Welcome to
Kuredu Medical Clinic and Hyperbaric Centre

Kuredu is home to one of three hyperbaric chambers in the Maldives it serves not only emergencies arising from the local resorts but also liveaboards that pass though the area There are two doctors running the medical center and hyperbaric chamber as well as 13 Prodivers staff that are trained to assist and operate the chamber in the case of a scuba diving related emergency.


Kuredu medical clinic and hyperbaric centre has been operational during the pandemic even when all other hyperbaric chambers were closed.

We are still operational with resident hyperbaric doctor and trained staff to run the chamber operations.

We have two hotline numbers available 24/7 for diving related problems.

7907510 and 7901754

PCR Test Requirement

  1. We need a negative Covid19 PCR test result to accept any person to our island as per the government regulations. We can accept a negative test taken in the last 48 hours.
  2. Unfortunately we can not provide PCR testing on-site so the patient and the accompanying people need to present a negative Covid19 PCR result before stepping on the island.
  3. We also cannot accept any patient with positive PCR test result for treatment. In this case the patient needs to be referred to a hospital.

Decompression Sickness

Decompression sickness (DCS; also known as divers' disease, the bends ) describes a condition arising from dissolved gases coming out of solution into bubbles inside the body on depressurisation. Decompression sickness occurs in the body after scuba diving because of gases in the body releasing as bubbles on depressurisation. When we are living on dry land at sea level, the air around us has a pressure of 14.7 PSI (pounds per square inch), or one atmosphere. That is a “normal pressure” for our bodies. Water is heavy compared to air, it does not take much water to exert a lot of pressure. One-inch by one-inch column of water 33 feet high exerts another 14.7 pounds per square inch than the same column of air. If you hold your breath and dive down 33 feet, your lungs contract in size by a factor of two because there is twice as much pressure around the air in your lungs, making them contract. When you rise back up, the air expands again and your lungs return to normal size. When you breathe from a scuba tank however, the air coming out of the tank has to have the same pressure as the pressure that the water is exerting. Therefore, when scuba diving, the air in your lungs at a 33-foot depth has twice the pressure of air on land and the pressure continues to double as the depth gets deeper. Imagine a carbonated drink, Carbonation in liquid is made through high-pressure gases in the air coming in contact with water and dissolving. When you release the pressure in a bottle of carbonated liquid, the dissolved gas quickly rises as bubbles. If a diver stays under a low depth of water for a certain period of time when diving, some amount of nitrogen from the air will dissolve inside them, much like the gas in carbonated drinks. If they swim to the surface quickly, the dissolves gasses inside their body will react in much the same way as those inside a carbonated drink and come to surface in bubbles. This occurrence in a human body is called decompression sickness and can cause many problems, at very worst it can be fatal to a diver.

What to do when you have DCS

A doctor should always be called for in the case of the DCS, however there are a few things you can do yourself to treat the symptoms of the DCS, until medical help arrives. Dry the diver and warm with blankets if their body temperature shows sings of dropping. Administer fluids to fight off dehydration, but do not give aspirin as it may mask symptoms. If you have access to oxygen, a mask should be applied to the diver as soon as possible. Call both the emergency services and the Divers Alert Network to locate the nearest hyperbaric chamber (100% oxygen delivered in a high-pressure chamber) and to get specialist advice. The diver will need to lie in a horizontal position when transported and in the case of air transport, the cabin must stay below 1,000 feet, or pressurized to sea level pressure. Use high-flow oxygen throughout transportation and up to the point where a hyperbaric chamber is available. The duration of treatment depends on the symptoms, the diver’s history and the type of recompression therapy on hand.

Onset of Decompression Sickness

Although onset of DCS can occur rapidly after a dive, in more than half of all cases symptoms do not begin to appear for at least an hour. In extreme cases, symptoms may occur before the dive has been completed. The U.S. Navy and Technical Diving International, a leading technical diver training organization, have published a table that documents time to onset of first symptoms. The table does not differentiate between types of DCS, or types of symptom.

Onset of symptoms

Time to onset Percentage of cases
within 1 hour 42%
within 3 hours 60%
within 8 hours 83%
within 24 hours 98%
within 48 hours 100%

Most common symptoms

Musculoskeletal Mostly large joints (elbows, shoulders, hip, wrists, knees, ankles)

Localized deep pain, ranging from mild to excruciating. Sometimes a dull ache, but rarely a sharp pain. Active and passive motion of the joint aggravates the pain. The pain may be reduced by bending the joint to find a more comfortable position. If caused by altitude, pain can occur immediately or up to many hours later.

