey To Recovery

Angel immediately lifted her right paw and put in in Fornears waiting hand about 3 feet off the ground.

Jane released the paw and said, Give me your other paw. Just as quickly, Angel lifted her left front paw off the ground and put it in Fornears other hand.

You could almost hear the tears building in Fornears voice as she petted her dogs face and ears. We couldnt give our paw before because our arms and legs hurt too much, didnt they?

Fast forward to 2014. Panzer is a large breed mix who tore the anterior cruciate ligament in one of his legs.

Dr. Mike told Panzers owner the dog would be a great candidate to use injected stem cells to help speed healing in the joint.

Sharon Germain remembers that conversation like it just happened: I just sat there going really? And I said anything to make things heal better and make him feel better. I was on board immediately.

Seven months after having the ACL repair surgery with stem cells, KDKA was there with Sharon watching Panzer tear through the November snow in Germains backyard like a hyperactive puppy.

Seeing is believing. Its just Germain paused and then let out a big sigh. It just does your heart good to see this. Germain was fully convinced it had worked for her dog.

Since those early surgeries, Hutchinson has never stopped talking about using stem cells to treat animals that are in pain.

In 2015, he told KDKA, Its just rewarding to hear from grateful pet owners over and over and over, said the Ohio State Vet School graduate. Its why I do it.

Panzer lived four years after his initial stem cell treatment. Germain said he never slowed down because his pain was gone.

It was like nothing ever happened to him. It was like he never even had surgery, says Germain. I mean, outside of a little white hair where the surgery incision was made, that was it.

Many other animals have had similar results. Hutchinson has now given stem cells to more than 1,100 animals. Many of the pets are dogs, but he has also worked with race horses as well as racing camels in the Middle East.

WATCH: Panzers Experience With Stem Cells

He has lectured and scrubbed in on stem cell surgeries around the world, Canada, South America, Australia, and across the United States.

Yet the majority of the surgeries are done at his Animal General veterinary practice in Cranberry, Butler County everyday pets like Baxter who had not one, but two torn ACLs.

They were both completely severed, explained Baxters owner Nicole Mountain of OHara Township.

He had no mobility. He had no use of his back legs. My husband Jeff was carrying him outside to use the bathroom.

Baxter is a not a little dog. He is a 95 pound Staffordshire-terrier mix. He tore those knee ligaments in 2014.

Another orthopedic vet repaired the injured joints with a procedure called PTLO surgery. It involved putting metal plates in his back legs. The Mountains were warned that it would be a long and painful recovery for their dog and for them.

(Photo Credit: KDKA)

Mountain agrees saying it was every bit as bad as they warned and then some.

Baxter was moaning in pain, Mountain says. He was pumped up with so much pain medication he was vomiting. He couldnt hold food down. He couldnt move.

Eighteen months later, Baxter was mostly healed from the surgeries, but he was still in significant pain. That is when the Mountains learned of Dr. Hutchinsons use of stem cells.

Nicole was ready to go from the moment she heard about the procedure. Her husband Jeff wasnt exactly sold.

Ill be honest, when Nicole sent us out there, I thought it was crazy. You know, I honestly did, said Jeff Mountain. I said youre sending us to this Voodoo doctor to do this stem cell treatment. I said, Where is it going to stop?'

Mountain had lived through the ordeal of helping Baxter heal from his ligament problems.

My husband was calling from Samsonite because we had one of those Help-Me harnesses, and he was lifting him up and carrying him out like luggage.

When they heard about how other dogs had been helped by stem cells, they decided to give it a try. Dr. Hutchinson recalls the conversation with the Mountains at their initial consultation.

They wanted to know if the stem cells would help the arthritis, and I said thats exactly what I would treat it with. That would be my gold therapy for that so we did that, and that had a very positive response as well. Then we were able to bank some of those cells for the future, recalls Hutchinson.

It didnt take long for the Mountains to see that Baxter was visibly better.

