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Wednesday, June 22, 2022

US importing baby formula from Mexico

 The Biden administration announced Wednesday that it is providing logistical support to import the equivalent of about 16 million 8-ounce baby formula bottles from Mexico starting this weekend, as part of its efforts to ease nationwide supply shortages caused by the closure of the largest U.S. manufacturing plant.

The Department of Health and Human Services is expediting the travel of trucks that will drive about 1 million pounds of Gerber Good Start Gentle infant formula from a Nestlé plant to U.S. retailers, the White House said, nearly doubling the amount imported to the U.S. to date. Cargo flights from Europe and Australia already have brought baby formula into the U.S., including two new rounds of air shipments that begin this weekend.

The White House has been working to make supply more available as it has faced pressure from parents over supply issues after regulators in February shuttered a Michigan plant run by Abbott that is the largest domestic manufacturer of baby formula over safety concerns. The plant reopened on June 4 after the company committed to additional sanitizing and safety protocols, but shuttered again more than a week ago after severe weather caused damage to the plant.

The company said it needs time to assess damage and re-sanitize the factory after severe thunderstorms and heavy rains swept through southwestern Michigan on June 13.

Last month, the Food and Drug Administration moved to ease federal import regulations to allow baby formula to be shipped to the U.S., and Biden authorized the use of the Defense Production Act to provide federal support to move formula from overseas into the U.S.

Wednesday's announcement also includes air shipments of 1.65 million 8-ounce bottle equivalents of Nestlé NAN Supremepro 2 infant formula from Germany to Texas this weekend, and 5.5 million 8-ounce bottle equivalents of Bubs infant formula in two shipments on June 26 and July 5.

The White House says that by June 26, it efforts, dubbed “Operation Fly Formula," will have brought 32 flights and almost 19 million 8-ounce bottle equivalents of infant formula into the U.S.

https://abcnews.go.com/Politics/wireStory/us-importing-baby-formula-mexico-ease-shortage-85557134

Repurposed drug inhibits enzyme related to COVID-19

 With the end of the pandemic seemingly nowhere in sight, scientists are still very focused on finding new or alternative drugs to treat and stop the spread of COVID-19. In a first-of-its-kind study, researchers at the University of New Hampshire have found that using an already existing drug compound in a new way, known as drug repurposing, could be successful in blocking the activity of a key enzyme of the coronavirus, or SARS-CoV-2, which causes COVID-19.

“The goal was to slow or prevent the spread of the virus by using a strategic therapeutic that could possibly disrupt key steps in the viral life cycle at the molecular level, like the first contact with a healthy cell or the first step in replicating within an infected cell,” said Harish Vashisth, associate professor of chemical engineering.

In their study, recently published in the journal PROTEINS: Structure, Function, and Bioinformatics, researchers set out to target a key enzyme responsible for COVID-19, called the main protease enzyme Mpro, which has become a primary target of intense research and therapeutic development because it is essential for the virus to replicate. In this case, they explored the inhibiting properties of a derivative of the potent chemical compound known as Thiadiazolidinones, or TDZD, which are already being studied as a potential treatment for neurological disorders like Parkinson’s Disease. Researchers used a specific TDZD compound, known as CCG-50014, to target Mpro which acts like a molecular scissor by cutting up long chains of polypeptide proteins of the virus into smaller component proteins. These smaller segments can fold and mature to form new virus particles. Using molecular dynamics simulations combined with laboratory experiments, the researchers determined that TDZD compound was able to inhibit the Mpro enzyme.

“Coronaviruses, like COVID-19, are a notorious group of infectious agents that include a large class of viruses with RNA genomes, similar to the human DNA genome, that depend on well-organized protein structures crucial for viral growth and replication,” said Vashisth. “These viruses can develop rapid defenses at the cellular level by orchestrating these layers, or folding mechanisms, in viral proteins so the key is to find a way to shut them down.”

RNA viruses are known for causing seasonal epidemics, like influenza, and can appear as novel virus strains with high fatality rates (COVID-19, SARS, Zika and Ebola). Researchers say the need for an alternative drug development pipeline, instead of the intensive process of introducing new drugs to market, is illustrated by the high infection rate of COVID-19 (compared to previous coronaviruses) and is important for a long-term effective response to new and reoccurring outbreaks.

This research was supported by grants from the National Institutes of Health under award numbers R35GM138217, P20GM113131, and the National Science Foundation under award number OIA-1757371. The content is solely the responsibility of the authors and does not necessarily represent the official views of the funders.