Cutaneous- Skin

Type 1 DCS is usually characterized by musculoskeletal pain and mild cutaneous, or skin, symptoms. Common Type 1 skin manifestations include itching and mild rashes (as distinct from a clear mottled or marbled and sometimes raised discoloration of the skin — a condition that is known as cutis marmorata that may presage the development of the more serious symptoms of Type 2 DCS). Less common but still associated with Type 1 DCS is obstruction of the lymphatic system, which can result in swelling and localized pain in the tissues surrounding the lymph nodes — such as in the armpits, groin or behind the ears.

Cutis Marmorata - Marbled skin

Skin mottling like this is characteristic of cutis marmorata, a condition that can warn of likely development of more serious Type 2 symptoms. Past experience in diving medicine has shown that patients initially presented with only this symptom have a high likelihood of progression to neurological, Type II, DCS without prompt treatment. The marbling does not resolve until few days after treatment, but any pruritus (itching) will likely disappear upon initial recompression.


Altered sensation, tingling or numbness (paresthesia), increased sensitivity (hyperesthesia) Confusion or memory loss (amnesia) Visual abnormalities Unexplained mood or behaviour changes Seizures, unconsciousness

Neurologic-Spinal cord

Ascending weakness or paralysis in the legs Urinary incontinence and fecal incontinence Girdling (also referred to as girdle, banding, or tightening feeling) around the abdominal region and/or chest

Constitutional- Whole body

Headache Unexplained fatigue Generalised malaise, poorly localised aches

Audiovestibular- Inner ear

Loss of balance Dizziness, vertigo, nausea, vomiting Hearing loss

Pulmonary- Lungs

Dry persistent cough Burning chest pain under the sternum, aggravated by breathing Shortness of breath

Can I decrease the risk of DCS?

Following individual factors have been identified as possibly contributing to increased risk of DCS

Contributing factors

  • Dehydration – Studies concluded that decompression sickness could be reduced in aviators when the serum surface tension was raised by drinking isotonic saline, and the high surface tension of water is generally regarded as helpful in controlling bubble size. Maintaining proper hydration is recommended.
  • Patent foramen ovale – a hole between the atrial chambers of the heart in the fetus is normally closed by a flap with the first breaths at birth. In about 20% of adults the flap does not completely seal, however, allowing blood through the hole when coughing or during activities that raise chest pressure. In diving, this can allow venous blood with microbubbles of inert gas to bypass the lungs, where the bubbles would otherwise be filtered out by the lung capillary system, and return directly to the arterial system (including arteries to the brain, spinal cord and heart). In the arterial system, bubbles (arterial gas embolism) are far more dangerous because they block circulation and cause infarction (tissue death, due to local loss of blood flow). In the brain, infarction results in stroke, and in the spinal cord it may result in paralysis.
  • A person's age – there are some reports indicating a higher risk of altitude DCS with increasing age.
  • Previous injury – there is some indication that recent joint or limb injuries may predispose individuals to developing decompression-related bubbles.
  • Ambient temperature – there is some evidence suggesting that individual exposure to very cold ambient temperatures may increase the risk of altitude DCS. Decompression sickness risk can be reduced by increased ambient temperature during decompression following dives in cold water.
  • Body type – typically, a person who has a high body fat content is at greater risk of DCS. This is due to nitrogen's five times greater solubility in fat than in water, leading to greater amounts of total body dissolved nitrogen during time at pressure. Fat represents about 15–25 percent of a healthy adult's body, but stores about half of the total amount of nitrogen (about 1 litre) at normal pressures.

Our team


Dr. Ozgur Kocabas

Dr. Ozgur Kocabas is an experienced family physician and a diving medical officer. He has worked in Turkey, New Zealand and Maldives as a family physician. He is one of the two specialist doctors in our clinic. He had his training about diving medicine in Miami USA from legendary Dick Rutkowski.

He is a PADI AOW diver himself and he loves travelling.

Dr. Isin Ceken Kocabas

Dr. Isin Ceken Kocabas is one of the two specialist doctors in our clinic. She is a dermatologist with great knowledge in general medicine as well as diving medicine. She also had her training about diving medicine in Miami USA from legendary Dick Rutkowski.

She is also an avid diver.

Where are we located?

Our address

GPS: 5°33’0″ N and 73°27’0″ E
Kuredu Island Resort - Lhaviyani Atoll
Republic of Maldives