Within about a month, we started to really see him jumping up on counters for treats, said Jeff Mountain. You know, when we went out to walk him, he is back to running.

Mountain said that wasnt the only change she noticed.

He had this almost it sounds almost funny to say he looked very white, she paused to think. It was almost like his eyes were brighter. He was just a brighter dog. He just looked like, there was a visible difference in him.

Dr. Mike has heard it all many times.

People say it looks like their dogs are younger because their eyes are brighter. They are happier. They are in less pain, and thats a great reward for stem cells, explains Dr. Mike.

One of prospective patients first questions is often how much will it cost? When Hutchinson started, each procedure ran about $3,200. Now it has come down to about $1,800.

It can be less than that. The Mountains have a pet insurance on Baxter, and the stem cell therapy was covered by their policy.

I thought it was cost effective too, reflected Jeff Mountain, compared to other things that weve spent money on for surgeries and treatments for the dogs.

Lets go back to Panzer, Sharon Germains beloved dog. He lived nearly four years after surgery, before dying about a year ago. In retrospect knowing what she knows now, would she spend the out-of-pocket money to do stem cell treatment again on her dog?

Absolutely. Absolutely. The best money spent. Without hesitation, says Germain.

The next question: would you do it again for another dog?

Germain didnt even flinch. Absolutely. I would do it again for me.

She knows all about that too. After seeing how well it worked for her dog, she had stem cells injected into her chronically painful knee. Like her dog, she says her pain was gone in a matter of days, and it hasnt come back.

Dr. Hutchinson stresses stem cells are not a cure-all. They cant be used for every ailment, and Hutchinson says that in every lecture he does on stem cells.

I think its incumbent upon all my colleagues to be ethical and pick the right cases, says Hutchinson.

Its not a panacea. Its for certain cases. Neurological dogs, dogs that are falling over, they have nerve damage. Yeah, there might be a stem cell compassionate use for that and that might be able to help that dog, but Im not going to pretend like thats the common case.

How long do they last?

On average, it doesnt last a lifetime and it lasts maybe a year, a year and a half.

Hutchinson stopped for a second, then continued, But thats huge in a dogs life. They have a short life expectancy. So, if we get a year to year-and-a-half of comfort and pain-free time, thats fantastic. Then we can come back and re-treat them, and expect the similar response when we re-treat them.

Baxters mom Nicole Mountain agrees wholeheartedly that his quality of life is much better than it was before stem cells.

He does not get pain medication. He does not get anti-inflammatories, she claims.

He doesnt take anything thats keeping him comfortable. So for us to have something natural that will last ten, eleven months and then we do again, were thrilled with that.

Dr. Mike harvested enough cells from the original procedure on Baxter that they froze enough for multiple follow-up treatments. Because of that foresight, all they have to do is inject the thawed stem cells into Baxter. Those tune-ups cost about $200 per treatment.

Hutchinson cant say enough about what he has learned since his first stem cell surgery in 2008.

I want to do this every day in my practice because Ive been a vet for a long time, 30 plus years, and when you see the kind of results that were seeing, you know it cant be denied that any veterinarian would want to do what Im doing.

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They Are Happier. They Are In Less Pain: Butler Co. Vet Uses Stem Cell Therapy To Help Heal Dogs - CBS Pittsburgh

Arthritis Treatment: One Royal Is Promoting A Certain Kind Of Treatment – International Business Times

KEY POINTS

Arthritis is one of the most painful diseases around. Patients would often be taking pain relievers just to combat pain. There are those who seek doctors and are given over-the-counter medications, and there are also those who go the natural means. One royal is promoting a certain kind of treatment, and while the said treatment may have been dubbed as a controversial one, health experts say that it might just help.

The Use of Stem Cells

Stem cell treatment may be the next big thing when it comes to treating arthritis. As per Express report, a lot of doctors have already started using stem cell therapy to treat the debilitating disease. Although it is not considered as a standard practice, with many calling the treatment as controversial, it would seem that more people are going this way. stem cell treatment arthritis Photo: darkostojanovic - Pixabay

This type of treatment reduces inflammation in the body. When inflammation is kept at bay, pain is likewise reduced, allowing patients to suffer less from the disease. This kind of therapy helps in increasing the number of healthy cells.