The University of New Hampshire inspires innovation and transforms lives in our state, nation and world. More than 16,000 students from all 50 states and 71 countries engage with an award-winning faculty in top-ranked programs in business, engineering, law, health and human services, liberal arts and the sciences across more than 200 programs of study. A Carnegie Classification R1 institution, UNH partners with NASA, NOAA, NSF and NIH, and received $260 million in competitive external funding in FY21 to further explore and define the frontiers of land, sea and space.

New treatment option shows promise in clearing HPV infection

 Daily use of a mushroom extract supported the immune system in clearing human papillomavirus (HPV) infections, according to researchers with UTHealth Houston. The study was published today in Frontiers in Oncology.

The randomized, double-blind, placebo-controlled Phase II study was supported by a grant from the National Institutes of Health (1R03CA212935).

“Our results show that AHCC® supplementation may help most patients eliminate their HPV infection and may decrease the long-term risk of HPV-related cancers,” said Judith A. Smith, PharmD, lead researcher on the study and professor in the Department of Obstetrics, Gynecology and Reproductive Sciences at McGovern Medical School at UTHealth Houston. “Through this study, as well as multiple other studies, our research has shown that the AHCC supplement is safe.”  

AHCC (active hexose correlated compound) is a proprietary mushroom extract.

The study focused on women with a minimum two-year history of persistent high-risk HPV. Patients in the treatment group received the supplement AHCC for six months, followed by six months of a placebo. Patients in the placebo group received a placebo for 12 months. The study found that 14 of 22 patients (63.6%) in the treatment arm became HPV-negative.

HPV is the most common sexually transmitted infection in the United States. According to the Centers for Disease Control and Prevention, there were about 43 million HPV infections in 2018, many among people in their late teens and early 20s. HPV infections can cause health problems, including genital warts and cancers. However, HPV vaccines can help eliminate infection and side effects.

“We have no other effective treatment for persistent HPV infections other than watchful waiting. While AHCC supplementation may not help everyone, it is readily available today for patients to ask their clinicians about using to support their immune system in clearing persistent HPV infections,” Smith said.

Additional UTHealth Houston authors include Joseph A. Lucci III, MD; Yu Bai, MD; Anjali A. Gaikwad; Lata Mathew; Barbara Rech; and Teresa T. Byrd, MD, now with WellStar Kennestone Regional Medical Center. Other authors include Jonathan P. Faro, MD, with Specialists in Obstetrics and Gynecology, and Randall J. Olsen, MD, with Houston Methodist.

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Breast duct treatment for early breast cancer eliminates all signs of disease in lab

 Delivering a targeted immunotoxin into breast ducts via openings in the nipple wiped out all visible and invisible precancerous lesions in laboratory studies, led by researchers at the Johns Hopkins Kimmel Cancer Center, of very early stage breast cancers.

A description of the work performed on mice, which the authors say provides a strong pre-clinical foundation for conducting feasibility and safety trials with patients who have stage 0 breast cancers, is published in the June 8 issue of the Proceedings of the National Academy of Sciences.

Stage 0 breast cancer, also known as ductal carcinoma in situ (DCIS), is characterized as the presence of abnormal, precancerous cells inside milk ducts in the breast, and it affects about 69,000 women each year in the United States. Many women have breast removal surgery and radiation treatments for these very early cancers, and in some cases, they receive chemotherapy or hormone therapies, says senior study author Saraswati Sukumar, Ph.D., a Johns Hopkins professor of oncology and pathology.

“In our research, we proposed an alternative treatment in which injecting the immunotoxin drug through the duct could result in cleaning out the DCIS,” says Sukumar. “To our big surprise, the drugs killed every single lesion present in that breast duct. I had never seen such dramatic results in my life.”

During their investigations, the researchers first assessed the cell-killing effects of HB21(Fv)-PE40, a targeted immunotoxin, in four cell lines of different molecular subtypes of breast cancer. The toxin consists of HB21, a monoclonal antibody — a protein that can bind to a specific target (in this case, to the human transferrin receptor, a carrier protein found in breast cancers). HB21 is fused to PE40, a fragment of a bacterial toxin that halts protein production in the cells and leads to cell death. Results showed that the treatment induced strong cancer-killing effects in all cell lines. The researchers also administered the treatment to about 10 mice to look for toxins circulating in the blood after treatment, and found no toxins five to 30 minutes after injection.

