Texas organization announces inaugural cohort of social enterprise startups with Web3 tech

Dedicated to DWeb

DivInc's newest accelerator based in Houston will support Web3 companies with a social impact. Photos courtesy of DivInc

A Texas-based accelerator focused on helping BIPOC and female founders on their entrepreneurial journeys announced the inaugural class for its newest accelerator.

DivInc's DWeb for Social Impact Accelerator, a 12-week intensive hybrid program sponsored by Filecoin Foundation for the Decentralized Web, will mentor nine companies, all of whom integrate Web3 technologies into their impact entrepreneurship. Participating startups will have access to the Ion’s resources and receive a non-dilutive $10,000 grant to use during the course of the program.

Cherise Luter, marketing director at DivInc, says the Austin-based development program instead chose Houston to host this inaugural cohort because they have a secure partnership with the Ion and other premiere partners in the area, including Mercury, JP Morgan, and Bank of America.

“The team that we already have in place in Houston is so strong, we thought, this would be a great place to launch this concept and then from there determine if we want to launch it in Austin,” Luter says.

Amanda Moya, director of programs for DivInc, says this accelerator will truly be hybrid, enabling entrepreneurs from around the country to benefit from quality virtual mentorship and four weeks of in-person training.

“We want to really engulf them in the Houston innovation ecosystem, to let them know that this is also a landing pad if they are ever to move or travel around and come back to Houston,” Moya mentions.

One Houston-based startup, CultureLancer, will be participating in the program. A career-focused platform that matches students from HBCU with companies looking to hire in the fields of business development, data analysis, marketing, and operations, CultureLancer provides students with project-based learning opportunities.

Brianna Brazle, CultureLancer founder and therapist, says after discussing with friends and family members their struggles to get hired post-graduation she uncovered an underserved market of people in need of career guidance.

“That’s a problem that has been existing and then after doing more research I learned historically about 56%, year over year, of college graduates find themselves unemployed or underemployed,” Brazle explains. “My first solution to this problem was a hybrid marketplace.”

The rest of the inaugural cohort includes one to two entrepreneurs from the following companies:

  • Craftmerce, based in Dallas, is a B2B technology platform that brings African artisans and mainstream retail partners together through distributed production, enterprise management, and financing tools.
  • Instarails is working to simplify cross border payments through their API which provides the option to make instant global payments regardless of currency.
  • Looks for Lease, a Los Angeles based wardrobe rental company is combating the carbon emissions brought on by the fashion industry through their circular consumerism business model which operates on an AR platform.
  • Motherocity is an app that allows postpartum moms to track their mental and physical health through personal insights, experiential data, data science, and artificial intelligence, all the way through the first year after giving birth.
  • Salubata combines sustainable fashion and tech through their shoes made from old plastic bottles and integrating an NFT component that allows access to new shoe designs for customers.
  • Seed At The Table is a crowdfunding platform connecting marginalized founders with non-accredited investors, founded by a former Goldman Sachs investment manager.
  • Tribe is a mental health mobile app aiming to make mental healthcare affordable and accessible to black people through their directory of black therapists whose patients can directly book appointments within the app.
  • Subler, which was founded by a Los Angeles high school board member, is a digital marketplace that allows schools to rent out their unused spaces to local community groups.

The program will run from Sept. 18 until their demonstration day which is scheduled for Dec. 7 at the Ion.

DivInc, which runs several accelerators across Texas, originally partnered with the Ion in 2020. The organization introduced its new DWeb program earlier this year.

Last month, DivInc also introduced its inaugural cohort to another new diversity-focused accelerator. The 2023 Clean Energy Tech accelerator program sponsored by Chevron and Microsoft is currently ongoing.

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Rice, Houston Methodist developing soft 'sleep cap' for brain health research

Researchers and scientists at Rice University and Houston Methodist are developing a “sleep cap” that aims to protect the brain against dementia and other similar diseases by measuring and improving deep sleep.

The project is a collaboration between Rice University engineering professors Daniel Preston, Vanessa Sanchez and Behnaam Aazhang; and Houston Methodist neurologist Dr. Timea Hodics and Dr. Gavin Britz, director of the Houston Methodist Neurological Institute and chairman of the Department of Neurosurgery.

According to Rice, deep sleep is essential for clearing waste products from the brain and nightly “cleaning cycles” help remove toxic proteins. These toxic proteins, like amyloids, can accumulate during the day and are linked to Alzheimer’s disease and other neurological issues.

Aazhang, director of the Rice Neuroengineering Initiative, and his team are building a system that not only tracks the brain’s clearing process but can also stimulate it, improving natural mechanisms that protect against neurodegeneration.

Earlier proof-of-concept versions of the caps successfully demonstrated the promise of this approach; however, they were rigid and uncomfortable for sleep.

Preston and Sanchez will work to transform the design of the cap into a soft, lightweight, textile-based version to make sleep easier, while also allowing the caps to be customizable and tailored for each patient.

“One of the areas of expertise we have here at Rice is designing wearable devices from soft and flexible materials,” Preston, an assistant professor of mechanical engineering, said in a news release. “We’ve already shown this concept works in rigid device prototypes. Now we’re building a soft, breathable cap that people can comfortably wear while they sleep.”

Additionally, the research team is pursuing ways to adapt their technology to measure neuroinflammation and stimulate the brain’s natural plasticity. Neuroinflammation, or swelling in the brain, can be caused by injury, stroke, disease or lifestyle factors and is increasingly recognized as a driver of neurodegeneration, according to Rice.