The Royal Princess

According to the report of Express, Princess Michael of Kent, the wife of Prince Michael, who is the Queens cousin, recently appeared in an ad. In the said promotional video, the Princess was showing her right arm, signifying that stem cells are the future.

She had stem cell injections for the painful shoulder. The video was for a clinic in the Bahamas that offers the arthritis stem cell treatment.

Stem Cell and Arthritis

Researchers are still looking for ways on how to use stem cells to regenerate tissues and to control inflammation. The mesenchymal stem cells (MSCs) are the types of stem cells that develop into cartilage and bone. This has shown great promise in treating arthritis.

Despite the positive responses that the treatment has, there are still those who doubt it and would consider it as controversial. As for those who have benefited from the treatment, maybe stem cells did wonders for them. It could be an avenue for those who are still looking for effective arthritis treatment.

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Arthritis Treatment: One Royal Is Promoting A Certain Kind Of Treatment - International Business Times

Orchard Therapeutics Announces Presentation of Clinical Data from Neurometabolic Franchise at 16th Annual WORLD Symposium – Yahoo Finance

BOSTON and LONDON, Feb. 10, 2020 (GLOBE NEWSWIRE) -- Orchard Therapeutics (ORTX), a global gene therapy leader, today announced upcoming presentations from its neurometabolic franchise at the 16th Annual WORLD Symposium on February 10-13 in Orlando, FL. Accepted abstracts include encore clinical presentations for OTL-200 and emerging data quantifying metachromatic leukodystrophy (MLD) caregiver-reported quality of life experiences, as well as clinical data for investigational treatments in mucopolysaccharidosis type I (MPS-I) and mucopolysaccharidosis type IIIA (MPS-IIIA).

Neurometabolic disorders such as MLD can have a devastating, lifelong impact, not only on children but on their caregivers, support systems and the broader community, said Mark Rothera, president and chief executive officer of Orchard. We look forward to showcasing both real-world and clinical study data from our neurometabolic portfolio at the upcoming WORLD Symposium as we strive to bring about a brighter future for all those affected by rare disease.

The presentations are listed below and the full preliminary program is available online at the conference website.

Oral presentation details:

Case report of the first patient treated with ex-vivo autologous haematopoietic stem cell gene therapy transplant in mucopolysaccharidosis type IIIA*Presenter: Jane Kinsella, Royal Manchester Childrens HospitalSession: Translational Research IIDate: Wednesday, February 12Time: 9:15-9:30 a.m. ET

Lentiviral hematopoietic stem and progenitor cell gene therapy (HSPC-GT) for metachromatic leukodystrophy (MLD): Clinical outcomes from 33 patientsPresenter: Francesca Fumagalli, San Raffaele Telethon Institute for Gene TherapySession: Clinical Trials II: Clinical OutcomesDate: Thursday, February 13Time: 8:15-8:30 a.m. ET

Poster presentation details:

Lentiviral hematopoietic stem and progenitor cell gene therapy (HSPC-GT) for metachromatic leukodystrophy (MLD): Clinical outcomes from 33 patientsPoster abstract #: P126Presenter: Francesca Fumagalli, San Raffaele Telethon Institute for Gene TherapySession: Poster Reception (Exhibit Hall)Date: Monday, February 10Time: 4:30-6:30 p.m. ET

Caregiver-reported impact on quality of life and disease burden in patients diagnosed with metachromatic leukodystrophy: Results of an online survey and a qualitative interviewPoster abstract #: P320Presenter: Francis Pang, Orchard TherapeuticsSession: Poster Reception (Exhibit Hall)Date: Tuesday, February 11Time: 4:30-6:30 p.m. ET