Next, they injected HB21(Fv)-PE40 into the breast ducts of two mouse models of DCIS: MCF7 and SUM225. In MCF7 mice, the treatment was given once per week for three weeks. Treatments were followed up with noninvasive imaging. To compare, they also administered the treatment into the body and delivered the HB21 antibody alone into the ducts in some of the mice. The two models represented all of the classifications for common types of human breast cancers: estrogen and progesterone receptor-positive and human epidermal growth factor receptor 2 (HER2) negative, estrogen and progesterone receptor-negative and HER2-positive.

In the MCF7 model, those receiving toxin treatment injections in the body had slower tumor growth. However, tumors recurred after cessation of treatment around day 26. On the other hand, in the model that received the treatment through the ducts, the tumors disappeared within two weeks of completing two of the three treatments, and no recurrence was detected via imaging even after 61 days.

On day 32, investigators conducted pathology exams of the mammary glands — two from each group. They found tumor cells were absent, and the architecture was consistent with normal mammary glands. Similar analysis of the remaining samples after 61 days showed invasive tumors in the model receiving only HB21, small tumors in those treated in the body cavity and no tumors in those receiving the toxin treatment through the ducts.

In the SUM225 model, a pilot experiment with the toxin treatment showed clearance of tumors in as early as two weeks of treatment, as seen via imaging. No recurrence was observed until the experiment was terminated at day 48. A second experiment tested the same dose and a 1/10th dose of the treatment, as well as HB21 antibody alone, in some samples. The majority of the mammary glands were tumor-free after the full intraductal treatment, with weaker effects seen with the lower dose. SUM225 tumors were found to grow aggressively at the in-duct location. Pathology studies demonstrated that HB21 antibody alone had little effect, while the immunotoxin conjugate treatment showed a significant effect on tumor reduction.

The treatment was well tolerated, with no side effects from the toxin or injection.

Since most low-grade DCIS will not progress, active surveillance and hormone therapy are recommended, with larger lesions often treated more aggressively, Sukumar says. “This larger and higher-grade DCIS may be the lesions where instilling immunotoxin intraductally would be most beneficial,” she says. The big advantage is that giving the immunotoxin through the intraductal route allows it to reach all the cancer lesions in the ductal tree, eliminating even those that are not visible by imaging of the breast.

“A possible clinical study would look something like this,” Sukumar says. “A week or two before surgery, investigators may administer women a low dose of HB21(Fv)-PE40 through a single duct, and slowly use increasing doses to determine if any immunotoxin escapes the ducts into the bloodstream and affects liver function. They also would examine the ducts after breast removal to look for changes in the tissue and its effect on precancerous lesions.

Study co-authors were Guannan Wang, Alok Kumar, Preethi Korangath, Priya Pai and Kathleen Gabrielson of Johns Hopkins, Wanjun Ding of RenMin Hospital of Wuhan University, China, and Tapan Bera, Junxia Wei and Ira Pastan of the National Cancer Institute.

The work was supported by the Janine Goebel Fund and the John Fetting Fund for Breast Cancer Prevention.

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Rockwell Med updates on financials, clinical programs

  Rockwell Medical, Inc. (Nasdaq: RMTI), a biopharmaceutical company dedicated to transforming the treatment of iron deficiency and anemia management and improving outcomes for patients, today provided an update on its recent capital raise and a clinical update on safety enhancements to its planned Phase 2 clinical trial of Ferric Pyrophosphate Citrate (FPC) in home infusion patients.

On June 16, 2022 Rockwell Medical closed the second $7.5 million tranche of the previously announced DaVita, Inc (NYSE:DVA) stock purchase agreement under which DaVita agreed to purchase up to $15 million in convertible preferred stock in two tranches. This investment, in addition to the recently announced $15 million financing, brings the total gross amount raised by Rockwell this quarter to $30 million.  There were no commissions paid on either investment.

"This capital, when combined with the initiatives we completed earlier this year, will extend our cash runway meaningfully, during which time we will continue advancing our Ferric Pyrophosphate Citrate (FPC) development programs and improving our dialysis business," said Russell Skibsted, Executive Vice President, CFO and CBO. "We plan to restructure and grow our dialysis business to generate improved gross margins and cash flow. On the development side, with the rapidly growing trend toward medical care at home, we are preparing to conduct our Phase 2 clinical trial of FPC in home infusion patients, a population with a significant unmet burden from iron deficiency anemia, pending submission of additional CMC microbial data in support of FDA clearance to begin this trial."