“Our brain has an incredible ability to rewire itself,” Aazhang added in the release. “If we can harness that through technology, we can open new doors for treating not just dementia but also traumatic brain injury, stroke, Parkinson’s disease and more.”

The project represents Rice’s broader commitment to brain health research and its support for the Dementia Prevention Research Institute of Texas (DPRIT), which passed voter approval last week. The university also recently launched its Rice Brain Institute.

As part of the project, Houston Methodist will provide access to clinicians and patients for early trials, which include studies on patients who have suffered traumatic brain injury and stroke.

“We have entered an era in neuroscience that will result in transformational cures in diseases of the brain and spinal cord,” Britz said in the release. “DPRIT could make Texas the hub of these discoveries.”

Autonomous truck company with Houston routes goes public

on a roll

Kodiak Robotics, a provider of AI-powered autonomous vehicle technology, has gone public through a SPAC merger and has rebranded as Kodiak AI. The company operates trucking routes to and from Houston, which has served as a launchpad for the business.

Privately held Kodiak, founded in 2018, merged with a special purpose acquisition company — publicly held Ares Acquisition Corp. II — to form Kodiak AI, whose stock now trades on the Nasdaq market.

In September, Mountain View, California-based Kodiak and New York City-based Ares disclosed a $145 million PIPE (private investment in public equity) investment from institutional investors to support the business combo. Since announcing the SPAC deal, more than $220 million has been raised for the new Kodiak.

“We believe these additional investments underscore our investors’ confidence in the value proposition of Kodiak’s safe and commercially deployed autonomous technology,” Don Burnette, founder and CEO of Kodiak, said in a news release.

“We look forward to leading the advancement of the commercial trucking and public sector industries,” he added, “and delivering on the exciting value creation opportunities ahead to the benefit of customers and shareholders.”

Last December, Kodiak debuted a facility near George Bush Intercontinental/Houston Airport for loading and loading driverless trucks. Transportation and logistics company Ryder operates the “truckport” for Ryder.

The facility serves freight routes to and from Houston, Dallas and Oklahoma City. Kodiak’s trucks currently operate with or without drivers. Kodiak’s inaugural route launched in 2024 between Houston and Dallas.

One of the companies using Kodiak’s technology is Austin-based Atlas Energy Solutions, which owns and operates four driverless trucks equipped with Kodiak’s driver-as-a-service technology. The trucks pick up fracking sand from Atlas’ Dune Express, a 42-mile conveyor system that carries sand from Atlas’ mine to sites near customers’ oil wells in the Permian Basin.

Altogether, Atlas has ordered 100 trucks that will run on Kodiak’s autonomous technology in an effort to automate Atlas’ supply chain.

Rice University scientists invent new algorithm to fight Alzheimer's

A Seismic Breakthrough

A new breakthrough from researchers at Rice University could unlock the genetic components that determine several human diseases such as Parkinson's and Alzheimer's.

Alzheimer's disease affected 57 million people worldwide in 2021, and cases in the United States are expected to double in the next couple of decades. Despite its prevalence and widespread attention of the condition, the full mechanisms are still poorly understood. One hurdle has been identifying which brain cells are linked to the disease.

For years, it was thought that the cells most linked with Alzheimer's pathology via DNA evidence were microglia, infection-fighting cells in the brain. However, this did not match with actual studies of Alzheimer's patients' brains. It's the memory-making cells in the human brain that are implicated in the pathology.

To prove this link, researchers at Rice, alongside Boston University, developed a computational algorithm called “Single-cell Expression Integration System for Mapping Genetically Implicated Cell Types," or SEISMIC. It allows researchers to zero in on specific neurons linked to Alzheimer's, the first of its kind. Qiliang Lai, a Rice doctoral student and the lead author of a paper on the discovery published in Nature Communications, believes that this is an important step in the fight against Alzheimer's.

“As we age, some brain cells naturally slow down, but in dementia — a memory-loss disease — specific brain cells actually die and can’t be replaced,” said Lai. “The fact that it is memory-making brain cells dying and not infection-fighting brain cells raises this confusing puzzle where DNA evidence and brain evidence don’t match up.”

Studying Alzheimer's has been hampered by the limitations of computational analysis. Genome-wide association studies (GWAS) and single-cell RNA sequencing (scRNA-seq) map small differences in the DNA of Alzheimer's patients. The genetic signal in these studies would often over-emphasize the presence of infection fighting cells, essentially making the activity of those cells too "loud" statistically to identify other factors. Combined with greater specificity in brain regional activity, SEISMIC reduces the data chatter to grant a clearer picture of the genetic component of Alzheimer's.

“We built our SEISMIC algorithm to analyze genetic information and match it precisely to specific types of brain cells,” Lai said. “This enables us to create a more detailed picture of which cell types are affected by which genetic programs.”

Though the algorithm is not in and of itself likely to lead to a cure or treatment for Alzheimer's any time soon, the researchers say that SEISMIC is already performing significantly better than existing tools at identifying important disease-relevant cellular signals more clearly.

“We think this work could help reconcile some contradicting patterns in the data pertaining to Alzheimer’s research,” said Vicky Yao, assistant professor of computer science and a member of the Ken Kennedy Institute at Rice. “Beyond that, the method will likely be broadly valuable to help us better understand which cell types are relevant in different complex diseases.”

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This article originally appeared on CultureMap.com.

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