Extensive metabolic correction of mucopolysaccharidosis type I (MPS IH, Hurler syndrome) by hematopoietic stem and progenitor cell (HSPC) based gene therapy (GT): Preliminary results from a phase I/II trialPoster abstract #: LB-15Presenter: Francesca Tucci, San Raffaele Telethon Institute for Gene TherapySession: Poster Reception (Exhibit Hall)Date: Wednesday, February 12Time: 4:30-6:30 p.m. ET

About OrchardOrchard Therapeutics is a global gene therapy leader dedicated to transforming the lives of people affected by rare diseases through the development of innovative, potentially curative gene therapies. Our ex vivo autologous gene therapy approach harnesses the power of genetically-modified blood stem cells and seeks to correct the underlying cause of disease in a single administration. The company has one of the deepest gene therapy product candidate pipelines in the industry and is advancing seven clinical-stage programs across multiple therapeutic areas, including inherited neurometabolic disorders, primary immune deficiencies and blood disorders, where the disease burden on children, families and caregivers is immense and current treatment options are limited or do not exist.

Orchard has its global headquarters in London and U.S. headquarters in Boston. For more information, please visit http://www.orchard-tx.com, and follow us on Twitter and LinkedIn.

Forward-Looking StatementsThis press release contains certain forward-looking statements about Orchards strategy, future plans and prospects, which are made pursuant to the safe harbor provisions of the Private Securities Litigation Reform Act of 1995. Such forward-looking statements may be identified by words such as anticipates, believes, expects, plans, intends, projects, and future or similar expressions that are intended to identify forward-looking statements. Forward-looking statements include express or implied statements relating to, among other things, the therapeutic potential of Orchards product candidates, including the product candidate or candidates referred to in this release, Orchards expectations regarding the timing of regulatory submissions for approval of its product candidates, including the product candidate or candidates referred to in this release, the timing of interactions with regulators and regulatory submissions related to ongoing and new clinical trials for its product candidates, the timing of announcement of clinical data for its product candidates and the likelihood that such data will be positive and support further clinical development and regulatory approval of these product candidates, and the likelihood of approval of such product candidates by the applicable regulatory authorities. These statements are neither promises nor guarantees and are subject to a variety of risks and uncertainties, many of which are beyond Orchards control, which could cause actual results to differ materially from those contemplated in these forward-looking statements. In particular, the risks and uncertainties include, without limitation: the risk that any one or more of Orchards product candidates, including the product candidate or candidates referred to in this release, will not be approved, successfully developed or commercialized, the risk of cessation or delay of any of Orchards ongoing or planned clinical trials, the risk that prior results, such as signals of safety, activity or durability of effect, observed from preclinical studies or clinical trials will not be replicated or will not continue in ongoing or future studies or trials involving Orchards product candidates, the delay of any of Orchards regulatory submissions, the failure to obtain marketing approval from the applicable regulatory authorities for any of Orchards product candidates, the receipt of restricted marketing approvals, and the risk of delays in Orchards ability to commercialize its product candidates, if approved. Given these uncertainties, the reader is advised not to place any undue reliance on such forward-looking statements.

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Other risks and uncertainties faced by Orchard include those identified under the heading "Risk Factors" in Orchards annual report on Form 20-F for the year ended December 31, 2018, as filed with the U.S. Securities and Exchange Commission (SEC) on March 22, 2019, as well as subsequent filings and reports filed with the SEC. The forward-looking statements contained in this press release reflect Orchards views as of the date hereof, and Orchard does not assume and specifically disclaims any obligation to publicly update or revise any forward-looking statements, whether as a result of new information, future events or otherwise, except as may be required by law.