Due to the fact that the eventual commercial presentation of FPC) for the treatment of iron deficiency anemia and maintenance of hemoglobin in patients receiving infusion therapy in the home setting, a single dose sterile unit, is still in development, the planned Phase 2 proof of concept study design requires that three units of the existing FDA-approved IV product be compounded into a single unit for each patient dose.  Because of this necessary step, the U.S. Food and Drug Administration (FDA) requested that Rockwell perform a microbial challenge study, a standard study testing the potential for microbial growth. Successful completion of this study will add an additional layer of safety for clinical trial patients.

"We are pleased to provide the FDA with the additional data requested and fully support the generation of any data that will further assure the safety of the patients that will participate in our study," said Marc Hoffman, M.D., Chief Medical Officer of Rockwell Medical. "We continue to make progress toward clearance of our IND. We believe the requested microbial challenge study will have minimal impact on our proposed Phase 2 program timeline or cost as the tests will be conducted in parallel with the clinical study start-up activities."

https://finance.yahoo.com/news/rockwell-medical-provides-corporate-clinical-200200287.html

Introduce Allergens Early, Say French Allergologists

 Although in many cases, food-allergen tolerance can be achieved with oral immunotherapy, primary prevention of food allergies remains crucial, according to the French Society of Allergology. In new recommendations that were presented at a session of the Congress of French Pediatric Societies, the academic society advocated early introduction of allergens for all children, starting at 4 months of age.

The latest prevention data from two major studies, LEAP and EAT (see box), have prompted European and French experts to rethink their stance on food diversification. The new French proposals were recently published under the coordination of Dominique Sabouraud-Leclerc, MD, Pediatrics Department, Reims University Hospital, France, on behalf of the Food Allergy Working Group of the French Society of Allergology.

For all newborns, regardless of whether they have a history of atopic or nonatopic dermatitis, food diversification is now recommended from 4 months of age instead of 6 months, as was previously recommended. If the child does not develop atopic dermatitis or develops only a mild form, peanuts, eggs, and nuts may be introduced at home.

However, if the child experiences severe atopic dermatitis, an allergy testing panel for peanuts, nuts, eggs, and cow's milk proteins should be performed. An oral food challenge may be conducted at the allergist's discretion.

Regarding peanuts, the working group proposed introducing a purée in the form of either a mixture of peanuts/hazelnuts/cashew nuts (1 level teaspoon five times a week; 2 g of protein/food/week) or a 100% peanut paste (1 scant teaspoon four times a week; 2 g of peanut protein/week). If the family is worried, the allergist can suggest monitoring the child in the clinic waiting room for 30 minutes after the first dose.

"We shouldn't delay the introduction of the primary allergens anymore, regardless of whether children are at risk for a food allergy, and particularly a peanut allergy," explained Stéphanie Lejeune, MD, pediatric pulmonologist and allergist at Lille Regional University Hospital, who presented these new findings at the congress. "In fact, if we only target at-risk children, we overlook children with no family history who will nevertheless develop food allergies. The idea is to introduce everything, especially peanuts, between 4 and 6 months of age and to no longer do so gradually, one food after another, as was being done until now, beginning at 6 months and over. We must give priority to regularity over quantity."

Although this approach is based on clinical trials, no real-life data are currently available.

LEAP and EAT Studies Support Early Introduction of Peanuts

A study from 2021 summed up the risk factors for peanut allergy. Sixty-one percent of infants (4–11 months) had atopic dermatitis, 18% had a food allergy, 62% had a first-degree relative with a peanut allergy, and 11% had a confirmed peanut allergy. The risk of peanut allergy increased with age and severe eczema.

In 2015, the LEAP study, which was conducted in the United Kingdom with 640 infants aged 4–11 months who had risk factors for peanut allergy, revolutionized peanut-allergy primary prevention. Regardless of whether the children were sensitized or not, the number of children who developed a peanut allergy was systematically lower in the group that ingested the allergen in comparison with the "avoidance" group.

Additionally, the LEAP-ON study showed that protection against peanut allergy persisted for 12 months after cessation of consumption between ages 5 and 6 years among children who had consumed peanuts previously.

Early diversification in the general population was investigated in the EAT study, which involved 1303 breastfed infants. Of these infants, 24% had atopic dermatitis (median SCORAD score, 7.5). They were divided into two arms: avoidance and breast feeding until 6 months (standard introduction) or early introduction at 3 months (boiled egg, milk, peanuts, sesame, white fish, wheat, 2 g of protein twice a week). In the per protocol analysis, there were 13 cases of peanut allergy in the standard introduction group; there were no cases in the early introduction group.


https://www.medscape.com/viewarticle/976029