Contacts

InvestorsRenee LeckDirector, Investor Relations+1 862-242-0764Renee.Leck@orchard-tx.com

MediaMolly CameronManager, Corporate Communications+1 978-339-3378media@orchard-tx.com

Source: Orchard Therapeutics (Europe) Limited

*Patient was treated by the Royal Manchester Childrens Hospital (RMCH) under a Specials license, granted by the UK government for the use of an unlicensed pharmaceutical product in situations of high unmet need when there is no other treatment option available. Orchard holds the license to the MPS-IIIA investigational gene therapy product (OTL-201) and is funding the proof-of-concept clinical trial being conducted at RMCH, which utilizes the same technology and procedures that were used to treat this first MPS-IIIA patient.

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Orchard Therapeutics Announces Presentation of Clinical Data from Neurometabolic Franchise at 16th Annual WORLD Symposium - Yahoo Finance

AVROBIO Presents Positive Initial Data for its Investigational Cystinosis Program and Plato TM Platform, as well as Positive Data Out to 32 Months for…

CAMBRIDGE, Mass.--(BUSINESS WIRE)--AVROBIO, Inc. (NASDAQ: AVRO), a leading clinical-stage gene therapy company with a mission to free people from a lifetime of genetic disease, today announced new initial data from the first patient dosed in the investigational gene therapy program for cystinosis, showing improvements in early measures at three months compared to baseline. The company also unveiled new clinical data showcasing a sustained biomarker response in patients for up to 32 months after receiving the companys investigational gene therapy for Fabry disease across metrics including vector copy number (VCN), substrate levels and enzyme activity. Additionally, the company reported on the clinical debut of its platoTM gene therapy platform. These data showed improved enzyme activity, transduction efficiency and VCN in drug product manufactured using plato compared with drug product produced using the academic platform, as well as higher in vivo enzyme activity at one month in the first patient treated with plato, as compared to other patients treated using the academic platform. All these data will be presented today, during the 16th Annual WORLDSymposiumTM in Orlando, Fla.

We have now dosed 10 patients across three trials for two lysosomal disorders and were delighted with the data were seeing. We have followed six patients in our Fabry trial for more than a year and one for nearly three years, and they are consistently producing the functional enzyme that was missing as a consequence of their genetic disease, suggesting a potentially durable effect from a single dose, said Geoff MacKay, AVROBIOs president and CEO. Furthermore, we believe that early data from the first clinical application of plato support our decision to invest heavily from AVROBIO's earliest days in this state-of-the-art gene therapy platform. We believe these data collectively indicate that were making exciting progress toward our goal of freeing patients and families from the life-limiting symptoms and relentless progression of lysosomal disorders.

Three-month data from first patient in investigational AVR-RD-04 trial in cystinosisAVROBIO reported initial data from the first patient dosed in the investigator-sponsored Phase 1/2 trial of the companys AVR-RD-04 investigational gene therapy for cystinosis, a progressive disease marked by the accumulation of cystine crystals in cellular organelles known as lysosomes. Patients with cystinosis accumulate the amino acid cystine, which can lead to crystal formation in the lysosomes of cells, causing debilitating symptoms including corneal damage, difficulty breathing and kidney failure, often leading to a shortened lifespan. The current standard of care for cystinosis, a burdensome treatment regimen that can amount to dozens of pills a day, may not prevent overall progression of the disease.

As of the safety data cut-off date of Jan. 27, 2020, which was approximately three months following administration of the investigational gene therapy to the first patient in the AVR-RD-04 program, there have been no reports of safety events attributed to the investigational drug product. In addition, no serious adverse events (SAEs) have been reported as of the safety data cut-off date. Adverse events did not suggest any unexpected safety signals or trends.

Three months following administration of AVR-RD-04, the first patient had a VCN of 2.0. VCN measures the average number of copies of the lentiviral-vector inserted transgene integrated into the genome of a cell and can be used to help assess the durability of a gene therapy. Initial data on another biomarker show that the patients average granulocyte cystine level -- one of the trials primary endpoints -- decreased from 7.8 nmol half cystine/mg protein two weeks after cysteamine discontinuation, to 1.5 at three months post-gene therapy.

The ongoing open-label, single-arm Phase 1/2 clinical trial evaluating the safety and efficacy of AVR-RD-04 is sponsored by AVROBIOs academic collaborators at the University of California San Diego (UCSD), led by Stephanie Cherqui, Ph.D. The trial is actively enrolling up to six participants at UCSD.

Interim data continue to support potential first line use of AVR-RD-01 in Fabry diseaseFour patients have been dosed in the Phase 2 trial (FAB-201), and five patients in the Phase 1 investigator-led trial of AVR-RD-01 in Fabry disease.

VCN data continue to be stable at 32 months following AVR-RD-01 treatment for the first patient in the Phase 1 trial, suggesting successful engraftment, which is critical to the long-term success of investigational ex vivo lentiviral gene therapies. The VCN data trend was generally consistent across the seven other Phase 1 and Phase 2 trial participants out six to 24 months.

The first three AVR-RD-01 Phase 2 patients entered the study with minimal endogenous enzyme activity. At nine, 12 and 18 months after dosing, data from these three patients indicate sustained increased leukocyte and plasma enzyme activity, suggesting that they are now producing an endogenous supply of functional alpha-galactosidase (AGA) enzyme. This enzyme is essential for breaking down globotriaosylceramide (Gb3) in cells; without it, a toxic metabolite, lyso-Gb3, may accumulate, potentially causing cardiac and kidney damage and other symptoms.

For two Phase 2 patients, data indicate that their decreased plasma lyso-Gb3 levels, a key biomarker for monitoring Fabry disease, have been sustained below their baseline at six and 18 months after dosing. The third Phase 2 patient, a cardiac variant who does not have classic Fabry disease, did not show a decrease in plasma lyso-Gb3 levels, as expected. Cardiac and kidney function measures in the Phase 2 trial remained within normal range for patients who had available 12-month data.

As previously reported, a kidney biopsy taken at 12 months post-treatment for the first patient in the Phase 2 trial showed an 87-percent reduction in Gb3 inclusions per peritubular capillary. The company believes this data point, the primary efficacy endpoint for the Phase 2 trial, supports the potential of AVR-RD-01 to reduce Gb3 levels in tissue, including in the kidney.

In the Phase 1 trial of AVR-RD-01, four of the five patients had their plasma lyso-Gb3 levels reduced between 26 and 47 percent compared to their pre-treatment baseline levels. Data from the other patient in the trial, who remains off enzyme replacement therapy (ERT), through month six showed an initial decline and at month 12 showed a 23-percent increase in lyso-Gb3 levels, as compared to pre-treatment levels. This patients lyso-Gb3 levels remain within the range for the Fabry disease patients on ERT observed in this study.

Overall, three of the five Phase 1 patients have discontinued ERT and all three remain off ERT for six, 14 and 15 months.

As of the safety data cut-off date of Nov. 26, 2019, there have been no safety events attributed to AVR-RD-01 drug product in either the Phase 1 or Phase 2 trial. Through the safety data cut-off date, four SAEs have been reported in the FAB-201 trial and two SAEs in the Phase 1 trial. The fourth Phase 2 patient, who was dosed after the safety data cut-off date, has reported an SAE, which was not attributed to AVR-RD-01 and which subsequently resolved. Across both studies, each of the SAEs has been consistent with the conditioning regimen, stem cell mobilization, underlying disease or pre-existing conditions. Pre-existing low anti-AGA antibody titers have been detected in four patients in the Phase 1 trial and a transient low titer was observed but not detectable in subsequent measures in one patient in the Phase 2 trial.

The Phase 1 trial is fully enrolled. AVROBIO continues to actively enroll the Phase 2 trial in Australia, Canada and the U.S. The FAB-201 trial is an ongoing open-label, single-arm Phase 2 clinical trial evaluating the efficacy and safety of AVR-RD-01 in eight to 12 treatment-nave patients with Fabry disease.

Successful clinical debut of platoTM gene therapy platformAVROBIO also shared preliminary results from the first two patients to receive busulfan conditioning. Conditioning is an essential step in ex vivo lentiviral gene therapy designed to clear space in the bone marrow for the cells carrying the therapeutic transgene to engraft. The conditioning regimen developed as part of AVROBIOs plato platform includes therapeutic dose monitoring to assess how rapidly the individual patient metabolizes busulfan so physicians can adjust the dose as needed, with a goal of minimizing side effects while maximizing the potential of durable engraftment.

AVROBIO is implementing its precision dosing conditioning regimen across its company-sponsored clinical trials as part of the plato platform. The fourth patient in AVROBIOs Phase 2 Fabry trial received a precision dosing conditioning regimen with busulfan as part of the plato platform, while the first patient in the investigator-led cystinosis trial received busulfan but not as part of the plato platform.

These two patients both had rapid neutrophil and platelet count recovery, with a trajectory that was similar to the patients who enrolled earlier in the Fabry trials and who received a melphalan conditioning regimen. Side effects, which included nausea, mucositis, fever, rash and hair loss, developed eight to 10 days after dosing with busulfan and then resolved quickly.

The company also reported preliminary data from the first drug product produced using the plato gene therapy platform, which was used to dose the fourth patient in the Phase 2 Fabry trial (FAB-201). Early data indicate that enzyme activity and transduction efficiency for the drug product used to dose the fourth patient were 2.2 times higher than the mean of the drug product used to dose the first three patients in FAB-201. VCN for the drug product used to dose the fourth patient was 1.8 times higher than the mean of the drug product for the first three patients dosed in FAB-201. The drug product for the first three patients in FAB-201 was manufactured using a manual process first developed by AVROBIOs academic collaborators. The automated manufacturing embedded in plato leverages optimized processes developed at AVROBIO.

At one month following administration of the plato-produced investigational gene therapy for the fourth patient in the Phase 2 Fabry trial, initial data show the patients plasma enzyme activity level to be 4.0 times higher than the mean activity level of the first three patients in the Phase 2 Fabry trial at the same timepoint.

The investigational drug product used to dose the first patient in the AVR-RD-04 program for cystinosis, which included a four-plasmid vector but not platos automated manufacturing process, also showed increased performance in line with the increased performance recorded for the drug product in the Fabry trial. The investigational drug product and VCN assay are different for each trial.

We believe these data are an early, but exciting, validation of our decision to invest in technological innovation rather than build expensive bricks-and-mortar manufacturing facilities, said MacKay. The plato platform gives us control over the production and scaling of our investigational gene therapies through an efficient, automated manufacturing system that is designed to be deployed in standard contracted sites around the world. The four-plasmid vector, conditioning regimen with precision dosing and other elements of plato are designed to optimize the safety, potency and durability of our investigational lentiviral gene therapies.

About AVROBIOs ex vivo approach to gene therapyOur investigational ex vivo gene therapies start with the patients own stem cells. In the manufacturing facility, a lentiviral vector is used to insert a therapeutic gene designed to enable the patient to produce a functional supply of the protein they lack. These cells are then infused back into the patient, where they are expected to engraft in the bone marrow and produce generations of daughter cells, each containing the therapeutic gene. This approach is designed to drive durable production of the functional protein throughout the patients body, including hard-to-reach tissues such as the brain, muscle and bone. It is a distinguishing feature of this type of gene therapy that the corrected cells are expected to cross the blood-brain barrier and thereby potentially address symptoms originating in the central nervous system.

Lentiviral vectors are differentiated from other delivery mechanisms because of their large cargo capacity and their ability to integrate the therapeutic gene directly into the patients chromosomes. This integration is designed to maintain the transgenes presence as the patients cells divide, which may improve the expected durability of the therapy and potentially enable dosing of pediatric patients, whose cells divide rapidly as they grow. Because the transgene is integrated ex vivo into patients stem cells, patients are not excluded from receiving the investigational therapy due to pre-existing antibodies to the viral vector.

Analyst and investor event and webcast informationAVROBIO will host an analyst and investor event today, Monday, Feb. 10, 2020, in conjunction with the WORLDSymposiumTM, an annual scientific meeting dedicated to lysosomal disorders, in Orlando, FL. The presentation at the event will be webcast beginning at 7:00 p.m. ET. The webcast and accompanying slides will be available under Events and Presentations in the Investors & Media section of the companys website at http://www.avrobio.com. An archived webcast recording of the event will be available on the website for approximately 30 days.

About AVROBIOOur mission is to free people from a lifetime of genetic disease with a single dose of gene therapy. We aim to halt or reverse disease throughout the body by driving durable expression of functional protein, even in hard-to-reach tissues and organs including the brain, muscle and bone. Our clinical-stage programs include Fabry disease, Gaucher disease and cystinosis and we also are advancing a program in Pompe disease. AVROBIO is powered by the plato gene therapy platform, our foundation designed to scale gene therapy worldwide. We are headquartered in Cambridge, Mass., with an office in Toronto, Ontario. For additional information, visit avrobio.com, and follow us on Twitter and LinkedIn.

Forward-Looking StatementsThis press release contains forward-looking statements, including statements made pursuant to the safe harbor provisions of the Private Securities Litigation Reform Act of 1995. These statements may be identified by words and phrases such as aims, anticipates, believes, could, designed to, estimates, expects, forecasts, goal, intends, may, plans, possible, potential, seeks, will, and variations of these words and phrases or similar expressions that are intended to identify forward-looking statements. These forward-looking statements include, without limitation, statements regarding our business strategy for and the potential therapeutic benefits of our prospective product candidates, the design, commencement, enrollment and timing of ongoing or planned clinical trials, clinical trial results, product approvals and regulatory pathways, and anticipated benefits of our gene therapy platform including potential impact on our commercialization activities, timing and likelihood of success. Any such statements in this press release that are not statements of historical fact may be deemed to be forward-looking statements. Results in preclinical or early-stage clinical trials may not be indicative of results from later stage or larger scale clinical trials and do not ensure regulatory approval. You should not place undue reliance on these statements, or the scientific data presented.

Any forward-looking statements in this press release are based on AVROBIOs current expectations, estimates and projections about our industry as well as managements current beliefs and expectations of future events only as of today and are subject to a number of risks and uncertainties that could cause actual results to differ materially and adversely from those set forth in or implied by such forward-looking statements. These risks and uncertainties include, but are not limited to, the risk that any one or more of AVROBIOs product candidates will not be successfully developed or commercialized, the risk of cessation or delay of any ongoing or planned clinical trials of AVROBIO or our collaborators, the risk that AVROBIO may not successfully recruit or enroll a sufficient number of patients for our clinical trials, the risk that AVROBIO may not realize the intended benefits of our gene therapy platform, including the features of our plato platform, the risk that our product candidates or procedures in connection with the administration thereof will not have the safety or efficacy profile that we anticipate, the risk that prior results, such as signals of safety, activity or durability of effect, observed from preclinical or clinical trials, will not be replicated or will not continue in ongoing or future studies or trials involving AVROBIOs product candidates, the risk that we will be unable to obtain and maintain regulatory approval for our product candidates, the risk that the size and growth potential of the market for our product candidates will not materialize as expected, risks associated with our dependence on third-party suppliers and manufacturers, risks regarding the accuracy of our estimates of expenses and future revenue, risks relating to our capital requirements and needs for additional financing, and risks relating to our ability to obtain and maintain intellectual property protection for our product candidates. For a discussion of these and other risks and uncertainties, and other important factors, any of which could cause AVROBIOs actual results to differ materially and adversely from those contained in the forward-looking statements, see the section entitled Risk Factors in AVROBIOs most recent Quarterly Report on Form 10-Q, as well as discussions of potential risks, uncertainties and other important factors in AVROBIOs subsequent filings with the Securities and Exchange Commission. AVROBIO explicitly disclaims any obligation to update any forward-looking statements except to the extent required by law.

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